From a43f63d97d52f35862f30d40753e6107ed20678d Mon Sep 17 00:00:00 2001 From: Carolina Gonzalez-Cavazos <69015275+Carolina1396@users.noreply.github.com> Date: Mon, 25 Jul 2022 18:49:45 -0700 Subject: [PATCH 1/5] Add files via upload --- 1_code/1_basic_dmdb_analysis.ipynb | 6840 ++++++++++++++++++++++++---- 1 file changed, 5904 insertions(+), 936 deletions(-) diff --git a/1_code/1_basic_dmdb_analysis.ipynb b/1_code/1_basic_dmdb_analysis.ipynb index b4f6ac1..58c2210 100644 --- a/1_code/1_basic_dmdb_analysis.ipynb +++ b/1_code/1_basic_dmdb_analysis.ipynb @@ -16,7 +16,7 @@ "name": "stderr", "output_type": "stream", "text": [ - "/home/asu/env/DMDB_analysis/lib/python3.8/site-packages/data_tools/df_processing.py:4: TqdmExperimentalWarning: Using `tqdm.autonotebook.tqdm` in notebook mode. Use `tqdm.tqdm` instead to force console mode (e.g. in jupyter console)\n", + "/home/agonzalez/data_tools/data_tools/df_processing.py:4: TqdmExperimentalWarning: Using `tqdm.autonotebook.tqdm` in notebook mode. Use `tqdm.tqdm` instead to force console mode (e.g. in jupyter console)\n", " from tqdm.autonotebook import tqdm\n" ] } @@ -33,9 +33,17 @@ "\n", "import seaborn as sns\n", "import matplotlib.pyplot as plt\n", + "import numpy as np\n", + "\n", + "#Import data_tools module \n", + "import sys\n", + "sys.path.insert(0, '/home/agonzalez/data_tools/')\n", + "\n", "from data_tools.files import download\n", - "from path_plots.dmdb_plots import plot_path\n", - "from data_tools.plotting import count_plot_h, venn2_pretty, venn3_pretty" + "#from path_plots.dmdb_plots import plot_path\n", + "from data_tools.plotting import count_plot_h, venn2_pretty, venn3_pretty\n", + "\n", + "from pySankey.sankey import sankey\n" ] }, { @@ -155,7 +163,6 @@ "- Shortest path\n", "- Number of nodes\n", "- Number of edges\n", - "\n", "- most common metaedge\n", "- most common pairing\n", "- most common node\n", @@ -163,9 +170,5231 @@ "- First edge type" ] }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Lets get metapaths (only include nodes)" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "{'directed': True, 'graph': {'_id': 'DB00619_MESH_D015464_1', 'disease': 'CML (ph+)', 'disease_mesh': 'MESH:D015464', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P00519'}, {'key': 'causes', 'source': 'UniProt:P00519', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P00519', 'label': 'Protein', 'name': 'BCR/ABL'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'CML (ph+)'}]}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00619_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'c-Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Pdgf'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cellular proliferation'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00316_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'acetaminophen', 'drug_mesh': 'MESH:D000082', 'drugbank': 'DB:DB00316'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000082', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D000082', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'MESH:D000082', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'affects risk for', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D010146'}, {'key': 'causes', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000082', 'label': 'Drug', 'name': 'acetaminophen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cox-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'cycloxygenaze pathways'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00316_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'acetaminophen', 'drug_mesh': 'MESH:D000082', 'drugbank': 'DB:DB00316'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000082', 'target': 'REACT:R-HSA-2162123'}, {'key': 'occurs in', 'source': 'REACT:R-HSA-2162123', 'target': 'UBERON:0000955'}, {'key': 'location of', 'source': 'UBERON:0000955', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000082', 'label': 'Drug', 'name': 'acetaminophen'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'cycloxygenaze pathways'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature Homeostasis'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}]}\n", + "['Drug', 'Pathway', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00945_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'causes', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cox-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00945_MESH_D013927_1', 'disease': 'Thrombosis', 'disease_mesh': 'MESH:D013927', 'drug': 'acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'GO:0007596'}, {'key': 'has output', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D013928'}, {'key': 'participates in', 'source': 'MESH:D013928', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D013927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'COX'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins and Thromboxanes'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Platelet Activiation / Blood Coagulation'}, {'id': 'MESH:D013927', 'label': 'Disease', 'name': 'Thrombosis'}]}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00788_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'naproxen', 'drug_mesh': 'MESH:D009288', 'drugbank': 'DB:DB00788'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009288', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009288', 'label': 'Drug', 'name': 'naproxen'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01059_MESH_D004405_1', 'disease': 'Shigellosis', 'disease_mesh': 'MESH:D004405', 'drug': 'norfloxacin', 'drug_mesh': 'MESH:D009643', 'drugbank': 'DB:DB01059'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009643', 'target': 'UniProt:P43702'}, {'key': 'negatively regulates', 'source': 'MESH:D009643', 'target': 'GO:0003746'}, {'key': 'participates in', 'source': 'UniProt:P43702', 'target': 'GO:0006260'}, {'key': 'precedes', 'source': 'GO:0003746', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:622'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:622'}, {'key': 'causes', 'source': 'NCBITaxon:622', 'target': 'MESH:D004405'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009643', 'label': 'Drug', 'name': 'norfloxacin'}, {'id': 'UniProt:P43702', 'label': 'Protein', 'name': 'topoisomerases II, IV'}, {'id': 'GO:0003746', 'label': 'MolecularActivity', 'name': 'Translocation of EF-G'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Protein Synthesis'}, {'id': 'NCBITaxon:622', 'label': 'OrganismTaxon', 'name': 'Shigella dysenteriae'}, {'id': 'MESH:D004405', 'label': 'Disease', 'name': 'Shigellosis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01380_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'cortisone acetate', 'drug_mesh': 'MESH:D003348', 'drugbank': 'DB:DB01380'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003348', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'MESH:D003348', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'MESH:D003348', 'target': 'UniProt:P23219'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P23219'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003348', 'label': 'Drug', 'name': 'cortisone acetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'COX Genes'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'lipocortin-1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'Immune Cell Funciton'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01610_MESH_D003586_1', 'disease': 'CMV infection', 'disease_mesh': 'MESH:D003586', 'drug': 'valganciclovir', 'drug_mesh': 'MESH:D000077562', 'drugbank': 'DB:DB01610'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000077562', 'target': 'MESH:D015774'}, {'key': 'negatively regulates', 'source': 'MESH:D015774', 'target': 'GO:0039693'}, {'key': 'occurs in', 'source': 'GO:0039693', 'target': 'NCBITaxon:10358'}, {'key': 'causes', 'source': 'NCBITaxon:10358', 'target': 'MESH:D003586'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077562', 'label': 'Drug', 'name': 'valganciclovir'}, {'id': 'MESH:D015774', 'label': 'ChemicalSubstance', 'name': 'ganciclovir'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA replication'}, {'id': 'NCBITaxon:10358', 'label': 'OrganismTaxon', 'name': 'Cytomegalovirus'}, {'id': 'MESH:D003586', 'label': 'Disease', 'name': 'CMV infection'}]}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00916_MESH_D018805_1', 'disease': 'Bacterial septicemia', 'disease_mesh': 'MESH:D018805', 'drug': 'metronidazole', 'drug_mesh': 'MESH:D008795', 'drugbank': 'DB:DB00916'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D008795', 'target': 'MESH:C029371'}, {'key': 'negatively regulates', 'source': 'MESH:C029371', 'target': 'GO:0003676'}, {'key': 'occurs in', 'source': 'GO:0003676', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018805'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008795', 'label': 'Drug', 'name': 'metronidazole'}, {'id': 'MESH:C029371', 'label': 'ChemicalSubstance', 'name': 'hydroxyethyl oxamic acid'}, {'id': 'GO:0003676', 'label': 'BiologicalProcess', 'name': 'bacterial Nucleic Acid synthesis'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018805', 'label': 'Disease', 'name': 'Bacterial septicemia'}]}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00618_MESH_D000073605_1', 'disease': 'Rickettsialpox', 'disease_mesh': 'MESH:D000073605', 'drug': 'demeclocycline', 'drug_mesh': 'MESH:D003707', 'drugbank': 'DB:DB00618'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003707', 'target': 'UniProt:P0A7S3'}, {'key': 'decreases activity of', 'source': 'MESH:D003707', 'target': 'UniProt:P0A7J3'}, {'key': 'participates in', 'source': 'UniProt:P0A7S3', 'target': 'GO:0006412'}, {'key': 'participates in', 'source': 'UniProt:P0A7J3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:786'}, {'key': 'causes', 'source': 'NCBITaxon:786', 'target': 'MESH:D000073605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003707', 'label': 'Drug', 'name': 'demeclocycline'}, {'id': 'UniProt:P0A7S3', 'label': 'Protein', 'name': '30S Ribosomal Subunit'}, {'id': 'UniProt:P0A7J3', 'label': 'Protein', 'name': '50S Ribosomal Subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:786', 'label': 'OrganismTaxon', 'name': 'Rickettsia akari'}, {'id': 'MESH:D000073605', 'label': 'Disease', 'name': 'Rickettsialpox'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D014069_1', 'disease': 'Streptococcal tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'amoxicillin'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding proteins 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan Biosyntheic Process'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Streptococcal tonsillitis'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09335_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'alatrofloxacin', 'drug_mesh': 'MESH:C106856', 'drugbank': 'DB:DB09335'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C106856', 'target': 'UniProt:P0C1U9'}, {'key': 'decreases activity of', 'source': 'MESH:C106856', 'target': 'UniProt:P20831'}, {'key': 'participates in', 'source': 'UniProt:P0C1U9', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P20831', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106856', 'label': 'Drug', 'name': 'alatrofloxacin'}, {'id': 'UniProt:P0C1U9', 'label': 'Protein', 'name': 'Topoisomeraze 4'}, {'id': 'UniProt:P20831', 'label': 'Protein', 'name': 'DNA gyrase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00479_MESH_D016920_1', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'amikacin', 'drug_mesh': 'MESH:D000583', 'drugbank': 'DB:DB00479'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000583', 'target': 'UniProt:P0A7S3'}, {'key': 'participates in', 'source': 'UniProt:P0A7S3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000583', 'label': 'Drug', 'name': 'amikacin'}, {'id': 'UniProt:P0A7S3', 'label': 'Protein', 'name': '30S Ribosomal Subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01234_MESH_D013717_1', 'disease': 'Tenosynovitis', 'disease_mesh': 'MESH:D013717', 'drug': 'dexamethasone', 'drug_mesh': 'MESH:D003907', 'drugbank': 'DB:DB01234'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003907', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003907', 'label': 'Drug', 'name': 'dexamethasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D013717', 'label': 'Disease', 'name': 'Tenosynovitis'}]}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00438_MESH_D014552_1', 'disease': 'Bacterial urinary infection', 'disease_mesh': 'MESH:D014552', 'drug': 'ceftazidime', 'drug_mesh': 'MESH:D002442', 'drugbank': 'DB:DB00438'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002442', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002442', 'label': 'Drug', 'name': 'ceftazidime'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Bacterial urinary infection'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06762_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'pinacidil', 'drug_mesh': 'MESH:D020110', 'drugbank': 'DB:DB06762'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020110', 'target': 'UniProt:Q12791'}, {'key': 'participates in', 'source': 'UniProt:Q12791', 'target': 'GO:0042311'}, {'key': 'capable of', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'prevents', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020110', 'label': 'Drug', 'name': 'pinacidil'}, {'id': 'UniProt:Q12791', 'label': 'Protein', 'name': 'Calcium-activated potassium channel subunit alpha-1'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Negative Regulation of Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D009181_1', 'disease': 'Fungal Infection', 'disease_mesh': 'MESH:D009181', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'produces', 'source': 'UniProt:P10613', 'target': 'MESH:D004875'}, {'key': 'located in', 'source': 'MESH:D004875', 'target': 'GO:0009277'}, {'key': 'correlated with', 'source': 'GO:0009277', 'target': 'MESH:D009181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'sterol 14a-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'Fungal Cell Membrane'}, {'id': 'MESH:D009181', 'label': 'Disease', 'name': 'Fungal Infection'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08799_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'antazoline', 'drug_mesh': 'MESH:D000865', 'drugbank': 'DB:DB08799'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000865', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000865', 'label': 'Drug', 'name': 'antazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064704', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA gyrase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'E. coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00814_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'meloxicam', 'drug_mesh': 'MESH:D000077239', 'drugbank': 'DB:DB00814'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077239', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases activity of', 'source': 'MESH:D011453', 'target': 'InterPro:IPR000265'}, {'key': 'causes', 'source': 'InterPro:IPR000265', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077239', 'label': 'Drug', 'name': 'meloxicam'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin synthhase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'InterPro:IPR000265', 'label': 'GeneFamily', 'name': 'Pain Receptors'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00393_MESH_D013345_1', 'disease': 'Subarachnoid intracranial hemorrhage', 'disease_mesh': 'MESH:D013345', 'drug': 'nimodipine', 'drug_mesh': 'MESH:D009553', 'drugbank': 'DB:DB00393'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009553', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D013345'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009553', 'label': 'Drug', 'name': 'nimodipine'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'voltage dependent l-type calcium channels'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D013345', 'label': 'Disease', 'name': 'Subarachnoid intracranial hemorrhage'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006996_1', 'disease': 'hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C007852', 'target': 'MESH:D002118'}, {'key': 'prevents', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium Ion'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'hypocalcemia'}]}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00588_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'fluticasone propionate', 'drug_mesh': 'MESH:D000068298', 'drugbank': 'DB:DB00588'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068298', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P22301', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068298', 'label': 'Drug', 'name': 'fluticasone propionate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'IL-10'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00623_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'fluphenazine', 'drug_mesh': 'MESH:D005476', 'drugbank': 'DB:DB00623'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005476', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D005476', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0030252'}, {'key': 'increases abundance of', 'source': 'UniProt:P21728', 'target': 'MESH:D010907'}, {'key': 'positively correlated with', 'source': 'GO:0030252', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'MESH:D010907', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005476', 'label': 'Drug', 'name': 'fluphenazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'dopaminaergeinc receptors'}, {'id': 'GO:0030252', 'label': 'BiologicalProcess', 'name': 'growth hormone secretion'}, {'id': 'MESH:D010907', 'label': 'ChemicalSubstance', 'name': 'hypophyseal hormones'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00342_MESH_D017449_1', 'disease': 'allergic skin disorders', 'disease_mesh': 'MESH:D017449', 'drug': 'terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D016593', 'target': 'UniProt:P35367'}, {'key': 'has phenotype', 'source': 'UniProt:P35367', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D017449'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'terfenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D017449', 'label': 'Disease', 'name': 'allergic skin disorders'}]}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01048_MESH_D015658_1', 'disease': 'HIV infection', 'disease_mesh': 'MESH:D015658', 'drug': 'abacavir', 'drug_mesh': 'MESH:C106538', 'drugbank': 'DB:DB01048'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C106538', 'target': 'MESH:C066928'}, {'key': 'decreases activity of', 'source': 'MESH:C066928', 'target': 'UniProt:P04585'}, {'key': 'participates in', 'source': 'UniProt:P04585', 'target': 'GO:0039693'}, {'key': 'causes', 'source': 'GO:0039693', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106538', 'label': 'Drug', 'name': 'abacavir'}, {'id': 'MESH:C066928', 'label': 'ChemicalSubstance', 'name': 'carbovir triphosphate'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'HIV infection'}]}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00717_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'norethisterone', 'drug_mesh': 'MESH:D009640', 'drugbank': 'DB:DB00717'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009640', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'UniProt:P01148'}, {'key': 'negatively regulates', 'source': 'UniProt:P01148', 'target': 'GO:0032275'}, {'key': 'correlated with', 'source': 'GO:0032275', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009640', 'label': 'Drug', 'name': 'norethisterone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'progesterone receptor'}, {'id': 'UniProt:P01148', 'label': 'Protein', 'name': 'gonadotropin releasing hormone'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00246_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'ziprasidone', 'drug_mesh': 'MESH:C092292', 'drugbank': 'DB:DB00246'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C092292', 'target': 'UniProt:P28223'}, {'key': 'has phenotype', 'source': 'UniProt:P28223', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C092292', 'label': 'Drug', 'name': 'ziprasidone'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A receptor'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'behavior'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00748_MESH_D003233_1', 'disease': 'seasonal allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'carbinoxamine', 'drug_mesh': 'MESH:C004649', 'drugbank': 'DB:DB00748'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C004649', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004649', 'label': 'Drug', 'name': 'carbinoxamine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'seasonal allergic conjunctivitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00066_MESH_D016649_1', 'disease': 'primary ovarian failure', 'disease_mesh': 'MESH:D016649', 'drug': 'follitropin', 'drug_mesh': 'MESH:D005640', 'drugbank': 'DB:DB00066'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005640', 'target': 'UniProt:P23945'}, {'key': 'positively regulates', 'source': 'UniProt:P23945', 'target': 'GO:0030728'}, {'key': 'negatively correlated with', 'source': 'GO:0030728', 'target': 'MESH:D016649'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005640', 'label': 'Drug', 'name': 'follitropin'}, {'id': 'UniProt:P23945', 'label': 'Protein', 'name': 'Human follicle stimulating hormone receptor'}, {'id': 'GO:0030728', 'label': 'BiologicalProcess', 'name': 'ovulation'}, {'id': 'MESH:D016649', 'label': 'Disease', 'name': 'primary ovarian failure'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01212_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'ceftriaxone', 'drug_mesh': 'MESH:D002443', 'drugbank': 'DB:DB01212'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002443', 'target': 'UniProt:O05131'}, {'key': 'participates in', 'source': 'UniProt:O05131', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002443', 'label': 'Drug', 'name': 'ceftriaxone'}, {'id': 'UniProt:O05131', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'N. gonorrhoeae'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02703_MESH_D000881_1', 'disease': 'Anthrax', 'disease_mesh': 'MESH:D000881', 'drug': 'fusidic acid', 'drug_mesh': 'MESH:D005672', 'drugbank': 'DB:DB02703'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005672', 'target': 'UniProt:Q81VT3'}, {'key': 'participates in', 'source': 'UniProt:Q81VT3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D000881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005672', 'label': 'Drug', 'name': 'fusidic acid'}, {'id': 'UniProt:Q81VT3', 'label': 'Protein', 'name': 'elongation factor g'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D000881', 'label': 'Disease', 'name': 'Anthrax'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00682_MESH_D011655_1', 'disease': 'Pulmonary embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'warfarin', 'drug_mesh': 'MESH:D014859', 'drugbank': 'DB:DB00682'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014859', 'target': 'UniProt:Q9BQB6'}, {'key': 'produces', 'source': 'UniProt:Q9BQB6', 'target': 'MESH:D014812'}, {'key': 'participates in', 'source': 'MESH:D014812', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014859', 'label': 'Drug', 'name': 'warfarin'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'vitamin k reductase'}, {'id': 'MESH:D014812', 'label': 'ChemicalSubstance', 'name': 'reduced vitamin k'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Coagulation factor Synthesis'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary embolism'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09046_MESH_D008060_1', 'disease': 'lipodystrophy', 'disease_mesh': 'MESH:D008060', 'drug': 'metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'regulates', 'source': 'UniProt:P48357', 'target': 'GO:0060612'}, {'key': 'negatively correlated with', 'source': 'GO:0060612', 'target': 'MESH:D008060'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'leptin receptor'}, {'id': 'GO:0060612', 'label': 'BiologicalProcess', 'name': 'adipogenesis'}, {'id': 'MESH:D008060', 'label': 'Disease', 'name': 'lipodystrophy'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01332_MESH_D007710_1', 'disease': 'Klebsiella cystitis', 'disease_mesh': 'MESH:D007710', 'drug': 'ceftizoxime', 'drug_mesh': 'MESH:D015296', 'drugbank': 'DB:DB01332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015296', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D007710'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015296', 'label': 'Drug', 'name': 'ceftizoxime'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D007710', 'label': 'Disease', 'name': 'Klebsiella cystitis'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00455_MESH_D065631_1', 'disease': 'Allergic Rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'loratadine', 'drug_mesh': 'MESH:D017336', 'drugbank': 'DB:DB00455'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017336', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017336', 'label': 'Drug', 'name': 'loratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00935_MESH_D015508_1', 'disease': 'Nasal Congestion', 'disease_mesh': 'MESH:D015508', 'drug': 'oxymetazoline', 'drug_mesh': 'MESH:D010109', 'drugbank': 'DB:DB00935'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010109', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'prevents', 'source': 'GO:0042310', 'target': 'MESH:D015508'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010109', 'label': 'Drug', 'name': 'oxymetazoline'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1a adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D015508', 'label': 'Disease', 'name': 'Nasal Congestion'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01174_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'phenobarbital', 'drug_mesh': 'MESH:D010634', 'drugbank': 'DB:DB01174'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010634', 'target': 'InterPro:IPR006028'}, {'key': 'participates in', 'source': 'InterPro:IPR006028', 'target': 'GO:0099536'}, {'key': 'negatively correlated with', 'source': 'GO:0099536', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010634', 'label': 'Drug', 'name': 'phenobarbital'}, {'id': 'InterPro:IPR006028', 'label': 'GeneFamily', 'name': 'GABAA Receptors'}, {'id': 'GO:0099536', 'label': 'BiologicalProcess', 'name': 'Synaptic Signaling'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00281_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'lidocaine', 'drug_mesh': 'MESH:D008012', 'drugbank': 'DB:DB00281'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008012', 'target': 'InterPro:IPR028809'}, {'key': 'participates in', 'source': 'InterPro:IPR028809', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008012', 'label': 'Drug', 'name': 'lidocaine'}, {'id': 'InterPro:IPR028809', 'label': 'GeneFamily', 'name': 'Neuronal Voltage gated sodium channels'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00476_MESH_D003865_1', 'disease': 'major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'duloxetine', 'drug_mesh': 'MESH:D000068736', 'drugbank': 'DB:DB00476'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068736', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'causes', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068736', 'label': 'Drug', 'name': 'duloxetine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'sodium dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Neuronal serotonin reuptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'major depressive disorder'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00366_MESH_D065631_1', 'disease': 'Allergic Rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'doxylamine', 'drug_mesh': 'MESH:D004319', 'drugbank': 'DB:DB00366'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004319', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004319', 'label': 'Drug', 'name': 'doxylamine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00650_MESH_D000749_1', 'disease': 'Megaloblastic anemia (Methotrexate Treatment)', 'disease_mesh': 'MESH:D000749', 'drug': 'leucovorin', 'drug_mesh': 'MESH:D002955', 'drugbank': 'DB:DB00650'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002955', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'MESH:D000749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002955', 'label': 'Drug', 'name': 'leucovorin'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic Acid'}, {'id': 'MESH:D000749', 'label': 'Disease', 'name': 'Megaloblastic anemia (Methotrexate Treatment)'}]}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D015523_1', 'disease': 'Acute maxillary sinusitis', 'disease_mesh': 'MESH:D015523', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017291', 'target': 'UniProt:P44350'}, {'key': 'participates in', 'source': 'UniProt:P44350', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D015523'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017291', 'label': 'Drug', 'name': 'clarithromycin'}, {'id': 'UniProt:P44350', 'label': 'Protein', 'name': '50S Ribosomal protein l-10'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D015523', 'label': 'Disease', 'name': 'Acute maxillary sinusitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00350_MESH_D000505_1', 'disease': 'androgenic alopecia', 'disease_mesh': 'MESH:D000505', 'drug': 'minoxidil', 'drug_mesh': 'MESH:D008914', 'drugbank': 'DB:DB00350'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008914', 'target': 'REACT:R-HSA-5684996'}, {'key': 'produces', 'source': 'MESH:D008914', 'target': 'CL:0000346'}, {'key': 'positively regulates', 'source': 'MESH:D008914', 'target': 'UniProt:P48048'}, {'key': 'negatively correlated with', 'source': 'CL:0000346', 'target': 'MESH:D000505'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-5684996', 'target': 'GO:0043066'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'located in', 'source': 'GO:0043066', 'target': 'CL:0002559'}, {'key': 'affected by', 'source': 'CL:0002559', 'target': 'MESH:D000505'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'positively correlated with', 'source': 'GO:0008015', 'target': 'GO:0042640'}, {'key': 'negatively correlated with', 'source': 'GO:0042640', 'target': 'MESH:D000505'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008914', 'label': 'Drug', 'name': 'minoxidil'}, {'id': 'CL:0000346', 'label': 'Cell', 'name': 'dermal papillary cells'}, {'id': 'REACT:R-HSA-5684996', 'label': 'Pathway', 'name': 'ERK1/ERK2 pathway'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0043066', 'label': 'BiologicalProcess', 'name': 'negative regulation of apoptotic process'}, {'id': 'CL:0002559', 'label': 'Cell', 'name': 'hair follicle cell'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood circulation'}, {'id': 'GO:0042640', 'label': 'BiologicalProcess', 'name': 'hair growth'}, {'id': 'MESH:D000505', 'label': 'Disease', 'name': 'androgenic alopecia'}]}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00350_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'minoxidil', 'drug_mesh': 'MESH:D008914', 'drugbank': 'DB:DB00350'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008914', 'target': 'UniProt:P48048'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0045907'}, {'key': 'contributes to', 'source': 'GO:0045907', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008914', 'label': 'Drug', 'name': 'Minoxidil'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00350']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D007172_1', 'disease': 'Erectile Disfunction', 'disease_mesh': 'MESH:D007172', 'drug': 'sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'MESH:D006152'}, {'key': 'participates in', 'source': 'MESH:D006152', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': 'phosphodisterase type 5'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cGMP'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Erectile Disfunction'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01155_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'gemifloxacin', 'drug_mesh': 'MESH:D000077735', 'drugbank': 'DB:DB01155'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077735', 'target': 'UniProt:P72525'}, {'key': 'participates in', 'source': 'UniProt:P72525', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077735', 'label': 'Drug', 'name': 'gemifloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'Topoisomeraze 4'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00443_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'betamethasone', 'drug_mesh': 'MESH:D001623', 'drugbank': 'DB:DB00443'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D001623', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001623', 'label': 'Drug', 'name': 'betamethasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'MESH_C106301_MESH_D003233_1', 'disease': 'Allergic conjuctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'tazanolast', 'drug_mesh': 'MESH:C106301', 'drugbank': None}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C106301', 'target': 'GO:0002553'}, {'key': 'correlated with', 'source': 'GO:0002553', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106301', 'label': 'Drug', 'name': 'tazanolast'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'Histamine sections by Mast Cell'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjuctivitis'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00620_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'triamcinolone diacetate', 'drug_mesh': 'MESH:D014221', 'drugbank': 'DB:DB00620'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014221', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014221', 'label': 'Drug', 'name': 'triamcinolone diacetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D012148_1', 'disease': 'Restless Legs Syndrome', 'disease_mesh': 'MESH:D012148', 'drug': 'gabapentin', 'drug_mesh': 'MESH:D000077206', 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077206', 'target': 'UniProt:P54289'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0006936'}, {'key': 'negatively correlated with', 'source': 'GO:0006936', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077206', 'label': 'Drug', 'name': 'gabapentin'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'voltage dependent calcium channel alpha-2-delta'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'Muscle Contraction'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless Legs Syndrome'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01598_MESH_D010538_1', 'disease': 'Peritonitis', 'disease_mesh': 'MESH:D010538', 'drug': 'imipenem', 'drug_mesh': 'MESH:D015378', 'drugbank': 'DB:DB01598'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015378', 'target': 'UniProt:P0AD65'}, {'key': 'participates in', 'source': 'UniProt:P0AD65', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D010538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015378', 'label': 'Drug', 'name': 'imipenem'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D010538', 'label': 'Disease', 'name': 'Peritonitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00860_MESH_D012507_1', 'disease': 'Sarcoidosis', 'disease_mesh': 'MESH:D012507', 'drug': 'prednisolone', 'drug_mesh': 'MESH:D011239', 'drugbank': 'DB:DB00860'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D011239', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'participates in', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012507'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011239', 'label': 'Drug', 'name': 'prednisolone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'lipocortins'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'phospholipase a2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation signaling'}, {'id': 'MESH:D012507', 'label': 'Disease', 'name': 'Sarcoidosis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09345_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'pramocaine', 'drug_mesh': 'MESH:C005548', 'drugbank': 'DB:DB09345'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005548', 'target': 'InterPro:IPR028809'}, {'key': 'participates in', 'source': 'InterPro:IPR028809', 'target': 'GO:0019227'}, {'key': 'causes', 'source': 'GO:0019227', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005548', 'label': 'Drug', 'name': 'pramocaine'}, {'id': 'InterPro:IPR028809', 'label': 'GeneFamily', 'name': 'Neuronal Voltage gated sodium channels'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'Neuronal Action Potential Transmission'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'ertapenem', 'drug_mesh': 'MESH:D000077727', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077727', 'target': 'UniProt:P44469'}, {'key': 'participates in', 'source': 'UniProt:P44469', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077727', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06786_MESH_D012871_1', 'disease': 'Dermatosis', 'disease_mesh': 'MESH:D012871', 'drug': 'halcinonide', 'drug_mesh': 'MESH:D006206', 'drugbank': 'DB:DB06786'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006206', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006206', 'label': 'Drug', 'name': 'halcinonide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory signalling'}, {'id': 'MESH:D012871', 'label': 'Disease', 'name': 'Dermatosis'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01100_MESH_D005879_1', 'disease': 'Tourette’s Disorder', 'disease_mesh': 'MESH:D005879', 'drug': 'pimozide', 'drug_mesh': 'MESH:D010868', 'drugbank': 'DB:DB01100'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P14416'}, {'key': 'caused by', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'has phenotype', 'source': 'GO:0014046', 'target': 'HP:0100033'}, {'key': 'manifestation of', 'source': 'HP:0100033', 'target': 'MESH:D005879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010868', 'label': 'Drug', 'name': 'pimozide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 Receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'Dopamine Release'}, {'id': 'HP:0100033', 'label': 'PhenotypicFeature', 'name': 'tics'}, {'id': 'MESH:D005879', 'label': 'Disease', 'name': 'Tourette’s Disorder'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01527_MESH_D000856_1', 'disease': 'Anorexia nervosa', 'disease_mesh': 'MESH:D000856', 'drug': 'clortermine', 'drug_mesh': None, 'drugbank': 'DB:DB01527'}, 'links': [{'key': 'treats', 'source': 'DB:DB01527', 'target': 'MESH:D000856'}, {'key': 'contraindicated for', 'source': 'DB:DB01527', 'target': 'MESH:D000856'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01527', 'label': 'Drug', 'name': 'clortermine'}, {'id': 'MESH:D000856', 'label': 'Disease', 'name': 'Anorexia nervosa'}]}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00367_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016912', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'UniProt:P01148'}, {'key': 'negatively regulates', 'source': 'UniProt:P01148', 'target': 'GO:0032275'}, {'key': 'correlated with', 'source': 'GO:0032275', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'levonorgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'progesterone receptor'}, {'id': 'UniProt:P01148', 'label': 'Protein', 'name': 'gonadotropin releasing hormone'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08908_MESH_D009103_1', 'disease': 'Multiple Sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'dimethyl fumarate', 'drug_mesh': 'MESH:D000069462', 'drugbank': 'DB:DB08908'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069462', 'target': 'UniProt:Q14145'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q14145', 'target': 'UniProt:Q16236'}, {'key': 'negatively regulates', 'source': 'UniProt:Q16236', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069462', 'label': 'Drug', 'name': 'dimethyl fumarate'}, {'id': 'UniProt:Q14145', 'label': 'Protein', 'name': 'Kelch-like ECH-associated protein 1'}, {'id': 'UniProt:Q16236', 'label': 'Protein', 'name': 'Nrf2'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Oxidative Stress'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple Sclerosis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00638_MESH_D006943_1', 'disease': 'Hyperglycemia', 'disease_mesh': 'MESH:D006943', 'drug': 'inulin', 'drug_mesh': 'MESH:D007444', 'drugbank': 'DB:DB00638'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D007444', 'target': 'GO:0032099'}, {'key': 'prevents', 'source': 'GO:0032099', 'target': 'MESH:D006943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007444', 'label': 'Drug', 'name': 'inulin'}, {'id': 'GO:0032099', 'label': 'BiologicalProcess', 'name': 'negative regulation of appetite'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00344_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'protriptyline', 'drug_mesh': 'MESH:D011530', 'drugbank': 'DB:DB00344'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011530', 'target': 'UniProt:P23975'}, {'key': 'decreases abundance of', 'source': 'UniProt:P23975', 'target': 'MESH:D009638'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0023041'}, {'key': 'negatively correlated with', 'source': 'GO:0023041', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011530', 'label': 'Drug', 'name': 'protriptyline'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium dependent noradrenaline transporter'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'noradrenaline'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal activation'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13399_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'terguride', 'drug_mesh': 'MESH:C006208', 'drugbank': 'DB:DB13399'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006208', 'target': 'UniProt:P41595'}, {'key': 'positively correlated with', 'source': 'UniProt:P41595', 'target': 'MESH:D006976'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006208', 'label': 'Drug', 'name': 'terguride'}, {'id': 'UniProt:P41595', 'label': 'Protein', 'name': '5-Hydroxytryptamine receptor 2B'}, {'id': 'MESH:D006976', 'label': 'Disease', 'name': 'Pulmonary hypertension'}]}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12770_MESH_D005764_1', 'disease': 'Gastroesophageal Reflux', 'disease_mesh': 'MESH:D005764', 'drug': 'lafutidine', 'drug_mesh': 'MESH:C076948', 'drugbank': 'DB:DB12770'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076948', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076948', 'label': 'Drug', 'name': 'lafutidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 Receptor'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal Reflux'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04938_MESH_D004414_1', 'disease': 'Dyspareunia', 'disease_mesh': 'MESH:D004414', 'drug': 'ospemifene', 'drug_mesh': 'MESH:C119141', 'drugbank': 'DB:DB04938'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C119141', 'target': 'UniProt:P03372'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P03372', 'target': 'MESH:D004967'}, {'key': 'prevents', 'source': 'MESH:D004967', 'target': 'MESH:D059268'}, {'key': 'contributes to', 'source': 'MESH:D059268', 'target': 'MESH:D004414'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119141', 'label': 'Drug', 'name': 'ospemifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'estrogen receptor'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'postmenopausal atrophic vaginitis'}, {'id': 'MESH:D004414', 'label': 'Disease', 'name': 'Dyspareunia'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00199_MESH_D008088_1', 'disease': 'Listeriosis', 'disease_mesh': 'MESH:D008088', 'drug': 'erythromycin', 'drug_mesh': 'MESH:D004917', 'drugbank': 'DB:DB00199'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D004917', 'target': 'MESH:D012338'}, {'key': 'participates in', 'source': 'MESH:D012338', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:1637'}, {'key': 'causes', 'source': 'NCBITaxon:1637', 'target': 'MESH:D008088'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004917', 'label': 'Drug', 'name': 'erythromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': '23S Ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:1637', 'label': 'OrganismTaxon', 'name': 'Listeria spp.'}, {'id': 'MESH:D008088', 'label': 'Disease', 'name': 'Listeriosis'}]}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02362_MESH_D010392_1', 'disease': 'Pemphigus', 'disease_mesh': 'MESH:D010392', 'drug': 'aminobenzoic acid', 'drug_mesh': 'MESH:D010129', 'drugbank': 'DB:DB02362'}, 'links': [{'key': 'treats', 'source': 'MESH:D010129', 'target': 'MESH:D010392'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010129', 'label': 'Drug', 'name': 'aminobenzoic acid'}, {'id': 'MESH:D010392', 'label': 'Disease', 'name': 'Pemphigus'}]}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01067_MESH_D006943_1', 'disease': 'Hyperglycemia', 'disease_mesh': 'MESH:D006943', 'drug': 'glipizide', 'drug_mesh': 'MESH:D005913', 'drugbank': 'DB:DB01067'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005913', 'target': 'UniProt:Q09428'}, {'key': 'located in', 'source': 'UniProt:Q09428', 'target': 'CL:0000169'}, {'key': 'expresses', 'source': 'CL:0000169', 'target': 'UniProt:P01308'}, {'key': 'prevents', 'source': 'UniProt:P01308', 'target': 'MESH:D006943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005913', 'label': 'Drug', 'name': 'glipizide'}, {'id': 'UniProt:Q09428', 'label': 'Protein', 'name': 'ATP-binding cassette sub-family C member 8'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'Islet Cells'}, {'id': 'UniProt:P01308', 'label': 'Protein', 'name': 'insulin'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}]}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12212_MESH_D013610_1', 'disease': 'Tachyarrhythmia', 'disease_mesh': 'MESH:D013610', 'drug': 'landiolol', 'drug_mesh': 'MESH:C077049', 'drugbank': 'DB:DB12212'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C077049', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'GO:0045823'}, {'key': 'causes', 'source': 'GO:0045823', 'target': 'MESH:D013610'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C077049', 'label': 'Drug', 'name': 'landiolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'GO:0045823', 'label': 'BiologicalProcess', 'name': 'positive regulation of heart contraction'}, {'id': 'MESH:D013610', 'label': 'Disease', 'name': 'Tachyarrhythmia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'levocabastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01418_MESH_D011655_1', 'disease': 'Pulmonary Embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'acenocoumarol', 'drug_mesh': 'MESH:D000074', 'drugbank': 'DB:DB01418'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000074', 'target': 'UniProt:Q9BQB6'}, {'key': 'produces', 'source': 'UniProt:Q9BQB6', 'target': 'MESH:D014812'}, {'key': 'participates in', 'source': 'MESH:D014812', 'target': 'GO:0007596'}, {'key': 'correlated with', 'source': 'GO:0007596', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000074', 'label': 'Drug', 'name': 'acenocoumarol'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'vitamin k reductase'}, {'id': 'MESH:D014812', 'label': 'ChemicalSubstance', 'name': 'Reduced Vitamin k2 (vkH2)'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Clotting Factor Synthesis'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary Embolism'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB14649_MESH_D009101_1', 'disease': 'Multiple meyloma', 'disease_mesh': 'MESH:D009101', 'drug': 'dexamethasone acetate', 'drug_mesh': 'MESH:C018038', 'drugbank': 'DB:DB14649'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C018038', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0019370'}, {'key': 'correlated with', 'source': 'GO:0019370', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C018038', 'label': 'Drug', 'name': 'dexamethasone acetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase a2'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosysntesis'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple meyloma'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13676_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'mosapramine', 'drug_mesh': 'MESH:C046384', 'drugbank': 'DB:DB13676'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C046384', 'target': 'UniProt:P14416'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'affects risk for', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046384', 'label': 'Drug', 'name': 'mosapramine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine pathway'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00024_MESH_D013964_1', 'disease': 'Thyroid cancer (Diagnostic)', 'disease_mesh': 'MESH:D013964', 'drug': 'thyrotropin alfa', 'drug_mesh': 'MESH:D057073', 'drugbank': 'DB:DB00024'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D057073', 'target': 'UniProt:P16473'}, {'key': 'expressed in', 'source': 'UniProt:P16473', 'target': 'UBERON:0002046'}, {'key': 'location of', 'source': 'UBERON:0002046', 'target': 'MESH:D013964'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D057073', 'label': 'Drug', 'name': 'thyrotropin alfa'}, {'id': 'UniProt:P16473', 'label': 'Protein', 'name': 'Thyrotropin receptor'}, {'id': 'UBERON:0002046', 'label': 'GrossAnatomicalStructure', 'name': 'Thyroid'}, {'id': 'MESH:D013964', 'label': 'Disease', 'name': 'Thyroid cancer (Diagnostic)'}]}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00524_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'metolazone', 'drug_mesh': 'MESH:D008788', 'drugbank': 'DB:DB00524'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008788', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0055078'}, {'key': 'negatively correlated with', 'source': 'GO:0055078', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008788', 'label': 'Drug', 'name': 'metolazone'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0055078', 'label': 'BiologicalProcess', 'name': 'Sodium Ion Homeostasis'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09142_MESH_D005705_1', 'disease': 'GallBladder Diseases (Diagnostic)', 'disease_mesh': 'MESH:D005705', 'drug': 'sincalide', 'drug_mesh': 'MESH:D012844', 'drugbank': 'DB:DB09142'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D012844', 'target': 'GO:0032782'}, {'key': 'negatively correlated with', 'source': 'GO:0032782', 'target': 'MESH:D005705'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012844', 'label': 'Drug', 'name': 'sincalide'}, {'id': 'GO:0032782', 'label': 'BiologicalProcess', 'name': 'Bile acid secretion'}, {'id': 'MESH:D005705', 'label': 'Disease', 'name': 'Gallbladder Diseases (Diagnostic)'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12184_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'gepirone', 'drug_mesh': 'MESH:C039979', 'drugbank': 'DB:DB12184'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C039979', 'target': 'UniProt:P08908'}, {'key': 'participates in', 'source': 'UniProt:P08908', 'target': 'GO:0050795'}, {'key': 'negatively correlated with', 'source': 'GO:0050795', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C039979', 'label': 'Drug', 'name': 'gepirone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-HT1a receptor (serotonin 1A)'}, {'id': 'GO:0050795', 'label': 'BiologicalProcess', 'name': 'regulation of behavior'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00347_MESH_D004832_1', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'voltage dependent T-type calcium channel subunit alpha-1G'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'corticothalamic transmission'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11901_MESH_D011471_1', 'disease': 'Nonmetastatic prostate cancer', 'disease_mesh': 'MESH:D011471', 'drug': 'apalutamide', 'drug_mesh': 'MESH:C572045', 'drugbank': 'DB:DB11901'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C572045', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0006351'}, {'key': 'precedes', 'source': 'GO:0006351', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C572045', 'label': 'Drug', 'name': 'apalutamide'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'androgen receptor'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Nonmetastatic prostate cancer'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09105_MESH_D007014_1', 'disease': 'Hypophosphatasia', 'disease_mesh': 'MESH:D007014', 'drug': 'asfotase alfa', 'drug_mesh': 'MESH:C570710', 'drugbank': 'DB:DB09105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C570710', 'target': 'MESH:C107241'}, {'key': 'negatively regulates', 'source': 'MESH:C107241', 'target': 'GO:0030282'}, {'key': 'has phenotype', 'source': 'GO:0030282', 'target': 'HP:0004349'}, {'key': 'manifestation of', 'source': 'HP:0004349', 'target': 'MESH:D007014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C570710', 'label': 'Drug', 'name': 'asfotase alfa'}, {'id': 'MESH:C107241', 'label': 'ChemicalSubstance', 'name': 'inorgainc pyrophosphate'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'hydroxpatite crystal growth'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D007014', 'label': 'Disease', 'name': 'Hypophosphatasia'}]}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00357_MESH_D001943_1', 'disease': 'Secondary malignant neoplasm of female breast', 'disease_mesh': 'MESH:D001943', 'drug': 'aminoglutethimide', 'drug_mesh': 'MESH:D000616', 'drugbank': 'DB:DB00357'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000616', 'target': 'UniProt:P11511'}, {'key': 'produces', 'source': 'UniProt:P11511', 'target': 'MESH:D004967'}, {'key': 'positively regulates', 'source': 'MESH:D004967', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000616', 'label': 'Drug', 'name': 'aminoglutethimide'}, {'id': 'UniProt:P11511', 'label': 'Protein', 'name': 'aromatase'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Secondary malignant neoplasm of female breast'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06785_MESH_D010062_1', 'disease': 'Ovulation induction', 'disease_mesh': 'MESH:D010062', 'drug': 'ganirelix', 'drug_mesh': 'MESH:C061018', 'drugbank': 'DB:DB06785'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061018', 'target': 'UniProt:P30968'}, {'key': 'expressed in', 'source': 'UniProt:P30968', 'target': 'UBERON:0000007'}, {'key': 'produces', 'source': 'UBERON:0000007', 'target': 'InterPro:IPR000476'}, {'key': 'causes', 'source': 'InterPro:IPR000476', 'target': 'MESH:D010062'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061018', 'label': 'Drug', 'name': 'ganirelix'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'GnRH receptor'}, {'id': 'UBERON:0000007', 'label': 'GrossAnatomicalStructure', 'name': 'pituitary gland'}, {'id': 'InterPro:IPR000476', 'label': 'GeneFamily', 'name': 'gonadotropins'}, {'id': 'MESH:D010062', 'label': 'Disease', 'name': 'Ovulation induction'}]}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00130_MESH_D012778_1', 'disease': 'Short bowel syndrome', 'disease_mesh': 'MESH:D012778', 'drug': 'glutamine', 'drug_mesh': 'MESH:D005973', 'drugbank': 'DB:DB00130'}, 'links': [{'key': 'produces', 'source': 'MESH:D005973', 'target': 'CL:0000584'}, {'key': 'capable of', 'source': 'CL:0000584', 'target': 'GO:0050892'}, {'key': 'negatively correlated with', 'source': 'GO:0050892', 'target': 'MESH:D012778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005973', 'label': 'Drug', 'name': 'glutamine'}, {'id': 'CL:0000584', 'label': 'Cell', 'name': 'enterocytes'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal nutrient absorption'}, {'id': 'MESH:D012778', 'label': 'Disease', 'name': 'Short bowel syndrome'}]}\n", + "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01217_MESH_D001943_1', 'disease': 'Hormone receptor positive malignant neoplasm of breast', 'disease_mesh': 'MESH:D001943', 'drug': 'anastrozole', 'drug_mesh': 'MESH:D000077384', 'drugbank': 'DB:DB01217'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077384', 'target': 'UniProt:P11511'}, {'key': 'produces', 'source': 'UniProt:P11511', 'target': 'MESH:D004967'}, {'key': 'positively regulates', 'source': 'MESH:D004967', 'target': 'GO:0030284'}, {'key': 'correlated with', 'source': 'GO:0030284', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077384', 'label': 'Drug', 'name': 'anastrozole'}, {'id': 'UniProt:P11511', 'label': 'Protein', 'name': 'aromatase'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'GO:0030284', 'label': 'MolecularActivity', 'name': 'esterogne receptor activity'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Hormone receptor positive malignant neoplasm of breast'}]}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'MolecularActivity', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB03404_MESH_D017118_1', 'disease': 'Acute intermittent porphyria', 'disease_mesh': 'MESH:D017118', 'drug': 'hemin', 'drug_mesh': 'MESH:D006427', 'drugbank': 'DB:DB03404'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006427', 'target': 'UniProt:P13196'}, {'key': 'participates in', 'source': 'UniProt:P13196', 'target': 'REACT:R-HSA-189451'}, {'key': 'has participant', 'source': 'REACT:R-HSA-189451', 'target': 'MESH:D011162'}, {'key': 'manifestation of', 'source': 'MESH:D011162', 'target': 'MESH:D017118'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006427', 'label': 'Drug', 'name': 'hemin'}, {'id': 'UniProt:P13196', 'label': 'Protein', 'name': 'Aminolevulinic acid synthase'}, {'id': 'REACT:R-HSA-189451', 'label': 'Pathway', 'name': 'Heme biosynthesis'}, {'id': 'MESH:D011162', 'label': 'ChemicalSubstance', 'name': 'porpholobilinogen'}, {'id': 'MESH:D017118', 'label': 'Disease', 'name': 'Acute intermittent porphyria'}]}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09166_MESH_D001008_1', 'disease': 'Anxiety disorders', 'disease_mesh': 'MESH:D001008', 'drug': 'etizolam', 'drug_mesh': 'MESH:C044610', 'drugbank': 'DB:DB09166'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C044610', 'target': 'UniProt:P14867'}, {'key': 'capable of', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'correlated with', 'source': 'GO:0022851', 'target': 'MESH:D001008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C044610', 'label': 'Drug', 'name': 'etizolam'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'GABA-A receptor alpha 1'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-A receptor activity'}, {'id': 'MESH:D001008', 'label': 'Disease', 'name': 'Anxiety disorders'}]}\n", + "['Drug', 'Protein', 'MolecularActivity', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB07565_MESH_D014435_1', 'disease': 'Typhoid fever', 'disease_mesh': 'MESH:D014435', 'drug': 'chloramphenicol succinate', 'drug_mesh': 'MESH:C026016', 'drugbank': 'DB:DB07565'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C026016', 'target': 'UniProt:P0A298'}, {'key': 'participates in', 'source': 'UniProt:P0A298', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:90370'}, {'key': 'causes', 'source': 'NCBITaxon:90370', 'target': 'MESH:D014435'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026016', 'label': 'Drug', 'name': 'chloramphenicol succinate'}, {'id': 'UniProt:P0A298', 'label': 'Protein', 'name': '50S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Protein Synthesis'}, {'id': 'NCBITaxon:90370', 'label': 'OrganismTaxon', 'name': 'Salmonella typhi'}, {'id': 'MESH:D014435', 'label': 'Disease', 'name': 'Typhoid fever'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11100_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'allantoin', 'drug_mesh': 'MESH:D000481', 'drugbank': 'DB:DB11100'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000481', 'target': 'GO:0042060'}, {'key': 'prevents', 'source': 'GO:0042060', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000481', 'label': 'Drug', 'name': 'allantoin'}, {'id': 'GO:0042060', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00016_MESH_D000740_1', 'disease': 'Anemia', 'disease_mesh': 'MESH:D000740', 'drug': 'epoetin theta', 'drug_mesh': 'MESH:C555712', 'drugbank': 'DB:DB00016'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C555712', 'target': 'UniProt:P19235'}, {'key': 'positively regulates', 'source': 'UniProt:P19235', 'target': 'GO:0030218'}, {'key': 'has output', 'source': 'GO:0030218', 'target': 'CL:0000232'}, {'key': 'negatively correlated with', 'source': 'CL:0000232', 'target': 'MESH:D000740'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C555712', 'label': 'Drug', 'name': 'epoetin theta'}, {'id': 'UniProt:P19235', 'label': 'Protein', 'name': 'erythropoietin receptor'}, {'id': 'GO:0030218', 'label': 'BiologicalProcess', 'name': 'erythrocyte differentiation'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocytes'}, {'id': 'MESH:D000740', 'label': 'Disease', 'name': 'Anemia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00795_MESH_D003093_1', 'disease': 'Ulcerative Colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'sulfasalazine', 'drug_mesh': 'MESH:D012460', 'drugbank': 'DB:DB00795'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012460', 'target': 'UniProt:P09917'}, {'key': 'positively regulates', 'source': 'UniProt:P09917', 'target': 'GO:0019370'}, {'key': 'part of', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012460', 'label': 'Drug', 'name': 'sulfasalazine'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Arachidonate 5-lipoxygenase'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative Colitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00529_MESH_D017726_1', 'disease': 'Cytomegalovirus Retinitis', 'disease_mesh': 'MESH:D017726', 'drug': 'foscarnet', 'drug_mesh': 'MESH:D017245', 'drugbank': 'DB:DB00529'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017245', 'target': 'UniProt:P08546'}, {'key': 'participates in', 'source': 'UniProt:P08546', 'target': 'GO:0039693'}, {'key': 'occurs in', 'source': 'GO:0039693', 'target': 'NCBITaxon:10358'}, {'key': 'causes', 'source': 'NCBITaxon:10358', 'target': 'MESH:D017726'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017245', 'label': 'Drug', 'name': 'foscarnet'}, {'id': 'UniProt:P08546', 'label': 'Protein', 'name': 'viral DNA Polymerase'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA replication'}, {'id': 'NCBITaxon:10358', 'label': 'OrganismTaxon', 'name': 'Cytomegalovirus'}, {'id': 'MESH:D017726', 'label': 'Disease', 'name': 'Cytomegalovirus Retinitis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00878_MESH_D010518_1', 'disease': 'periodontitis', 'disease_mesh': 'MESH:D010518', 'drug': 'chlorhexidine', 'drug_mesh': 'MESH:D002710', 'drugbank': 'DB:DB00878'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002710', 'target': 'GO:0009274'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:837'}, {'key': 'causes', 'source': 'NCBITaxon:837', 'target': 'MESH:D010518'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002710', 'label': 'Drug', 'name': 'chlorhexidine'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'Bacterial Cell Wall'}, {'id': 'NCBITaxon:837', 'label': 'OrganismTaxon', 'name': 'Porphyromonas gingivalis'}, {'id': 'MESH:D010518', 'label': 'Disease', 'name': 'periodontitis'}]}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00059_MESH_D054198_1', 'disease': 'Acute lymphoblastic leukemia', 'disease_mesh': 'MESH:D054198', 'drug': 'pegaspargase', 'drug_mesh': 'MESH:C042705', 'drugbank': 'DB:DB00059'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C042705', 'target': 'MESH:D001216'}, {'key': 'participates in', 'source': 'MESH:D001216', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D054198'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042705', 'label': 'Drug', 'name': 'pegaspargase'}, {'id': 'MESH:D001216', 'label': 'ChemicalSubstance', 'name': 'extracellular asparagine'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cellular proliferation'}, {'id': 'MESH:D054198', 'label': 'Disease', 'name': 'Acute lymphoblastic leukemia'}]}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01201_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'rifapentine', 'drug_mesh': 'MESH:C018421', 'drugbank': 'DB:DB01201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C018421', 'target': 'UniProt:P9WGY7'}, {'key': 'participates in', 'source': 'UniProt:P9WGY7', 'target': 'GO:0032774'}, {'key': 'occurs in', 'source': 'GO:0032774', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C018421', 'label': 'Drug', 'name': 'rifapentine'}, {'id': 'UniProt:P9WGY7', 'label': 'Protein', 'name': 'DNA-directed RNA polymerase subunit beta'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis infection'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11152_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'trichloroacetic acid', 'drug_mesh': 'MESH:D014238', 'drugbank': 'DB:DB11152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014238', 'target': 'GO:0070265'}, {'key': 'prevents', 'source': 'GO:0070265', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014238', 'label': 'Drug', 'name': 'trichloroacetic acid'}, {'id': 'GO:0070265', 'label': 'BiologicalProcess', 'name': 'necrotic cell death'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}]}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12131_MESH_D003704_1', 'disease': 'Dementia', 'disease_mesh': 'MESH:D003704', 'drug': 'vinpocetine', 'drug_mesh': 'MESH:C013983', 'drugbank': 'DB:DB12131'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C013983', 'target': 'UniProt:P54750'}, {'key': 'part of', 'source': 'UniProt:P54750', 'target': 'GO:0043025'}, {'key': 'correlated with', 'source': 'GO:0043025', 'target': 'MESH:D003704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C013983', 'label': 'Drug', 'name': 'vinpocetine'}, {'id': 'UniProt:P54750', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1A\"}, {'id': 'GO:0043025', 'label': 'CellularComponent', 'name': 'Neuronal Cell Body'}, {'id': 'MESH:D003704', 'label': 'Disease', 'name': 'Dementia'}]}\n", + "['Drug', 'Protein', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13142_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glubionate', 'drug_mesh': 'MESH:C042131', 'drugbank': 'DB:DB13142'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C042131', 'target': 'MESH:D002118'}, {'key': 'prevents', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042131', 'label': 'Drug', 'name': 'calcium glubionate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium Ion'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}]}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01437_MESH_D007319_1', 'disease': 'Insomnia', 'disease_mesh': 'MESH:D007319', 'drug': 'glutethimide', 'drug_mesh': 'MESH:D005984', 'drugbank': 'DB:DB01437'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005984', 'target': 'UniProt:P14867'}, {'key': 'participates in', 'source': 'UniProt:P14867', 'target': 'GO:1904862'}, {'key': 'correlated with', 'source': 'GO:1904862', 'target': 'MESH:D007319'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005984', 'label': 'Drug', 'name': 'glutethimide'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'GO:1904862', 'label': 'BiologicalProcess', 'name': 'inhibitory synapse assembly'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Insomnia'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01213_MESH_D000138_1', 'disease': 'Methanol poisoning', 'disease_mesh': 'MESH:D000138', 'drug': 'fomepizole', 'drug_mesh': 'MESH:D000077604', 'drugbank': 'DB:DB01213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077604', 'target': 'UniProt:P07327'}, {'key': 'participates in', 'source': 'UniProt:P07327', 'target': 'REACT:R-HSA-71384'}, {'key': 'has output', 'source': 'REACT:R-HSA-71384', 'target': 'MESH:C030544'}, {'key': 'causes', 'source': 'MESH:C030544', 'target': 'MESH:D000138'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077604', 'label': 'Drug', 'name': 'fomepizole'}, {'id': 'UniProt:P07327', 'label': 'Protein', 'name': 'Alcohol dehydrogenase 1A'}, {'id': 'REACT:R-HSA-71384', 'label': 'Pathway', 'name': 'Ethanol oxidation'}, {'id': 'MESH:C030544', 'label': 'ChemicalSubstance', 'name': 'formic acid'}, {'id': 'MESH:D000138', 'label': 'Disease', 'name': 'Methanol poisoning'}]}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04931_MESH_D046351_1', 'disease': 'erythropoietic protoporphyria', 'disease_mesh': 'MESH:D046351', 'drug': 'afamelanotide', 'drug_mesh': 'MESH:C534526', 'drugbank': 'DB:DB04931'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C534526', 'target': 'UniProt:Q01726'}, {'key': 'participates in', 'source': 'UniProt:Q01726', 'target': 'GO:0042438'}, {'key': 'produces', 'source': 'GO:0042438', 'target': 'MESH:C041877'}, {'key': 'participates in', 'source': 'MESH:C041877', 'target': 'GO:0009650'}, {'key': 'negatively correlated with', 'source': 'GO:0009650', 'target': 'MESH:D046351'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C534526', 'label': 'Drug', 'name': 'Afamelanotide'}, {'id': 'UniProt:Q01726', 'label': 'Protein', 'name': 'Melanocyte-stimulating hormone receptor'}, {'id': 'GO:0042438', 'label': 'BiologicalProcess', 'name': 'Melanogenesis'}, {'id': 'MESH:C041877', 'label': 'ChemicalSubstance', 'name': 'Eumelanin'}, {'id': 'GO:0009650', 'label': 'BiologicalProcess', 'name': 'UV protection'}, {'id': 'MESH:D046351', 'label': 'Disease', 'name': 'Erythropoietic protoporphyria'}], 'reference': ['https://go.drugbank.com/drugs/DB04931#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11693_MESH_D014605_1', 'disease': 'Noninfectious Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'voclosporin', 'drug_mesh': 'MESH:C484071', 'drugbank': 'DB:DB11693'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C484071', 'target': 'UniProt:P63098'}, {'key': 'increases abundance of', 'source': 'UniProt:P63098', 'target': 'UniProt:O95644'}, {'key': 'increases abundance of', 'source': 'UniProt:O95644', 'target': 'UniProt:P60568'}, {'key': 'produces', 'source': 'UniProt:P60568', 'target': 'CL:0000084'}, {'key': 'causes', 'source': 'CL:0000084', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C484071', 'label': 'Drug', 'name': 'voclosporin'}, {'id': 'UniProt:P63098', 'label': 'Protein', 'name': 'Calcineurin subunit B type 1'}, {'id': 'UniProt:O95644', 'label': 'Protein', 'name': 'Nuclear factor of activated T-cells, cytoplasmic 1'}, {'id': 'UniProt:P60568', 'label': 'Protein', 'name': 'interleukin 2'}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T-Cell'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Noninfectious Uveitis'}]}\n", + "['Drug', 'Protein', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11254_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'acrisorcin', 'drug_mesh': 'MESH:D000585, MESH:D006604', 'drugbank': 'DB:DB11254'}, 'links': [{'key': 'treats', 'source': 'DB:DB11254', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB11254', 'label': 'Drug', 'name': 'acrisorcin'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}]}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00602_MESH_D009855_1', 'disease': 'Onchocerciasis', 'disease_mesh': 'MESH:D009855', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR015680', 'target': 'CHEBI:17996'}, {'key': 'participates in', 'source': 'CHEBI:17996', 'target': 'GO:0060081'}, {'key': 'precedes', 'source': 'GO:0060081', 'target': 'MESH:D010243'}, {'key': 'negatively regulates', 'source': 'MESH:D010243', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'glutimate-gated chloride channels'}, {'id': 'CHEBI:17996', 'label': 'ChemicalSubstance', 'name': 'chloride ion'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D010243', 'label': 'BiologicalProcess', 'name': 'Paralysis'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Onchocerciasis'}]}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09065_MESH_D015658_1', 'disease': 'HIV infection', 'disease_mesh': 'MESH:D015658', 'drug': 'cobicistat', 'drug_mesh': 'MESH:D000069547', 'drugbank': 'DB:DB09065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069547', 'target': 'UniProt:Q9HB55'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q9HB55', 'target': 'MESH:D000069446'}, {'key': 'decreases activity of', 'source': 'MESH:D000069446', 'target': 'UniProt:P04585'}, {'key': 'participates in', 'source': 'UniProt:P04585', 'target': 'GO:0019068'}, {'key': 'causes', 'source': 'GO:0019068', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069547', 'label': 'Drug', 'name': 'cobicistat'}, {'id': 'UniProt:Q9HB55', 'label': 'Protein', 'name': 'cytochrome P450 3A (CYP3A) isoforms'}, {'id': 'MESH:D000069446', 'label': 'ChemicalSubstance', 'name': 'atazanavir'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'Gag-Pol polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'Viral Assembly'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'HIV infection'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11945_MESH_D015266_1', 'disease': 'Merkel cell carcinoma', 'disease_mesh': 'MESH:D015266', 'drug': 'avelumab', 'drug_mesh': 'MESH:C000609138', 'drugbank': 'DB:DB11945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000609138', 'target': 'UniProt:Q9NZQ7'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0036037'}, {'key': 'negatively regulates', 'source': 'GO:0036037', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015266'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000609138', 'label': 'Drug', 'name': 'avelumab'}, {'id': 'UniProt:Q9NZQ7', 'label': 'Protein', 'name': 'Programmed cell death 1 ligand 1'}, {'id': 'GO:0036037', 'label': 'BiologicalProcess', 'name': 'Cytotoxic T-Cell activity'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D015266', 'label': 'Disease', 'name': 'Merkel cell carcinoma'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Contraindicated', 'directed': True, 'graph': {'_id': 'DB00253_MESH_D003320_1', 'disease': 'Corneal ulcer', 'disease_mesh': 'MESH:D003320', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'treats', 'source': 'MESH:C100283', 'target': 'MESH:D003320'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'MESH:D003320', 'label': 'Disease', 'name': 'Corneal ulcer'}], 'reference': ['https://apps.who.int/iris/bitstream/handle/10665/205174/B3516.pdf;jsessionid=7C257D725E19F6E2772D2896910031BF?sequence=1']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Contraindicated; steroids can cause Rosacea', 'directed': True, 'graph': {'_id': 'DB00253_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'treats', 'source': 'MESH:C100283', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/26280139/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3088930/']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D007500_1', 'disease': 'Iritis', 'disease_mesh': 'MESH:D007500', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D007500'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D007500', 'label': 'Disease', 'name': 'Iritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D015863_1', 'disease': 'Iridocyclitis', 'disease_mesh': 'MESH:D015863', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015863'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D015863', 'label': 'Disease', 'name': 'Iridocyclitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00630_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'alendronic acid', 'drug_mesh': 'MESH:D019386', 'drugbank': 'DB:DB00630'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019386', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019386', 'label': 'Drug', 'name': 'alendronic acid'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00630']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00630_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'alendronic acid', 'drug_mesh': 'MESH:D019386', 'drugbank': 'DB:DB00630'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019386', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019386', 'label': 'Drug', 'name': 'alendronic acid'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://go.drugbank.com/drugs/DB00630']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'occurs in', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00861', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4349405/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'occurs in', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00861', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3891482/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00861']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00861']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01324_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'polythiazide', 'drug_mesh': 'MESH:D011139', 'drugbank': 'DB:DB01324'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011139', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'affects risk for', 'source': 'GO:0003092', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011139', 'label': 'Drug', 'name': 'polythiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01324#BE0000419', 'https://pubmed.ncbi.nlm.nih.gov/12668589/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'potentially non-efficacious https://pubmed.ncbi.nlm.nih.gov/26615034/', 'directed': True, 'graph': {'_id': 'DB06691_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://en.wikipedia.org/wiki/Common_cold#cite_note-13']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'occurs in', 'source': 'HP:0000969', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/19476049/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/14561186/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases activity of', 'source': 'MESH:D006632', 'target': 'CL:0000540'}, {'key': 'located in', 'source': 'CL:0000540', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'alt_ids': 'MESH:D009474', 'id': 'CL:0000540', 'label': 'Cell', 'name': 'neuron'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://en.wikipedia.org/wiki/Sneeze']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Cell', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/14561186/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'expressed in', 'source': 'UniProt:P35367', 'target': 'CL:0000198'}, {'key': 'contributes to', 'source': 'CL:0000198', 'target': 'GO:0019233'}, {'key': 'occurs in', 'source': 'GO:0019233', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptors'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/31046146/']}\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'causes', 'source': 'MESH:D006632', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'HP:0000969'}, {'key': 'occurs in', 'source': 'HP:0000969', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/25539676/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", + "['Drug', 'Protein', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08822_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'azilsartan medoxomil', 'drug_mesh': 'MESH:C521273,MESH:C557413', 'drugbank': 'DB:DB08822'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB08822', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'causes', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08822', 'label': 'Drug', 'name': 'azilsartan medoxomil'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08822#BE0000062']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08880_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'teriflunomide', 'drug_mesh': 'MESH:C527525', 'drugbank': 'DB:DB08880'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C527525', 'target': 'UniProt:Q02127'}, {'key': 'positively regulates', 'source': 'UniProt:Q02127', 'target': 'GO:0006221'}, {'key': 'participates in', 'source': 'GO:0006221', 'target': 'GO:0050671'}, {'key': 'located in', 'source': 'GO:0050671', 'target': 'UBERON:0001017'}, {'key': 'affected by', 'source': 'UBERON:0001017', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'GO:0048681'}, {'key': 'contributes to', 'source': 'GO:0048681', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C527525', 'label': 'Drug', 'name': 'teriflunomide'}, {'id': 'UniProt:Q02127', 'label': 'Protein', 'name': 'Dihydroorotate dehydrogenase (quinone), mitochondrial'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0050671', 'label': 'BiologicalProcess', 'name': 'positive regulation of lymphocyte proliferation'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0048681', 'label': 'BiologicalProcess', 'name': 'negative regulation of axon regeneration'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB08880#BE0000382', 'https://pubmed.ncbi.nlm.nih.gov/24740824/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09310_MESH_C567691_1', 'disease': 'Hereditary factor XIII A subunit deficiency', 'disease_mesh': 'MESH:C567691', 'drug': 'catridecacog', 'drug_mesh': None, 'drugbank': 'DB:DB09310'}, 'links': [{'key': 'chemically similar to', 'source': 'DB:DB09310', 'target': 'UniProt:P00488'}, {'key': 'participates in', 'source': 'UniProt:P00488', 'target': 'GO:0072378'}, {'key': 'negatively correlated with', 'source': 'GO:0072378', 'target': 'MESH:C567691'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB09310', 'label': 'Drug', 'name': 'Catridecacog'}, {'id': 'GO:0072378', 'label': 'BiologicalProcess', 'name': 'Blood coagulation, fibrin clot formation'}, {'id': 'UniProt:P00488', 'label': 'Protein', 'name': 'Coagulation factor XIII A chain'}, {'id': 'MESH:C567691', 'label': 'Disease', 'name': 'Hereditary factor XIII A subunit deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB09310']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D014806_1', 'disease': 'Cobalamin deficiency', 'disease_mesh': 'MESH:D014806', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:P22033'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'negatively regulates', 'source': 'UniProt:P22033', 'target': 'CHEBI:16625'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'CHEBI:16625', 'target': 'HP:0002912'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'causes', 'source': 'HP:0002912', 'target': 'HP:0000707'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0000707', 'target': 'MESH:D014806'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'HP:0001889'}, {'key': 'positively correlated with', 'source': 'HP:0001889', 'target': 'MESH:D014806'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase'}, {'id': 'UniProt:P22033', 'label': 'Protein', 'name': 'Methylmalonyl-CoA mutase, mitochondrial'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'CHEBI:16625', 'label': 'ChemicalSubstance', 'name': 'methylmalonyl-CoA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'HP:0002912', 'label': 'PhenotypicFeature', 'name': 'Methylmalonic acidemia'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0000707', 'label': 'PhenotypicFeature', 'name': 'Abnormality of the nervous system'}, {'id': 'HP:0020060', 'label': 'PhenotypicFeature', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Cobalamin deficiency'}, {'id': 'HP:0001889', 'label': 'PhenotypicFeature', 'name': 'Megaloblastic anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/', 'https://en.wikipedia.org/wiki/Methylmalonic_acidemia#Neurologic_effects']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:P22033'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'negatively regulates', 'source': 'UniProt:P22033', 'target': 'CHEBI:16625'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'CHEBI:16625', 'target': 'HP:0002912'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'causes', 'source': 'HP:0002912', 'target': 'HP:0000707'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0000707', 'target': 'MESH:D001361'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'HP:0001889'}, {'key': 'positively correlated with', 'source': 'HP:0001889', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase'}, {'id': 'UniProt:P22033', 'label': 'Protein', 'name': 'Methylmalonyl-CoA mutase, mitochondrial'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'CHEBI:16625', 'label': 'ChemicalSubstance', 'name': 'methylmalonyl-CoA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'HP:0002912', 'label': 'PhenotypicFeature', 'name': 'Methylmalonic acidemia'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0000707', 'label': 'PhenotypicFeature', 'name': 'Abnormality of the nervous system'}, {'id': 'HP:0020060', 'label': 'PhenotypicFeature', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}, {'id': 'HP:0001889', 'label': 'PhenotypicFeature', 'name': 'Megaloblastic anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/', 'https://en.wikipedia.org/wiki/Methylmalonic_acidemia#Neurologic_effects']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D000752_1', 'disease': 'Pernicious anemia', 'disease_mesh': 'MESH:D000752', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'MESH:D000752'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase\\xa0'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0020060', 'label': 'BiologicalProcess', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D000752', 'label': 'Disease', 'name': 'Pernicious anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D018798_1', 'disease': 'Iron deficiency anemia', 'disease_mesh': 'MESH:D018798', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'negatively correlated with', 'source': 'DB:DB00115', 'target': 'MESH:D014806'}, {'key': 'positively correlated with', 'source': 'MESH:D014806', 'target': 'MESH:D008286'}, {'key': 'negatively correlated with', 'source': 'MESH:D008286', 'target': 'GO:005507'}, {'key': 'negatively correlated with', 'source': 'GO:005507', 'target': 'MESH:D018798'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Vitamin B 12 Deficiency'}, {'id': 'MESH:D008286', 'label': 'Disease', 'name': 'Malabsorption Syndromes'}, {'id': 'GO:005507', 'label': 'BiologicalProcess', 'name': 'iron ion homeostasis'}, {'id': 'MESH:D018798', 'label': 'Disease', 'name': 'Iron deficiency anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://en.wikipedia.org/wiki/Iron-deficiency_anemia']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Withdrawn for treatment of spasticity in most developed countries https://en.wikipedia.org/wiki/Chlorphenesin_carbamate', 'directed': True, 'graph': {'_id': 'DB00856_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'chlorphenesin carbamate', 'drug_mesh': 'MESH:D002743,MESH:C015071', 'drugbank': 'DB:DB00856'}, 'links': [{'key': 'causes', 'source': 'DB:DB00856', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00856', 'label': 'Drug', 'name': 'chlorphenesin carbamate'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB14656', 'https://www.ebi.ac.uk/chebi/chebiOntology.do?chebiId=CHEBI:3643']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00983_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'formoterol', 'drug_mesh': 'MESH:D000068759', 'drugbank': 'DB:DB00983'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068759', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068759', 'label': 'Drug', 'name': 'formoterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'Terminal bronchiole'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00983#BE0000694', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D000172_1', 'disease': 'Acromegaly', 'disease_mesh': 'MESH:D000172', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'negatively correlated with', 'source': 'MESH:D004298', 'target': 'GO:1902722'}, {'key': 'positively correlated with', 'source': 'GO:1902722', 'target': 'MESH:D010911'}, {'key': 'causes', 'source': 'MESH:D010911', 'target': 'MESH:D000172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:1902722', 'label': 'BiologicalProcess', 'name': 'positive regulation of\\xa0prolactin\\xa0secretion'}, {'id': 'MESH:D010911', 'label': 'Disease', 'name': 'Pituitary Neoplasms'}, {'id': 'MESH:D000172', 'label': 'Disease', 'name': 'Acromegaly'}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE0000581', 'https://en.wikipedia.org/wiki/Acromegaly#Causes']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'participates in', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Postencephalitic parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE000058', 'https://en.wikipedia.org/wiki/Postencephalitic_parkinsonism#:~:text=the%20free%20encyclopedia-,Postencephalitic%20parkinsonism,degeneration%20leads%20to%20clinical%20parkinsonism']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'participates in', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE000058', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D006966_1', 'disease': 'Hyperprolactinemia', 'disease_mesh': 'MESH:D006966', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'negatively correlated with', 'source': 'MESH:D004298', 'target': 'GO:1902722'}, {'key': 'positively correlated with', 'source': 'GO:1902722', 'target': 'MESH:D006966'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 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'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Clarithromycin#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'occurs in', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Streptococcus_pyogenes']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:83558'}, {'key': 'occurs in', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://www.ncbi.nlm.nih.gov/books/NBK560874/']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2104'}, {'key': 'occurs in', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Mycoplasma_pneumoniae']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'occurs in', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'occurs in', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Pneumococcal_pneumonia']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06799_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'methenamine', 'drug_mesh': 'MESH:C023055,MESH:D008709,MESH:C011481', 'drugbank': 'DB:DB06799'}, 'links': [{'key': 'produces', 'source': 'DB:DB06799', 'target': 'MESH:D005557'}, {'key': 'causes', 'source': 'MESH:D005557', 'target': 'GO:0030164'}, {'key': 'occurs in', 'source': 'GO:0030164', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06799', 'label': 'Drug', 'name': 'methenamine'}, {'id': 'MESH:D005557', 'label': 'ChemicalSubstance', 'name': 'Formaldehyde'}, {'id': 'GO:0030164', 'label': 'BiologicalProcess', 'name': 'protein denaturation'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB06799', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09162_MESH_D054559_1', 'disease': 'Hyperphosphatemia', 'disease_mesh': 'MESH:D054559', 'drug': 'ferric citrate', 'drug_mesh': 'MESH:C025314', 'drugbank': 'DB:DB09162'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C025314', 'target': 'CHEBI:29034'}, {'key': 'decreases abundance of', 'source': 'CHEBI:29034', 'target': 'CHEBI:18367'}, {'key': 'positively correlated with', 'source': 'CHEBI:18367', 'target': 'MESH:D054559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C025314', 'label': 'Drug', 'name': 'ferric citrate'}, {'id': 'CHEBI:29034', 'label': 'ChemicalSubstance', 'name': 'Iron(3+)'}, {'id': 'CHEBI:18367', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D054559', 'label': 'Disease', 'name': 'Hyperphosphatemia'}], 'reference': ['https://go.drugbank.com/drugs/DB14520']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12498_MESH_D016411_1', 'disease': 'Peripheral T-cell lymphoma', 'disease_mesh': 'MESH:D016411', 'drug': 'mogamulizumab', 'drug_mesh': 'MESH:C549035', 'drugbank': 'DB:DB12498'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C549035', 'target': 'UniProt:P51679'}, {'key': 'positively regulates', 'source': 'UniProt:P51679', 'target': 'GO:0038152'}, {'key': 'positively regulates', 'source': 'GO:0038152', 'target': 'GO:0042098'}, {'key': 'positively correlated 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'MESH:C061333', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061333', 'label': 'Drug', 'name': 'pramipexole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00413']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00413_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'pramipexole', 'drug_mesh': 'MESH:C061333', 'drugbank': 'DB:DB00413'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061333', 'label': 'Drug', 'name': 'pramipexole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00413', 'https://en.wikipedia.org/wiki/Restless_legs_syndrome']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D006929_1', 'disease': 'Aldosteronism', 'disease_mesh': 'MESH:D006929', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'MESH:D006929'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'MESH:D006929', 'label': 'Disease', 'name': 'Aldosteronism'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Hyperaldosteronism']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Edema']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D001201_1', 'disease': 'Ascites', 'disease_mesh': 'MESH:D001201', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D001201'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D001201', 'label': 'Disease', 'name': 'Ascites'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Ascites#:~:text=Ascites%20is%20the%20abnormal%20buildup,discomfort%2C%20and%20shortness%20of%20breath']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Hypertension']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00601', 'https://www.ncbi.nlm.nih.gov/books/NBK559152/']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P24228'}, {'key': 'positively regulates', 'source': 'UniProt:P24228', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P24228', 'label': 'Protein', 'name': 'D-alanyl-D-alanine carboxypeptidase DacB (Escherichia coli)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3049134/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D016920_1', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C059500', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'part of', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Streptococcus pneumoniae)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningitis#Bacterial']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D016920_2', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C059500', 'target': 'UniProt:P0A0Z5'}, {'key': 'positively regulates', 'source': 'UniProt:P0A0Z5', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'part of', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:487'}, {'key': 'causes', 'source': 'NCBITaxon:487', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P0A0Z5', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Neisseria meningitidis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:487', 'label': 'OrganismTaxon', 'name': 'Neisseria meningitidis'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningitis#Bacterial']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P24228'}, {'key': 'positively regulates', 'source': 'UniProt:P24228', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P24228', 'label': 'Protein', 'name': 'D-alanyl-D-alanine carboxypeptidase DacB (Escherichia coli)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/books/NBK519573/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D008585_1', 'disease': 'Meningococcal meningitis', 'disease_mesh': 'MESH:D008585', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P0A0Z5'}, {'key': 'positively regulates', 'source': 'UniProt:P0A0Z5', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:487'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:487', 'target': 'MESH:D008585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P0A0Z5', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Neisseria meningitidis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:487', 'label': 'OrganismTaxon', 'name': 'Neisseria meningitidis'}, {'id': 'MESH:D008585', 'label': 'Disease', 'name': 'Meningococcal meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningococcal_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D008586_1', 'disease': 'Pneumococcal meningitis', 'disease_mesh': 'MESH:D008586', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P59676'}, {'key': 'positively regulates', 'source': 'UniProt:P59676', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1313', 'target': 'MESH:D008586'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P59676', 'label': 'Protein', 'name': 'Penicillin-binding protein 2X (Streptococcus pneumoniae)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D008586', 'label': 'Disease', 'name': 'Pneumococcal meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3131058/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01351_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'amobarbital', 'drug_mesh': 'MESH:D000654', 'drugbank': 'DB:DB01351'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000654', 'label': 'Drug', 'name': 'amobarbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB01351', 'https://en.wikipedia.org/wiki/Status_epilepticus']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01351_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'amobarbital', 'drug_mesh': 'MESH:D000654', 'drugbank': 'DB:DB01351'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000654', 'label': 'Drug', 'name': 'amobarbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01351', 'https://en.wikipedia.org/wiki/Epilepsy']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01550_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'fenproporex', 'drug_mesh': 'MESH:C026013', 'drugbank': 'DB:DB01550'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C026013', 'target': 'MESH:D000661'}, {'key': 'positively regulates', 'source': 'MESH:D000661', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'MESH:D000661', 'target': 'GO:0004939'}, {'key': 'negatively regulates', 'source': 'GO:0004936', 'target': 'GO:0032100'}, {'key': 'negatively regulates', 'source': 'GO:0004939', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026013', 'label': 'Drug', 'name': 'fenproporex'}, {'id': 'MESH:D000661', 'label': 'ChemicalSubstance', 'name': 'Amphetamine'}, {'id': 'GO:0004936', 'label': 'MolecularActivity', 'name': 'alpha-adrenergic receptor activity'}, {'id': 'GO:0004939', 'label': 'MolecularActivity', 'name': 'beta-adrenergic receptor activity'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01550']}\n", + "['Drug', 'ChemicalSubstance', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06335_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'saxagliptin', 'drug_mesh': 'MESH:C502994', 'drugbank': 'DB:DB06335'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C502994', 'target': 'UniProt:P27487'}, {'key': 'negatively regulates', 'source': 'UniProt:P27487', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C502994', 'label': 'Drug', 'name': 'saxagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB06335', 'https://en.wikipedia.org/wiki/Type_2_diabetes']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08867_MESH_D007889_1', 'disease': 'Uterine leiomyoma', 'disease_mesh': 'MESH:D007889', 'drug': 'ulipristal', 'drug_mesh': 'MESH:C555622,MESH:C094854', 'drugbank': 'DB:DB08867'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB08867', 'target': 'GO:0006915'}, {'key': 'positively regulates', 'source': 'DB:DB08867', 'target': 'GO:0008285'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D007889'}, {'key': 'negatively correlated with', 'source': 'GO:0008285', 'target': 'MESH:D007889'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08867', 'label': 'Drug', 'name': 'ulipristal'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0008285', 'label': 'BiologicalProcess', 'name': 'down regulation of cell proliferation'}, {'id': 'MESH:D007889', 'label': 'Disease', 'name': 'Uterine leiomyoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08867']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00008_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'peginterferon alfa-2a', 'drug_mesh': 'MESH:C100416', 'drugbank': 'DB:DB00008'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C100416', 'target': 'UniProt:P48551'}, {'key': 'participates in', 'source': 'UniProt:P48551', 'target': 'GO:0007259'}, {'key': 'positively regulates', 'source': 'GO:0007259', 'target': 'REACT:R-HSA-1169410'}, {'key': 'part of', 'source': 'REACT:R-HSA-1169410', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100416', 'label': 'Drug', 'name': 'peginterferon alfa-2a'}, {'id': 'UniProt:P48551', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 2'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'receptor signaling pathway via JAK-STAT'}, {'id': 'REACT:R-HSA-1169410', 'label': 'Pathway', 'name': 'Antiviral mechanism by IFN-stimulated genes'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'antiviral innate immune response'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00008#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00008_MESH_D019698_2', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'peginterferon alfa-2a', 'drug_mesh': 'MESH:C100416', 'drugbank': 'DB:DB00008'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C100416', 'target': 'UniProt:P17181'}, {'key': 'participates in', 'source': 'UniProt:P17181', 'target': 'GO:0007259'}, {'key': 'positively regulates', 'source': 'GO:0007259', 'target': 'REACT:R-HSA-1169410'}, {'key': 'part of', 'source': 'REACT:R-HSA-1169410', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100416', 'label': 'Drug', 'name': 'peginterferon alfa-2a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'receptor signaling pathway via JAK-STAT'}, {'id': 'REACT:R-HSA-1169410', 'label': 'Pathway', 'name': 'Antiviral mechanism by IFN-stimulated genes'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'antiviral innate immune response'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00008#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_2', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_3', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 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'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00607_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'nafcillin', 'drug_mesh': 'MESH:D009254', 'drugbank': 'DB:DB00607'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009254', 'target': 'UniProt:P0A3M6'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'nafcillin'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 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'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'nafcillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00607#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'participates in', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 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'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D001991_2', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'participates in', 'source': 'UniProt:P13945', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis', 'reference': 'https://go.drugbank.com/drugs/DB00871#mechanism-of-action'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01141_MESH_D058387_1', 'disease': 'Candidemia', 'disease_mesh': 'MESH:D058387', 'drug': 'micafungin', 'drug_mesh': 'MESH:C121905', 'drugbank': 'DB:DB01141'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C121905', 'target': 'UniProt:A2QLK4'}, {'key': 'negatively correlated with', 'source': 'UniProt:A2QLK4', 'target': 'GO:0060636'}, {'key': 'disrupts', 'source': 'GO:0060636', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D058387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121905', 'label': 'Drug', 'name': 'micafungin'}, {'id': 'UniProt:A2QLK4', 'label': 'Protein', 'name': '1,3-beta-glucan synthase component FKS1'}, {'id': 'GO:0060636', 'label': 'BiologicalProcess', 'name': 'negative regulation of (1->3)-beta-D-glucan biosynthetic process'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'MESH:D058387', 'label': 'Disease', 'name': 'Candidemia', 'reference': 'https://go.drugbank.com/drugs/DB01141#mechanism-of-action'}]}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'exact MoA is unknown', 'directed': True, 'graph': {'_id': 'DB06708_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'lumefantrine', 'drug_mesh': 'MESH:C102070', 'drugbank': 'DB:DB06708'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C102070', 'target': 'UniProt:Q8IL04'}, {'key': 'positively correlated with', 'source': 'UniProt:Q8IL04', 'target': 'GO:0042167'}, {'key': 'decreases abundance of', 'source': 'GO:0042167', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C102070', 'label': 'Drug', 'name': 'lumefantrine'}, {'id': 'UniProt:Q8IL04', 'label': 'Protein', 'name': 'Heme ligase'}, {'id': 'GO:0042167', 'label': 'BiologicalProcess', 'name': 'heme catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06708#mechanism-of-action', 'https://www.uniprot.org/uniprot/Q8IL04#function', 'https://en.wikipedia.org/wiki/Heme#In_health_and_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01601_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'lopinavir', 'drug_mesh': 'MESH:D061466', 'drugbank': 'DB:DB01601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D061466', 'target': 'UniProt:Q72874'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q72874', 'target': 'GO:0010466'}, {'key': 'decreases activity of', 'source': 'GO:0010466', 'target': 'UniProt:P04591'}, {'key': 'participates in', 'source': 'UniProt:P04591', 'target': 'GO:0019068'}, {'key': 'in taxon', 'source': 'GO:0019068', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061466', 'label': 'Drug', 'name': 'lopinavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'Protease'}, {'id': 'GO:0010466', 'label': 'BiologicalProcess', 'name': 'negative regulation of peptidase activity'}, {'id': 'UniProt:P04591', 'label': 'Protein', 'name': 'Gag polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'virion assembly'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01601#mechanism-of-action', 'https://www.uniprot.org/uniprot/P04591#function', 'https://pubmed.ncbi.nlm.nih.gov/23266279/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'both Tafamidis and tafamidis meglumine (FX-1006A, which is drugbank:DB05352) are benzoxazole derivatives (https://go.drugbank.com/drugs/DB11644#description)', 'directed': True, 'graph': {'_id': 'DB05352_MESH_D000686_1', 'disease': 'Amyloidosis', 'disease_mesh': 'MESH:D000686', 'drug': 'tafamidis', 'drug_mesh': 'MESH:C547076', 'drugbank': 'DB:DB05352'}, 'links': [{'key': 'increases stability of', 'source': 'MESH:C547076', 'target': 'UniProt:P02766'}, {'key': 'enables', 'source': 'UniProt:P02766', 'target': 'GO:0042802'}, {'key': 'causes', 'source': 'GO:0042802', 'target': 'GO:0051262'}, {'key': 'disrupted by', 'source': 'GO:0051262', 'target': 'GO:0043243'}, {'key': 'correlated with', 'source': 'GO:0043243', 'target': 'GO:1903333'}, {'key': 'exacerbates', 'source': 'GO:1903333', 'target': 'GO:1990000'}, {'key': 'causes', 'source': 'GO:1990000', 'target': 'MESH:D000686'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C547076', 'label': 'Drug', 'name': 'tafamidis'}, {'id': 'UniProt:P02766', 'label': 'Protein', 'name': 'Transthyretin'}, {'id': 'GO:0042802', 'label': 'MolecularActivity', 'name': 'identical protein binding'}, {'id': 'GO:0051262', 'label': 'BiologicalProcess', 'name': 'protein tetramerization'}, {'id': 'GO:0043243', 'label': 'BiologicalProcess', 'name': 'positive regulation of protein-containing complex disassembly'}, {'id': 'GO:1903333', 'label': 'BiologicalProcess', 'name': 'negative regulation of protein folding'}, {'id': 'GO:1990000', 'label': 'BiologicalProcess', 'name': 'amyloid fibril formation'}, {'id': 'MESH:D000686', 'label': 'Disease', 'name': 'Amyloidosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11644#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'belotecan', 'drug_mesh': 'MESH:C116963', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C116963', 'target': 'UniProt:P11387'}, {'key': 'positively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0003677'}, {'key': 'correlated with', 'source': 'GO:0003677', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116963', 'label': 'Drug', 'name': 'belotecan'}, {'id': 'UniProt:P11387', 'label': 'Protein', 'name': 'DNA topoisomerase 1'}, {'id': 'GO:0003677', 'label': 'MolecularActivity', 'name': 'DNA binding'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Belotecan-hydrochloride', 'https://en.wikipedia.org/wiki/Belotecan']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'belotecan', 'drug_mesh': 'MESH:C116963', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C116963', 'target': 'UniProt:P11387'}, {'key': 'positively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0003677'}, {'key': 'correlated with', 'source': 'GO:0003677', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116963', 'label': 'Drug', 'name': 'belotecan'}, {'id': 'UniProt:P11387', 'label': 'Protein', 'name': 'DNA topoisomerase 1'}, {'id': 'GO:0003677', 'label': 'MolecularActivity', 'name': 'DNA binding'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Belotecan-hydrochloride', 'https://en.wikipedia.org/wiki/Belotecan']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q01959'}, {'key': 'causes', 'source': 'UniProt:Q01959', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0001021'}, {'key': 'decreases abundance of', 'source': 'UBERON:0001021', 'target': 'HP:0002591'}, {'key': 'correlated with', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'Amfetamine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'dopamine transporter protein'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0001021', 'label': 'GrossAnatomicalStructure', 'name': 'Nerve'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'Appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6095132/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:P23975'}, {'key': 'causes', 'source': 'UniProt:P23975', 'target': 'MESH:D009638'}, {'key': 'located in', 'source': 'MESH:D009638', 'target': 'UBERON:0001021'}, {'key': 'decreases abundance of', 'source': 'UBERON:0001021', 'target': 'HP:0002591'}, {'key': 'correlated with', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Noradrenaline transporter protein'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'norepinephrine'}, {'id': 'UBERON:0001021', 'label': 'GrossAnatomicalStructure', 'name': 'nerve'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6095132/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q05940'}, {'key': 'increases abundance of', 'source': 'UniProt:Q05940', 'target': 'MESH:D018377'}, {'key': 'located in', 'source': 'MESH:D018377', 'target': 'GO:0045202'}, {'key': 'treats', 'source': 'GO:0045202', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'monoamine transporter'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009290_2', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000661', 'target': 'InterPro:IPR001613'}, {'key': 'located in', 'source': 'InterPro:IPR001613', 'target': 'GO:0005739'}, {'key': 'increases abundance of', 'source': 'GO:0005739', 'target': 'MESH:D018377'}, {'key': 'treats', 'source': 'MESH:D018377', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'InterPro:IPR001613', 'label': 'GeneFamily', 'name': 'monoamine oxidase'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'mitochondria'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q05940'}, {'key': 'increases abundance of', 'source': 'UniProt:Q05940', 'target': 'MESH:D018377'}, {'key': 'located in', 'source': 'MESH:D018377', 'target': 'GO:0045202'}, {'key': 'negatively correlated with', 'source': 'GO:0045202', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'monoamine transporter'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_2', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000661', 'target': 'InterPro:IPR001613'}, {'key': 'located in', 'source': 'InterPro:IPR001613', 'target': 'GO:0005739'}, {'key': 'increases abundance of', 'source': 'GO:0005739', 'target': 'MESH:D018377'}, {'key': 'regulates', 'source': 'MESH:D018377', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'InterPro:IPR001613', 'label': 'Protein', 'name': 'monoamine oxidase'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'mitochondria'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'Protein', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_3', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'contributes to', 'source': 'MESH:D000661', 'target': 'UniProt:Q99870'}, {'key': 'located in', 'source': 'UniProt:Q99870', 'target': 'GO:0098584'}, {'key': 'produces', 'source': 'GO:0098584', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'GO:0045202'}, {'key': 'treats', 'source': 'GO:0045202', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q99870', 'label': 'Protein', 'name': 'Vesicle monoamine transporter type 2'}, {'id': 'GO:0098584', 'label': 'CellularComponent', 'name': 'presynaptic nerve terminal'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'Protein', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_4', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000661', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0002435'}, {'key': 'causes', 'source': 'UBERON:0002435', 'target': 'MESH:D003863'}, {'key': 'correlated with', 'source': 'MESH:D003863', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0002435', 'label': 'GrossAnatomicalStructure', 'name': 'striatum'}, {'id': 'MESH:D003863', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_5', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000661', 'target': 'MESH:D009638'}, {'key': 'located in', 'source': 'MESH:D009638', 'target': 'UBERON:0000451'}, {'key': 'causes', 'source': 'UBERON:0000451', 'target': 'MESH:D003863'}, {'key': 'correlated with', 'source': 'MESH:D003863', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'noradrenaline'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'prefrontal cortex'}, {'id': 'MESH:D003863', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00435_MESH_D010547_1', 'disease': 'Persistent pulmonary hypertension of the newborn', 'disease_mesh': 'MESH:D010547', 'drug': 'nitric oxide', 'drug_mesh': 'MESH:D009569', 'drugbank': 'DB:DB00435'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'HP:0004972'}, {'key': 'located in', 'source': 'HP:0004972', 'target': 'UBERON:0002048'}, {'key': 'causes', 'source': 'UBERON:0002048', 'target': 'MESH:D010547'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009569', 'label': 'Drug', 'name': 'nitric oxide'}, {'id': 'HP:0004972', 'label': 'PhenotypicFeature', 'name': 'partial pressure of arterial Oxygen'}, {'id': 'UBERON:0002048', 'label': 'GrossAnatomicalStructure', 'name': 'lung'}, {'id': 'MESH:D010547', 'label': 'Disease', 'name': 'Persistent pulmonary hypertension of the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB00435#mechanismofaction']}\n", + "['Drug', 'PhenotypicFeature', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00435_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'nitric oxide', 'drug_mesh': 'MESH:D009569', 'drugbank': 'DB:DB00435'}, 'links': [{'key': 'increases 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'MESH:D006976', 'label': 'Disease', 'name': 'pulmonary hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00435#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D009325_1', 'disease': 'Nausea', 'disease_mesh': 'MESH:D009325', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002936', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D009325'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptor'}, {'id': 'MESH:D009325', 'label': 'Disease', 'name': 'nausea'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D014717_1', 'disease': 'Vertigo', 'disease_mesh': 'MESH:D014717', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002936', 'target': 'UniProt:Q13698'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13698', 'target': 'GO:0014829'}, {'key': 'treats', 'source': 'GO:0014829', 'target': 'MESH:D014717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'L-type calcium channel'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle contraction'}, {'id': 'MESH:D014717', 'label': 'Disease', 'name': 'vertigo'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D014717_2', 'disease': 'Vertigo', 'disease_mesh': 'MESH:D014717', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002936', 'target': 'UniProt:Q9P0X4'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0014829'}, {'key': 'treats', 'source': 'GO:0014829', 'target': 'MESH:D014717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'T-type calcium channel'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle contraction'}, {'id': 'MESH:D014717', 'label': 'Disease', 'name': 'vertigo'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D009041_1', 'disease': 'Motion sickness', 'disease_mesh': 'MESH:D009041', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002936', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D009041'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptor'}, {'id': 'MESH:D009041', 'label': 'Disease', 'name': 'motion sickness'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00655_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'estrone', 'drug_mesh': 'MESH:D004970', 'drugbank': 'DB:DB00655'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D004970', 'target': 'UniProt:P04278'}, {'key': 'located in', 'source': 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"['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00655_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'estrone', 'drug_mesh': 'MESH:D004970', 'drugbank': 'DB:DB00655'}, 'links': [{'key': 'regulates', 'source': 'MESH:D004970', 'target': 'MESH:D004967'}, {'key': 'treats', 'source': 'MESH:D004967', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004970', 'label': 'Drug', 'name': 'estrone'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00655#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01294_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'bismuth subsalicylate', 'drug_mesh': 'MESH:C015715', 'drugbank': 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'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01294_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'bismuth subsalicylate', 'drug_mesh': 'MESH:C015715', 'drugbank': 'DB:DB01294'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C015715', 'target': 'MESH:D001427'}, {'key': 'contributes to', 'source': 'MESH:D001427', 'target': 'MESH:D001424'}, {'key': 'correlated with', 'source': 'MESH:D001424', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015715', 'label': 'Drug', 'name': 'bismuth subsalicylate'}, {'id': 'MESH:D001427', 'label': 'ChemicalSubstance', 'name': 'bacterial toxins'}, {'id': 'MESH:D001424', 'label': 'Disease', 'name': 'bacterial infection'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'indigesion'}], 'reference': ['https://go.drugbank.com/drugs/DB01294#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01105_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'sibutramine', 'drug_mesh': 'MESH:C058254', 'drugbank': 'DB:DB01105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058254', 'target': 'MESH:D009638'}, {'key': 'regulates', 'source': 'MESH:D009638', 'target': 'HP:0002591'}, {'key': 'treats', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058254', 'label': 'Drug', 'name': 'sibutramine'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'norepinephrine'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01105#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01105_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'sibutramine', 'drug_mesh': 'MESH:C058254', 'drugbank': 'DB:DB01105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058254', 'target': 'MESH:D012701'}, {'key': 'regulates', 'source': 'MESH:D012701', 'target': 'HP:0002591'}, {'key': 'treats', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058254', 'label': 'Drug', 'name': 'sibutramine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01105#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'withdrawn', 'directed': True, 'graph': {'_id': 'DB09010_MESH_D003110_1', 'disease': 'Malignant tumor of colon', 'disease_mesh': 'MESH:D003110', 'drug': 'carmofur', 'drug_mesh': 'MESH:C017367', 'drugbank': 'DB:DB09010'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017367', 'target': 'UniProt:Q13510'}, {'key': 'disrupts', 'source': 'UniProt:Q13510', 'target': 'MESH:D002470'}, {'key': 'correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D003110'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017367', 'label': 'Drug', 'name': 'carmofur'}, {'id': 'UniProt:Q13510', 'label': 'Protein', 'name': 'acid ceramidase'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'cell survival'}, {'id': 'MESH:D003110', 'label': 'Disease', 'name': 'colon cancer'}], 'reference': ['https://en.wikipedia.org/wiki/Carmofur']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'withdrawn', 'directed': True, 'graph': {'_id': 'DB09010_MESH_D000086382_1', 'disease': 'Covid-19', 'disease_mesh': 'MESH:D000086382', 'drug': 'carmofur', 'drug_mesh': 'MESH:C017367', 'drugbank': 'DB:DB09010'}, 'links': [{'key': 'decreases activity of', 'source': 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'gout'}], 'reference': ['https://go.drugbank.com/drugs/DB01685#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D007418_1', 'disease': 'Paralytic ileus', 'disease_mesh': 'MESH:D007418', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'produces', 'source': 'MESH:C007288', 'target': 'MESH:D010205'}, {'key': 'part of', 'source': 'MESH:D010205', 'target': 'MESH:D003065'}, {'key': 'actively involved in', 'source': 'MESH:D003065', 'target': 'REACT:R-HSA-392499'}, {'key': 'located in', 'source': 'REACT:R-HSA-392499', 'target': 'CL:0000066'}, {'key': 'treats', 'source': 'CL:0000066', 'target': 'MESH:D007418'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'MESH:D010205', 'label': 'ChemicalSubstance', 'name': 'pantothenic acid'}, {'id': 'MESH:D003065', 'label': 'ChemicalSubstance', 'name': 'Coenzyme 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'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'MESH:D010205', 'label': 'ChemicalSubstance', 'name': 'pantothenic acid'}, {'id': 'MESH:D003065', 'label': 'ChemicalSubstance', 'name': 'Coenzyme A'}, {'id': 'REACT:R-HSA-392499', 'label': 'Pathway', 'name': 'protein metabolism'}, {'id': 'CL:0000066', 'label': 'Cell', 'name': 'epithelium'}, {'id': 'MESH:D018589', 'label': 'Disease', 'name': 'Gastroparesis'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Pathway', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D003963_1', 'disease': 'Diaper rash', 'disease_mesh': 'MESH:D003963', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D003963'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D003963', 'label': 'Disease', 'name': 'Diaper rash'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D004485_1', 'disease': 'Eczema', 'disease_mesh': 'MESH:D004485', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D004485'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D004485', 'label': 'Disease', 'name': 'Eczema'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D012871_1', 'disease': 'Disorder of skin', 'disease_mesh': 'MESH:D012871', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D012871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D012871', 'label': 'Disease', 'name': 'skin disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00007_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'leuprorelin', 'drug_mesh': 'MESH:D016729,MESH:C493311', 'drugbank': 'DB:DB00007'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00007', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'positively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00007', 'label': 'Drug', 'name': 'leuprorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00007', 'https://en.wikipedia.org/wiki/Endometriosis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00007_MESH_D011629_1', 'disease': 'Precocious puberty', 'disease_mesh': 'MESH:D011629', 'drug': 'leuprorelin', 'drug_mesh': 'MESH:D016729,MESH:C493311', 'drugbank': 'DB:DB00007'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00007', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006702'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006701'}, {'key': 'negatively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D011629'}, {'key': 'negatively correlated with', 'source': 'GO:0006702', 'target': 'MESH:D011629'}, {'key': 'negatively correlated with', 'source': 'GO:0006701', 'target': 'MESH:D011629'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00007', 'label': 'Drug', 'name': 'leuprorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006701', 'label': 'BiologicalProcess', 'name': 'progesterone biosynthetic process'}, {'id': 'MESH:D011629', 'label': 'Disease', 'name': 'Precocious puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB00007', 'https://en.wikipedia.org/wiki/Precocious_puberty']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00222_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'glimepiride', 'drug_mesh': 'MESH:C057619', 'drugbank': 'DB:DB00222'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C057619', 'target': 'UniProt:Q14654'}, {'key': 'decreases activity of', 'source': 'MESH:C057619', 'target': 'UniProt:P48048'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C057619', 'label': 'Drug', 'name': 'glimepiride'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00222']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D003874_1', 'disease': 'Dermatitis herpetiformis', 'disease_mesh': 'MESH:D003874', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003622', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003874'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003874', 'label': 'Disease', 'name': 'Dermatitis herpetiformis'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Dermatitis_herpetiformis']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:A0A2B7ICU0'}, {'key': 'positively regulates', 'source': 'UniProt:A0A2B7ICU0', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:A0A2B7ICU0', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Cutibacterium acnes)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Acne', 'https://pubmed.ncbi.nlm.nih.gov/24310318/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D007918_1', 'disease': 'Leprosy', 'disease_mesh': 'MESH:D007918', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:P0C0X1'}, {'key': 'positively regulates', 'source': 'UniProt:P0C0X1', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1769'}, {'key': 'causes', 'source': 'NCBITaxon:1769', 'target': 'MESH:D007918'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:P0C0X1', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Mycobacterium leprae)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1769', 'label': 'OrganismTaxon', 'name': 'Mycobacterium leprae'}, {'id': 'MESH:D007918', 'label': 'Disease', 'name': 'Leprosy'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Leprosy']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D007918_2', 'disease': 'Leprosy', 'disease_mesh': 'MESH:D007918', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:A0A0F4ER22'}, {'key': 'positively regulates', 'source': 'UniProt:A0A0F4ER22', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:480418'}, {'key': 'causes', 'source': 'NCBITaxon:480418', 'target': 'MESH:D007918'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:A0A0F4ER22', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Mycobacterium lepromatosis)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:480418', 'label': 'OrganismTaxon', 'name': 'Mycobacterium lepromatosis'}, {'id': 'MESH:D007918', 'label': 'Disease', 'name': 'Leprosy'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Leprosy']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'terminal bronchiole'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Allergic_rhinitis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Bronchitis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00408_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'loxapine', 'drug_mesh': 'MESH:D008152', 'drugbank': 'DB:DB00408'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'correlated with', 'source': 'GO:0060096', 'target': 'MESH:D012559'}, {'key': 'correlated with', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008152', 'label': 'Drug', 'name': 'loxapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00408#BE0000756', 'https://pubmed.ncbi.nlm.nih.gov/27189524/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4255483/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00408_MESH_D001714_1', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'loxapine', 'drug_mesh': 'MESH:D008152', 'drugbank': 'DB:DB00408'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'correlated with', 'source': 'GO:0060096', 'target': 'MESH:D001714'}, {'key': 'correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008152', 'label': 'Drug', 'name': 'loxapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00408#BE0000756', 'https://en.wikipedia.org/wiki/Bipolar_disorder']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01101_MESH_D013274_1', 'disease': 'Malignant tumor of stomach', 'disease_mesh': 'MESH:D013274', 'drug': 'capecitabine', 'drug_mesh': 'MESH:D000069287', 'drugbank': 'DB:DB01101'}, 'links': [{'key': 'produces', 'source': 'MESH:D000069287', 'target': 'MESH:D005472'}, {'key': 'decreases activity of', 'source': 'MESH:D005472', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:D005472', 'target': 'GO:0090592'}, {'key': 'negatively regulates', 'source': 'MESH:D005472', 'target': 'GO:0032774'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'CHEBI:63528'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0008283'}, {'key': 'part of', 'source': 'GO:0032774', 'target': 'GO:0008283'}, {'key': 'participates in', 'source': 'CHEBI:63528', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D013274'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069287', 'label': 'Drug', 'name': 'Capecitabine'}, {'id': 'MESH:D005472', 'label': 'ChemicalSubstance', 'name': 'Fluorouracil'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA biosynthetic process'}, {'id': 'CHEBI:63528', 'label': 'ChemicalSubstance', 'name': 'Thymidine monophosphate'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D013274', 'label': 'Disease', 'name': 'Malignant tumor of stomach'}], 'reference': ['https://go.drugbank.com/drugs/DB01101#BE0000324', 'https://en.wikipedia.org/wiki/Stomach_cancer']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D001171_1', 'disease': 'Juvenile rheumatoid arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01100_MESH_D005879_2', 'disease': \"Gilles de la Tourette's syndrome\", 'disease_mesh': 'MESH:D005879', 'drug': 'pimozide', 'drug_mesh': 'MESH:D010868', 'drugbank': 'DB:DB01100'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P35462'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'GO:1903350'}, {'key': 'participates in', 'source': 'UniProt:P35462', 'target': 'GO:1903350'}, {'key': 'positively correlated with', 'source': 'GO:1903350', 'target': 'MESH:D005879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010868', 'label': 'Drug', 'name': 'pimozide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'GO:1903350', 'label': 'BiologicalProcess', 'name': 'response to dopamine'}, {'id': 'MESH:D005879', 'label': 'Disease', 'name': \"Gilles de la Tourette's syndrome\"}], 'reference': ['https://go.drugbank.com/drugs/DB01100', 'https://en.wikipedia.org/wiki/Tourette_syndrome']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01708_MESH_D004414_1', 'disease': 'Dyspareunia', 'disease_mesh': 'MESH:D004414', 'drug': 'prasterone', 'drug_mesh': 'MESH:D003687', 'drugbank': 'DB:DB01708'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:Q92731'}, {'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0030520'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0030520'}, {'key': 'treats', 'source': 'GO:0030520', 'target': 'MESH:D004414'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D004414'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003687', 'label': 'Drug', 'name': 'Prasterone'}, {'id': 'MESH:D004414', 'label': 'Disease', 'name': 'Dyspareunia'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'GO:0030520', 'label': 'BiologicalProcess', 'name': 'Intracellular estrogen receptor signaling pathway'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}], 'reference': ['https://go.drugbank.com/drugs/DB01708#BE0000132', 'https://en.wikipedia.org/wiki/Dehydroepiandrosterone']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01708_MESH_D008180_1', 'disease': 'Systemic lupus erythematosus', 'disease_mesh': 'MESH:D008180', 'drug': 'prasterone', 'drug_mesh': 'MESH:D003687', 'drugbank': 'DB:DB01708'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D008180'}, {'key': 'decreases activity of', 'source': 'MESH:D003687', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0002947'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0032612'}, {'key': 'positively correlated with', 'source': 'GO:0032635', 'target': 'MESH:D008180'}, {'key': 'positively correlated with', 'source': 'GO:0002947', 'target': 'MESH:D008180'}, {'key': 'positively correlated with', 'source': 'GO:0032612', 'target': 'MESH:D008180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003687', 'label': 'Drug', 'name': 'Prasterone'}, {'id': 'MESH:D008180', 'label': 'Disease', 'name': 'Systemic lupus erythematosus'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'Interleukin-6 production'}, {'id': 'GO:0002947', 'label': 'CellularComponent', 'name': 'Tumor necrosis factor receptor superfamily complex'}, {'id': 'GO:0032612', 'label': 'BiologicalProcess', 'name': 'Interleukin-1 production'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2701249/', 'https://go.drugbank.com/drugs/DB01708#BE0000123']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04865_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'omacetaxine mepesuccinate', 'drug_mesh': 'MESH:C001652', 'drugbank': 'DB:DB04865'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C001652', 'target': 'UniProt:P39023'}, {'key': 'participates in', 'source': 'UniProt:P39023', 'target': 'GO:0006412'}, {'key': 'increases abundance of', 'source': 'GO:0006412', 'target': 'UniProt:A9UF02'}, {'key': 'causes', 'source': 'UniProt:A9UF02', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C001652', 'label': 'Drug', 'name': 'omacetaxine mepesuccinate'}, {'id': 'UniProt:P39023', 'label': 'Protein', 'name': '60S ribosomal protein L3'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'UniProt:A9UF02', 'label': 'Protein', 'name': 'BCR/ABL protein-tyrosine kinase'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04865#BE0003833', 'https://pubmed.ncbi.nlm.nih.gov/24501394/']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DBDB08902_MESH_C571912_1', 'disease': 'Inhalational anthrax', 'disease_mesh': 'MESH:C571912', 'drug': 'raxibacumab', 'drug_mesh': 'MESH:C542124', 'drugbank': 'DB:DBDB08902'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C542124', 'target': 'UniProt:P13423'}, {'key': 'produced by', 'source': 'UniProt:P13423', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:C571912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C542124', 'label': 'Drug', 'name': 'raxibacumab'}, {'id': 'UniProt:P13423', 'label': 'Protein', 'name': 'Protective antigen'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus 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'MESH:D014581', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 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'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'Clemastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00360_MESH_D010661_1', 'disease': 'Classical phenylketonuria', 'disease_mesh': 'MESH:D010661', 'drug': 'sapropterin', 'drug_mesh': 'MESH:C003402', 'drugbank': 'DB:DB00360'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C003402', 'target': 'UniProt:P00439'}, {'key': 'positively regulates', 'source': 'UniProt:P00439', 'target': 'GO:0004505'}, {'key': 'decreases abundance of', 'source': 'GO:0004505', 'target': 'CHEBI:28044'}, {'key': 'positively correlated with', 'source': 'CHEBI:28044', 'target': 'MESH:D010661'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C003402', 'label': 'Drug', 'name': 'sapropterin'}, {'id': 'UniProt:P00439', 'label': 'Protein', 'name': 'Phenylalanine-4-hydroxylase'}, {'id': 'GO:0004505', 'label': 'MolecularActivity', 'name': 'phenylalanine 4-monooxygenase activity'}, {'id': 'CHEBI:28044', 'label': 'ChemicalSubstance', 'name': 'phenylalanine'}, {'id': 'MESH:D010661', 'label': 'Disease', 'name': 'Classical phenylketonuria'}], 'reference': ['https://go.drugbank.com/drugs/DB00360#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tetrahydrobiopterin#Cofactor_for_phenylalanine_hydroxylase']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00626_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'bacitracin', 'drug_mesh': 'MESH:D001414', 'drugbank': 'DB:DB00626'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D001414', 'target': 'CHEBI:17047'}, {'key': 'participates in', 'source': 'CHEBI:17047', 'target': 'GO:0009273'}, {'key': 'in taxon', 'source': 'GO:0009273', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001414', 'label': 'Drug', 'name': 'bacitracin'}, {'id': 'CHEBI:17047', 'label': 'ChemicalSubstance', 'name': 'all-trans-undecaprenyl diphosphate'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00626#mechanism-of-action', 'https://go.drugbank.com/drugs/DB00626#BE0004829']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D006501_1', 'disease': 'Hepatic encephalopathy', 'disease_mesh': 'MESH:D006501', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'in taxon', 'source': 'CHEBI:18111', 'target': 'NCBITaxon:562'}, {'key': 'regulates', 'source': 'NCBITaxon:562', 'target': 'GO:0097272'}, {'key': 'prevents', 'source': 'GO:0097272', 'target': 'HP:0001987'}, {'key': 'positively correlated with', 'source': 'HP:0001987', 'target': 'MESH:D006501'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'GO:0097272', 'label': 'BiologicalProcess', 'name': 'ammonium homeostasis'}, {'id': 'HP:0001987', 'label': 'PhenotypicFeature', 'name': 'Hyperammonemia'}, {'id': 'MESH:D006501', 'label': 'Disease', 'name': 'Hepatic encephalopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'OrganismTaxon', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01307_MESH_D003920_1', 'disease': 'Diabetes mellitus', 'disease_mesh': 'MESH:D003920', 'drug': 'insulin detemir', 'drug_mesh': 'MESH:D000069057', 'drugbank': 'DB:DB01307'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069057', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'UniProt:P31749'}, {'key': 'positively regulates', 'source': 'UniProt:P31749', 'target': 'UniProt:P14672'}, {'key': 'positively regulates', 'source': 'UniProt:P31749', 'target': 'MESH:D011493'}, {'key': 'positively regulates', 'source': 'UniProt:P14672', 'target': 'GO:0046323'}, {'key': 'positively regulates', 'source': 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'https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=d38d65c1-25bf-401d-9c7e-a2c3222da8af']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D000077299_1', 'disease': 'Nosocomial pneumonia', 'disease_mesh': 'MESH:D000077299', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'UniProt:P62594'}, {'key': 'positively regulates', 'source': 'UniProt:P62594', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:90370'}, {'key': 'causes', 'source': 'NCBITaxon:90370', 'target': 'MESH:D000077299'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'UniProt:P62594', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 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['https://www.targetvalidation.org/summary?drug=CHEMBL388590', 'https://en.wikipedia.org/wiki/SLC22A12#Clinical_significance', 'https://en.wikipedia.org/wiki/Uricosuric#Pharmacology', 'https://en.wikipedia.org/wiki/Hyperuricemia#Uricosurics']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12319_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'benzbromarone', 'drug_mesh': 'MESH:D001553', 'drugbank': 'DB:DB12319'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001553', 'target': 'UniProt:Q96S37'}, {'key': 'positively regulates', 'source': 'UniProt:Q96S37', 'target': 'GO:0015747'}, {'key': 'precedes', 'source': 'GO:0015747', 'target': 'GO:0097744'}, {'key': 'negatively correlated with', 'source': 'GO:0097744', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001553', 'label': 'Drug', 'name': 'benzbromarone'}, {'id': 'UniProt:Q96S37', 'label': 'Protein', 'name': 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['https://go.drugbank.com/drugs/DB01579#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01579_MESH_D009765_5', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'phendimetrazine', 'drug_mesh': 'MESH:C100294', 'drugbank': 'DB:DB01579'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100294', 'target': 'UniProt:P35368'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35368', 'target': 'GO:0032098'}, {'key': 'positively regulates', 'source': 'GO:0032098', 'target': 'GO:0008152'}, {'key': 'treats', 'source': 'GO:0008152', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100294', 'label': 'Drug', 'name': 'phendimetrazine'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'appetite'}, {'id': 'GO:0008152', 'label': 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'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_3', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014635', 'target': 'UniProt:P36507'}, {'key': 'increases activity of', 'source': 'UniProt:P36507', 'target': 'UniProt:P28482'}, {'key': 'increases expression of', 'source': 'UniProt:P28482', 'target': 'UniProt:P19419'}, {'key': 'increases abundance of', 'source': 'UniProt:P19419', 'target': 'UniProt:P23560'}, {'key': 'increases activity of', 'source': 'UniProt:P23560', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0061534'}, {'key': 'prevents', 'source': 'GO:0061534', 'target': 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'Protein', 'name': 'GABA transaminase'}, {'id': 'REACT:R-HSA-1430728', 'label': 'Pathway', 'name': 'GABA metabolism'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'GABAergic neurotransmission'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_6', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014635', 'target': 'UniProt:P36507'}, {'key': 'increases activity of', 'source': 'UniProt:P36507', 'target': 'UniProt:P28482'}, {'key': 'increases expression of', 'source': 'UniProt:P28482', 'target': 'UniProt:P19419'}, {'key': 'increases abundance of', 'source': 'UniProt:P19419', 'target': 'UniProt:P01100'}, {'key': 'positively regulates', 'source': 'UniProt:P01100', 'target': 'GO:0022008'}, {'key': 'contributes to', 'source': 'GO:0022008', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P36507', 'label': 'Protein', 'name': 'mitogen-activated protein kinase (MEK)'}, {'id': 'UniProt:P28482', 'label': 'Protein', 'name': 'Extracellular Signal-Regulated Kinase'}, {'id': 'UniProt:P19419', 'label': 'Protein', 'name': 'ELK-1'}, {'id': 'UniProt:P01100', 'label': 'Protein', 'name': 'c-fos'}, {'id': 'GO:0022008', 'label': 'BiologicalProcess', 'name': 'neurogenesis'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_7', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014635', 'target': 'UniProt:P36507'}, {'key': 'increases activity of', 'source': 'UniProt:P36507', 'target': 'UniProt:P28482'}, {'key': 'increases expression of', 'source': 'UniProt:P28482', 'target': 'UniProt:P19419'}, {'key': 'increases abundance of', 'source': 'UniProt:P19419', 'target': 'UniProt:P17677'}, {'key': 'positively regulates', 'source': 'UniProt:P17677', 'target': 'GO:0022008'}, {'key': 'contributes to', 'source': 'GO:0022008', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P36507', 'label': 'Protein', 'name': 'mitogen-activated protein kinase (MEK)'}, {'id': 'UniProt:P28482', 'label': 'Protein', 'name': 'Extracellular Signal-Regulated Kinase'}, {'id': 'UniProt:P19419', 'label': 'Protein', 'name': 'ELK-1'}, {'id': 'UniProt:P17677', 'label': 'Protein', 'name': 'growth cone-associated protein-43'}, {'id': 'GO:0022008', 'label': 'BiologicalProcess', 'name': 'neurogenesis'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_8', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014635', 'target': 'UniProt:P36507'}, {'key': 'increases activity of', 'source': 'UniProt:P36507', 'target': 'UniProt:P28482'}, {'key': 'increases expression of', 'source': 'UniProt:P28482', 'target': 'UniProt:P19419'}, {'key': 'increases abundance of', 'source': 'UniProt:P19419', 'target': 'UniProt:P23560'}, {'key': 'increases activity of', 'source': 'UniProt:P23560', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0061534'}, {'key': 'treats', 'source': 'GO:0061534', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P36507', 'label': 'Protein', 'name': 'mitogen-activated protein kinase (MEK)'}, {'id': 'UniProt:P28482', 'label': 'Protein', 'name': 'Extracellular Signal-Regulated Kinase'}, {'id': 'UniProt:P19419', 'label': 'Protein', 'name': 'ELK-1'}, {'id': 'UniProt:P23560', 'label': 'Protein', 'name': 'brain-derived neurotrophic factor (BDNF)'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'GABAA receptors'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'GABAergic neurotransmission'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_9', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:Q9UKV0'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UKV0', 'target': 'GO:0045893'}, {'key': 'increases expression of', 'source': 'GO:0045893', 'target': 'UniProt:P23560'}, {'key': 'treats', 'source': 'UniProt:P23560', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:Q9UKV0', 'label': 'Protein', 'name': 'histone deactylase (HDAC)'}, {'id': 'GO:0045893', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'UniProt:P23560', 'label': 'Protein', 'name': 'brain-derived neurotrophic factor (BDNF)'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D001714_1', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'InterPro:IPR002587'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR002587', 'target': 'UniProt:P29218'}, {'key': 'decreases abundance of', 'source': 'UniProt:P29218', 'target': 'MESH:D007294'}, {'key': 'correlated with', 'source': 'MESH:D007294', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'InterPro:IPR002587', 'label': 'GeneFamily', 'name': 'myo-inositol-1-phophate synthetase'}, {'id': 'UniProt:P29218', 'label': 'Protein', 'name': 'inositol monophosphatase'}, {'id': 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'UniProt:Q02156'}, {'key': 'located in', 'source': 'UniProt:Q02156', 'target': 'UBERON:0001870'}, {'key': 'contributes to', 'source': 'UBERON:0001870', 'target': 'GO:0051823'}, {'key': 'treats', 'source': 'GO:0051823', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:Q02156', 'label': 'Protein', 'name': 'protein kinase C (PKC)-ε'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 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'name': 'neural degeneration'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004827_2', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'REACT:R-HSA-211976'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-211976', 'target': 'MESH:D008560'}, {'key': 'positively regulates', 'source': 'MESH:D008560', 'target': 'GO:0099611'}, {'key': 'correlated with', 'source': 'GO:0099611', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'alt_ids': ['KEGG:M00100'], 'id': 'REACT:R-HSA-211976', 'label': 'Pathway', 'name': 'sterol metabolism'}, {'id': 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'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:O14975'}, {'key': 'located in', 'source': 'UniProt:O14975', 'target': 'UBERON:0000955'}, {'key': 'decreases abundance of', 'source': 'UBERON:0000955', 'target': 'MESH:C026563'}, {'key': 'participates in', 'source': 'MESH:C026563', 'target': 'REACT:R-HSA-2162123'}, {'key': 'treats', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:O14975', 'label': 'Protein', 'name': 'microsomal long-chain fatty acyl-CoA synthetase'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'brain'}, {'id': 'MESH:C026563', 'label': 'ChemicalSubstance', 'name': 'Arachidonoyl-CoA'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'inflammatory prostaglandins production'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00495_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'zidovudine', 'drug_mesh': 'MESH:D015215', 'drugbank': 'DB:DB00495'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D015215', 'target': 'MESH:C052873'}, {'key': 'decreases activity of', 'source': 'MESH:C052873', 'target': 'UniProt:Q72547'}, {'key': 'expressed in', 'source': 'UniProt:Q72547', 'target': 'GO:0039693'}, {'key': 'in taxon', 'source': 'GO:0039693', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015215', 'label': 'Drug', 'name': 'zidovudine'}, {'id': 'MESH:C052873', 'label': 'ChemicalSubstance', 'name': 'zidovudine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase (RT)'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'HIV'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00495#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00495_MESH_D015658_2', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'zidovudine', 'drug_mesh': 'MESH:D015215', 'drugbank': 'DB:DB00495'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D015215', 'target': 'MESH:C052873'}, {'key': 'decreases activity of', 'source': 'MESH:C052873', 'target': 'UniProt:Q72547'}, {'key': 'in taxon', 'source': 'UniProt:Q72547', 'target': 'NCBITaxon:11676'}, {'key': 'expressed in', 'source': 'NCBITaxon:11676', 'target': 'GO:0039693'}, {'key': 'causes', 'source': 'GO:0039693', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015215', 'label': 'Drug', 'name': 'zidovudine'}, {'id': 'MESH:C052873', 'label': 'ChemicalSubstance', 'name': 'zidovudine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase (RT)'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'HIV-1'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00495#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'OrganismTaxon', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01227_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'levomethadyl 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True, 'graph': {'_id': 'DB01210_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_3', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_4', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, 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'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_3', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_4', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00027_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'gramicidin', 'drug_mesh': 'MESH:D006096', 'drugbank': 'DB:DB00027'}, 'links': [{'key': 'directly interacts with', 'source': 'MESH:D006096', 'target': 'GO:0030313'}, {'key': 'increases activity of', 'source': 'GO:0030313', 'target': 'GO:1905709'}, {'key': 'disrupts', 'source': 'GO:1905709', 'target': 'GO:0022803'}, {'key': 'precedes', 'source': 'GO:0022803', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006096', 'label': 'Drug', 'name': 'gramicidin'}, {'id': 'GO:0030313', 'label': 'CellularComponent', 'name': 'bacterial cell membrane'}, {'id': 'GO:1905709', 'label': 'BiologicalProcess', 'name': 'membrane permeabilization'}, {'id': 'GO:0022803', 'label': 'BiologicalProcess', 'name': 'transmembrane potential'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00027#mechanismofaction']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00027_MESH_D003234_2', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'gramicidin', 'drug_mesh': 'MESH:D006096', 'drugbank': 'DB:DB00027'}, 'links': [{'key': 'causes', 'source': 'MESH:D006096', 'target': 'GO:0051673'}, {'key': 'negatively regulates', 'source': 'GO:0051673', 'target': 'GO:1905709'}, {'key': 'located in', 'source': 'GO:1905709', 'target': 'NCBITaxon:2'}, {'key': 'disrupts', 'source': 'NCBITaxon:2', 'target': 'GO:0022803'}, {'key': 'affects activity of', 'source': 'GO:0022803', 'target': 'GO:0006260'}, {'key': 'decreases activity of', 'source': 'GO:0006260', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'GO:0032774', 'target': 'GO:0006412'}, {'key': 'contributes to', 'source': 'GO:0006412', 'target': 'GO:0008219'}, {'key': 'treats', 'source': 'GO:0008219', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006096', 'label': 'Drug', 'name': 'gramicidin'}, {'id': 'GO:0051673', 'label': 'BiologicalProcess', 'name': 'membrane disruption'}, {'id': 'GO:1905709', 'label': 'BiologicalProcess', 'name': 'membrane permeabilization'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'bacteria'}, {'id': 'GO:0022803', 'label': 'BiologicalProcess', 'name': 'transmembrane potential'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00027#mechanismofaction']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 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['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D054058_2', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 'UniProt:Q9H244', 'target': 'CL:0000233'}, {'key': 'prevents', 'source': 'CL:0000233', 'target': 'MESH:D000244'}, {'key': 'decreases activity of', 'source': 'MESH:D000244', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 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'MESH:D020766'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 'UniProt:P23141', 'label': 'Protein', 'name': 'carboxylesterase-1'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y12 receptor'}, {'id': 'CL:0000233', 'label': 'Cell', 'name': 'platelet'}, {'id': 'MESH:D000244', 'label': 'ChemicalSubstance', 'name': 'ADP'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D020766', 'label': 'Disease', 'name': 'Cerebral embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", + "['Drug', 'Protein', 'Cell', 'ChemicalSubstance', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08873_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'boceprevir', 'drug_mesh': 'MESH:C512204', 'drugbank': 'DB:DB08873'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C512204', 'target': 'UniProt:B0B3C9'}, {'key': 'negatively regulates', 'source': 'UniProt:B0B3C9', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C512204', 'label': 'Drug', 'name': 'boceprevir'}, {'id': 'UniProt:B0B3C9', 'label': 'Protein', 'name': 'NS3/4a protease'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'HCV'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB08873#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08873_MESH_D019698_2', 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'location of', 'source': 'UBERON:0001135', 'target': 'UBERON:0000995'}, {'key': 'increases activity of', 'source': 'UBERON:0000995', 'target': 'GO:0070471'}, {'key': 'prevents', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020731', 'label': 'Drug', 'name': 'Carbetocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'oxytocin receptors'}, {'id': 'UBERON:0001135', 'label': 'GrossAnatomicalStructure', 'name': 'smooth muscle'}, {'id': 'UBERON:0000995', 'label': 'GrossAnatomicalStructure', 'name': 'uterus'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'contractions'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01282#mechanismofaction']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00671_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'cefixime', 'drug_mesh': 'MESH:D020682', 'drugbank': 'DB:DB00671'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020682', 'target': 'UniProt:P44469'}, {'key': 'negatively regulates', 'source': 'UniProt:P44469', 'target': 'GO:0009273'}, {'key': 'positively regulates', 'source': 'GO:0009273', 'target': 'UniProt:O30554'}, {'key': 'prevents', 'source': 'UniProt:O30554', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020682', 'label': 'Drug', 'name': 'cefixime'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'penicillin-binding protein'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'mucopeptide synthesis'}, {'id': 'UniProt:O30554', 'label': 'Protein', 'name': 'autolysin'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall synthesis'}, {'id': 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'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00671_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'cefixime', 'drug_mesh': 'MESH:D020682', 'drugbank': 'DB:DB00671'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020682', 'target': 'UniProt:P44469'}, {'key': 'negatively regulates', 'source': 'UniProt:P44469', 'target': 'GO:0009273'}, {'key': 'positively regulates', 'source': 'GO:0009273', 'target': 'UniProt:O30554'}, {'key': 'prevents', 'source': 'UniProt:O30554', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020682', 'label': 'Drug', 'name': 'cefixime'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'penicillin-binding protein'}, {'id': 'GO:0009273', 'label': 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'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D011537_2', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'UniProt:P35367'}, {'key': 'treats', 'source': 'UniProt:P35367', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'myo-inositol-1-phophate synthetase'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 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'source': 'MESH:D001977', 'target': 'UniProt:P35367'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'negatively regulates', 'source': 'MESH:D006632', 'target': 'GO:0043116'}, {'key': 'correlated with', 'source': 'GO:0043116', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'H1 histamine receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'histamine'}, {'id': 'GO:0043116', 'label': 'BiologicalProcess', 'name': 'vascular permeability'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D003233_2', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'UniProt:P35367'}, {'key': 'treats', 'source': 'UniProt:P35367', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'H1 histamine receptor'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D003233_3', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 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True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'H1 histamine receptor'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D012223_3', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'UniProt:P35367'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'negatively regulates', 'source': 'MESH:D006632', 'target': 'GO:0043116'}, {'key': 'correlated with', 'source': 'GO:0043116', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'H1 histamine receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'histamine'}, {'id': 'GO:0043116', 'label': 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+ "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00835_MESH_D065631_3', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'brompheniramine', 'drug_mesh': 'MESH:D001977', 'drugbank': 'DB:DB00835'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001977', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001977', 'label': 'Drug', 'name': 'brompheniramine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00835#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D010051_2', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'gemcitabine', 'drug_mesh': 'MESH:C056507', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P30085'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P23921'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P30085', 'target': 'GO:0006225'}, {'key': 'positively regulates', 'source': 'UniProt:P23921', 'target': 'GO:0061731'}, {'key': 'positively correlated with', 'source': 'GO:0006235', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0006225', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0061731', 'target': 'GO:1904860'}, {'key': 'correlated with', 'source': 'GO:1904860', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056507', 'label': 'Drug', 'name': 'gemcitabine'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'UniProt:P30085', 'label': 'Protein', 'name': 'UMP-CMP kinase'}, {'id': 'UniProt:P23921', 'label': 'Protein', 'name': 'Ribonucleoside-diphosphate reductase large subunit'}, {'id': 'GO:0006235', 'label': 'BiologicalProcess', 'name': 'dTTP biosynthetic process'}, {'id': 'GO:0006225', 'label': 'BiologicalProcess', 'name': 'UDP biosynthetic process'}, {'id': 'GO:0061731', 'label': 'MolecularActivity', 'name': 'ribonucleoside-diphosphate reductase activity'}, {'id': 'GO:1904860', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in mitotic DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://go.drugbank.com/drugs/DB00441#mechanism-of-action', 'https://europepmc.org/article/med/7481842']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D002289_2', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'gem citabine', 'drug_mesh': 'MESH:C056507', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P30085'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P23921'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P30085', 'target': 'GO:0006225'}, {'key': 'positively regulates', 'source': 'UniProt:P23921', 'target': 'GO:0061731'}, {'key': 'positively 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'ribonucleoside-diphosphate reductase activity'}, {'id': 'GO:1904860', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in mitotic DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00441#mechanism-of-action', 'https://europepmc.org/article/med/7481842']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00325_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'nitroprusside', 'drug_mesh': 'MESH:D009599', 'drugbank': 'DB:DB00325'}, 'links': [{'key': 'produces', 'source': 'MESH:D009599', 'target': 'CHEBI:16480'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0004383'}, {'key': 'increases abundance of', 'source': 'GO:0004383', 'target': 'MESH:D006152'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009599', 'label': 'Drug', 'name': 'nitroprusside'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0004383', 'label': 'MolecularActivity', 'name': 'guanylate cyclase activity'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cyclic GMP'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00325#BE0000556', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2097081/']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00813_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'fentanyl', 'drug_mesh': 'MESH:D005283', 'drugbank': 'DB:DB00813'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005283', 'target': 'UniProt:P35372'}, {'key': 'increases activity of', 'source': 'MESH:D005283', 'target': 'UniProt:P41143'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005283', 'label': 'Drug', 'name': 'fentanyl'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00813', 'https://en.wikipedia.org/wiki/Opioid_receptor', 'https://pubmed.ncbi.nlm.nih.gov/15625131/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1621137/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00901_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'bitolterol', 'drug_mesh': 'MESH:C011685', 'drugbank': 'DB:DB00901'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00901#BE0000694', 'https://pubmed.ncbi.nlm.nih.gov/16263481/', 'https://en.wikipedia.org/wiki/Bronchitis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00901_MESH_D001987_1', 'disease': 'Bronchiectasis', 'disease_mesh': 'MESH:D001987', 'drug': 'bitolterol', 'drug_mesh': 'MESH:C011685', 'drugbank': 'DB:DB00901'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001987'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 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'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 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'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}, {'key': 'manifestation of', 'source': 'MESH:D006946', 'target': 'MESH:D007340'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}, {'id': 'MESH:D007340', 'label': 'Disease', 'name': 'Insulinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://en.wikipedia.org/wiki/Insulinoma']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01119_MESH_D006946_1', 'disease': 'Hyperinsulinism', 'disease_mesh': 'MESH:D006946', 'drug': 'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://en.wikipedia.org/wiki/Hyperinsulinism']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01119_MESH_D046768_1', 'disease': 'Islet cell hyperplasia', 'disease_mesh': 'MESH:D046768', 'drug': 'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}, {'key': 'manifestation of', 'source': 'MESH:D006946', 'target': 'MESH:D046768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}, {'id': 'MESH:D046768', 'label': 'Disease', 'name': 'Islet cell hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3020366/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D001660_1', 'disease': 'Disorder of biliary tract', 'disease_mesh': 'MESH:D001660', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'produced by', 'source': 'MESH:D019826', 'target': 'UBERON:0002423'}, {'key': 'affected by', 'source': 'UBERON:0002423', 'target': 'MESH:D001660'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'UBERON:0002423', 'label': 'GrossAnatomicalStructure', 'name': 'hepatobiliary system'}, {'id': 'MESH:D001660', 'label': 'Disease', 'name': 'Disorder of biliary tract'}], 'reference': ['https://go.drugbank.com/drugs/DB02659']}\n", + "['Drug', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Cholic acid is not a common treatment for Cholelithiasis https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3348960/', 'directed': True, 'graph': {'_id': 'DB02659_MESH_D002769_1', 'disease': 'Cholelithiasis', 'disease_mesh': 'MESH:D002769', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'treats', 'source': 'MESH:D019826', 'target': 'MESH:D002769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'MESH:D002769', 'label': 'Disease', 'name': 'Cholelithiasis'}]}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019826', 'target': 'GO:0030432'}, {'key': 'negatively correlated with', 'source': 'GO:0030432', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'GO:0030432', 'label': 'BiologicalProcess', 'name': 'peristalsis'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://go.drugbank.com/drugs/DB02659', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4015201/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D019294_1', 'disease': 'Cerebrotendinous Xanthomatosis', 'disease_mesh': 'MESH:D019294', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'produced by', 'source': 'MESH:D019826', 'target': 'UniProt:Q02318'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q02318', 'target': 'MESH:D019294'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q02318', 'target': 'MESH:D004083'}, {'key': 'contributes to', 'source': 'MESH:D004083', 'target': 'MESH:D019294'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'UniProt:Q02318', 'label': 'Protein', 'name': 'Sterol 26-hydroxylase, mitochondrial'}, {'id': 'MESH:D019294', 'label': 'Disease', 'name': 'Cerebrotendinous Xanthomatosis'}, {'id': 'MESH:D004083', 'label': 'ChemicalSubstance', 'name': 'Cholestanol'}], 'reference': ['https://go.drugbank.com/drugs/DB02659', 'https://www.ncbi.nlm.nih.gov/books/NBK395578/']}\n", + "['Drug', 'Protein', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08976_MESH_D059787_1', 'disease': 'Acute pain', 'disease_mesh': 'MESH:D059787', 'drug': 'floctafenine', 'drug_mesh': 'MESH:C051733,MESH:C084600', 'drugbank': 'DB:DB08976'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08976', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08976', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D059787'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08976', 'label': 'Drug', 'name': 'floctafenine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D059787', 'label': 'Disease', 'name': 'Acute pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08976', 'https://drugs.ncats.io/substances?q=%22FLOCTAFENINE%22&facet=Substance%20Form%2FPrincipal%20Form']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09076_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'umeclidinium', 'drug_mesh': 'MESH:C573971', 'drugbank': 'DB:DB09076'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C573971', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:C573971', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C573971', 'label': 'Drug', 'name': 'umeclidinium'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09076#BE0000560', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases abundance of', 'source': 'GO:0034776', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/', 'https://pubmed.ncbi.nlm.nih.gov/18651116/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/19476049/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'nasopharynx cavity'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://en.wikipedia.org/wiki/Sneeze']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'GO:0007186'}, {'key': 'increases activity of', 'source': 'GO:0007186', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'GO:0007186', 'label': 'BiologicalProcess', 'name': 'G protein-coupled receptor signaling pathway'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://en.wikipedia.org/wiki/Common_cold#cite_note-13']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'nasopharynx cavity'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09552_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'thonzonium', 'drug_mesh': 'MESH:C000609116', 'drugbank': 'DB:DB09552'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000609116', 'target': 'UniProt:Q59R99'}, {'key': 'participates in', 'source': 'UniProt:Q59R99', 'target': 'GO:0030641'}, {'key': 'occurs in', 'source': 'GO:0030641', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000609116', 'label': 'Drug', 'name': 'thonzonium'}, {'id': 'UniProt:Q59R99', 'label': 'Protein', 'name': 'V-type proton ATPase subunit a (Candida albicans)'}, {'id': 'GO:0030641', 'label': 'BiologicalProcess', 'name': 'regulation of cellular pH'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/24478704/', 'https://go.drugbank.com/drugs/DB09552']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12159_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'dupilumab', 'drug_mesh': 'MESH:C582203', 'drugbank': 'DB:DB12159'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C582203', 'target': 'UniProt:P24394'}, {'key': 'participates in', 'source': 'UniProt:P24394', 'target': 'REACT:R-HSA-6785807'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-6785807', 'target': 'GO:0042092'}, {'key': 'contributes to', 'source': 'GO:0042092', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C582203', 'label': 'Drug', 'name': 'dupilumab'}, {'id': 'UniProt:P24394', 'label': 'Protein', 'name': 'Interleukin-4 receptor subunit alpha'}, {'id': 'REACT:R-HSA-6785807', 'label': 'Pathway', 'name': 'Interleukin-4 and Interleukin-13 signaling'}, {'id': 'GO:0042092', 'label': 'BiologicalProcess', 'name': 'type 2 immune response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB12159', 'https://pubmed.ncbi.nlm.nih.gov/29939132/', 'https://www.uniprot.org/uniprot/P24394']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D017497_1', 'disease': 'Hidradenitis suppurativa', 'disease_mesh': 'MESH:D017497', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D017497'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D017497', 'label': 'Disease', 'name': 'Hidradenitis suppurativa'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Hidradenitis_suppurativa']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Rheumatoid_arthritis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D001171_1', 'disease': 'Juvenile idiopathic arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF 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'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriasis with arthropathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Psoriatic_arthritis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Ankylosing_spondylitis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Crohn%27s_disease']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Ulcerative_colitis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00107_MESH_D006473_1', 'disease': 'Postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'oxytocin', 'drug_mesh': 'MESH:D010121', 'drugbank': 'DB:DB00107'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010121', 'target': 'UniProt:P30559'}, {'key': 'participates in', 'source': 'UniProt:P30559', 'target': 'GO:0004990'}, {'key': 'positively regulates', 'source': 'GO:0004990', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0004687'}, {'key': 'positively regulates', 'source': 'GO:0004687', 'target': 'GO:0070471'}, {'key': 'negatively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010121', 'label': 'Drug', 'name': 'oxytocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'Oxytocin receptor'}, {'id': 'GO:0004990', 'label': 'MolecularActivity', 'name': 'oxytocin receptor activity'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0004687', 'label': 'MolecularActivity', 'name': 'myosin light chain kinase activity'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'Postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB00107', 'https://en.wikipedia.org/wiki/Postpartum_bleeding']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00811_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'ribavirin', 'drug_mesh': 'MESH:D012254', 'drugbank': 'DB:DB00811'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:Q96885'}, {'key': 'negatively regulates', 'source': 'MESH:D012254', 'target': 'InterPro:IPR019602'}, {'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:P20839'}, {'key': 'participates in', 'source': 'UniProt:Q96885', 'target': 'GO:0039694'}, {'key': 'participates in', 'source': 'InterPro:IPR019602', 'target': 'GO:0004484'}, {'key': 'positively correlated with', 'source': 'UniProt:P20839', 'target': 'GO:0006183'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'produces', 'source': 'GO:0006183', 'target': 'MESH:D006160'}, {'key': 'participates in', 'source': 'MESH:D006160', 'target': 'GO:0039694'}, {'key': 'occurs in', 'source': 'GO:0004484', 'target': 'NCBITaxon:11103'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012254', 'label': 'Drug', 'name': 'ribavirin'}, {'id': 'UniProt:Q96885', 'label': 'Protein', 'name': 'RNA-directed RNA polymerase (Hepatitis C virus)'}, {'id': 'InterPro:IPR019602', 'label': 'GeneFamily', 'name': 'mRNA capping enzyme, large subunit, ATPase/guanylyltransferase, virus'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'GO:0004484', 'label': 'BiologicalProcess', 'name': 'mRNA capping enzyme activity'}, {'id': 'GO:0006183', 'label': 'BiologicalProcess', 'name': 'GTP biosynthetic process'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D006160', 'label': 'ChemicalSubstance', 'name': 'Guanosine Triphosphate (GTP)'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}], 'reference': ['https://go.drugbank.com/drugs/DB00811', 'https://en.wikipedia.org/wiki/Hepatitis_C']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00811_MESH_D018357_1', 'disease': 'Respiratory syncytial virus infection', 'disease_mesh': 'MESH:D018357', 'drug': 'ribavirin', 'drug_mesh': 'MESH:D012254', 'drugbank': 'DB:DB00811'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:Q96885'}, {'key': 'negatively regulates', 'source': 'MESH:D012254', 'target': 'InterPro:IPR019602'}, {'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:P20839'}, {'key': 'participates in', 'source': 'UniProt:Q96885', 'target': 'GO:0039694'}, {'key': 'participates in', 'source': 'InterPro:IPR019602', 'target': 'GO:0004484'}, {'key': 'positively correlated with', 'source': 'UniProt:P20839', 'target': 'GO:0006183'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:12814'}, {'key': 'occurs in', 'source': 'GO:0004484', 'target': 'NCBITaxon:12814'}, {'key': 'produces', 'source': 'GO:0006183', 'target': 'MESH:D006160'}, {'key': 'participates in', 'source': 'MESH:D006160', 'target': 'GO:0039694'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:12814'}, {'key': 'causes', 'source': 'NCBITaxon:12814', 'target': 'MESH:D018357'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012254', 'label': 'Drug', 'name': 'ribavirin'}, {'id': 'UniProt:Q96885', 'label': 'Protein', 'name': 'RNA-directed RNA polymerase (Hepatitis C virus)'}, {'id': 'InterPro:IPR019602', 'label': 'GeneFamily', 'name': 'mRNA capping enzyme, large subunit, ATPase/guanylyltransferase, virus'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'GO:0004484', 'label': 'BiologicalProcess', 'name': 'mRNA capping enzyme activity'}, {'id': 'GO:0006183', 'label': 'BiologicalProcess', 'name': 'GTP biosynthetic process'}, {'id': 'NCBITaxon:12814', 'label': 'OrganismTaxon', 'name': 'Respiratory syncytial virus'}, {'id': 'MESH:D006160', 'label': 'ChemicalSubstance', 'name': 'Guanosine Triphosphate (GTP)'}, {'id': 'MESH:D018357', 'label': 'Disease', 'name': 'Respiratory syncytial virus infection'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}], 'reference': ['https://go.drugbank.com/drugs/DB00811', 'https://en.wikipedia.org/wiki/Respiratory_syncytial_virus']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01091_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'butenafine', 'drug_mesh': 'MESH:C067594', 'drugbank': 'DB:DB01091'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C067594', 'target': 'UniProt:Q14534'}, {'key': 'positively regulates', 'source': 'UniProt:Q14534', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C067594', 'label': 'Drug', 'name': 'butenafine'}, {'id': 'UniProt:Q14534', 'label': 'Protein', 'name': 'Squalene monooxygenase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall biogenesis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB01091#BE0000577', 'https://en.wikipedia.org/wiki/Athlete%27s_foot']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01091_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'butenafine', 'drug_mesh': 'MESH:C067594', 'drugbank': 'DB:DB01091'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C067594', 'target': 'UniProt:Q14534'}, {'key': 'positively regulates', 'source': 'UniProt:Q14534', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:76773'}, {'key': 'causes', 'source': 'NCBITaxon:76773', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C067594', 'label': 'Drug', 'name': 'butenafine'}, {'id': 'UniProt:Q14534', 'label': 'Protein', 'name': 'Squalene monooxygenase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall biogenesis'}, {'id': 'NCBITaxon:76773', 'label': 'OrganismTaxon', 'name': 'Malassezia globosa'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB01091#BE0000577', 'https://en.wikipedia.org/wiki/Tinea_versicolors']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:76773'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:76773'}, {'key': 'causes', 'source': 'NCBITaxon:76773', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:76773', 'label': 'OrganismTaxon', 'name': 'Malassezia globosa'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Tinea_versicolors']}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D002179_1', 'disease': 'Candidiasis of skin', 'disease_mesh': 'MESH:D002179', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:1535326'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:1535326'}, {'key': 'causes', 'source': 'NCBITaxon:1535326', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:1535326', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Candidiasis']}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:4751'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Athlete%27s_foot']}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:4751'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Onychomycosis']}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:55193'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", + "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Mibefradil was withdrawn from the market in 1998 because of potentially harmful interactions with other drugs', 'directed': True, 'graph': {'_id': 'DB01388_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'mibefradil', 'drug_mesh': 'MESH:D020748', 'drugbank': 'DB:DB01388'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q01668'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O60840'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q9P0X4'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13698'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O60840', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13698', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020748', 'label': 'Drug', 'name': 'mibefradil'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'UniProt:O60840', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1F'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1S'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'positive regulation of vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01388']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Mibefradil was withdrawn from the market in 1998 because of potentially harmful interactions with other drugs', 'directed': True, 'graph': {'_id': 'DB01388_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'mibefradil', 'drug_mesh': 'MESH:D020748', 'drugbank': 'DB:DB01388'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q01668'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O60840'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q9P0X4'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13698'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O60840', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13698', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020748', 'label': 'Drug', 'name': 'mibefradil'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'UniProt:O60840', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1F'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1S'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01388']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Mechanism of action of diloxanide is unknown', 'directed': True, 'graph': {'_id': 'DB08792_MESH_D000562_1', 'disease': 'Amebiasis', 'disease_mesh': 'MESH:D000562', 'drug': 'diloxanide furoate', 'drug_mesh': 'MESH:C004932', 'drugbank': 'DB:DB08792'}, 'links': [{'key': 'treats', 'source': 'MESH:C004932', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004932', 'label': 'Drug', 'name': 'diloxanide furoate'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB14638']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08896_MESH_D046152_1', 'disease': 'Gastrointestinal stromal tumor', 'disease_mesh': 'MESH:D046152', 'drug': 'regorafenib', 'drug_mesh': 'MESH:C559147', 'drugbank': 'DB:DB08896'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P16234'}, {'key': 'participates in', 'source': 'UniProt:P10721', 'target': 'REACT:R-HSA-9670439'}, {'key': 'participates in', 'source': 'UniProt:P16234', 'target': 'REACT:R-HSA-9673767'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9670439', 'target': 'GO:0008284'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9673767', 'target': 'GO:0008284'}, {'key': 'causes', 'source': 'GO:0008284', 'target': 'MESH:D046152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C559147', 'label': 'Drug', 'name': 'regorafenib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'REACT:R-HSA-9670439', 'label': 'Pathway', 'name': 'Signaling by phosphorylated juxtamembrane, extracellular and kinase domain KIT mutants'}, {'id': 'REACT:R-HSA-9673767', 'label': 'Pathway', 'name': 'Signaling by PDGFRA transmembrane, juxtamembrane and kinase domain mutants'}, {'id': 'GO:0008284', 'label': 'BiologicalProcess', 'name': 'positive regulation of cell population proliferation'}, {'id': 'MESH:D046152', 'label': 'Disease', 'name': 'Gastrointestinal stromal tumor'}], 'reference': ['https://go.drugbank.com/drugs/DB08896#BE0000029', 'https://pubmed.ncbi.nlm.nih.gov/31308690/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08896_MESH_D006528_1', 'disease': 'Hepatocellular Carcinoma', 'disease_mesh': 'MESH:D006528', 'drug': 'regorafenib', 'drug_mesh': 'MESH:C559147', 'drugbank': 'DB:DB08896'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P04049'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P15056'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P16234'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P11362'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P17948'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P35968'}, {'key': 'participates in', 'source': 'UniProt:P04049', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P15056', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P16234', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P11362', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P17948', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P35968', 'target': 'REACT:R-HSA-9006934'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9006934', 'target': 'GO:0008284'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9006934', 'target': 'GO:0045766'}, {'key': 'causes', 'source': 'GO:0008284', 'target': 'MESH:D006528'}, {'key': 'causes', 'source': 'GO:0045766', 'target': 'MESH:D006528'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C559147', 'label': 'Disease', 'name': 'regorafenib'}, {'id': 'UniProt:P04049', 'label': 'Protein', 'name': 'RAF proto-oncogene serine/threonine-protein kinase'}, {'id': 'UniProt:P15056', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase B-raf'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'UniProt:P11362', 'label': 'Protein', 'name': 'Fibroblast growth factor receptor 1'}, {'id': 'UniProt:P17948', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 1'}, {'id': 'UniProt:P35968', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 2'}, {'id': 'REACT:R-HSA-9006934', 'label': 'Pathway', 'name': 'Signaling by Receptor Tyrosine Kinases'}, {'id': 'GO:0008284', 'label': 'BiologicalProcess', 'name': 'positive regulation of cell population proliferation'}, {'id': 'GO:0045766', 'label': 'BiologicalProcess', 'name': 'positive regulation of angiogenesis'}, {'id': 'MESH:D006528', 'label': 'Disease', 'name': 'Hepatocellular Carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08896', 'https://pubmed.ncbi.nlm.nih.gov/31954487/']}\n", + "{'directed': True, 'graph': {'_id': 'DB11362_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'selexipag', 'drug_mesh': 'MESH:C523468', 'drugbank': 'DB:DB11362'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C523468', 'target': 'UniProt:P43119'}, {'key': 'participates in', 'source': 'UniProt:P43119', 'target': 'GO:0016501'}, {'key': 'positively regulates', 'source': 'GO:0016501', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C523468', 'label': 'Drug', 'name': 'selexipag'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'prostacyclin receptor'}, {'id': 'GO:0016501', 'label': 'MolecularActivity', 'name': 'prostacyclin receptor activity'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB11362', 'https://en.wikipedia.org/wiki/Pulmonary_hypertension']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11943_MESH_D017192_1', 'disease': 'Bacterial Skin Diseases', 'disease_mesh': 'MESH:D017192', 'drug': 'delafloxacin', 'drug_mesh': 'MESH:C477891', 'drugbank': 'DB:DB11943'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C477891', 'target': 'UniProt:P0C1U9'}, {'key': 'decreases activity of', 'source': 'MESH:C477891', 'target': 'UniProt:Q2FKQ0'}, {'key': 'participates in', 'source': 'UniProt:P0C1U9', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C477891', 'label': 'Drug', 'name': 'delafloxacin'}, {'id': 'UniProt:P0C1U9', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial Skin Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB11943', 'https://en.wikipedia.org/wiki/Cellulitis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12523_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'mizolastine', 'drug_mesh': 'MESH:C076170', 'drugbank': 'DB:DB12523'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076170', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076170', 'label': 'Drug', 'name': 'mizolastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Mizolastine', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02329_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'carbenoxolone', 'drug_mesh': 'MESH:D002229', 'drugbank': 'DB:DB02329'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002229', 'target': 'UniProt:P28845'}, {'key': 'negatively regulates', 'source': 'MESH:D002229', 'target': 'UniProt:P15428'}, {'key': 'positively regulates', 'source': 'UniProt:P28845', 'target': 'GO:0016491'}, {'key': 'positively regulates', 'source': 'UniProt:P15428', 'target': 'GO:0016616'}, {'key': 'decreases abundance of', 'source': 'GO:0016491', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'GO:0016616', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0070254'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0008283'}, {'key': 'negatively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0001696'}, {'key': 'negatively correlated with', 'source': 'GO:0070254', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002229', 'label': 'Drug', 'name': 'carbenoxolone'}, {'id': 'UniProt:P28845', 'label': 'Protein', 'name': 'Corticosteroid 11-beta-dehydrogenase isozyme 1'}, {'id': 'UniProt:P15428', 'label': 'Protein', 'name': '15-hydroxyprostaglandin dehydrogenase [NAD(+)]'}, {'id': 'GO:0016491', 'label': 'MolecularActivity', 'name': 'oxidoreductase activity'}, {'id': 'GO:0016616', 'label': 'MolecularActivity', 'name': 'oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'mucus secretion'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://gut.bmj.com/content/11/4/344', 'https://www.sciencedirect.com/science/article/abs/pii/0039128X94900914', 'https://scholar.googleusercontent.com/scholar?q=cache:A3Q9QZ97ZyAJ:scholar.google.com/&hl=en&as_sdt=0,5', 'https://www.kegg.jp/entry/D01899', 'http://www.oeso.org/OESO/books/Vol_3_Eso_Mucosa/Articles/ART088.HTML', 'https://europepmc.org/article/MED/30117204', 'https://pubmed.ncbi.nlm.nih.gov/2864318/', 'https://pubmed.ncbi.nlm.nih.gov/780088/', 'https://en.wikipedia.org/wiki/Carbenoxolone', 'https://en.wikipedia.org/wiki/Enoxolone#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB02329#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12523_MESH_D012221_1', 'disease': 'Perennial allergic rhinitis', 'disease_mesh': 'MESH:D012221', 'drug': 'mizolastine', 'drug_mesh': 'MESH:C076170', 'drugbank': 'DB:DB12523'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076170', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D012221'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076170', 'label': 'Drug', 'name': 'mizolastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D012221', 'label': 'Disease', 'name': 'Perennial allergic rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Mizolastine', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_1', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P05093'}, {'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P26439'}, {'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P14060'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P05093', 'label': 'Protein', 'name': 'Steroid 17-alpha-hydroxylase/17,20 lyase'}, {'id': 'UniProt:P26439', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 2'}, {'id': 'UniProt:P14060', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 1'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB05812#mechanism-of-action', 'https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://clincancerres.aacrjournals.org/content/19/13/3353']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also inhibits all these cytochrome P450s and can be useful in treating castration-resistant prostate cancers.', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_2', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P15538'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08686'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P05177'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P11712'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08684'}, {'key': 'positively regulates', 'source': 'UniProt:P15538', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P08686', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P05177', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P11712', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P08684', 'target': 'GO:0008203'}, {'key': 'positively correlated with', 'source': 'GO:0008203', 'target': 'GO:0061370'}, {'key': 'positively correlated with', 'source': 'GO:0061370', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P15538', 'label': 'Protein', 'name': 'Cytochrome P450 11B1, mitochondrial'}, {'id': 'UniProt:P08686', 'label': 'Protein', 'name': 'Steroid 21-hydroxylase'}, {'id': 'UniProt:P05177', 'label': 'Protein', 'name': 'Cytochrome P450 1A2'}, {'id': 'UniProt:P11712', 'label': 'Protein', 'name': 'Cytochrome P450 2C9'}, {'id': 'UniProt:P08684', 'label': 'Protein', 'name': 'Cytochrome P450 3A4'}, {'id': 'GO:0008203', 'label': 'BiologicalProcess', 'name': 'cholesterol metabolic process'}, {'id': 'GO:0061370', 'label': 'BiologicalProcess', 'name': 'testosterone biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/21-Hydroxylase#Function']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also inhibits all these cytochrome P450s and can be useful in treating castration-resistant prostate cancers.', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_3', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P15538'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08686'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P05177'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P11712'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08684'}, {'key': 'positively regulates', 'source': 'UniProt:P15538', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P08686', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P05177', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P11712', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P08684', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'GO:0061370'}, {'key': 'positively correlated with', 'source': 'GO:0061370', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P15538', 'label': 'Protein', 'name': 'Cytochrome P450 11B1, mitochondrial'}, {'id': 'UniProt:P08686', 'label': 'Protein', 'name': 'Steroid 21-hydroxylase'}, {'id': 'UniProt:P05177', 'label': 'Protein', 'name': 'Cytochrome P450 1A2'}, {'id': 'UniProt:P11712', 'label': 'Protein', 'name': 'Cytochrome P450 2C9'}, {'id': 'UniProt:P08684', 'label': 'Protein', 'name': 'Cytochrome P450 3A4'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'GO:0061370', 'label': 'BiologicalProcess', 'name': 'testosterone biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/21-Hydroxylase#Function']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also acts as a partial antagonist of the androgen receptor (UniProt:P10275).', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_4', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060767'}, {'key': 'positively correlated with', 'source': 'GO:0060767', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060767', 'label': 'BiologicalProcess', 'name': 'epithelial cell proliferation involved in prostate gland development'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/Androgen_receptor#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Androgen_deprivation_therapy#Methods_based_on_drugs', 'https://www.kegg.jp/entry/D09701']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'DrugBank has this drug as a beta 1 antagonist but data elsewhere does not seem to support the anatagonism role (e.g. https://www.drugs.com/pro/terbutaline.html#s-34090-1, https://www.ebi.ac.uk/chembldb/index.php/compound/inspect/CHEMBL1760 https://www.genome.jp/dbget-bin/www_bget?cpd:C07129)', 'directed': True, 'graph': {'_id': 'DB00871_MESH_D015352_1', 'disease': 'Tear film insufficiency', 'disease_mesh': 'MESH:D015352', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'positively correlated with', 'source': 'UniProt:P13945', 'target': 'GO:0050728'}, {'key': 'positively correlated with', 'source': 'UniProt:P07550', 'target': 'GO:0050728'}, {'key': 'negatively correlated with', 'source': 'GO:0050728', 'target': 'MESH:D015352'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0050728', 'label': 'BiologicalProcess', 'name': 'negative regulation of inflammatory response'}, {'id': 'MESH:D015352', 'label': 'Disease', 'name': 'Tear film insufficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5345890/', 'https://europepmc.org/article/MED/23360156']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_5', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'derives into', 'source': 'DB:DB05812', 'target': 'MESH:C000600172'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P05093'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P26439'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P14060'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'MESH:C000600172', 'label': 'Drug', 'name': 'delta4-abiraterone'}, {'id': 'UniProt:P05093', 'label': 'Protein', 'name': 'Steroid 17-alpha-hydroxylase/17,20 lyase'}, {'id': 'UniProt:P26439', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 2'}, {'id': 'UniProt:P14060', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 1'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://en.wikipedia.org/wiki/%CE%944-Abiraterone', 'https://www.nature.com/articles/nrurol.2016.101', 'https://www.medchemexpress.com/D4-abiraterone.html']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_6', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'derives into', 'source': 'DB:DB05812', 'target': 'MESH:C000600172'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:P18405'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:P31213'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:Q9H8P0'}, {'key': 'positively regulates', 'source': 'UniProt:P18405', 'target': 'GO:0033764'}, {'key': 'positively regulates', 'source': 'UniProt:P31213', 'target': 'GO:0033764'}, {'key': 'positively regulates', 'source': 'UniProt:Q9H8P0', 'target': 'GO:0033764'}, {'key': 'produces', 'source': 'GO:0033764', 'target': 'CHEBI:16330'}, {'key': 'positively correlated with', 'source': 'CHEBI:16330', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'MESH:C000600172', 'label': 'Drug', 'name': 'delta4-abiraterone'}, {'id': 'UniProt:P18405', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 1'}, {'id': 'UniProt:P31213', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 2'}, {'id': 'UniProt:Q9H8P0', 'label': 'Protein', 'name': 'Polyprenol reductase'}, {'id': 'GO:0033764', 'label': 'MolecularActivity', 'name': 'steroid dehydrogenase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor'}, {'id': 'CHEBI:16330', 'label': 'ChemicalSubstance', 'name': '17β-hydroxy-5α-androstan-3-one'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://en.wikipedia.org/wiki/%CE%944-Abiraterone', 'https://www.nature.com/articles/nrurol.2016.101', 'https://www.medchemexpress.com/D4-abiraterone.html', 'https://en.wikipedia.org/wiki/Dihydrotestosterone#Biological_function', 'https://en.wikipedia.org/wiki/5%CE%B1-Reductase']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00198_MESH_D007251_1', 'disease': 'Influenza', 'disease_mesh': 'MESH:D007251', 'drug': 'oseltamivir', 'drug_mesh': 'MESH:C535162,MESH:C403132,MESH:D053139', 'drugbank': 'DB:DB00198'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB00198', 'target': 'UniProt:P11485'}, {'key': 'positively regulates', 'source': 'UniProt:P11485', 'target': 'GO:0004308'}, {'key': 'positively correlated with', 'source': 'GO:0004308', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:380985'}, {'key': 'causes', 'source': 'NCBITaxon:380985', 'target': 'MESH:D007251'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00198', 'label': 'Drug', 'name': 'Oseltamivir'}, {'id': 'UniProt:P11485', 'label': 'Protein', 'name': 'Neuraminidase'}, {'id': 'GO:0004308', 'label': 'BiologicalProcess', 'name': 'exo-alpha-sialidase activity'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'viral budding from plasma membrane'}, {'id': 'NCBITaxon:380985', 'label': 'OrganismTaxon', 'name': 'Influenza A virus (A/Chile/1/1983(H1N1))'}, {'id': 'MESH:D007251', 'label': 'Disease', 'name': 'Influenza'}], 'reference': ['https://go.drugbank.com/drugs/DB00198#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oseltamivir#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D016584_1', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D016584', 'label': 'Disease', 'name': 'Panic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Panic_disorder#Medication']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D016584_2', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D016584', 'label': 'Disease', 'name': 'Panic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Panic_disorder#Medication']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_1', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#SSRIs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_2', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#Other_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_3', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:Q01959'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#Neurotransmitters']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Major_depressive_disorder#Antidepressants']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D003865_2', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Major_depressive_disorder#Antidepressants']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D003865_3', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:Q01959'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Major_depressive_disorder#Pathophysiology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00543_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'amoxapine', 'drug_mesh': 'MESH:D000657', 'drugbank': 'DB:DB00543'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000657', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000657', 'label': 'Drug', 'name': 'amoxapine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003866', 'label': 'Disease', 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'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01436_MESH_D012080_2', 'disease': 'Renal osteodystrophy', 'disease_mesh': 'MESH:D012080', 'drug': 'alfacalcidol', 'drug_mesh': 'MESH:C008088', 'drugbank': 'DB:DB01436'}, 'links': [{'key': 'interacts with', 'source': 'MESH:C008088', 'target': 'UniProt:O15528'}, {'key': 'increases abundance of', 'source': 'UniProt:O15528', 'target': 'MESH:D002117'}, {'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'in complex with', 'source': 'UniProt:P11473', 'target': 'UniProt:P19793'}, {'key': 'positively regulates', 'source': 'UniProt:P19793', 'target': 'GO:0070293'}, {'key': 'increases secretion of', 'source': 'GO:0070293', 'target': 'MESH:D002118'}, {'key': 'treats', 'source': 'MESH:D002118', 'target': 'MESH:D012080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008088', 'label': 'Drug', 'name': 'alfacalcidol'}, {'id': 'UniProt:O15528', 'label': 'Protein', 'name': 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{'key': 'increases abundance of', 'source': 'UniProt:O15528', 'target': 'MESH:D002117'}, {'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'in complex with', 'source': 'UniProt:P11473', 'target': 'UniProt:P19793'}, {'key': 'positively regulates', 'source': 'UniProt:P19793', 'target': 'GO:0050892'}, {'key': 'increases secretion of', 'source': 'GO:0050892', 'target': 'MESH:D002118'}, {'key': 'treats', 'source': 'MESH:D002118', 'target': 'MESH:D012080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008088', 'label': 'Drug', 'name': 'alfacalcidol'}, {'id': 'UniProt:O15528', 'label': 'Protein', 'name': '25-hydroxylase'}, {'id': 'MESH:D002117', 'label': 'ChemicalSubstance', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'vitamin D receptor'}, {'id': 'UniProt:P19793', 'label': 'Protein', 'name': 'retinoid-X receptor'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal reabsorption'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'calcium'}, {'id': 'MESH:D012080', 'label': 'Disease', 'name': 'Renal osteodystrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB01436#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01436_MESH_D006961_1', 'disease': 'Hyperparathyroidism', 'disease_mesh': 'MESH:D006961', 'drug': 'alfacalcidol', 'drug_mesh': 'MESH:C008088', 'drugbank': 'DB:DB01436'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C008088', 'target': 'UniProt:P41180'}, {'key': 'decreases activity of', 'reference': 'https://pubmed.ncbi.nlm.nih.gov/23566108/', 'source': 'UniProt:P41180', 'target': 'UniProt:O15528'}, {'key': 'decreases abundance of', 'source': 'UniProt:O15528', 'target': 'MESH:D002117'}, {'key': 'decreases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P01270'}, {'key': 'decreases secretion of', 'source': 'UniProt:P01270', 'target': 'MESH:D002118'}, {'key': 'regulates', 'source': 'MESH:D002118', 'target': 'MESH:D016226'}, {'key': 'treats', 'source': 'MESH:D016226', 'target': 'MESH:D006961'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008088', 'label': 'Drug', 'name': 'alfacalcidol'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Calcium sensing receptor'}, {'id': 'UniProt:O15528', 'label': 'Protein', 'name': '25-hydroxylase'}, {'id': 'MESH:D002117', 'label': 'ChemicalSubstance', 'name': 'calcitriol'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'parathyroid hormone'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'calcium'}, {'id': 'MESH:D016226', 'label': 'ChemicalSubstance', 'name': 'phosphorus'}, {'id': 'MESH:D006961', 'label': 'Disease', 'name': 'Hyperparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB01436#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13158_MESH_D004485_1', 'disease': 'Eczema', 'disease_mesh': 'MESH:D004485', 'drug': 'clobetasone butyrate', 'drug_mesh': 'MESH:C010893', 'drugbank': 'DB:DB13158'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010893', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'GO:0050900', 'target': 'GO:0042311'}, {'key': 'precedes', 'source': 'GO:0042311', 'target': 'GO:0043116'}, {'key': 'contributes to', 'source': 'GO:0043116', 'target': 'MESH:D004485'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010893', 'label': 'Drug', 'name': 'clobetasone butyrate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Inflammatory process'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocytes migration'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vascular dilation'}, {'id': 'GO:0043116', 'label': 'BiologicalProcess', 'name': 'vascular permeability'}, {'id': 'MESH:D004485', 'label': 'Disease', 'name': 'Eczema'}], 'reference': ['https://go.drugbank.com/drugs/DB13158#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13158_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'clobetasone butyrate', 'drug_mesh': 'MESH:C010893', 'drugbank': 'DB:DB13158'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010893', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'GO:0050900', 'target': 'GO:0042311'}, {'key': 'precedes', 'source': 'GO:0042311', 'target': 'GO:0043116'}, {'key': 'contributes to', 'source': 'GO:0043116', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010893', 'label': 'Drug', 'name': 'clobetasone butyrate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Inflammatory process'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocytes migration'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vascular dilation'}, {'id': 'GO:0043116', 'label': 'BiologicalProcess', 'name': 'vascular permeability'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB13158#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04932_MESH_D006504_1', 'disease': 'Veno-occlusive disease of the liver', 'disease_mesh': 'MESH:D006504', 'drug': 'defibrotide', 'drug_mesh': 'MESH:C036901', 'drugbank': 'DB:DB04932'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C036901', 'target': 'MESH:D011464'}, {'key': 'participates in', 'source': 'MESH:D011464', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0001981'}, {'key': 'decreases activity of', 'source': 'UBERON:0001981', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D006504'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036901', 'label': 'Drug', 'name': 'defibrotide'}, {'id': 'MESH:D011464', 'label': 'ChemicalSubstance', 'name': 'prostaglandin I2'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'UBERON:0001981', 'label': 'GrossAnatomicalStructure', 'name': 'blood vessel'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D006504', 'label': 'Disease', 'name': 'Veno-occlusive disease of the liver'}], 'reference': ['https://go.drugbank.com/drugs/DB04932#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04932_MESH_D006504_2', 'disease': 'Veno-occlusive disease of the liver', 'disease_mesh': 'MESH:D006504', 'drug': 'defibrotide', 'drug_mesh': 'MESH:C036901', 'drugbank': 'DB:DB04932'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C036901', 'target': 'MESH:D015232'}, {'key': 'participates in', 'source': 'MESH:D015232', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0001981'}, {'key': 'decreases activity of', 'source': 'UBERON:0001981', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D006504'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036901', 'label': 'Drug', 'name': 'defibrotide'}, {'id': 'MESH:D015232', 'label': 'ChemicalSubstance', 'name': 'prostaglandin E2'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'UBERON:0001981', 'label': 'GrossAnatomicalStructure', 'name': 'blood vessel'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D006504', 'label': 'Disease', 'name': 'Veno-occlusive disease of the liver'}], 'reference': ['https://go.drugbank.com/drugs/DB04932#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04932_MESH_D006504_3', 'disease': 'Veno-occlusive disease of the liver', 'disease_mesh': 'MESH:D006504', 'drug': 'defibrotide', 'drug_mesh': 'MESH:C036901', 'drugbank': 'DB:DB04932'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C036901', 'target': 'UniProt:P00750'}, {'key': 'decreases activity of', 'reference': 'https://pubmed.ncbi.nlm.nih.gov/27928191/', 'source': 'UniProt:P00750', 'target': 'UniProt:P05121'}, {'key': 'participates in', 'source': 'UniProt:P05121', 'target': 'GO:0042730'}, {'key': 'decreases activity of', 'source': 'GO:0042730', 'target': 'GO:0042118'}, {'key': 'located in', 'source': 'GO:0042118', 'target': 'UBERON:0001281'}, {'key': 'location of', 'source': 'UBERON:0001281', 'target': 'GO:0008015'}, {'key': 'treats', 'source': 'GO:0008015', 'target': 'MESH:D006504'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036901', 'label': 'Drug', 'name': 'defibrotide'}, {'id': 'UniProt:P00750', 'label': 'Protein', 'name': 'tissue plasminogen activator'}, {'id': 'UniProt:P05121', 'label': 'Protein', 'name': 'tissue plasminogen activator inhibitor'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'GO:0042118', 'label': 'BiologicalProcess', 'name': 'endothelial activation'}, {'id': 'UBERON:0001281', 'label': 'GrossAnatomicalStructure', 'name': 'sinusoid'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood flow'}, {'id': 'MESH:D006504', 'label': 'Disease', 'name': 'Veno-occlusive disease of the liver'}], 'reference': ['https://go.drugbank.com/drugs/DB04932#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04846_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'celiprolol', 'drug_mesh': 'MESH:D017272', 'drugbank': 'DB:DB04846'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017272', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0045776'}, {'key': 'causes', 'source': 'GO:0045776', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017272', 'label': 'Drug', 'name': 'celiprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04846#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04846_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'celiprolol', 'drug_mesh': 'MESH:D017272', 'drugbank': 'DB:DB04846'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017272', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'regulates', 'source': 'GO:0042311', 'target': 'GO:0002027'}, {'key': 'positively regulates', 'source': 'GO:0002027', 'target': 'GO:0045776'}, {'key': 'treats', 'source': 'GO:0045776', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017272', 'label': 'Drug', 'name': 'celiprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'heart rate'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB04846#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00981_MESH_D005902_1', 'alt_ids': 'MESH:C026718', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'physostigmine', 'drug_mesh': 'MESH:D010830', 'drugbank': 'DB:DB00981'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010830', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'increases activity of', 'source': 'GO:0045202', 'target': 'InterPro:IPR002394'}, {'key': 'treats', 'source': 'InterPro:IPR002394', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010830', 'label': 'Drug', 'name': 'Physostigmine'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'InterPro:IPR002394', 'label': 'GeneFamily', 'name': 'nicotinic acetylcholine receptors'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00981#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00981_MESH_D005902_2', 'alt_ids': 'MESH:C026718', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'physostigmine', 'drug_mesh': 'MESH:D010830', 'drugbank': 'DB:DB00981'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010830', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'increases activity of', 'source': 'GO:0045202', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010830', 'label': 'Drug', 'name': 'Physostigmine'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptors'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00981#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13001_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'tinoridine', 'drug_mesh': 'MESH:C100290', 'drugbank': 'DB:DB13001'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100290', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'treats', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100290', 'label': 'Drug', 'name': 'tinoridine'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'cyclooxygenase'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'prostaglandin synthesis'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Tinoridine#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01080_MESH_D013036_1', 'disease': 'West syndrome', 'disease_mesh': 'MESH:D013036', 'drug': 'vigabatrin', 'drug_mesh': 'MESH:D020888', 'drugbank': 'DB:DB01080'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020888', 'target': 'UniProt:P80404'}, {'key': 'decreases abundance of', 'source': 'UniProt:P80404', 'target': 'MESH:C009338'}, {'key': 'increases abundance of', 'source': 'MESH:C009338', 'target': 'MESH:D005680'}, {'key': 'located in', 'source': 'MESH:D005680', 'target': 'UBERON:0001017'}, {'key': 'treats', 'source': 'UBERON:0001017', 'target': 'MESH:D013036'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020888', 'label': 'Drug', 'name': 'vigabatrin'}, {'id': 'UniProt:P80404', 'label': 'Protein', 'name': 'GABA transaminase (GABA-T)'}, {'id': 'MESH:C009338', 'label': 'ChemicalSubstance', 'name': 'succinic semialdehyde'}, {'id': 'MESH:D005680', 'label': 'ChemicalSubstance', 'name': 'GABA'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'MESH:D013036', 'label': 'Disease', 'name': 'West syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01080#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D012141_1', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 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'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 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'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P01275'}, {'key': 'positively regulates', 'source': 'UniProt:P01275', 'target': 'MESH:D007328'}, {'key': 'located in', 'source': 'MESH:D007328', 'target': 'CL:0000169'}, {'key': 'decreases abundance of', 'source': 'CL:0000169', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 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'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P09681'}, {'key': 'increases abundance of', 'source': 'UniProt:P09681', 'target': 'MESH:D007328'}, {'key': 'located in', 'source': 'MESH:D007328', 'target': 'CL:0000169'}, {'key': 'decreases abundance of', 'source': 'CL:0000169', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P09681', 'label': 'Protein', 'name': 'glucose-dependant insulinotropic polypeptide (GIP)'}, {'id': 'MESH:D007328', 'label': 'ChemicalSubstance', 'name': 'insulin'}, {'id': 'CL:0000169', 'label': 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'enabled by', 'source': 'MESH:D005557', 'target': 'GO:0070989'}, {'key': 'disrupts', 'source': 'GO:0070989', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006585', 'label': 'Drug', 'name': 'altretamine'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'CYP450 enzymes'}, {'id': 'MESH:D005557', 'label': 'ChemicalSubstance', 'name': 'formaldehyde'}, {'id': 'GO:0070989', 'label': 'MolecularActivity', 'name': 'N-demethylation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cells'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Altretamine#Mechanism']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'MolecularActivity', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00488_MESH_D010051_2', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'altretamine', 'drug_mesh': 'MESH:D006585', 'drugbank': 'DB:DB00488'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D006585', 'target': 'InterPro:IPR001128'}, {'key': 'produces', 'source': 'InterPro:IPR001128', 'target': 'CHEBI:73080'}, {'key': 'enabled by', 'source': 'CHEBI:73080', 'target': 'GO:0070989'}, {'key': 'disrupts', 'source': 'GO:0070989', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006585', 'label': 'Drug', 'name': 'altretamine'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'CYP450 enzymes'}, {'id': 'CHEBI:73080', 'label': 'ChemicalSubstance', 'name': 'carbinolamine'}, {'id': 'GO:0070989', 'label': 'MolecularActivity', 'name': 'N-demethylation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cells'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Altretamine#Mechanism']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'MolecularActivity', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00383_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'oxyphencyclimine', 'drug_mesh': 'MESH:C100201', 'drugbank': 'DB:DB00383'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100201', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100201', 'label': 'Drug', 'name': 'oxyphencyclimine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'gastric acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00383']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00550_MESH_D006980_1', 'disease': 'Hyperthyroidism', 'disease_mesh': 'MESH:D006980', 'drug': 'propylthiouracil', 'drug_mesh': 'MESH:D011441', 'drugbank': 'DB:DB00550'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011441', 'target': 'UniProt:P07202'}, {'key': 'participates in', 'source': 'UniProt:P07202', 'target': 'GO:0006590'}, {'key': 'positively correlated with', 'source': 'GO:0006590', 'target': 'MESH:D006980'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011441', 'label': 'Drug', 'name': 'propylthiouracil'}, {'id': 'UniProt:P07202', 'label': 'Protein', 'name': 'Thyroid peroxidase'}, {'id': 'GO:0006590', 'label': 'BiologicalProcess', 'name': 'thyroid hormone generation'}, {'id': 'MESH:D006980', 'label': 'Disease', 'name': 'Hyperthyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00550']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00550_MESH_D013958_1', 'disease': 'Thyrotoxic crisis', 'disease_mesh': 'MESH:D013958', 'drug': 'propylthiouracil', 'drug_mesh': 'MESH:D011441', 'drugbank': 'DB:DB00550'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011441', 'target': 'UniProt:P07202'}, {'key': 'participates in', 'source': 'UniProt:P07202', 'target': 'GO:0006590'}, {'key': 'positively correlated with', 'source': 'GO:0006590', 'target': 'MESH:D013958'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011441', 'label': 'Drug', 'name': 'propylthiouracil'}, {'id': 'UniProt:P07202', 'label': 'Protein', 'name': 'Thyroid peroxidase'}, {'id': 'GO:0006590', 'label': 'BiologicalProcess', 'name': 'thyroid hormone generation'}, {'id': 'MESH:D013958', 'label': 'Disease', 'name': 'Thyrotoxic crisis'}], 'reference': ['https://go.drugbank.com/drugs/DB00550']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D014277_1', 'disease': 'Trigeminal neuralgia', 'disease_mesh': 'MESH:D014277', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'actively involved in', 'source': 'GO:0050806', 'target': 'GO:1904058'}, {'key': 'causes', 'source': 'GO:1904058', 'target': 'MESH:D014277'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'GO:1904058', 'label': 'BiologicalProcess', 'name': 'positive regulation of sensory perception of pain'}, {'id': 'MESH:D014277', 'label': 'Disease', 'name': 'Trigeminal neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Trigeminal_neuralgia']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D020435_1', 'disease': 'Glossopharyngeal neuralgia', 'disease_mesh': 'MESH:D020435', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'actively involved in', 'source': 'GO:0050806', 'target': 'GO:1904058'}, {'key': 'causes', 'source': 'GO:1904058', 'target': 'MESH:D020435'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'GO:1904058', 'label': 'BiologicalProcess', 'name': 'positive regulation of sensory perception of pain'}, {'id': 'MESH:D020435', 'label': 'Disease', 'name': 'Glossopharyngeal neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Neuralgia']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004828_1', 'disease': 'Simple partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated 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"['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane 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'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Tonic-clonic seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Generalized_tonic%E2%80%93clonic_seizure']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Epilepsy']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00611_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'butorphanol', 'drug_mesh': 'MESH:D002077', 'drugbank': 'DB:DB00611'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41145'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41143'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P41145', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002077', 'label': 'Drug', 'name': 'butorphanol'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00611#BE0000632', 'https://en.wikipedia.org/wiki/Butorphanol', 'https://pubchem.ncbi.nlm.nih.gov/compound/Butorphanol']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00611_MESH_D048949_1', 'disease': 'Labor pain', 'disease_mesh': 'MESH:D048949', 'drug': 'butorphanol', 'drug_mesh': 'MESH:D002077', 'drugbank': 'DB:DB00611'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41145'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41143'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P41145', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D048949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002077', 'label': 'Drug', 'name': 'butorphanol'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D048949', 'label': 'Disease', 'name': 'Labor pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00611#BE0000632', 'https://en.wikipedia.org/wiki/Butorphanol', 'https://pubchem.ncbi.nlm.nih.gov/compound/Butorphanol']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00647_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'dextropropoxyphene', 'drug_mesh': 'MESH:D011431,MESH:C084813', 'drugbank': 'DB:DB00647'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00647', 'target': 'UniProt:P35372'}, {'key': 'increases activity of', 'source': 'DB:DB00647', 'target': 'UniProt:P41143'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00647', 'label': 'Drug', 'name': 'dextropropoxyphene'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00647']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': \"Primaquine's mechanism of action is not well understood\", 'directed': True, 'graph': {'_id': 'DB01087_MESH_D016780_1', 'disease': 'Vivax malaria', 'disease_mesh': 'MESH:D016780', 'drug': 'primaquine', 'drug_mesh': 'MESH:D011319', 'drugbank': 'DB:DB01087'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D011319', 'target': 'GO:0006979'}, {'key': 'negatively regulates', 'source': 'GO:0006979', 'target': 'GO:0042775'}, {'key': 'occurs in', 'source': 'GO:0042775', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011319', 'label': 'Drug', 'name': 'primaquine'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'response to oxidative stress'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'mitochondrial ATP synthesis coupled electron transport'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Vivax malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01087#BE0004805', 'https://en.wikipedia.org/wiki/Primaquine#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01340_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'cilazapril', 'drug_mesh': 'MESH:C045980,MESH:D017315', 'drugbank': 'DB:DB01340'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01340', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01340', 'label': 'Drug', 'name': 'cilazapril'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01340']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06196_MESH_D054179_1', 'disease': 'hereditary angioneurotic edema', 'disease_mesh': 'MESH:D054179', 'drug': 'icatibant', 'drug_mesh': 'MESH:C065679', 'drugbank': 'DB:DB06196'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C065679', 'target': 'UniProt:P30411'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P30411', 'target': 'MESH:D001920'}, {'key': 'contributes to', 'source': 'MESH:D001920', 'target': 'GO:0043117'}, {'key': 'has phenotype', 'source': 'GO:0043117', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D054179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065679', 'label': 'Drug', 'name': 'icatibant'}, {'id': 'UniProt:P30411', 'label': 'Protein', 'name': 'B2 bradykinin receptor'}, {'id': 'MESH:D001920', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'edema'}, {'id': 'MESH:D054179', 'label': 'Disease', 'name': 'hereditary angioneurotic edema'}], 'reference': ['https://go.drugbank.com/drugs/DB06196#BE0003513', 'https://en.wikipedia.org/wiki/Hereditary_angioedema']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06756_MESH_D006712_1', 'disease': 'Homocystinuria', 'disease_mesh': 'MESH:D006712', 'drug': 'betaine', 'drug_mesh': 'MESH:D001622', 'drugbank': 'DB:DB06756'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D001622', 'target': 'MESH:D006710'}, {'key': 'positively correlated with', 'source': 'MESH:D006710', 'target': 'MESH:D006712'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001622', 'label': 'Drug', 'name': 'Betaine'}, {'id': 'MESH:D006710', 'label': 'ChemicalSubstance', 'name': 'Homocysteine'}, {'id': 'MESH:D006712', 'label': 'Disease', 'name': 'Homocystinuria'}], 'reference': ['https://go.drugbank.com/drugs/DB06756']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Betaine is not a standard treatment for cystitis https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5895837/', 'directed': True, 'graph': {'_id': 'DB06756_MESH_D003556_1', 'disease': 'Cystitis', 'disease_mesh': 'MESH:D003556', 'drug': 'Betaine', 'drug_mesh': 'MESH:D001622', 'drugbank': 'DB:DB06756'}, 'links': [{'key': 'contributes to', 'source': 'MESH:D001622', 'target': 'HP:0012072'}, {'key': 'negatively correlated with', 'source': 'HP:0012072', 'target': 'MESH:D001437'}, {'key': 'positively correlated with', 'source': 'MESH:D001437', 'target': 'MESH:D003556'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001622', 'label': 'Drug', 'name': 'Betaine'}, {'id': 'HP:0012072', 'label': 'PhenotypicFeature', 'name': 'Acidic urine'}, {'id': 'MESH:D001437', 'label': 'Disease', 'name': 'Bacteriuria'}, {'id': 'MESH:D003556', 'label': 'Disease', 'name': 'Cystitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06756', 'https://pubmed.ncbi.nlm.nih.gov/31604680/', 'https://www.aafp.org/afp/2011/1201/p1234.html']}\n", + "['Drug', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Effective only for skin itching related to scabies', 'directed': True, 'graph': {'_id': 'DB06770_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'benzyl alcohol', 'drug_mesh': 'MESH:D019905', 'drugbank': 'DB:DB06770'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D019905', 'target': 'NCBITaxon:52283'}, {'key': 'causes', 'source': 'NCBITaxon:52283', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019905', 'label': 'Drug', 'name': 'Benzyl alcohol'}, {'id': 'NCBITaxon:52283', 'label': 'OrganismTaxon', 'name': 'Sarcoptes scabiei'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06770']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09211_MESH_D013919_1', 'disease': 'Thromboangiitis obliterans', 'disease_mesh': 'MESH:D013919', 'drug': 'Limaprost', 'drug_mesh': 'MESH:C525749,MESH:C025090,MESH:C059238', 'drugbank': 'DB:DB09211'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB09211', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'REACT:R-HSA-372790'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'MESH:D013919'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB09211', 'label': 'Drug', 'name': 'Limaprost'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D013919', 'label': 'Disease', 'name': 'Thromboangiitis obliterans'}], 'reference': ['https://go.drugbank.com/drugs/DB09211', 'https://en.wikipedia.org/wiki/Thromboangiitis_obliterans']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00241_MESH_D018781_1', 'disease': 'Tension-type headache', 'disease_mesh': 'MESH:D018781', 'drug': 'butalbital', 'drug_mesh': 'MESH:C004470', 'drugbank': 'DB:DB00241'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P14867'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P47869'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P34903'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P48169'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D018781'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004470', 'label': 'Drug', 'name': 'Butalbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'MESH:D018781', 'label': 'Disease', 'name': 'Tension-type headache'}], 'reference': ['https://go.drugbank.com/drugs/DB00241', 'https://en.wikipedia.org/wiki/Tension_headache']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00740_MESH_D000690_1', 'disease': 'Amyotrophic lateral sclerosis', 'disease_mesh': 'MESH:D000690', 'drug': 'riluzole', 'drug_mesh': 'MESH:D019782', 'drugbank': 'DB:DB00740'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019782', 'target': 'UniProt:Q14524'}, {'key': 'decreases activity of', 'source': 'MESH:D019782', 'target': 'GO:0004972'}, {'key': 'participates in', 'source': 'UniProt:Q14524', 'target': 'GO:0098719'}, {'key': 'positively regulates', 'source': 'GO:0004972', 'target': 'GO:0070509'}, {'key': 'capable of', 'source': 'GO:0098719', 'target': 'GO:0090280'}, {'key': 'contributes to', 'source': 'GO:0090280', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0061535'}, {'key': 'positively regulates', 'source': 'GO:0061535', 'target': 'GO:0004972'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0070997'}, {'key': 'occurs in', 'source': 'GO:0070997', 'target': 'MESH:D000690'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019782', 'label': 'Drug', 'name': 'Riluzole'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'GO:0004972', 'label': 'MolecularActivity', 'name': 'NMDA glutamate receptor activity'}, {'id': 'GO:0098719', 'label': 'BiologicalProcess', 'name': 'Sodium ion import across plasma membrane'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0090280', 'label': 'BiologicalProcess', 'name': 'Positive regulation of calcium ion import'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0070997', 'label': 'BiologicalProcess', 'name': 'Neuronal cell death'}, {'id': 'MESH:D000690', 'label': 'Disease', 'name': 'Amyotrophic lateral sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00740', 'https://pubmed.ncbi.nlm.nih.gov/25939067/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00999_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'hydrochlorothiazide', 'drug_mesh': 'MESH:D006852', 'drugbank': 'DB:DB00999'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006852', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006852', 'label': 'Drug', 'name': 'Hydrochlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00999']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00999_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'hydrochlorothiazide', 'drug_mesh': 'MESH:D006852', 'drugbank': 'DB:DB00999'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006852', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006852', 'label': 'Drug', 'name': 'Hydrochlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00999']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01029_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'irbesartan', 'drug_mesh': 'MESH:C081309', 'drugbank': 'DB:DB01029'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C081309', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081309', 'label': 'Drug', 'name': 'Irbesartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01029#BE0000062']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01029_MESH_D003928_1', 'disease': 'Diabetic Nephropathies', 'disease_mesh': 'MESH:D003928', 'drug': 'irbesartan', 'drug_mesh': 'MESH:C081309', 'drugbank': 'DB:DB01029'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C081309', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D003928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081309', 'label': 'Drug', 'name': 'Irbesartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D003928', 'label': 'Disease', 'name': 'Diabetic Nephropathies'}], 'reference': ['https://go.drugbank.com/drugs/DB01029#BE0000062']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04574_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'estrone sulphate', 'drug_mesh': 'MESH:C009927', 'drugbank': 'DB:DB04574'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C009927', 'target': 'UniProt:P03372'}, {'key': 'positively correlated with', 'source': 'UniProt:P03372', 'target': 'MESH:D004967'}, {'key': 'negatively correlated with', 'source': 'MESH:D004967', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009927', 'label': 'Drug', 'name': 'Estrone sulphate'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'Estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04574']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'comment': None, 'directed': True, 'graph': {'_id': 'DB06616_MESH_D001752_1', 'disease': 'Blastic phase of chronic myeloid leukemia', 'disease_mesh': 'MESH:D001752', 'drug': 'bosutinib', 'drug_mesh': 'MESH:C471992', 'drugbank': 'DB:DB06616'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C471992', 'target': 'UniProt:A9UF02'}, {'key': 'causes', 'source': 'UniProt:A9UF02', 'target': 'MESH:D001752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C471992', 'label': 'Drug', 'name': 'Bosutinib'}, {'id': 'UniProt:A9UF02', 'label': 'Protein', 'name': 'BCR/ABL protein-tyrosine kinase'}, {'id': 'MESH:D001752', 'label': 'Disease', 'name': 'Blastic phase of chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB06616']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001032', 'label': 'Drug', 'name': 'Azapropazone'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB07402', 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=38010']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases 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'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D002179_1', 'disease': 'Candidiasis of skin', 'disease_mesh': 'MESH:D002179', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 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'disease_mesh': 'MESH:D006484', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D006484'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D006484'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D006484', 'label': 'Disease', 'name': 'Hemorrhoids'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 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"{'directed': True, 'graph': {'_id': 'DB09321_MESH_D011349_1', 'disease': 'Proctitis', 'disease_mesh': 'MESH:D011349', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D011349'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D011349'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D011349', 'label': 'Disease', 'name': 'Proctitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014010'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': 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'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:1279'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 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'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:2'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:1280'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00828_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'fosfomycin', 'drug_mesh': 'MESH:D005578', 'drugbank': 'DB:DB00828'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D005578', 'target': 'UniProt:P0A749'}, {'key': 'positively regulates', 'source': 'UniProt:P0A749', 'target': 'GO:0019277'}, {'key': 'part of', 'source': 'GO:0019277', 'target': 'GO:0009274'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005578', 'label': 'Drug', 'name': 'fosfomycin'}, {'id': 'UniProt:P0A749', 'label': 'Protein', 'name': 'UDP-N-acetylglucosamine 1-carboxyvinyltransferase'}, {'id': 'GO:0019277', 'label': 'BiologicalProcess', 'name': 'UDP-N-acetylgalactosamine biosynthetic process'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00828#mechanism-of-action', 'https://en.wikipedia.org/wiki/Fosfomycin#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00494_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'entacapone', 'drug_mesh': 'MESH:C071192', 'drugbank': 'DB:DB00494'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C071192', 'target': 'UniProt:P21964'}, {'key': 'positively regulates', 'source': 'UniProt:P21964', 'target': 'GO:0102084'}, {'key': 'decreases abundance of', 'source': 'GO:0102084', 'target': 'CHEBI:15765'}, {'key': 'positively correlated with', 'source': 'CHEBI:15765', 'target': 'GO:0001963'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C071192', 'label': 'Drug', 'name': 'entacapone'}, {'id': 'UniProt:P21964', 'label': 'Protein', 'name': 'Catechol O-methyltransferase'}, {'id': 'GO:0102084', 'label': 'MolecularActivity', 'name': 'L-dopa O-methyltransferase activity'}, {'id': 'CHEBI:15765', 'label': 'ChemicalSubstance', 'name': 'L-dopa'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00494#mechanism-of-action', 'https://en.wikipedia.org/wiki/Entacapone#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D017674_1', 'disease': 'Hypophosphatemia', 'disease_mesh': 'MESH:D017674', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'positively correlated with', 'source': 'GO:0055074', 'target': 'GO:0055062'}, {'key': 'negatively correlated with', 'source': 'GO:0055062', 'target': 'MESH:D017674'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'GO:0055062', 'label': 'BiologicalProcess', 'name': 'phosphate ion homeostasis'}, {'id': 'MESH:D017674', 'label': 'Disease', 'name': 'Hypophosphatemia'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://www.targetvalidation.org/evidence/ENSG00000111424/HP_0002148?view=sec:known_drug', 'https://en.wikipedia.org/wiki/Hypophosphatemia#Causes', 'https://go.drugbank.com/drugs/DB00136#description']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://www.targetvalidation.org/evidence/ENSG00000111424/HP_0002901?view=sec:known_drug', 'https://go.drugbank.com/drugs/DB00136#description', 'https://en.wikipedia.org/wiki/Hypocalcaemia#Management']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D007011_1', 'disease': 'Hypoparathyroidism', 'disease_mesh': 'MESH:D007011', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0004363'}, {'key': 'positively correlated with', 'source': 'HP:0004363', 'target': 'MESH:D007011'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0004363', 'label': 'PhenotypicFeature', 'name': 'Abnormal circulating calcium concentration'}, {'id': 'MESH:D007011', 'label': 'Disease', 'name': 'Hypoparathyroidism'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://en.wikipedia.org/wiki/Hypoparathyroidism#Treatment', 'https://go.drugbank.com/drugs/DB00136#description']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D012080_1', 'disease': 'Renal osteodystrophy', 'disease_mesh': 'MESH:D012080', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0004363'}, {'key': 'positively correlated with', 'source': 'HP:0004363', 'target': 'MESH:D012080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0004363', 'label': 'PhenotypicFeature', 'name': 'Abnormal circulating calcium concentration'}, {'id': 'MESH:D012080', 'label': 'Disease', 'name': 'Renal osteodystrophy'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://pubmed.ncbi.nlm.nih.gov/16970258/', 'https://go.drugbank.com/drugs/DB00136#description', 'https://en.wikipedia.org/wiki/Renal_osteodystrophy#Pathogenesis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00165_MESH_D026681_1', 'disease': 'Vitamin B6 deficiency', 'disease_mesh': 'MESH:D026681', 'drug': 'pyridoxine', 'drug_mesh': 'MESH:D011736', 'drugbank': 'DB:DB00165'}, 'links': [{'key': 'interacts with', 'source': 'MESH:D011736', 'target': 'UniProt:O00764'}, {'key': 'positively regulates', 'source': 'UniProt:O00764', 'target': 'GO:0008478'}, {'key': 'positively correlated with', 'source': 'GO:0008478', 'target': 'CHEBI:18405'}, {'key': 'negatively correlated with', 'source': 'CHEBI:18405', 'target': 'MESH:D026681'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011736', 'label': 'Drug', 'name': 'pyridoxine'}, {'id': 'UniProt:O00764', 'label': 'Protein', 'name': 'Pyridoxal kinase'}, {'id': 'GO:0008478', 'label': 'MolecularActivity', 'name': 'pyridoxal kinase activity'}, {'id': 'CHEBI:18405', 'label': 'ChemicalSubstance', 'name': \"pyridoxal 5'-phosphate\"}, {'id': 'MESH:D026681', 'label': 'Disease', 'name': 'Vitamin B6 deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00165#mechanism-of-action', 'https://en.wikipedia.org/wiki/Pyridoxine']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", + "{'comments': 'Setiptiline is considered a weak inhibitor of norepinephrine reuptake but I could not find evidence for this drug modulating the (nore)epinephrine uptake by Q7RTT9 or P23975. These putative mechanism has been observed in vitro/model organisms studies and is on Wikipedia (https://en.wikipedia.org/wiki/Setiptiline#Pharmacodynamics) but not on DrugBank or ChEMBL for example.', 'directed': True, 'graph': {'_id': 'DB09304_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'setiptiline', 'drug_mesh': 'MESH:C050605', 'drugbank': 'DB:DB09304'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P18089'}, {'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P18825'}, {'key': 'correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P18089', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P18825', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'UniProt:P18089', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'UniProt:P18825', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'correlated with', 'source': 'GO:0061529', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C050605', 'label': 'Drug', 'name': 'setiptiline'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061529', 'label': 'BiologicalProcess', 'name': 'epinephrine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09304#mechanism-of-action', 'https://drugs.ncats.io/substance/7L38105Z6E#general']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09304_MESH_D003866_2', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'setiptiline', 'drug_mesh': 'MESH:C050605', 'drugbank': 'DB:DB09304'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'InterPro:IPR002231'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002231', 'target': 'GO:0001820'}, {'key': 'precedes', 'source': 'GO:0001820', 'target': 'GO:0099153'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C050605', 'label': 'Drug', 'name': 'setiptiline'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'GO:0001820', 'label': 'BiologicalProcess', 'name': 'serotonin secretion'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09304#mechanism-of-action', 'https://drugs.ncats.io/substance/7L38105Z6E#general']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00411_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'carbachol', 'drug_mesh': 'MESH:D002217', 'drugbank': 'DB:DB00411'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002217', 'target': 'InterPro:IPR000995'}, {'key': 'participates in', 'source': 'InterPro:IPR000995', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0006939'}, {'key': 'correlated with', 'source': 'GO:0006939', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002217', 'label': 'Drug', 'name': 'carbachol'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00411#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2551#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Carbachol#Chemistry_and_pharmacology', 'https://www.kegg.jp/entry/D00524']}\n", + "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00411_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'carbachol', 'drug_mesh': 'MESH:D002217', 'drugbank': 'DB:DB00411'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002217', 'target': 'UniProt:Q15822'}, {'key': 'positively regulates', 'source': 'UniProt:Q15822', 'target': 'GO:0022848'}, {'key': 'located in', 'source': 'GO:0022848', 'target': 'GO:0031594'}, {'key': 'positively correlated with', 'source': 'GO:0031594', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002217', 'label': 'Drug', 'name': 'carbachol'}, {'id': 'UniProt:Q15822', 'label': 'Protein', 'name': 'Neuronal acetylcholine receptor subunit alpha-2'}, {'id': 'GO:0022848', 'label': 'MolecularActivity', 'name': 'acetylcholine-gated cation-selective channel activity'}, {'id': 'GO:0031594', 'label': 'CellularComponent', 'name': 'neuromuscular junction'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00411#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2551#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Carbachol#Chemistry_and_pharmacology', 'https://www.kegg.jp/entry/D00524']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'CellularComponent', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00799_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'tazarotene', 'drug_mesh': 'MESH:C086827', 'drugbank': 'DB:DB00799'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10276'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P28702'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P13631'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10826'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'REACT:R-HSA-181438'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-181438', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'UniProt:P00533', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'MESH:D053536', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'MESH:D053553', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'MESH:D020782', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086827', 'label': 'Drug', 'name': 'tazarotene'}, {'id': 'UniProt:P10276', 'label': 'Protein', 'name': 'Retinoic acid receptor alpha'}, {'id': 'UniProt:P10826', 'label': 'Protein', 'name': 'Retinoic acid receptor beta'}, {'id': 'UniProt:P28702', 'label': 'Protein', 'name': 'Retinoic acid receptor RXR-beta'}, {'id': 'UniProt:P13631', 'label': 'Protein', 'name': 'Retinoic acid receptor gamma'}, {'id': 'MESH:D053536', 'label': 'Protein', 'name': 'Keratin-16'}, {'id': 'MESH:D053553', 'label': 'Protein', 'name': 'Keratin-6'}, {'id': 'MESH:D020782', 'label': 'Protein', 'name': 'Matrix Metalloproteinases'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'REACT:R-HSA-181438', 'label': 'Pathway', 'name': 'Toll Like Receptor 2 (TLR2) Cascade'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4043801/#__sec2title', 'https://go.drugbank.com/drugs/DB00799#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/28585191/', 'https://europepmc.org/article/med/32100454']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'MESH:D057705 refers to the movement of leukocytes (the term NCIT:C91439 would have been better suited here but could not be validated)', 'directed': True, 'graph': {'_id': 'DB00799_MESH_D011565_1', 'disease': 'Psoriasis', 'disease_mesh': 'MESH:D011565', 'drug': 'tazarotene', 'drug_mesh': 'MESH:C086827', 'drugbank': 'DB:DB00799'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10276'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P28702'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P13631'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10826'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D003873'}, {'key': 'positively correlated with', 'source': 'MESH:D057705', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0043616', 'target': 'MESH:D011565'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011565'}, {'key': 'positively correlated with', 'source': 'MESH:D003873', 'target': 'MESH:D011565'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086827', 'label': 'Drug', 'name': 'tazarotene'}, {'id': 'UniProt:P10276', 'label': 'Protein', 'name': 'Retinoic acid receptor alpha'}, {'id': 'UniProt:P10826', 'label': 'Protein', 'name': 'Retinoic acid receptor beta'}, {'id': 'UniProt:P28702', 'label': 'Protein', 'name': 'Retinoic acid receptor RXR-beta'}, {'id': 'UniProt:P13631', 'label': 'Protein', 'name': 'Retinoic acid receptor gamma'}, {'id': 'MESH:D003873', 'label': 'PhenotypicFeature', 'name': 'Dermatitis, Exfoliative'}, {'id': 'GO:0043616', 'label': 'BiologicalProcess', 'name': 'keratinocyte proliferation'}, {'id': 'MESH:D057705', 'label': 'BiologicalProcess', 'name': 'Transendothelial Migration Pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011565', 'label': 'Disease', 'name': 'Psoriasis'}], 'reference': ['https://www.hindawi.com/journals/mi/2018/3067126/', 'https://go.drugbank.com/drugs/DB00799#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'DrugBank has this drug modulating a human target/protein (https://go.drugbank.com/drugs/DB04930#mechanism-of-action) instead of the non-vertebrate proteome. Because humans (and other mammals) share similar ion channels this drug can have some toxic effects on the vertebrate host (e.g. https://pubmed.ncbi.nlm.nih.gov/11812616/)', 'directed': True, 'graph': {'_id': 'DB04930_MESH_D012532_1', 'disease': 'Infestation by Sarcoptes scabiei var hominis', 'disease_mesh': 'MESH:D012532', 'drug': 'permethrin', 'drug_mesh': 'MESH:D026023', 'drugbank': 'DB:DB04930'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D026023', 'target': 'UniProt:Q2VKV7'}, {'key': 'positively regulates', 'source': 'UniProt:Q2VKV7', 'target': 'GO:1902305'}, {'key': 'positively correlated with', 'source': 'GO:1902305', 'target': 'GO:0086009'}, {'key': 'occurs in', 'source': 'GO:0086009', 'target': 'MESH:D001369'}, {'key': 'in taxon', 'source': 'MESH:D001369', 'target': 'NCBITaxon:52283'}, {'key': 'causes', 'source': 'NCBITaxon:52283', 'target': 'MESH:D012532'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D026023', 'label': 'Drug', 'name': 'permethrin'}, {'id': 'UniProt:Q2VKV7', 'label': 'Protein', 'name': 'Sodium channel protein'}, {'id': 'GO:1902305', 'label': 'BiologicalProcess', 'name': 'regulation of sodium ion transmembrane transport'}, {'id': 'GO:0086009', 'label': 'BiologicalProcess', 'name': 'membrane repolarization'}, {'id': 'MESH:D001369', 'label': 'Cell', 'name': 'Axons'}, {'id': 'NCBITaxon:52283', 'label': 'OrganismTaxon', 'name': 'Sarcoptes scabiei'}, {'id': 'MESH:D012532', 'label': 'Disease', 'name': 'Infestation by Sarcoptes scabiei var hominis'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1525/', 'https://dailymed.nlm.nih.gov/dailymed/lookup.cfm?setid=4de55a80-67d6-42c0-a6fc-57b89400c5b3', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL2362985/', 'https://beta.targetvalidation.org/drug/CHEMBL1525', 'https://en.wikipedia.org/wiki/Permethrin#Pharmacokinetics', 'https://en.wikipedia.org/wiki/Pyrethroid#Mode_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'this drug may bind to calmodulin therefore having an anti-neoplasmic effect (https://pubmed.ncbi.nlm.nih.gov/28062709/). For schizophrenia, the dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910. See https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy)', 'directed': True, 'graph': {'_id': 'DB00850_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'perphenazine', 'drug_mesh': 'MESH:D010546', 'drugbank': 'DB:DB00850'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010546', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D010546', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000746'}, {'key': 'manifestation of', 'source': 'HP:0000746', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010546', 'label': 'Drug', 'name': 'perphenazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0000746', 'label': 'PhenotypicFeature', 'name': 'Delusions'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00850#mechanism-of-action', 'https://en.wikipedia.org/wiki/Perphenazine', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06237_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'avanafil', 'drug_mesh': 'MESH:C553414', 'drugbank': 'DB:DB06237'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C553414', 'target': 'UniProt:O76074'}, {'key': 'increases abundance of', 'source': 'UniProt:O76074', 'target': 'MESH:D006152'}, {'key': 'causes', 'source': 'MESH:D006152', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'GO:0044557', 'target': 'GO:0008015'}, {'key': 'located in', 'source': 'GO:0008015', 'target': 'UBERON:0004713'}, {'key': 'participates in', 'source': 'UBERON:0004713', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C553414', 'label': 'Drug', 'name': 'avanafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cGMP'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood flow'}, {'id': 'UBERON:0004713', 'label': 'GrossAnatomicalStructure', 'name': 'Corpus cavernosum penis'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB06237#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00878_MESH_D005891_1', 'disease': 'Gingivitis', 'disease_mesh': 'MESH:D005891', 'drug': 'chlorhexidine', 'drug_mesh': 'MESH:D002710', 'drugbank': 'DB:DB00878'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002710', 'target': 'GO:0005886'}, {'key': 'causes', 'source': 'GO:0005886', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D005891'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002710', 'label': 'Drug', 'name': 'chlorhexidine'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'cell membrane'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'bacteria'}, {'id': 'MESH:D005891', 'label': 'Disease', 'name': 'Gingivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00878#mechanismofaction']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00651_MESH_D000080445_1', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'diprophylline', 'drug_mesh': 'MESH:D004400', 'drugbank': 'DB:DB00651'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004400', 'target': 'InterPro:IPR043371'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR043371', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0097366'}, {'key': 'enables', 'source': 'GO:0097366', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'contributes to', 'source': 'UBERON:0002185', 'target': 'GO:0042311'}, {'key': 'correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004400', 'label': 'Drug', 'name': 'diprophylline'}, {'id': 'InterPro:IPR043371', 'label': 'GeneFamily', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4\"}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'bronchodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00651#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00651_MESH_D000080445_2', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'diprophylline', 'drug_mesh': 'MESH:D004400', 'drugbank': 'DB:DB00651'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004400', 'target': 'InterPro:IPR001634'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001634', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0097366'}, {'key': 'enables', 'source': 'GO:0097366', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'contributes to', 'source': 'UBERON:0002185', 'target': 'GO:0042311'}, {'key': 'correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004400', 'label': 'Drug', 'name': 'diprophylline'}, {'id': 'InterPro:IPR001634', 'label': 'GeneFamily', 'name': 'adenosine receptors'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'bronchodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00651#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00651_MESH_D029481_1', 'disease': 'Chronic bronchitis', 'disease_mesh': 'MESH:D029481', 'drug': 'diprophylline', 'drug_mesh': 'MESH:D004400', 'drugbank': 'DB:DB00651'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004400', 'target': 'InterPro:IPR043371'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR043371', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0097366'}, {'key': 'enables', 'source': 'GO:0097366', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'contributes to', 'source': 'UBERON:0002185', 'target': 'GO:0042311'}, {'key': 'correlated with', 'source': 'GO:0042311', 'target': 'MESH:D029481'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004400', 'label': 'Drug', 'name': 'diprophylline'}, {'id': 'InterPro:IPR043371', 'label': 'GeneFamily', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4\"}, 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['https://go.drugbank.com/drugs/DB00404#mechanismofaction', 'https://en.wikipedia.org/wiki/Alprazolam']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00404_MESH_D016584_1', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'alprazolam', 'drug_mesh': 'MESH:D000525', 'drugbank': 'DB:DB00404'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000525', 'target': 'InterPro:IPR006028'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR006028', 'target': 'MESH:D005680'}, {'key': 'decreases activity of', 'source': 'MESH:D005680', 'target': 'UBERON:0004092'}, {'key': 'positively regulates', 'source': 'UBERON:0004092', 'target': 'GO:0060081'}, {'key': 'decreases activity of', 'source': 'GO:0060081', 'target': 'GO:0001508'}, {'key': 'actively involved in', 'source': 'GO:0001508', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 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'reference': ['https://go.drugbank.com/drugs/DB00921#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7203271/']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00921_MESH_D009293_2', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'Buprenorphine', 'drug_mesh': 'MESH:D002047', 'drugbank': 'DB:DB00921'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002047', 'target': 'UniProt:P41145'}, {'key': 'decreases response to', 'source': 'UniProt:P41145', 'target': 'HP:0000716'}, {'key': 'caused by', 'source': 'HP:0000716', 'target': 'HP:0033515'}, {'key': 'ameliorates', 'source': 'HP:0033515', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002047', 'label': 'Drug', 'name': 'Buprenorphine'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-opioid receptor'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 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'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068577', 'target': 'UniProt:P08588'}, {'key': 'located in', 'source': 'UniProt:P08588', 'target': 'UBERON:0002303'}, {'key': 'decreases abundance of', 'source': 'UBERON:0002303', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0061337'}, {'key': 'regulates', 'source': 'GO:0061337', 'target': 'GO:0008217'}, {'key': 'prevents', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'beta-1 adrenergic receptor'}, {'id': 'UBERON:0002303', 'label': 'GrossAnatomicalStructure', 'name': 'juxtaglomerular apparatus'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'renin'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_2', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068577', 'target': 'MESH:D000450'}, {'key': 'regulates', 'source': 'MESH:D000450', 'target': 'GO:0002017'}, {'key': 'decreases abundance of', 'source': 'GO:0002017', 'target': 'UniProt:P00797'}, {'key': 'negatively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'GO:0061337'}, {'key': 'prevents', 'source': 'GO:0061337', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0002017', 'label': 'BiologicalProcess', 'name': 'blood volume'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_3', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068577', 'target': 'UniProt:P13945'}, {'key': 'positively regulates', 'source': 'UniProt:P13945', 'target': 'UniProt:P29474'}, {'key': 'increases abundance of', 'source': 'UniProt:P29474', 'target': 'MESH:D009569'}, {'key': 'causes', 'source': 'MESH:D009569', 'target': 'GO:0060087'}, {'key': 'enables', 'source': 'GO:0060087', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0061337'}, {'key': 'prevents', 'source': 'GO:0061337', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'beta-3 adrenergic receptor'}, {'id': 'UniProt:P29474', 'label': 'Protein', 'name': 'endothelial nitric oxide synthase'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle relaxation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01113_MESH_D016491_1', 'disease': 'Peripheral vascular disease', 'disease_mesh': 'MESH:D016491', 'drug': 'Papaverine', 'drug_mesh': 'MESH:D010208', 'drugbank': 'DB:DB01113'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010208', 'target': 'UniProt:Q07343'}, {'key': 'increases abundance of', 'source': 'UniProt:Q07343', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0005262'}, {'key': 'located in', 'source': 'GO:0005262', 'target': 'UBERON:0001133'}, {'key': 'causes', 'source': 'UBERON:0001133', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0044557'}, {'key': 'prevents', 'source': 'GO:0044557', 'target': 'MESH:D016491'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010208', 'label': 'Drug', 'name': 'Papaverine'}, {'id': 'UniProt:Q07343', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4B\"}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0005262', 'label': 'BiologicalProcess', 'name': 'calcium channel activity'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle'}, {'id': 'MESH:D016491', 'label': 'Disease', 'name': 'Peripheral vascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01113#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'positively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0032869'}, {'key': 'increases response to', 'source': 'GO:0032869', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'peroxisome proliferator-activated receptor-gamma'}, {'id': 'GO:0032869', 'label': 'BiologicalProcess', 'name': 'tissue sensitivity to insulin'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'uptake of blood glucose'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01132#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_2', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'negatively regulates', 'source': 'UniProt:P37231', 'target': 'REACT:R-HSA-70263'}, {'key': 'increases response to', 'source': 'REACT:R-HSA-70263', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'peroxisome proliferator-activated receptor-gamma'}, {'id': 'REACT:R-HSA-70263', 'label': 'Pathway', 'name': 'gluconeogenesis'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'uptake of blood glucose'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01132#mechanismofaction']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_3', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'positively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0032869'}, {'key': 'increases response to', 'source': 'GO:0032869', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 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'UBERON:0002349', 'target': 'GO:1902608'}, {'key': 'decreases abundance of', 'source': 'GO:1902608', 'target': 'MESH:D002118'}, {'key': 'negatively regulates', 'source': 'MESH:D002118', 'target': 'GO:0015276'}, {'key': 'caused by', 'source': 'GO:0015276', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013015', 'label': 'Drug', 'name': 'Sotalol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UBERON:0002349', 'label': 'GrossAnatomicalStructure', 'name': 'myocardium'}, {'id': 'GO:1902608', 'label': 'BiologicalProcess', 'name': 'activation of calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'intracellular calcium'}, {'id': 'GO:0015276', 'label': 'BiologicalProcess', 'name': 'ionotropic effect'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00489#mechanismofaction', 'https://en.wikipedia.org/wiki/Sotalol#:~:text=Sotalol%2C%20sold%20under%20the%20brand,to%20potentially%20serious%20side%20effects']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00489_MESH_D001281_2', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Sotalol', 'drug_mesh': 'MESH:D013015', 'drugbank': 'DB:DB00489'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013015', 'target': 'UniProt:Q12809'}, {'key': 'negatively regulates', 'source': 'UniProt:Q12809', 'target': 'GO:0086009'}, {'key': 'affects activity of', 'source': 'GO:0086009', 'target': 'GO:0060047'}, {'key': 'negatively regulates', 'source': 'GO:0060047', 'target': 'GO:0015276'}, {'key': 'caused by', 'source': 'GO:0015276', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013015', 'label': 'Drug', 'name': 'Sotalol'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 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'source': 'UniProt:P35372', 'target': 'InterPro:IPR030672'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'disrupts', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'precedes', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'ameliorates', 'source': 'GO:0060081', 'target': 'MESH:D010149'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017409', 'label': 'Drug', 'name': 'Sufentanil'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'μ-opioid receptors'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'intracellular cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D010149', 'label': 'Disease', 'name': 'Postoperative pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00708#mechanismofaction']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00775_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'Tirofiban', 'drug_mesh': None, 'drugbank': 'DB:DB00775'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00775', 'target': 'PR:000028445'}, {'key': 'negatively regulates', 'source': 'PR:000028445', 'target': 'InterPro:IPR030672'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00775', 'label': 'Drug', 'name': 'Tirofiban'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'platelet glycoprotein (GP) IIb/IIIa receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00775#mechanismofaction']}\n", + "['Drug', 'MacromolecularComplex', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00385_MESH_D001749_1', 'disease': 'Malignant tumor of urinary bladder', 'disease_mesh': 'MESH:D001749', 'drug': 'Valrubicin', 'drug_mesh': 'MESH:C016163', 'drugbank': 'DB:DB00385'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C016163', 'target': 'UniProt:P11388'}, {'key': 'causes', 'source': 'UniProt:P11388', 'target': 'GO:0031052'}, {'key': 'negatively regulates', 'source': 'GO:0031052', 'target': 'GO:0006412'}, {'key': 'disrupts', 'source': 'GO:0006412', 'target': 'GO:0051319'}, {'key': 'in pathway with', 'source': 'GO:0051319', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D001749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016163', 'label': 'Drug', 'name': 'Valrubicin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0031052', 'label': 'BiologicalProcess', 'name': 'chromosomal damage'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'GO:0051319', 'label': 'BiologicalProcess', 'name': 'G2 phase'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'cell cycle'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D001749', 'label': 'Disease', 'name': 'Malignant tumor of urinary bladder'}], 'reference': ['https://go.drugbank.com/drugs/DB00385#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Valrubicin']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00385_MESH_D001749_2', 'disease': 'Malignant tumor of urinary bladder', 'disease_mesh': 'MESH:D001749', 'drug': 'Valrubicin', 'drug_mesh': 'MESH:C016163', 'drugbank': 'DB:DB00385'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C016163', 'target': 'InterPro:IPR017892'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR017892', 'target': 'GO:0006351'}, {'key': 'located in', 'source': 'GO:0006351', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D001749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016163', 'label': 'Drug', 'name': 'Valrubicin'}, {'id': 'InterPro:IPR017892', 'label': 'GeneFamily', 'name': 'protein kinase C'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'transcription'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor 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'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:P17252', 'label': 'Protein', 'name': 'protein kinase C (PKC)-α'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D001714_5', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'UniProt:P29966'}, {'key': 'negatively regulates', 'source': 'UniProt:P29966', 'target': 'UniProt:Q02156'}, {'key': 'contributes to', 'source': 'UniProt:Q02156', 'target': 'GO:0051823'}, {'key': 'located in', 'source': 'GO:0051823', 'target': 'UBERON:0001870'}, {'key': 'correlated with', 'source': 'UBERON:0001870', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:Q02156', 'label': 'Protein', 'name': 'protein kinase C (PKC)-ε'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D008881_2', 'disease': 'migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:O14975'}, {'key': 'located in', 'source': 'UniProt:O14975', 'target': 'UBERON:0000955'}, {'key': 'decreases abundance of', 'source': 'UBERON:0000955', 'target': 'MESH:C026563'}, {'key': 'participates in', 'source': 'MESH:C026563', 'target': 'REACT:R-HSA-2162123'}, {'key': 'prevents', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:O14975', 'label': 'Protein', 'name': 'microsomal long-chain fatty acyl-CoA synthetase'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'brain'}, {'id': 'MESH:C026563', 'label': 'ChemicalSubstance', 'name': 'Arachidonoyl-CoA'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'inflammatory prostaglandins production'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01282_MESH_D006473_2', 'disease': 'postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'carbetocin', 'drug_mesh': 'MESH:C020731', 'drugbank': 'DB:DB01282'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C020731', 'target': 'UniProt:P30559'}, {'key': 'positively regulates', 'source': 'UniProt:P30559', 'target': 'GO:0070474'}, {'key': 'prevents', 'source': 'GO:0070474', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020731', 'label': 'Drug', 'name': 'Carbetocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'oxytocin receptors'}, {'id': 'GO:0070474', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle relaxation'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01282#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00248_MESH_D006966_1', 'disease': 'Hyperprolactinemia', 'disease_mesh': 'MESH:D006966', 'drug': 'cabergoline', 'drug_mesh': 'MESH:D000077465', 'drugbank': 'DB:DB00248'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000077465', 'target': 'UniProt:P14416'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'GO:0007195'}, {'key': 'decreases abundance of', 'source': 'GO:0007195', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0051209'}, {'key': 'contributes to', 'source': 'GO:0051209', 'target': 'GO:1902722'}, {'key': 'causes', 'source': 'GO:1902722', 'target': 'MESH:D006966'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077465', 'label': 'Drug', 'name': 'Cabergoline'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D2 dopamine receptor'}, {'id': 'GO:0007195', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-inhibiting dopamine receptor signaling pathway'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0051209', 'label': 'BiologicalProcess', 'name': 'Release of sequestered calcium ion into cytosol'}, {'id': 'GO:1902722', 'label': 'BiologicalProcess', 'name': 'Positive regulation of\\xa0prolactin\\xa0secretion'}, {'id': 'MESH:D006966', 'label': 'Disease', 'name': 'Hyperprolactinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00248']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00289_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'atomoxetine', 'drug_mesh': 'MESH:D000069445', 'drugbank': 'DB:DB00289'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069445', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D000069445', 'target': 'GO:0004972'}, {'key': 'positively regulates', 'source': 'MESH:D000069445', 'target': 'GO:0061527'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'GO:0004972', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001289'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'correlated with', 'source': 'GO:0061535', 'target': 'MESH:D001289'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069445', 'label': 'Drug', 'name': 'Atomoxetine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0004972', 'label': 'MolecularActivity', 'name': 'NMDA glutamate receptor activity'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00289', 'https://pubmed.ncbi.nlm.nih.gov/24259638/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014006_1', 'disease': 'Tinea capitis', 'disease_mesh': 'MESH:D014006', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014006'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014006', 'label': 'Disease', 'name': 'Tinea capitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'increases abundance of', 'source': 'GO:0043627', 'target': 'MESH:D012701'}, {'key': 'negatively correlated with', 'source': 'MESH:D012701', 'target': 'MESH:D019964'}, {'key': 'positively correlated with', 'source': 'MESH:D019964', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D019964', 'label': 'Disease', 'name': 'Mood Disorders'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123', 'https://pubmed.ncbi.nlm.nih.gov/29876339/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'treats', 'source': 'GO:0043627', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity 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'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/22595550/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'prevents', 'source': 'GO:0043627', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000317'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0006702'}, {'key': 'positively correlated with', 'source': 'CL:0000317', 'target': 'MESH:D000152'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'MESH:D000728'}, {'key': 'contributes to', 'source': 'MESH:D000728', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000317', 'label': 'Cell', 'name': 'Sebum secreting cell'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'Androgen synthesis'}, {'id': 'MESH:D000728', 'label': 'ChemicalSubstance', 'name': 'Androgens'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D013742_1', 'disease': 'Tetanus', 'disease_mesh': 'MESH:D013742', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively regulates', 'source': 'GO:0061534', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}, {'key': 'manifestation of', 'source': 'MESH:D009128', 'target': 'MESH:D013742'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Muscle Spasticity'}, {'id': 'MESH:D013742', 'label': 'Disease', 'name': 'Tetanus'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D009128_1', 'disease': 'Muscle Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively regulates', 'source': 'GO:0061534', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Muscle Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D000430_1', 'disease': 'Alcohol withdrawal delirium', 'disease_mesh': 'MESH:D000430', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D000430'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D012640'}, {'key': 'manifestation of', 'source': 'MESH:D012640', 'target': 'MESH:D000430'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}, {'id': 'MESH:D000430', 'label': 'Disease', 'name': 'Alcohol withdrawal delirium'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1312739/']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00842_MESH_D000430_1', 'disease': 'Alcohol withdrawal delirium', 'disease_mesh': 'MESH:D000430', 'drug': 'oxazepam', 'drug_mesh': 'MESH:D010076', 'drugbank': 'DB:DB00842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010076', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D000430'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D012640'}, {'key': 'manifestation of', 'source': 'MESH:D012640', 'target': 'MESH:D000430'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010076', 'label': 'Drug', 'name': 'Oxazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}, {'id': 'MESH:D000430', 'label': 'Disease', 'name': 'Alcohol withdrawal delirium'}], 'reference': ['https://go.drugbank.com/drugs/DB00842', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1312739/']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00842_MESH_D001007_1', 'disease': 'Sleeplessness', 'disease_mesh': 'MESH:D001007', 'drug': 'oxazepam', 'drug_mesh': 'MESH:D010076', 'drugbank': 'DB:DB00842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010076', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D001007'}, {'key': 'negatively regulates', 'source': 'GO:0061534', 'target': 'MESH:D007319'}, {'key': 'manifestation of', 'source': 'MESH:D007319', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010076', 'label': 'Drug', 'name': 'Oxazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Sleeplessness'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00842']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09081_MESH_D029242_1', 'disease': \"Leber's optic atrophy\", 'disease_mesh': 'MESH:D029242', 'drug': 'Idebenone', 'drug_mesh': 'MESH:C036619', 'drugbank': 'DB:DB09081'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C036619', 'target': 'GO:0022900'}, {'key': 'has participant', 'source': 'GO:0022900', 'target': 'GO:0005747'}, {'key': 'disrupted by', 'source': 'GO:0005747', 'target': 'MESH:D029242'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036619', 'label': 'Drug', 'name': 'Idebenone'}, {'id': 'GO:0022900', 'label': 'BiologicalProcess', 'name': 'Electron transport chain'}, {'id': 'GO:0005747', 'label': 'CellularComponent', 'name': 'Mitochondrial respiratory chain complex I'}, {'id': 'MESH:D029242', 'label': 'Disease', 'name': \"Leber's optic atrophy\"}], 'reference': ['https://go.drugbank.com/drugs/DB09081', 'https://en.wikipedia.org/wiki/Leber%27s_hereditary_optic_neuropathy']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00331_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'metformin', 'drug_mesh': 'MESH:D008687', 'drugbank': 'DB:DB00331'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008687', 'target': 'UniProt:Q16134'}, {'key': 'negatively regulates', 'source': 'MESH:D008687', 'target': 'GO:0001951'}, {'key': 'part of', 'source': 'UniProt:Q16134', 'target': 'GO:0042775'}, {'key': 'positively correlated with', 'source': 'GO:0001951', 'target': 'MESH:D006943'}, {'key': 'negatively regulates', 'source': 'GO:0042775', 'target': 'GO:0004679'}, {'key': 'decreases abundance of', 'source': 'GO:0042775', 'target': 'MESH:D000249'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0004346'}, {'key': 'decreases activity of', 'source': 'MESH:D000249', 'target': 'GO:0042132'}, {'key': 'positively regulates', 'source': 'GO:0042132', 'target': 'GO:0006094'}, {'key': 'contributes to', 'source': 'GO:0006094', 'target': 'MESH:D006943'}, {'key': 'manifestation of', 'source': 'MESH:D006943', 'target': 'MESH:D003924'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0009331'}, {'key': 'positively regulates', 'source': 'GO:0004346', 'target': 'GO:0006094'}, {'key': 'positively regulates', 'source': 'GO:0009331', 'target': 'GO:0006094'}, {'key': 'positively correlated with', 'source': 'GO:0006094', 'target': 'MESH:D003924'}, {'key': 'increases activity of', 'source': 'GO:0004679', 'target': 'InterPro:IPR002441'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002441', 'target': 'MESH:D006943'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0004611'}, {'key': 'positively regulates', 'source': 'GO:0004611', 'target': 'GO:0006094'}, {'key': 'manifestation of', 'source': 'MESH:D006943', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008687', 'label': 'Drug', 'name': 'Metformin'}, {'id': 'UniProt:Q16134', 'label': 'Protein', 'name': 'Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'Intestinal D-glucose absorption'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}, {'id': 'GO:0004679', 'label': 'MolecularActivity', 'name': 'AMP-activated protein kinase activity'}, {'id': 'MESH:D000249', 'label': 'ChemicalSubstance', 'name': 'Adenosine Monophosphate'}, {'id': 'GO:0042132', 'label': 'MolecularActivity', 'name': 'Fructose 1,6-bisphosphate 1-phosphatase activity'}, {'id': 'GO:0006094', 'label': 'BiologicalProcess', 'name': 'Gluconeogenesis'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}, {'id': 'GO:0009331', 'label': 'CellularComponent', 'name': 'Glycerol-3-phosphate dehydrogenase complex'}, {'id': 'GO:0004346', 'label': 'MolecularActivity', 'name': 'Glucose-6-phosphatase activity'}, {'id': 'InterPro:IPR002441', 'label': 'GeneFamily', 'name': 'Glucose transporter type 4'}, {'id': 'GO:0004611', 'label': 'MolecularActivity', 'name': 'Phosphoenolpyruvate carboxykinase activity'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00331', 'https://pubmed.ncbi.nlm.nih.gov/28776086/', 'https://pubmed.ncbi.nlm.nih.gov/24847880/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'MolecularActivity', 'GeneFamily', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'MolecularActivity', 'GeneFamily', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'MolecularActivity', 'GeneFamily', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'MolecularActivity', 'GeneFamily', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01577_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'methamphetamine', 'drug_mesh': 'MESH:D008694', 'drugbank': 'DB:DB01577'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P27338'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P21397'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'UniProt:Q01959', 'target': 'GO:0051583'}, {'key': 'decreases abundance of', 'source': 'UniProt:P27338', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'UniProt:P27338', 'target': 'MESH:D004298'}, {'key': 'decreases abundance of', 'source': 'UniProt:P21397', 'target': 'MESH:D004298'}, {'key': 'decreases abundance of', 'source': 'UniProt:P21397', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051583', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061533', 'target': 'MESH:D001289'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008694', 'label': 'Drug', 'name': 'Methamphetamine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase B'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase A'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0051583', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake involved in synaptic transmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D001289', 'label': 'ChemicalSubstance', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01577#BE0001044', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2626918/']}\n", + "{'directed': True, 'graph': {'_id': 'DB00515_MESH_D010051_1', 'disease': 'Ovarian Cancer', 'disease_mesh': 'MESH:D010051', 'drug': 'cisplatin', 'drug_mesh': 'MESH:D002945', 'drugbank': 'DB:DB00515'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002945', 'target': 'GO:0090592'}, {'key': 'negatively regulates', 'source': 'MESH:D002945', 'target': 'GO:0006351'}, {'key': 'disrupts', 'source': 'MESH:D002945', 'target': 'MESH:D004247'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'HP:0031377'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'HP:0031377'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002945', 'label': 'Drug', 'name': 'Cisplatin'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Ovarian Cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00515']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D014257_1', 'disease': 'Trichuriasis', 'disease_mesh': 'MESH:D014257', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:36087'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:36087'}, {'key': 'causes', 'source': 'NCBITaxon:36087', 'target': 'MESH:D014257'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:36087', 'label': 'OrganismTaxon', 'name': 'Trichuris trichiura'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D014257', 'label': 'Disease', 'name': 'Trichuriasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D001196_1', 'disease': 'Ascariasis', 'disease_mesh': 'MESH:D001196', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:6252'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:6252'}, {'key': 'causes', 'source': 'NCBITaxon:6252', 'target': 'MESH:D001196'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:6252', 'label': 'OrganismTaxon', 'name': 'Ascaris lumbricoides'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D001196', 'label': 'Disease', 'name': 'Ascariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D017229_1', 'disease': 'Enterobiasis', 'disease_mesh': 'MESH:D017229', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:51028'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:51028'}, {'key': 'causes', 'source': 'NCBITaxon:51028', 'target': 'MESH:D017229'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:51028', 'label': 'OrganismTaxon', 'name': 'Enterobius vermicularis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D017229', 'label': 'Disease', 'name': 'Enterobiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00848_MESH_D001196_1', 'disease': 'Ascariasis', 'disease_mesh': 'MESH:D001196', 'drug': 'levamisole', 'drug_mesh': 'MESH:D007978', 'drugbank': 'DB:DB00848'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1L348'}, {'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1KYN0'}, {'key': 'positively regulates', 'source': 'UniProt:F1L348', 'target': 'HP:0001257'}, {'key': 'positively regulates', 'source': 'UniProt:F1KYN0', 'target': 'HP:0001257'}, {'key': 'negatively correlated with', 'source': 'HP:0001257', 'target': 'GO:0022414'}, {'key': 'occurs in', 'source': 'GO:0022414', 'target': 'NCBITaxon:36087'}, {'key': 'causes', 'source': 'NCBITaxon:36087', 'target': 'MESH:D001196'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007978', 'label': 'Drug', 'name': 'Levamisole'}, {'id': 'UniProt:F1L348', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit alpha-type unc-38 (Ascaris lumbricoides)'}, {'id': 'UniProt:F1KYN0', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit beta-type unc-29 (Ascaris lumbricoides)'}, {'id': 'HP:0001257', 'label': 'PhenotypicFeature', 'name': 'Muscle spasticity'}, {'id': 'GO:0022414', 'label': 'BiologicalProcess', 'name': 'Reproductive process'}, {'id': 'NCBITaxon:36087', 'label': 'OrganismTaxon', 'name': 'Ascaris lumbricoides'}, {'id': 'MESH:D001196', 'label': 'Disease', 'name': 'Ascariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00848#BE0003585']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00848_MESH_D000724_1', 'disease': 'Ancylostomiasis', 'disease_mesh': 'MESH:D000724', 'drug': 'levamisole', 'drug_mesh': 'MESH:D007978', 'drugbank': 'DB:DB00848'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1L348'}, {'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1KYN0'}, {'key': 'positively regulates', 'source': 'UniProt:F1L348', 'target': 'HP:0001257'}, {'key': 'positively regulates', 'source': 'UniProt:F1KYN0', 'target': 'HP:0001257'}, {'key': 'negatively correlated with', 'source': 'HP:0001257', 'target': 'GO:0022414'}, {'key': 'occurs in', 'source': 'GO:0022414', 'target': 'NCBITaxon:51022'}, {'key': 'causes', 'source': 'NCBITaxon:51022', 'target': 'MESH:D000724'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007978', 'label': 'Drug', 'name': 'Levamisole'}, {'id': 'UniProt:F1L348', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit alpha-type unc-38 (Ascaris lumbricoides)'}, {'id': 'UniProt:F1KYN0', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit beta-type unc-29 (Ascaris lumbricoides)'}, {'id': 'HP:0001257', 'label': 'PhenotypicFeature', 'name': 'Muscle spasticity'}, {'id': 'GO:0022414', 'label': 'BiologicalProcess', 'name': 'Reproductive process'}, {'id': 'NCBITaxon:51022', 'label': 'OrganismTaxon', 'name': 'Ancylostoma duodenale'}, {'id': 'MESH:D000724', 'label': 'Disease', 'name': 'Ancylostomiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00848#BE0003585']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D009450_1', 'disease': 'Lichen simplex chronicus', 'disease_mesh': 'MESH:D009450', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D009450'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D009450', 'label': 'Disease', 'name': 'Lichen simplex chronicus'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D005076_1', 'disease': 'Skin Rash', 'disease_mesh': 'MESH:D005076', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 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'disease_mesh': 'MESH:D012628', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D008179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D008179', 'label': 'Disease', 'name': 'Discoid lupus erythematosus'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01233_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'metoclopramide', 'drug_mesh': 'MESH:D008787', 'drugbank': 'DB:DB01233'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:P14416'}, {'key': 'increases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:P11229'}, {'key': 'increases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:Q13639'}, {'key': 'negatively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'UniProt:Q13639', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'GO:0014055', 'target': 'UBERON:0007652'}, {'key': 'positively regulates', 'source': 'GO:0014055', 'target': 'GO:0035482'}, {'key': 'negatively regulates', 'source': 'UBERON:0007652', 'target': 'MESH:D005764'}, {'key': 'positively regulates', 'source': 'GO:0035482', 'target': 'GO:0035483'}, {'key': 'negatively correlated with', 'source': 'GO:0035483', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008787', 'label': 'Drug', 'name': 'Metoclopramide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D2 dopamine receptor'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:Q13639', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 4'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'UBERON:0007652', 'label': 'GrossAnatomicalStructure', 'name': 'Esophageal sphincter'}, {'id': 'GO:0035482', 'label': 'BiologicalProcess', 'name': 'Gastric motility'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'Gastric emptying'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01233#BE0000756']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01577_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'methamphetamine', 'drug_mesh': 'MESH:D008694', 'drugbank': 'DB:DB01577'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008694', 'target': 'GO:0004936'}, {'key': 'negatively regulates', 'source': 'GO:0004936', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008694', 'label': 'Drug', 'name': 'Methamphetamine'}, {'id': 'GO:0004936', 'label': 'MolecularActivity', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01577#BE0001044', 'https://en.wikipedia.org/wiki/Alpha-1_adrenergic_receptor']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05266_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'ibudilast', 'drug_mesh': 'MESH:C038366', 'drugbank': 'DB:DB05266'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C038366', 'target': 'InterPro:IPR043371'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR043371', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C038366', 'label': 'Drug', 'name': 'Ibudilast'}, {'id': 'InterPro:IPR043371', 'label': 'GeneFamily', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4\"}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB05266#BE0001133', 'https://pubmed.ncbi.nlm.nih.gov/26419847/']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06702_MESH_D053202_1', 'disease': 'Urge Incontinence', 'disease_mesh': 'MESH:D053202', 'drug': 'fesoterodine', 'drug_mesh': 'MESH:C526675', 'drugbank': 'DB:DB06702'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C526675', 'target': 'UniProt:P20309'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C526675', 'label': 'Drug', 'name': 'Fesoterodine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge Incontinence'}], 'reference': ['https://go.drugbank.com/drugs/DB06702#BE0000045', 'https://en.wikipedia.org/wiki/Urinary_incontinence']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09559_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'necitumumab', 'drug_mesh': 'MESH:C527969', 'drugbank': 'DB:DB09559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C527969', 'target': 'UniProt:P00533'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'REACT:R-HSA-5673001'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-5673001', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C527969', 'label': 'Drug', 'name': 'Necitumumab'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'REACT:R-HSA-5673001', 'label': 'Pathway', 'name': 'RAF/MAP kinase cascade'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB09559#BE0000767', 'https://pubmed.ncbi.nlm.nih.gov/30975211/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00310_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'chlortalidone', 'drug_mesh': 'MESH:D002752', 'drugbank': 'DB:DB00310'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002752', 'target': 'UniProt:Q13621'}, {'key': 'participates in', 'source': 'UniProt:Q13621', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002752', 'label': 'Drug', 'name': 'Chlortalidone'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion reabsorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00310']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00310_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'chlortalidone', 'drug_mesh': 'MESH:D002752', 'drugbank': 'DB:DB00310'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002752', 'target': 'UniProt:Q13621'}, {'key': 'participates in', 'source': 'UniProt:Q13621', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002752', 'label': 'Drug', 'name': 'Chlortalidone'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion reabsorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00310']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00553_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'methoxsalen', 'drug_mesh': 'MESH:D008730', 'drugbank': 'DB:DB00553'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008730', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'causes', 'source': 'HP:0031377', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008730', 'label': 'Drug', 'name': 'Methoxsalen'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00553']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00553_MESH_D014820_1', 'disease': 'Vitiligo', 'disease_mesh': 'MESH:D014820', 'drug': 'methoxsalen', 'drug_mesh': 'MESH:D008730', 'drugbank': 'DB:DB00553'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008730', 'target': 'CL:0000148'}, {'key': 'positively regulates', 'source': 'CL:0000148', 'target': 'GO:0043473'}, {'key': 'negatively correlated with', 'source': 'GO:0043473', 'target': 'MESH:D014820'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008730', 'label': 'Drug', 'name': 'Methoxsalen'}, {'id': 'CL:0000148', 'label': 'Cell', 'name': 'Melanocyte'}, {'id': 'GO:0043473', 'label': 'BiologicalProcess', 'name': 'Pigmentation'}, {'id': 'MESH:D014820', 'label': 'Disease', 'name': 'Vitiligo'}], 'reference': ['https://go.drugbank.com/drugs/DB00553', 'https://www.sciencedirect.com/topics/neuroscience/methoxsalen']}\n", + "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00622_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'nicardipine', 'drug_mesh': 'MESH:D009529', 'drugbank': 'DB:DB00622'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q08289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:P54289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q01668'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q08289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009529', 'label': 'Drug', 'name': 'Nicardipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:Q08289', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-2'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-1'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00622#BE0000430']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00622_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'nicardipine', 'drug_mesh': 'MESH:D009529', 'drugbank': 'DB:DB00622'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q08289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:P54289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q01668'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q08289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively correlated with', 'source': 'GO:0045907', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009529', 'label': 'Drug', 'name': 'Nicardipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:Q08289', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-2'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-1'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00622#BE0000430']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0120054'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0030421'}, {'key': 'occurs in', 'source': 'GO:0120054', 'target': 'MESH:D043183'}, {'key': 'occurs in', 'source': 'GO:0030421', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'GO:0030421', 'label': 'BiologicalProcess', 'name': 'Defecation'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00747']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Contraindication', 'directed': True, 'graph': {'_id': 'DB00747_MESH_D015878_1', 'disease': 'Mydriasis', 'disease_mesh': 'MESH:D015878', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'negatively correlated with', 'source': 'GO:1905144', 'target': 'HP:0011499'}, {'key': 'manifestation of', 'source': 'HP:0011499', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic 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['https://go.drugbank.com/drugs/DB00747']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, 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'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 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{'_id': 'DB00747_MESH_D009041_1', 'disease': 'Motion sickness', 'disease_mesh': 'MESH:D009041', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 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['https://pubmed.ncbi.nlm.nih.gov/19497682/', 'https://go.drugbank.com/drugs/DB00747']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 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'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'UBERON:0012278', 'label': 'GrossAnatomicalStructure', 'name': 'Gland of nasal mucosa'}, {'id': 'UBERON:0002306', 'label': 'GrossAnatomicalStructure', 'name': 'Nasal mucus'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3650956/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Scopolamine is only valid for a treatment of cough related to asthma', 'directed': True, 'graph': {'_id': 'DB00747_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'MESH:D001249', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'MESH:D016084', 'label': 'Disease', 'name': 'Bronchoconstriction'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2785753/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://en.wikipedia.org/wiki/Peptic_ulcer_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00865_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'benzphetamine', 'drug_mesh': 'MESH:D001589', 'drugbank': 'DB:DB00865'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D001589', 'target': 'UniProt:P35348'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001589', 'label': 'Drug', 'name': 'Benzphetamine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00865#BE0000118', 'https://en.wikipedia.org/wiki/Alpha-1_adrenergic_receptor']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D008271_1', 'disease': 'Mycetoma', 'disease_mesh': 'MESH:D008271', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:100816'}, {'key': 'causes', 'source': 'NCBITaxon:100816', 'target': 'MESH:D008271'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:100816', 'label': 'OrganismTaxon', 'name': 'Madurella mycetomatis'}, {'id': 'MESH:D008271', 'label': 'Disease', 'name': 'Mycetoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Mycetoma']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D001228_1', 'disease': 'Aspergillosis', 'disease_mesh': 'MESH:D001228', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:B8N2C8'}, {'key': 'positively regulates', 'source': 'UniProt:B8N2C8', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D001228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:B8N2C8', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Aspergillus flavus)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus'}, {'id': 'MESH:D001228', 'label': 'Disease', 'name': 'Aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D002862_1', 'disease': 'Chromoblastomycosis', 'disease_mesh': 'MESH:D002862', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D002862'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D002862', 'label': 'Disease', 'name': 'Chromoblastomycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Chromoblastomycosis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D060585_1', 'disease': 'Fusarium infection', 'disease_mesh': 'MESH:D060585', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5506'}, {'key': 'causes', 'source': 'NCBITaxon:5506', 'target': 'MESH:D060585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5506', 'label': 'OrganismTaxon', 'name': 'Fusarium'}, {'id': 'MESH:D060585', 'label': 'Disease', 'name': 'Fusarium infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D003047_1', 'disease': 'Coccidioidomycosis', 'disease_mesh': 'MESH:D003047', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:A0A6C1LUF2'}, {'key': 'positively regulates', 'source': 'UniProt:A0A6C1LUF2', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5501'}, {'key': 'causes', 'source': 'NCBITaxon:5501', 'target': 'MESH:D003047'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:A0A6C1LUF2', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Coccidioides immitis)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5501', 'label': 'OrganismTaxon', 'name': 'Coccidioides immitis'}, {'id': 'MESH:D003047', 'label': 'Disease', 'name': 'Coccidioidomycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Coccidioidomycosis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D002177_1', 'disease': 'Candidiasis', 'disease_mesh': 'MESH:D002177', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:1535326'}, {'key': 'causes', 'source': 'NCBITaxon:1535326', 'target': 'MESH:D002177'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:1535326', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'MESH:D002177', 'label': 'Disease', 'name': 'Candidiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05659_MESH_D017192_1', 'disease': 'Bacterial infection of skin', 'disease_mesh': 'MESH:D017192', 'drug': 'faropenem medoxil', 'drug_mesh': 'MESH:C528565', 'drugbank': 'DB:DB05659'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C528565', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C528565', 'label': 'Drug', 'name': 'Faropenem'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB05659']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05659_MESH_D012141_1', 'disease': 'Respiratory tract infection', 'disease_mesh': 'MESH:D012141', 'drug': 'faropenem medoxil', 'drug_mesh': 'MESH:C528565', 'drugbank': 'DB:DB05659'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C528565', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C528565', 'label': 'Drug', 'name': 'Faropenem'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Respiratory tract infection'}], 'reference': ['https://go.drugbank.com/drugs/DB05659']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00026_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'anakinra', 'drug_mesh': 'MESH:D053590', 'drugbank': 'DB:DB00026'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053590', 'target': 'UniProt:P14778'}, {'key': 'participates in', 'source': 'UniProt:P14778', 'target': 'GO:0004908'}, {'key': 'positively regulates', 'source': 'GO:0004908', 'target': 'REACT:R-HSA-1592389'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-1592389', 'target': 'HP:0100773'}, {'key': 'occurs in', 'source': 'HP:0100773', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053590', 'label': 'Drug', 'name': 'Anakinra'}, {'id': 'UniProt:P14778', 'label': 'Protein', 'name': 'Interleukin-1 receptor type 1'}, {'id': 'GO:0004908', 'label': 'MolecularActivity', 'name': 'Interleukin-1 receptor activity'}, {'id': 'REACT:R-HSA-1592389', 'label': 'Pathway', 'name': 'Activation of Matrix Metalloproteinases'}, {'id': 'HP:0100773', 'label': 'PhenotypicFeature', 'name': 'Cartilage destruction'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00026#BE0000565', 'https://pubmed.ncbi.nlm.nih.gov/17027524/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'Pathway', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00026_MESH_D056587_1', 'disease': 'Cryopyrin associated periodic syndrome', 'disease_mesh': 'MESH:D056587', 'drug': 'anakinra', 'drug_mesh': 'MESH:D053590', 'drugbank': 'DB:DB00026'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053590', 'target': 'UniProt:P14778'}, {'key': 'participates in', 'source': 'UniProt:P14778', 'target': 'GO:0004908'}, {'key': 'positively regulates', 'source': 'GO:0004908', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D056587'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053590', 'label': 'Drug', 'name': 'Anakinra'}, {'id': 'UniProt:P14778', 'label': 'Protein', 'name': 'Interleukin-1 receptor type 1'}, {'id': 'GO:0004908', 'label': 'MolecularActivity', 'name': 'Interleukin-1 receptor activity'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D056587', 'label': 'Disease', 'name': 'Cryopyrin associated periodic syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00026#BE0000565', 'https://en.wikipedia.org/wiki/Cryopyrin-associated_periodic_syndrome']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D015535_1', 'disease': 'Psoriatic Arthritis', 'disease_mesh': 'MESH:D015535', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriatic Arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Methacarbamol is a skeletal muscle relaxant with an unknown mechanism of action', 'directed': True, 'graph': {'_id': 'DB00423_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'methocarbamol', 'drug_mesh': 'MESH:D008721', 'drugbank': 'DB:DB00423'}, 'links': [{'key': 'causes', 'source': 'MESH:D008721', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008721', 'label': 'Drug', 'name': 'Methacarbamol'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB00423']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00496_MESH_D053202_1', 'disease': 'Urge Incontinence', 'disease_mesh': 'MESH:D053202', 'drug': 'Darifenacin', 'drug_mesh': 'MESH:C101207', 'drugbank': 'DB:DB00496'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101207', 'target': 'UniProt:P20309'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101207', 'label': 'Drug', 'name': 'Darifenacin'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge Incontinence'}], 'reference': ['https://go.drugbank.com/drugs/DB00496', 'https://en.wikipedia.org/wiki/Urinary_incontinence']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'Desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Cutaneous_T_cell_lymphoma']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'Desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://pubmed.ncbi.nlm.nih.gov/29230666/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Pruritus_ani']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D008179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D008179', 'label': 'Disease', 'name': 'Discoid lupus erythematosus'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Discoid_lupus_erythematosus']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Atopic_dermatitis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D009450_1', 'disease': 'Lichen simplex chronicus', 'disease_mesh': 'MESH:D009450', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D009450'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin 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[{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Contact_dermatitis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D005076_1', 'disease': 'Exanthem', 'disease_mesh': 'MESH:D005076', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 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{'_id': 'DB00547_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00918_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'almotriptan', 'drug_mesh': 'MESH:C409045', 'drugbank': 'DB:DB00918'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C409045', 'target': 'UniProt:P28222'}, {'key': 'increases activity of', 'source': 'MESH:C409045', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'MESH:D010146'}, {'key': 'positively correlated with', 'source': 'MESH:D010146', 'target': 'MESH:D008881'}, {'key': 'negatively regulates', 'source': 'UniProt:P28222', 'target': 'MESH:D020078'}, {'key': 'negatively regulates', 'source': 'UniProt:P28221', 'target': 'MESH:D020078'}, {'key': 'positively correlated with', 'source': 'MESH:D020078', 'target': 'MESH:D008881'}, {'key': 'decreases activity of', 'source': 'UniProt:P28222', 'target': 'UBERON:0001645'}, {'key': 'decreases activity of', 'source': 'UniProt:P28221', 'target': 'UBERON:0001645'}, {'key': 'participates in', 'source': 'UBERON:0001645', 'target': 'GO:0019233'}, {'key': 'positively correlated with', 'source': 'GO:0019233', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C409045', 'label': 'Drug', 'name': 'Almotriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00918', 'https://pubmed.ncbi.nlm.nih.gov/16099727/', 'https://pubmed.ncbi.nlm.nih.gov/27312704/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Disease']\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09041_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'tavaborole', 'drug_mesh': 'MESH:C512998', 'drugbank': 'DB:DB09041'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C512998', 'target': 'UniProt:Q9HGT2'}, {'key': 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'drug': 'Acebutolol', 'drug_mesh': 'MESH:D000070', 'drugbank': 'DB:DB01193'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000070', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0001649'}, {'key': 'decreases activity of', 'source': 'HP:0001649', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0000822'}, {'key': 'ameliorates', 'source': 'HP:0001649', 'target': 'MESH:D018879'}, {'key': 'ameliorates', 'source': 'HP:0000822', 'target': 'MESH:D018879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000070', 'label': 'Drug', 'name': 'Acebutolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0001649', 'label': 'PhenotypicFeature', 'name': 'heart rate'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D018879', 'label': 'Disease', 'name': 'Ventricular premature beats'}], 'reference': ['https://go.drugbank.com/drugs/DB01193#mechanismofaction', 'https://en.wikipedia.org/wiki/Acebutolol']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00414_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Acetohexamide', 'drug_mesh': 'MESH:D000092', 'drugbank': 'DB:DB00414'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000092', 'target': 'CL:0000169'}, {'key': 'increases secretion of', 'source': 'CL:0000169', 'target': 'MESH:D007328'}, {'key': 'negatively regulates', 'source': 'MESH:D007328', 'target': 'MESH:D001786'}, {'key': 'ameliorates', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000092', 'label': 'Drug', 'name': 'Acetohexamide'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'pancreatic beta cells'}, {'id': 'MESH:D007328', 'label': 'ChemicalSubstance', 'name': 'insulin'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood sugar'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00414#mechanismofaction']}\n", + "['Drug', 'Cell', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00964_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Apraclonidine', 'drug_mesh': 'MESH:C016986', 'drugbank': 'DB:DB00964'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C016986', 'target': 'UniProt:P08913'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P08913', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'HP:0012630'}, {'key': 'negatively regulates', 'source': 'HP:0012630', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016986', 'label': 'Drug', 'name': 'Apraclonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'alpha2 adrenergic receptor'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0012630', 'label': 'PhenotypicFeature', 'name': 'uveoscleral outflow'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00964#mechanismofaction']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05015_MESH_D016411_1', 'disease': 'Peripheral T-cell lymphoma', 'disease_mesh': 'MESH:D016411', 'drug': 'Belinostat', 'drug_mesh': 'MESH:C487081', 'drugbank': 'DB:DB05015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C487081', 'target': 'InterPro:IPR000286'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'decreases activity of', 'source': 'GO:0070577', 'target': 'HP:0031377'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'causes', 'source': 'GO:0070577', 'target': 'GO:0071158'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'negatively regulates', 'source': 'GO:0070577', 'target': 'GO:0001525'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'positively regulates', 'source': 'GO:0070577', 'target': 'GO:0006915'}, {'key': 'correlated with', 'source': 'GO:0006915', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'HP:0031377', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'GO:0071158', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'GO:0001525', 'target': 'MESH:D016411'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C487081', 'label': 'Drug', 'name': 'Belinostat'}, {'id': 'InterPro:IPR000286', 'label': 'GeneFamily', 'name': 'histone deacetylase'}, {'id': 'GO:0070577', 'label': 'ChemicalSubstance', 'name': 'acetylated histones'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'tumor cell proliferation'}, {'id': 'GO:0071158', 'label': 'BiologicalProcess', 'name': 'cell cycle arrest'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'angiogenesis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptosis'}, {'id': 'MESH:D016411', 'label': 'Disease', 'name': 'Peripheral T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB05015#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00468_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Quinine', 'drug_mesh': 'MESH:D011803', 'drugbank': 'DB:DB00468'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011803', 'target': 'UniProt:Q3ZJJ7'}, {'key': 'disrupts', 'reference': 'https://doi.org/10.1016/S0014-5793(99)01260-0', 'source': 'UniProt:Q3ZJJ7', 'target': 'InterPro:IPR002338'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR002338', 'target': 'MESH:D006418'}, {'key': 'enables', 'source': 'MESH:D006418', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011803', 'label': 'Drug', 'name': 'Quinine'}, {'id': 'UniProt:Q3ZJJ7', 'label': 'Protein', 'name': 'heme polymerase'}, {'id': 'InterPro:IPR002338', 'label': 'GeneFamily', 'name': 'hemoglobin'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'heme'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00468#mechanismofaction', 'https://en.wikipedia.org/wiki/Quinine#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00468_MESH_D016778_2', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Quinine', 'drug_mesh': 'MESH:D011803', 'drugbank': 'DB:DB00468'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0071897'}, {'key': 'negatively regulates', 'source': 'GO:0071897', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0006351'}, {'key': 'negatively regulates', 'source': 'GO:0006351', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0006412'}, {'key': 'negatively regulates', 'source': 'GO:0006412', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'REACT:R-HSA-70171'}, {'key': 'enables', 'source': 'REACT:R-HSA-70171', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011803', 'label': 'Drug', 'name': 'Quinine'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'REACT:R-HSA-70171', 'label': 'Pathway', 'name': 'glycolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00468#mechanismofaction', 'https://en.wikipedia.org/wiki/Quinine#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00700_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Eplerenone', 'drug_mesh': None, 'drugbank': 'DB:DB00700'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00700', 'target': 'UniProt:P08235'}, {'key': 'increases abundance of', 'source': 'UniProt:P08235', 'target': 'UniProt:P00797'}, {'key': 'increases abundance of', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'decreases abundance of', 'source': 'UniProt:P00797', 'target': 'HP:0011104'}, {'key': 'decreases abundance of', 'source': 'MESH:D000450', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'HP:0004421'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'HP:0005117'}, {'key': 'prevents', 'source': 'HP:0004421', 'target': 'MESH:D006973'}, {'key': 'prevents', 'source': 'HP:0005117', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00700', 'label': 'Drug', 'name': 'Eplerenone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'mineralocorticoid receptor'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'plasma renin'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'serum aldosterone'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'blood volume'}, {'id': 'HP:0005117', 'label': 'PhenotypicFeature', 'name': 'diastolic blood pressure'}, {'id': 'HP:0004421', 'label': 'PhenotypicFeature', 'name': 'systolic blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00700#mechanismofaction', 'https://en.wikipedia.org/wiki/Eplerenone', 'DOI:10.1002/14651858.CD008996.pub2']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04854_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'Febuxostat', 'drug_mesh': 'MESH:D000069465', 'drugbank': 'DB:DB04854'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069465', 'target': 'UniProt:P47989'}, {'key': 'decreases abundance of', 'source': 'UniProt:P47989', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069465', 'label': 'Drug', 'name': 'Febuxostat'}, {'id': 'UniProt:P47989', 'label': 'Protein', 'name': 'Xanthine dehydrogenase/oxidase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'serum uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04854#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00053_MESH_D005776_1', 'disease': 'Glucosylceramide beta-glucosidase deficiency', 'disease_mesh': 'MESH:D005776', 'drug': 'Imiglucerase', 'drug_mesh': 'MESH:C090568', 'drugbank': 'DB:DB00053'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C090568', 'target': 'MESH:D005963'}, {'key': 'enables', 'source': 'MESH:D005963', 'target': 'REACT:R-HSA-556833'}, {'key': 'prevents', 'source': 'REACT:R-HSA-556833', 'target': 'MESH:D005776'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C090568', 'label': 'Drug', 'name': 'Imiglucerase'}, {'id': 'MESH:D005963', 'label': 'ChemicalSubstance', 'name': 'Glucocerebroside'}, {'id': 'REACT:R-HSA-556833', 'label': 'Pathway', 'name': 'membrane lipid degradation'}, {'id': 'MESH:D005776', 'label': 'Disease', 'name': 'Glucosylceramide beta-glucosidase deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00053#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01131_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Proguanil', 'drug_mesh': 'MESH:D002727', 'drugbank': 'DB:DB01131'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D002727', 'target': 'MESH:C026009'}, {'key': 'decreases activity of', 'source': 'MESH:C026009', 'target': 'UniProt:P13922'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P13922', 'target': 'REACT:R-HSA-8956320'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-8956320', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002727', 'label': 'Drug', 'name': 'Proguanil'}, {'id': 'MESH:C026009', 'label': 'Drug', 'name': 'Cycloguanil'}, {'id': 'UniProt:P13922', 'label': 'Protein', 'name': 'Bifunctional dihydrofolate reductase-thymidylate synthase'}, {'id': 'REACT:R-HSA-8956320', 'label': 'Pathway', 'name': 'purines and pyrimidines'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01131#mechanismofaction']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D004716_1', 'disease': 'Endometritis', 'disease_mesh': 'MESH:D004716', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004716'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004716', 'label': 'Disease', 'name': 'Endometritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'coexists with', 'source': 'UniProt:P08913', 'target': 'InterPro:IPR001408'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001408', 'target': 'InterPro:IPR030672'}, {'key': 'positively regulates', 'source': 'InterPro:IPR030672', 'target': 'GO:0099104'}, {'key': 'causes', 'source': 'GO:0099104', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'InterPro:IPR001408', 'label': 'GeneFamily', 'name': 'Gi protein alpha subunit'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'GO:0099104', 'label': 'MolecularActivity', 'name': 'opening of a potassium channel'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'hyperpolarization'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", + "['Drug', 'Protein', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D006973_2', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'located in', 'source': 'UniProt:P08913', 'target': 'UBERON:0002298'}, {'key': 'decreases activity of', 'source': 'UBERON:0002298', 'target': 'GO:0003072'}, {'key': 'negatively regulates', 'source': 'GO:0003072', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UBERON:0002298', 'label': 'GrossAnatomicalStructure', 'name': 'Brain stem'}, {'id': 'GO:0003072', 'label': 'BiologicalProcess', 'name': 'peripheral vascular resistance'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'located in', 'source': 'UniProt:P08913', 'target': 'UBERON:0000451'}, {'key': 'prevents', 'source': 'UBERON:0000451', 'target': 'GO:0048243'}, {'key': 'disrupts', 'source': 'GO:0048243', 'target': 'HP:0007018'}, {'key': 'correlated with', 'source': 'HP:0007018', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'prefrontal cortex'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'secretion of norepinephrine'}, {'id': 'HP:0007018', 'label': 'PhenotypicFeature', 'name': 'irrelevant attention'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'UniProt:P08913', 'target': 'GO:0003072'}, {'key': 'negatively regulates', 'source': 'GO:0003072', 'target': 'HP:0000822'}, {'key': 'negatively regulates', 'source': 'HP:0000822', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'GO:0003072', 'label': 'BiologicalProcess', 'name': 'peripheral vascular resistance'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'treats', 'source': 'MESH:D002122', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006947_1', 'disease': 'Hyperkalemia', 'disease_mesh': 'MESH:D006947', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'regulates', 'source': 'MESH:D002122', 'target': 'GO:0030322'}, {'key': 'positively regulates', 'source': 'GO:0030322', 'target': 'GO:0010460'}, {'key': 'located in', 'source': 'GO:0010460', 'target': 'UBERON:0001133'}, {'key': 'ameliorates', 'source': 'UBERON:0001133', 'target': 'MESH:D006947'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'GO:0030322', 'label': 'BiologicalProcess', 'name': 'stabilization of membrane potential'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'heart rate'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006947', 'label': 'Disease', 'name': 'Hyperkalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002122', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'correlated with', 'source': 'UBERON:0001133', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002122', 'target': 'MESH:D002118'}, {'key': 'located in', 'source': 'MESH:D002118', 'target': 'UBERON:0001969'}, {'key': 'ameliorates', 'source': 'UBERON:0001969', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'calcium'}, {'id': 'UBERON:0001969', 'label': 'GrossAnatomicalStructure', 'name': 'blood plasma'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00302_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'tranexamic acid', 'drug_mesh': 'MESH:D014148', 'drugbank': 'DB:DB00302'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014148', 'target': 'UniProt:P00747'}, {'key': 'decreases activity of', 'source': 'MESH:D014148', 'target': 'MESH:D005341'}, {'key': 'positively regulates', 'source': 'MESH:D005341', 'target': 'GO:0042730'}, {'key': 'positively regulates', 'source': 'UniProt:P00747', 'target': 'GO:0042730'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'HP:0001892'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D004715'}, {'key': 'positively correlated with', 'source': 'HP:0001892', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014148', 'label': 'Drug', 'name': 'tranexamic acid'}, {'id': 'UniProt:P00747', 'label': 'Protein', 'name': 'Plasminogen'}, {'id': 'MESH:D005341', 'label': 'Protein', 'name': 'Fibrinolysin'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0001892', 'label': 'PhenotypicFeature', 'name': 'Abnormal bleeding'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00302#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tranexamic_acid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/32594031/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00302_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'tranexamic acid', 'drug_mesh': 'MESH:D014148', 'drugbank': 'DB:DB00302'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014148', 'target': 'UniProt:P00747'}, {'key': 'positively regulates', 'source': 'UniProt:P00747', 'target': 'GO:0042730'}, {'key': 'decreases activity of', 'source': 'MESH:D014148', 'target': 'MESH:D005341'}, {'key': 'positively regulates', 'source': 'MESH:D005341', 'target': 'GO:0042730'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'HP:0001892'}, {'key': 'positively correlated with', 'source': 'HP:0001892', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014148', 'label': 'Drug', 'name': 'tranexamic acid'}, {'id': 'UniProt:P00747', 'label': 'Protein', 'name': 'Plasminogen'}, {'id': 'MESH:D005341', 'label': 'Protein', 'name': 'Fibrinolysin'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'HP:0001892', 'label': 'PhenotypicFeature', 'name': 'Abnormal bleeding'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00302#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tranexamic_acid#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00347_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:Q9P0X4'}, {'key': 'positively regulates', 'source': 'UniProt:O43497', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'UniProt:O95180', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0005245'}, {'key': 'positively correlated with', 'source': 'GO:0005245', 'target': 'GO:0014047'}, {'key': 'positively correlated with', 'source': 'GO:0005245', 'target': 'GO:0014051'}, {'key': 'positively correlated with', 'source': 'GO:0014051', 'target': 'MESH:D004827'}, {'key': 'positively correlated with', 'source': 'GO:0014047', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0005245', 'label': 'MolecularActivity', 'name': 'voltage-gated calcium channel activity'}, {'id': 'GO:0014047', 'label': 'BiologicalProcess', 'name': 'glutamate secretion'}, {'id': 'GO:0014051', 'label': 'BiologicalProcess', 'name': 'gamma-aminobutyric acid secretion'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00347#mechanism-of-action', 'https://en.wikipedia.org/wiki/Trimethadione', 'https://en.wikipedia.org/wiki/Anticonvulsant']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'DrugBank (https://go.drugbank.com/drugs/DB00668) has this drug modulating beta receptors but not for glaucoma. For this indication, the ligand should be an antagonist (and epinephrine is an agonist instead).', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476\\ufeff', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482\\ufeff', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'REACT:R-HSA-416476\\ufeff', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482\\ufeff', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL679/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'DrugBank (https://go.drugbank.com/drugs/DB00668) has this drug modulating beta receptors but not for glaucoma. For this indication, the ligand should be an antagonist (and epinephrine is an agonist instead)', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous Humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL679/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_3', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-5357956'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-5357786'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5357956', 'target': 'MESH:D016923'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5357786', 'target': 'GO:0006915'}, {'key': 'occurs in', 'source': 'MESH:D016923', 'target': 'CL:0000740'}, {'key': 'occurs in', 'source': 'GO:0006915', 'target': 'CL:0000740'}, {'key': 'disrupted by', 'source': 'CL:0000740', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-5357956', 'label': 'Pathway', 'name': 'TNFR1-induced NFkappaB signaling pathway'}, {'id': 'REACT:R-HSA-5357786', 'label': 'Pathway', 'name': 'TNFR1-induced proapoptotic signaling'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D016923', 'label': 'BiologicalProcess', 'name': 'Cell Death'}, {'id': 'CL:0000740', 'label': 'Cell', 'name': 'retinal ganglion cell'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Retinal_ganglion_cell#Pathology', 'https://europepmc.org/article/PMC/5497582', 'https://europepmc.org/article/MED/32774906', 'https://www.targetvalidation.org/evidence/ENSG00000232810/EFO_0000516?view=sec:literature']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D000707_1', 'disease': 'Anaphylaxis', 'disease_mesh': 'MESH:D000707', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'REACT:R-HSA-418555\\ufeff'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-418555\\ufeff', 'target': 'GO:0006939'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-418555\\ufeff', 'target': 'GO:0002553'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476\\ufeff', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482\\ufeff', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001025'}, {'key': 'positively correlated with', 'source': 'HP:0001025', 'target': 'MESH:D000707'}, {'key': 'positively correlated with', 'source': 'GO:0002553', 'target': 'MESH:D000707'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'MESH:D000707'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'REACT:R-HSA-416476\\ufeff', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482\\ufeff', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418555\\ufeff', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0001025', 'label': 'PhenotypicFeature', 'name': 'Urticaria'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'histamine secretion by mast cell'}, {'id': 'MESH:D000707', 'label': 'Disease', 'name': 'Anaphylaxis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Adrenergic_receptor', 'https://europepmc.org/article/med/32931210', 'https://allergy.org.au/patients/allergy-treatment/adrenaline-for-severe-allergies']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D007022_1', 'disease': 'Low blood pressure', 'disease_mesh': 'MESH:D007022', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0033533'}, {'key': 'negatively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D007022'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'MESH:D007022', 'label': 'Disease', 'name': 'Low blood pressure'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'http://pathwaymedicine.org/Epinephrine', 'https://en.wikipedia.org/wiki/Beta-1_adrenergic_receptor', 'https://en.wikipedia.org/wiki/Adrenergic_receptor#History']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Tiopronin is a cystine depleting agent (MESH:D065104).', 'directed': True, 'graph': {'_id': 'DB06823_MESH_D003555_1', 'disease': 'Cystinuria', 'disease_mesh': 'MESH:D003555', 'drug': 'tiopronin', 'drug_mesh': 'MESH:D008625', 'drugbank': 'DB:DB06823'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D008625', 'target': 'CHEBI:17376'}, {'key': 'causes', 'source': 'CHEBI:17376', 'target': 'HP:0000787'}, {'key': 'causes', 'source': 'CHEBI:17376', 'target': 'HP:0033067'}, {'key': 'manifestation of', 'source': 'HP:0000787', 'target': 'MESH:D003555'}, {'key': 'manifestation of', 'source': 'HP:0033067', 'target': 'MESH:D003555'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008625', 'label': 'Drug', 'name': 'Tiopronin'}, {'id': 'CHEBI:17376', 'label': 'ChemicalSubstance', 'name': 'cystine'}, {'id': 'HP:0033067', 'label': 'PhenotypicFeature', 'name': 'Cystine crystalluria'}, {'id': 'HP:0000787', 'label': 'PhenotypicFeature', 'name': 'Nephrolithiasis'}, {'id': 'MESH:D003555', 'label': 'Disease', 'name': 'Cystinuria'}], 'reference': ['https://go.drugbank.com/drugs/DB06823#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tiopronin#Uses', 'https://dailymed.nlm.nih.gov/dailymed/lookup.cfm?setid=494a714e-923c-cd57-df6c-12886afb265a#nlm34090-1']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Colesevelamid is a type of ion exchange resin (MESH:D007475).', 'directed': True, 'graph': {'_id': 'DB00930_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'colesevelam', 'drug_mesh': 'MESH:D000069472', 'drugbank': 'DB:DB00930'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D000069472', 'target': 'CHEBI:47774'}, {'key': 'positively correlated with', 'source': 'CHEBI:47774', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069472', 'label': 'Drug', 'name': 'colesevelam'}, {'id': 'CHEBI:47774', 'label': 'ChemicalSubstance', 'name': 'low-density lipoprotein cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00930', 'https://en.wikipedia.org/wiki/Colesevelam']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05219_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'crisaborole', 'drug_mesh': 'MESH:C543085', 'drugbank': 'DB:DB05219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:P27815'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q07343'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q08493'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q08499'}, {'key': 'positively correlated with', 'source': 'UniProt:P27815', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q07343', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q08493', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q08499', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032680'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032674'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032663'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032673'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032649'}, {'key': 'positively correlated with', 'source': 'GO:0032680', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032674', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032663', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032649', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032673', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032673', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032649', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032663', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032674', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032680', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'MESH:D003876'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543085', 'label': 'Drug', 'name': 'crisaborole'}, {'id': 'UniProt:P27815', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4A\"}, {'id': 'UniProt:Q07343', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4B\"}, {'id': 'UniProt:Q08493', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4C\"}, {'id': 'UniProt:Q08499', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4D\"}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0032680', 'label': 'BiologicalProcess', 'name': 'regulation of tumor necrosis factor production'}, {'id': 'GO:0032674', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-5 production'}, {'id': 'GO:0032663', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-2 production'}, {'id': 'GO:0032673', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-4 production'}, {'id': 'GO:0032649', 'label': 'BiologicalProcess', 'name': 'regulation of interferon-gamma production'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'immune response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB05219#mechanism-of-action', 'https://en.wikipedia.org/wiki/Crisaborole#Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D008258_1', 'disease': 'Waldenström macroglobulinemia', 'disease_mesh': 'MESH:D008258', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D008258'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D008258'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D008258'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D008258', 'label': 'Disease', 'name': 'Waldenström macroglobulinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D020522'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D020522'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01037_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P27338'}, {'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042420'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042420'}, {'key': 'decreases abundance of', 'source': 'GO:0042420', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0001963'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0042420', 'label': 'BiologicalProcess', 'name': 'dopamine catabolic process'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01037#mechanism-of-action', 'https://en.wikipedia.org/wiki/Monoamine_oxidase_inhibitor#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01037_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P27338'}, {'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042402'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D003865'}, {'key': 'negatively correlated with', 'source': 'GO:0099155', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, noradrenergic'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01037#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01261_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'sitagliptin', 'drug_mesh': 'MESH:D000068900', 'drugbank': 'DB:DB01261'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000068900', 'target': 'UniProt:P27487'}, {'key': 'participates in', 'source': 'UniProt:P27487', 'target': 'REACT:R-HSA-381771'}, {'key': 'participates in', 'source': 'UniProt:P27487', 'target': 'REACT:R-HSA-400511'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-381771', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-400511', 'target': 'GO:0030073'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-381771', 'target': 'GO:0070091'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-400511', 'target': 'GO:0070091'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'MESH:D003924'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068900', 'label': 'Drug', 'name': 'sitagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'REACT:R-HSA-381771', 'label': 'Pathway', 'name': 'Synthesis, secretion, and inactivation of Glucagon-like Peptide-1 (GLP-1)'}, {'id': 'REACT:R-HSA-400511', 'label': 'Pathway', 'name': 'Synthesis, secretion, and inactivation of Glucose-dependent Insulinotropic Polypeptide (GIP)'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin Secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01261#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sitagliptin', 'https://en.wikipedia.org/wiki/Dipeptidyl_peptidase-4_inhibitor', 'https://en.wikipedia.org/wiki/Incretin#Medical_uses', 'https://en.wikipedia.org/wiki/Type_2_diabetes#Pathophysiology']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05229_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'beraprost', 'drug_mesh': 'MESH:C048081', 'drugbank': 'DB:DB05229'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C048081', 'target': 'UniProt:P43119'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43119', 'target': 'MESH:D002118'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C048081', 'label': 'Drug', 'name': 'beraprost'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB05229#mechanism-of-action', 'https://en.wikipedia.org/wiki/Beraprost']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08871_MESH_D008080_1', 'disease': 'Liposarcoma', 'disease_mesh': 'MESH:D008080', 'drug': 'eribulin', 'drug_mesh': 'MESH:C490954', 'drugbank': 'DB:DB08871'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C490954', 'target': 'PR:000028799'}, {'key': 'positively regulates', 'source': 'PR:000028799', 'target': 'GO:0000278'}, {'key': 'positively regulates', 'source': 'PR:000028799', 'target': 'GO:0051225'}, {'key': 'negatively correlated with', 'source': 'GO:0000278', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0051225', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D008080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C490954', 'label': 'Drug', 'name': 'eribulin'}, {'id': 'PR:000028799', 'label': 'MacromolecularComplex', 'name': 'Tubulin'}, {'id': 'GO:0000278', 'label': 'BiologicalProcess', 'name': 'mitotic cell cycle'}, {'id': 'GO:0051225', 'label': 'BiologicalProcess', 'name': 'spindle assembly'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D008080', 'label': 'Disease', 'name': 'Liposarcoma'}], 'reference': ['https://alpha.targetvalidation.org/drug/CHEMBL1683590', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1683590/', 'https://en.wikipedia.org/wiki/Eribulin#Structure_and_mechanism', 'https://en.wikipedia.org/wiki/Microtubule#Tubulin-binding_drugs_and_chemical_effects', 'https://go.drugbank.com/drugs/DB08871#mechanism-of-action']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The reviewed (SwissProt) entry is Q05940 (supersedes entry available on DrugBank i.e.Q99870. The Ensembl gene ID is ENSG00000165646)', 'directed': True, 'graph': {'_id': 'DB11915_MESH_D000071057_1', 'disease': 'Tardive dyskinesia', 'disease_mesh': 'MESH:D000071057', 'drug': 'valbenazine', 'drug_mesh': 'MESH:C000603978', 'drugbank': 'DB:DB11915'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000603978', 'target': 'UniProt:Q05940'}, {'key': 'positively regulates', 'source': 'UniProt:Q05940', 'target': 'GO:0015842'}, {'key': 'positively correlated with', 'source': 'GO:0015842', 'target': 'REACT:R-HSA-212676'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-212676', 'target': 'MESH:D000071057'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000603978', 'label': 'Drug', 'name': 'valbenazine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'Synaptic vesicular amine transporter'}, {'id': 'GO:0015842', 'label': 'BiologicalProcess', 'name': 'aminergic neurotransmitter loading into synaptic vesicle'}, {'id': 'REACT:R-HSA-212676', 'label': 'Pathway', 'name': 'Dopamine Neurotransmitter Release Cycle'}, {'id': 'MESH:D000071057', 'label': 'Disease', 'name': 'Tardive dyskinesia'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2364639/', 'https://go.drugbank.com/drugs/DB11915#mechanism-of-action', 'https://en.wikipedia.org/wiki/Valbenazine#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12323_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'Radotinib', 'drug_mesh': 'MESH:C000606751', 'drugbank': 'DB:DB12323'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'UniProt:P00519'}, {'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'MESH:D016044'}, {'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'MESH:D017479'}, {'key': 'positively regulates', 'source': 'UniProt:P00519', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'MESH:D016044', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'MESH:D017479', 'target': 'GO:0004713'}, {'key': 'positively correlated with', 'source': 'UniProt:P00519', 'target': 'GO:0035791'}, {'key': 'positively correlated with', 'source': 'MESH:D016044', 'target': 'GO:0035791'}, {'key': 'positively correlated with', 'source': 'MESH:D017479', 'target': 'GO:0048008'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0001525', 'target': 'MESH:D015464'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000606751', 'label': 'Drug', 'name': 'Radotinib'}, {'id': 'UniProt:P00519', 'label': 'Protein', 'name': 'Tyrosine-protein kinase ABL1'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'MESH:D017479', 'label': 'GeneFamily', 'name': 'Receptors, Platelet-Derived Growth Factor'}, {'id': 'GO:0004713', 'label': 'MolecularActivity', 'name': 'protein tyrosine kinase activity'}, {'id': 'GO:0035791', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor-beta signaling pathway'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0048008', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor signaling pathway'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'angiogenesis'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB12323#mechanism-of-action', 'https://en.wikipedia.org/wiki/Radotinib', 'https://drugcentral.org/drugcard/5188']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'comment': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P51787'}, {'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q12809'}, {'key': 'participates in', 'source': 'UniProt:P51787', 'target': 'REACT:R-HSA-1296072'}, {'key': 'participates in', 'source': 'UniProt:P51787', 'target': 'REACT:R-HSA-5576890'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-1296072'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-5576890'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-1296072', 'target': 'GO:0086013'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5576890', 'target': 'GO:0086013'}, {'key': 'negatively correlated with', 'source': 'GO:0086013', 'target': 'HP:0001657'}, {'key': 'positively correlated with', 'source': 'HP:0001657', 'target': 'HP:0004308'}, {'key': 'positively correlated with', 'source': 'HP:0004308', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'bepridil'}, {'id': 'UniProt:P51787', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily KQT member 1'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily H member 2'}, {'id': 'REACT:R-HSA-5576890', 'label': 'Pathway', 'name': 'Phase 3 - rapid repolarisation'}, {'id': 'REACT:R-HSA-1296072', 'label': 'Pathway', 'name': 'Voltage gated Potassium channels'}, {'id': 'GO:0086013', 'label': 'BiologicalProcess', 'name': 'membrane repolarization during cardiac muscle cell action potential'}, {'id': 'HP:0001657', 'label': 'PhenotypicFeature', 'name': 'Prolonged QT interval'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#mechanism-of-action', 'https://www.cvpharmacology.com/antiarrhy/potassium-blockers', 'https://pubmed.ncbi.nlm.nih.gov/1280569/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_2', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015764', 'target': 'UniProt:P05023'}, {'key': 'positively regulates', 'source': 'UniProt:P05023', 'target': 'GO:0036376'}, {'key': 'positively correlated with', 'source': 'GO:0036376', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P05023', 'label': 'Protein', 'name': 'Sodium/potassium-transporting ATPase subunit alpha-1'}, {'id': 'GO:0036376', 'label': 'BiologicalProcess', 'name': 'sodium ion export across plasma membrane'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'references': 'https://go.drugbank.com/drugs/DB01244#BE0000732 https://www.ahajournals.org/doi/full/10.1161/01.STR.29.3.705'}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_3', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:O00555'}, {'key': 'positively correlated with', 'source': 'UniProt:O00555', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0060047'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1903779'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D017202'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'negatively correlated with', 'source': 'GO:1903779', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:O00555', 'label': 'Protein', 'name': 'Voltage-dependent P/Q-type calcium channel subunit alpha-1A'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'GO:1903779', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac conduction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0000356', 'https://en.wikipedia.org/wiki/Calcium_channel_blocker#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Bepridil', 'https://www.cvpharmacology.com/vasodilator/CCB']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_4', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:O95180'}, {'key': 'positively correlated with', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'UniProt:O95180', 'target': 'GO:0086046'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0060047'}, {'key': 'positively regulates', 'source': 'GO:0086046', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0086046', 'label': 'BiologicalProcess', 'name': 'membrane depolarization during SA node cell action potential'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0000864', 'https://en.wikipedia.org/wiki/T-type_calcium_channel', 'https://www.cvpharmacology.com/vasodilator/CCB']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_5', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q9NY47'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NY47', 'target': 'GO:0061337'}, {'key': 'positively correlated with', 'source': 'GO:0061337', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0002396', 'https://en.wikipedia.org/wiki/T-type_calcium_channel', 'https://www.cvpharmacology.com/vasodilator/CCB', 'https://en.wikipedia.org/wiki/Voltage-gated_calcium_channel#%CE%B12%CE%B4_Subunit']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_6', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P63316'}, {'key': 'positively regulates', 'source': 'UniProt:P63316', 'target': 'GO:0055117'}, {'key': 'negatively correlated with', 'source': 'GO:0055117', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P63316', 'label': 'Protein', 'name': 'Troponin C, slow skeletal and cardiac muscles'}, {'id': 'GO:0055117', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0001024', 'https://en.wikipedia.org/wiki/Troponin_C_type_1#Troponin-binding_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_7', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P0DP23'}, {'key': 'positively regulates', 'source': 'UniProt:P0DP23', 'target': 'GO:0055117'}, {'key': 'negatively correlated with', 'source': 'GO:0055117', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P0DP23', 'label': 'Protein', 'name': 'Calmodulin-1'}, {'id': 'GO:0055117', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0001024']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'This drug does not interact directly with the catalytic site of PDE1 but interact at the level of calmodulin binding sites (https://en.wikipedia.org/wiki/PDE1#Inhibitors_and_their_function)', 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_8', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q01064'}, {'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P54750'}, {'key': 'molecularly interacts with', 'source': 'UniProt:Q01064', 'target': 'MESH:D002147'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P54750', 'target': 'MESH:D002147'}, {'key': 'positively correlated with', 'source': 'MESH:D002147', 'target': 'GO:0060048'}, {'key': 'negatively correlated with', 'source': 'GO:0060048', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P54750', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1A\"}, {'id': 'UniProt:Q01064', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1B\"}, {'id': 'MESH:D002147', 'label': 'Protein', 'name': 'Calmodulin'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0003323', 'https://go.drugbank.com/drugs/DB01244#BE0003565']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13761_MESH_D007787_1', 'disease': 'Lactose intolerance', 'disease_mesh': 'MESH:D007787', 'drug': 'Tilactase', 'drug_mesh': None, 'drugbank': 'DB:DB13761'}, 'links': [{'key': 'increases degradation of', 'source': 'DB:DB13761', 'target': 'CHEBI:17716'}, {'key': 'has metabolite', 'source': 'CHEBI:17716', 'target': 'CHEBI:28061'}, {'key': 'has metabolite', 'source': 'CHEBI:17716', 'target': 'CHEBI:4167'}, {'key': 'positively correlated with', 'source': 'CHEBI:28061', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'CHEBI:4167', 'target': 'GO:0050892'}, {'key': 'disrupted by', 'source': 'GO:0050892', 'target': 'MESH:D007787'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB13761', 'label': 'Drug', 'name': 'Tilactase'}, {'id': 'CHEBI:17716', 'label': 'ChemicalSubstance', 'name': 'Lactose'}, {'id': 'CHEBI:4167', 'label': 'ChemicalSubstance', 'name': 'D-glucopyranose'}, {'id': 'CHEBI:28061', 'label': 'ChemicalSubstance', 'name': 'α-D-galactose'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal absorption'}, {'id': 'MESH:D007787', 'label': 'Disease', 'name': 'Lactose intolerance'}], 'reference': ['https://go.drugbank.com/drugs/DB13761#mechanism-of-action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'increases abundance of', 'source': 'GO:0043627', 'target': 'MESH:D012701'}, {'key': 'negatively correlated with', 'source': 'MESH:D012701', 'target': 'MESH:D019964'}, {'key': 'positively correlated with', 'source': 'MESH:D019964', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D019964', 'label': 'Disease', 'name': 'Mood Disorders'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://pubmed.ncbi.nlm.nih.gov/29876339/', 'https://en.wikipedia.org/wiki/Premenstrual_dysphoric_disorder']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'treats', 'source': 'GO:0043627', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00977']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000317'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0006702'}, {'key': 'positively correlated with', 'source': 'CL:0000317', 'target': 'MESH:D000152'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'MESH:D000728'}, {'key': 'contributes to', 'source': 'MESH:D000728', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000317', 'label': 'Cell', 'name': 'Sebum secreting cell'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'Androgen synthesis'}, {'id': 'MESH:D000728', 'label': 'ChemicalSubstance', 'name': 'Androgens'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'prevents', 'source': 'GO:0043627', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00977']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0046849'}, {'key': 'contributes to', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'contributes to', 'source': 'GO:0046849', 'target': 'MESH:D015663'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://pubmed.ncbi.nlm.nih.gov/22595550/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Only for treatment of mild haemophilia', 'directed': True, 'graph': {'_id': 'DB00067_MESH_D006467_1', 'disease': 'Factor VIII Deficiency (Haemophilia A)', 'disease_mesh': 'MESH:D006467', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C016671', 'target': 'UniProt:P00451'}, {'key': 'disrupted by', 'source': 'UniProt:P00451', 'target': 'MESH:D006467'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'UniProt:P00451', 'label': 'Protein', 'name': 'Coagulation factor VIII'}, {'id': 'MESH:D006467', 'label': 'Disease', 'name': 'Hereditary factor VIII deficiency disease'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/18173690/', 'https://go.drugbank.com/drugs/DB00067']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00067_MESH_D053206_1', 'disease': 'Nocturnal enuresis', 'disease_mesh': 'MESH:D053206', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C016671', 'target': 'GO:0035810'}, {'key': 'positively correlated with', 'source': 'GO:0035810', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'GO:0035810', 'label': 'BiologicalProcess', 'name': 'Diuresis'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053206', 'label': 'Disease', 'name': 'Nocturnal enuresis'}], 'reference': ['https://go.drugbank.com/drugs/DB00067', 'https://en.wikipedia.org/wiki/Nocturnal_enuresis', 'https://pubmed.ncbi.nlm.nih.gov/29123651/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00067_MESH_D014842_1', 'disease': 'Von Willebrand disorder', 'disease_mesh': 'MESH:D014842', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C016671', 'target': 'UniProt:P04275'}, {'key': 'disrupted by', 'source': 'UniProt:P04275', 'target': 'MESH:D014842'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'UniProt:P04275', 'label': 'Protein', 'name': 'Von Willebrand factor'}, {'id': 'MESH:D014842', 'label': 'Disease', 'name': 'Von Willebrand disorder'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2599976/', 'https://go.drugbank.com/drugs/DB00067']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D007172_2', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'Sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'CHEBI:16356'}, {'key': 'positively regulates', 'source': 'CHEBI:16356', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'GO:0044557', 'target': 'GO:0008015'}, {'key': 'positively correlated with', 'source': 'GO:0008015', 'target': 'GO:0043084'}, {'key': 'negatively correlated with', 'source': 'GO:0043084', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'Sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'GO:0043084', 'label': 'BiologicalProcess', 'name': 'Penile erection'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB00203#BE0000182']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'Sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'CHEBI:16356'}, {'key': 'positively regulates', 'source': 'CHEBI:16356', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'Sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00203#BE0000182']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00491_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Miglitol', 'drug_mesh': 'MESH:C045621', 'drugbank': 'DB:DB00491'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:O43451'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:P10253'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:Q14697'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:Q8TET4'}, {'key': 'positively regulates', 'source': 'UniProt:O43451', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:P10253', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:Q14697', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:Q8TET4', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'GO:0044245', 'target': 'GO:0106001'}, {'key': 'positively regulates', 'source': 'GO:0106001', 'target': 'MESH:D001786'}, {'key': 'positively correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045621', 'label': 'Drug', 'name': 'Miglitol'}, {'id': 'UniProt:O43451', 'label': 'Protein', 'name': 'Maltase-glucoamylase, intestinal'}, {'id': 'UniProt:P10253', 'label': 'Protein', 'name': 'Lysosomal alpha-glucosidase'}, {'id': 'UniProt:Q14697', 'label': 'Protein', 'name': 'Neutral alpha-glucosidase AB'}, {'id': 'UniProt:Q8TET4', 'label': 'Protein', 'name': 'Neutral alpha-glucosidase C'}, {'id': 'GO:0044245', 'label': 'BiologicalProcess', 'name': 'Polysaccharide digestion'}, {'id': 'GO:0106001', 'label': 'BiologicalProcess', 'name': 'Intestinal hexose absorption'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00491']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'The mode of action of pentamidine is not fully understood', 'directed': True, 'graph': {'_id': 'DB00738_MESH_D014353_1', 'disease': 'African trypanosomiasis', 'disease_mesh': 'MESH:D014353', 'drug': 'Pentamidine', 'drug_mesh': 'MESH:D010419', 'drugbank': 'DB:DB00738'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D010419', 'target': 'MESH:D004247'}, {'key': 'negatively regulates', 'source': 'MESH:D010419', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5691'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:5691'}, {'key': 'causes', 'source': 'NCBITaxon:5691', 'target': 'MESH:D014353'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010419', 'label': 'Drug', 'name': 'Pentamidine'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein biosynthesis'}, {'id': 'NCBITaxon:5691', 'label': 'OrganismTaxon', 'name': 'Trypanosoma brucei'}, {'id': 'MESH:D014353', 'label': 'Disease', 'name': 'African trypanosomiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00738']}\n", + "['Drug', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Exactly how auranofin works is not well understood', 'directed': True, 'graph': {'_id': 'DB00995_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Auranofin', 'drug_mesh': 'MESH:D001310', 'drugbank': 'DB:DB00995'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001310', 'target': 'UniProt:O14920'}, {'key': 'negatively regulates', 'source': 'MESH:D001310', 'target': 'CL:0000235'}, {'key': 'positively regulates', 'source': 'UniProt:O14920', 'target': 'GO:0006955'}, {'key': 'participates in', 'source': 'CL:0000235', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001310', 'label': 'Drug', 'name': 'Auranofin'}, {'id': 'UniProt:O14920', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit beta'}, {'id': 'CL:0000235', 'label': 'Cell', 'name': 'Macrophage'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://www.sciencedirect.com/topics/chemistry/auranofin', 'https://go.drugbank.com/drugs/DB00995']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01004_MESH_D007635_1', 'disease': 'Herpes simplex dendritic keratitis', 'disease_mesh': 'MESH:D007635', 'drug': 'Ganciclovir', 'drug_mesh': 'MESH:D015774', 'drugbank': 'DB:DB01004'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D015774', 'target': 'MESH:D004247'}, {'key': 'decreases activity of', 'source': 'MESH:D015774', 'target': 'UniProt:P04293'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0019079'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10298'}, {'key': 'causes', 'source': 'NCBITaxon:10298', 'target': 'MESH:D007635'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015774', 'label': 'Drug', 'name': 'Ganciclovir'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit (Human herpesvirus 1)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:10298', 'label': 'OrganismTaxon', 'name': 'Human herpesvirus type 1'}, {'id': 'MESH:D007635', 'label': 'Disease', 'name': 'Herpes simplex dendritic keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01004#BE0000308', 'https://en.wikipedia.org/wiki/Cytomegalovirus_retinitis']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01004_MESH_D017726_1', 'disease': 'Cytomegaloviral retinitis', 'disease_mesh': 'MESH:D017726', 'drug': 'Ganciclovir', 'drug_mesh': 'MESH:D015774', 'drugbank': 'DB:DB01004'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D015774', 'target': 'MESH:D004247'}, {'key': 'decreases activity of', 'source': 'MESH:D015774', 'target': 'UniProt:P08546'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0019079'}, {'key': 'positively regulates', 'source': 'UniProt:P08546', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10359'}, {'key': 'causes', 'source': 'NCBITaxon:10359', 'target': 'MESH:D017726'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015774', 'label': 'Drug', 'name': 'Ganciclovir'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'UniProt:P08546', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit (Human cytomegalovirus)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:10359', 'label': 'OrganismTaxon', 'name': 'Human cytomegalovirus'}, {'id': 'MESH:D017726', 'label': 'Disease', 'name': 'Cytomegaloviral retinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01004#BE0000308', 'https://en.wikipedia.org/wiki/Cytomegalovirus_retinitis']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0086003'}, {'key': 'negatively correlated with', 'source': 'GO:0086003', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0086003', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell contraction'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D054537_1', 'disease': 'Atrioventricular block', 'disease_mesh': 'MESH:D054537', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0086003'}, {'key': 'negatively correlated with', 'source': 'GO:0086003', 'target': 'MESH:D054537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0086003', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell contraction'}, {'id': 'MESH:D054537', 'label': 'Disease', 'name': 'Atrioventricular block'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172', 'https://en.wikipedia.org/wiki/Atrioventricular_block']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D002303_1', 'disease': 'Low cardiac output syndrome', 'disease_mesh': 'MESH:D002303', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D002303'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'MESH:D002303', 'label': 'Disease', 'name': 'Low cardiac output syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'HP:0002098'}, {'key': 'occurs in', 'source': 'HP:0002098', 'target': 'MESH:D003139'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Smooth muscle relaxation'}, {'id': 'HP:0002098', 'label': 'PhenotypicFeature', 'name': 'Respiratory distress'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5904268/', 'https://pubmed.ncbi.nlm.nih.gov/33219396/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D012769_1', 'disease': 'Hypovolemic shock', 'disease_mesh': 'MESH:D012769', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'HP:0033532'}, {'key': 'positively correlated with', 'source': 'HP:0033532', 'target': 'MESH:D012769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'HP:0033532', 'label': 'PhenotypicFeature', 'name': 'Decreased cardiac output'}, {'id': 'MESH:D012769', 'label': 'Disease', 'name': 'Hypovolemic shock'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB06692_MESH_D006470_1', 'disease': 'Hemorrhage', 'disease_mesh': 'MESH:D006470', 'drug': 'Aprotinin', 'drug_mesh': 'MESH:D007611', 'drugbank': 'DB:DB06692'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007611', 'target': 'InterPro:IPR001254'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001254', 'target': 'GO:0042730'}, {'key': 'positively correlated with', 'source': 'GO:0042730', 'target': 'MESH:D006470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007611', 'label': 'Drug', 'name': 'Aprotinin'}, {'id': 'InterPro:IPR001254', 'label': 'GeneFamily', 'name': 'Serine proteases, trypsin domain'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'Fibrinolysis'}, {'id': 'MESH:D006470', 'label': 'Disease', 'name': 'Hemorrhage'}], 'reference': ['https://en.wikipedia.org/wiki/Aprotinin', 'https://go.drugbank.com/drugs/DB06692']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09036_MESH_D005871_1', 'disease': 'Angiofollicular lymph node hyperplasia', 'disease_mesh': 'MESH:D005871', 'drug': 'Siltuximab', 'drug_mesh': 'MESH:C504234', 'drugbank': 'DB:DB09036'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504234', 'target': 'UniProt:P05231'}, {'key': 'positively correlated with', 'source': 'UniProt:P05231', 'target': 'MESH:D005871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504234', 'label': 'Drug', 'name': 'Siltuximab'}, {'id': 'UniProt:P05231', 'label': 'Protein', 'name': 'Interleukin-6'}, {'id': 'MESH:D005871', 'label': 'Disease', 'name': 'Angiofollicular lymph node hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB09036']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11770_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Talinolol', 'drug_mesh': 'MESH:C011550', 'drugbank': 'DB:DB11770'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C011550', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011550', 'label': 'Drug', 'name': 'Talinolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Talinolol#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/8829891/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", + "['Drug', 'Protein', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Hives']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Sneeze']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/14561186/', 'https://go.drugbank.com/drugs/DB00434']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00960_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Pindolol', 'drug_mesh': 'MESH:D010869', 'drugbank': 'DB:DB00960'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010869', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010869', 'label': 'Drug', 'name': 'Pindolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://en.wikipedia.org/wiki/Beta-1_adrenergic_receptor', 'https://go.drugbank.com/drugs/DB00960#BE0000694']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00188_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'Bortezomib', 'drug_mesh': 'MESH:D000069286', 'drugbank': 'DB:DB00188'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'GO:0071159'}, {'key': 'participates in', 'source': 'UniProt:P28074', 'target': 'GO:0043161'}, {'key': 'participates in', 'source': 'UniProt:P20618', 'target': 'GO:0043161'}, {'key': 'negatively regulates', 'source': 'GO:0071159', 'target': 'GO:0006915'}, {'key': 'negatively regulates', 'source': 'GO:0043161', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069286', 'label': 'Drug', 'name': 'Bortezomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0043161', 'label': 'BiologicalProcess', 'name': 'Proteasome-mediated ubiquitin-dependent protein catabolic process'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://en.wikipedia.org/wiki/Bortezomib', 'https://go.drugbank.com/drugs/DB00188']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00188_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Bortezomib', 'drug_mesh': 'MESH:D000069286', 'drugbank': 'DB:DB00188'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'GO:0071159'}, {'key': 'participates in', 'source': 'UniProt:P28074', 'target': 'GO:0043161'}, {'key': 'participates in', 'source': 'UniProt:P20618', 'target': 'GO:0043161'}, {'key': 'negatively regulates', 'source': 'GO:0071159', 'target': 'GO:0006915'}, {'key': 'negatively regulates', 'source': 'GO:0043161', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069286', 'label': 'Drug', 'name': 'Bortezomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0043161', 'label': 'BiologicalProcess', 'name': 'Proteasome-mediated ubiquitin-dependent protein catabolic process'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://en.wikipedia.org/wiki/Bortezomib', 'https://go.drugbank.com/drugs/DB00188']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01042_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Melphalan', 'drug_mesh': 'MESH:D008558', 'drugbank': 'DB:DB01042'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008558', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0090592'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 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'UniProt:Q96S37'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q96S37', 'target': 'GO:0097744'}, {'key': 'negatively correlated with', 'source': 'GO:0097744', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013442', 'label': 'Drug', 'name': 'Sulfinpyrazone'}, {'id': 'UniProt:Q96S37', 'label': 'Protein', 'name': 'Solute carrier family 22 member 12'}, {'id': 'GO:0097744', 'label': 'BiologicalProcess', 'name': 'Urate salt excretion'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01138']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 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'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D002062_1', 'disease': 'Bursitis', 'disease_mesh': 'MESH:D002062', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D002062'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 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'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013585', 'label': 'Disease', 'name': 'Synovitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 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"['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, 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'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Sneeze']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00300_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Tenofovir disoproxil', 'drug_mesh': None, 'drugbank': 'DB:DB00300'}, 'links': [{'key': 'increases abundance of', 'source': 'DB:DB00300', 'target': 'MESH:D000068698'}, {'key': 'has metabolite', 'source': 'MESH:D000068698', 'target': 'MESH:C583447'}, {'key': 'decreases activity of', 'source': 'MESH:C583447', 'target': 'UniProt:Q72547'}, {'key': 'negatively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0006351'}, {'key': 'in taxon', 'source': 'GO:0006351', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00300', 'label': 'Drug', 'name': 'Tenofovir disoproxil'}, {'id': 'MESH:D000068698', 'label': 'Drug', 'name': 'tenofovir'}, {'id': 'MESH:C583447', 'label': 'ChemicalSubstance', 'name': 'tenofovir diphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'DNA transcription'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00300#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tenofovir-disoproxil#section=MeSH-Pharmacological-Classification', 'https://en.wikipedia.org/wiki/Tenofovir_disoproxil']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00300_MESH_D019694_1', 'disease': 'Chronic type B viral hepatitis', 'disease_mesh': 'MESH:D019694', 'drug': 'Tenofovir disoproxil', 'drug_mesh': None, 'drugbank': 'DB:DB00300'}, 'links': [{'key': 'increases abundance of', 'source': 'DB:DB00300', 'target': 'MESH:D000068698'}, {'key': 'has metabolite', 'source': 'MESH:D000068698', 'target': 'MESH:C583447'}, {'key': 'decreases activity of', 'source': 'MESH:C583447', 'target': 'UniProt:P24024'}, {'key': 'negatively regulates', 'source': 'UniProt:P24024', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:10407'}, {'key': 'causes', 'source': 'NCBITaxon:10407', 'target': 'MESH:D019694'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00300', 'label': 'Drug', 'name': 'Tenofovir disoproxil'}, {'id': 'MESH:D000068698', 'label': 'Drug', 'name': 'tenofovir'}, {'id': 'MESH:C583447', 'label': 'ChemicalSubstance', 'name': 'tenofovir diphosphate'}, {'id': 'UniProt:P24024', 'label': 'Protein', 'name': 'Hepatitis B polymerase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:10407', 'label': 'OrganismTaxon', 'name': 'Hepatitis B virus'}, {'id': 'MESH:D019694', 'label': 'Disease', 'name': 'Chronic type B viral hepatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00300#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tenofovir-disoproxil#section=MeSH-Pharmacological-Classification', 'https://en.wikipedia.org/wiki/Tenofovir_disoproxil']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01266_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'Sinecatechins', 'drug_mesh': None, 'drugbank': 'DB:DB01266'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR001245'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001245', 'target': 'GO:1900119'}, {'key': 'increases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P04637'}, {'key': 'positively regulates', 'source': 'UniProt:P04637', 'target': 'GO:1900119'}, {'key': 'increases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P06400'}, {'key': 'positively regulates', 'source': 'UniProt:P06400', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR000837'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000837', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR003545'}, {'key': 'positively regulates', 'source': 'InterPro:IPR003545', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P03129'}, {'key': 'positively regulates', 'source': 'UniProt:P03129', 'target': 'GO:1900119'}, {'key': 'in taxon', 'source': 'GO:1900119', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01266', 'label': 'Drug', 'name': 'Sinecatechins'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Transcription factor NF-κB'}, {'id': 'InterPro:IPR001245', 'label': 'GeneFamily', 'name': 'receptor tyrosine kinase'}, {'id': 'UniProt:P04637', 'label': 'Protein', 'name': 'tumor suppressor gene p53'}, {'id': 'InterPro:IPR000837', 'label': 'GeneFamily', 'name': 'Transcription factor Activator protein-1'}, {'id': 'InterPro:IPR003545', 'label': 'GeneFamily', 'name': 'telomerase'}, {'id': 'UniProt:P06400', 'label': 'Protein', 'name': 'tumor suppressor gene pRb'}, {'id': 'GO:1900119', 'label': 'BiologicalProcess', 'name': 'apoptosis'}, {'id': 'UniProt:P03129', 'label': 'Protein', 'name': 'HPV-E7 gene expression'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://go.drugbank.com/drugs/DB01266#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4066610/', 'doi:10.4103/2589-0557.132415']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11817_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Baricitinib', 'drug_mesh': 'MESH:C000596027', 'drugbank': 'DB:DB11817'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:P23458'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:O60674'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:P52333'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:Q14289'}, {'key': 'positively regulates', 'source': 'UniProt:P23458', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:O60674', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:P52333', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:Q14289', 'target': 'InterPro:IPR001217'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR001217', 'target': 'MESH:D016207'}, {'key': 'prevents', 'source': 'MESH:D016207', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000596027', 'label': 'Drug', 'name': 'Baricitinib'}, {'id': 'UniProt:P23458', 'label': 'Protein', 'name': 'Janus kinase 1'}, {'id': 'UniProt:O60674', 'label': 'Protein', 'name': 'Janus kinase 2'}, {'id': 'UniProt:P52333', 'label': 'Protein', 'name': 'Janus kinase 3'}, {'id': 'UniProt:Q14289', 'label': 'Protein', 'name': 'Tyrosine Kinase 2'}, {'id': 'InterPro:IPR001217', 'label': 'GeneFamily', 'name': 'signal transducers and activators of transcription (STATs)'}, {'id': 'MESH:D016207', 'label': 'ChemicalSubstance', 'name': 'inflammatory cytokines'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB11817#mechanismofaction']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09279_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Fimasartan', 'drug_mesh': 'MESH:C558933', 'drugbank': 'DB:DB09279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C558933', 'target': 'InterPro:IPR001004'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001004', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'MESH:C558933', 'target': 'UniProt:P30556'}, {'key': 'positively regulates', 'source': 'UniProt:P30556', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'GO:0048243', 'target': 'GO:0042310'}, {'key': 'decreases secretion of', 'source': 'MESH:C558933', 'target': 'MESH:D000450'}, {'key': 'increases response to', 'source': 'MESH:D000450', 'target': 'GO:0035819'}, {'key': 'decreases activity of', 'source': 'GO:0035819', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'GO:0045776'}, {'key': 'correlated with', 'source': 'GO:0045776', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C558933', 'label': 'Drug', 'name': 'Fimasartan'}, {'id': 'InterPro:IPR001004', 'label': 'GeneFamily', 'name': 'α1-adrenergic receptors'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Angiotensin II receptor type 1'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'noradrenaline release'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0035819', 'label': 'BiologicalProcess', 'name': 'natriuresis'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'blood volume'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09279#mechanismofaction', 'https://en.wikipedia.org/wiki/Fimasartan#:~:text=Fimasartan%20is%20a%20non%2Dpeptide,of%20hypertension%20and%20heart%20failure.']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D003424_2', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D001249_2', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D065631_2', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06724_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium carbonate', 'drug_mesh': 'MESH:D002119', 'drugbank': 'DB:DB06724'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002119', 'target': 'MESH:D002118'}, {'key': 'contributes to', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002119', 'label': 'Drug', 'name': 'Calcium carbonate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB06724#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06724_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Calcium carbonate', 'drug_mesh': 'MESH:D002119', 'drugbank': 'DB:DB06724'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'InterPro:IPR034162'}, {'key': 'prevents', 'source': 'InterPro:IPR034162', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'GO:0009268'}, {'key': 'prevents', 'source': 'GO:0009268', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'GO:0032310'}, {'key': 'prevents', 'source': 'GO:0032310', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'InterPro:IPR034162'}, {'key': 'prevents', 'source': 'InterPro:IPR034162', 'target': 'GO:0046717'}, {'key': 'causes', 'source': 'GO:0046717', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002119', 'label': 'Drug', 'name': 'Calcium carbonate'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin'}, {'id': 'GO:0009268', 'label': 'BiologicalProcess', 'name': 'Response to pH'}, {'id': 'GO:0032310', 'label': 'BiologicalProcess', 'name': 'Prostaglandin secretion'}, {'id': 'GO:0046717', 'label': 'BiologicalProcess', 'name': 'Acid secretion'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB06724#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1313'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D012141_1', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:P45299'}, {'key': 'negatively regulates', 'source': 'UniProt:P45299', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:727'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:P45299', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1280'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00215_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Citalopram', 'drug_mesh': 'MESH:D015283', 'drugbank': 'DB:DB00215'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015283', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'located in', 'source': 'GO:0051610', 'target': 'GO:0043083'}, {'key': 'correlated with', 'source': 'GO:0043083', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015283', 'label': 'Drug', 'name': 'Citalopram'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Solute carrier family 6 member 4, SLC6A4'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0043083', 'label': 'CellularComponent', 'name': 'Synaptic cleft'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00215#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Citalopram#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00215_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Citalopram', 'drug_mesh': 'MESH:D015283', 'drugbank': 'DB:DB00215'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015283', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'located in', 'source': 'GO:0051610', 'target': 'GO:0043083'}, {'key': 'correlated with', 'source': 'GO:0043083', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015283', 'label': 'Drug', 'name': 'Citalopram'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Solute carrier family 6 member 4, SLC6A4'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0043083', 'label': 'CellularComponent', 'name': 'Synaptic cleft'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00215#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Citalopram#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00401_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nisoldipine', 'drug_mesh': 'MESH:D015737', 'drugbank': 'DB:DB00401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015737', 'target': 'InterPro:IPR031649'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR031649', 'target': 'MESH:D002118'}, {'key': 'negatively regulates', 'source': 'MESH:D002118', 'target': 'GO:0006939'}, {'key': 'precedes', 'source': 'GO:0006939', 'target': 'GO:0042311'}, {'key': 'prevents', 'source': 'GO:0042311', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015737', 'label': 'Drug', 'name': 'Nisoldipine'}, {'id': 'InterPro:IPR031649', 'label': 'GeneFamily', 'name': 'L-type calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00401#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nisoldipine#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01267_MESH_D011618_1', 'disease': 'Schizoaffective disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'Paliperidone', 'drug_mesh': None, 'drugbank': 'DB:DB01267'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-162582'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-162582', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01267', 'label': 'Drug', 'name': 'Paliperidone'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha 1 adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha 2 adrenergic receptor'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-162582', 'label': 'Pathway', 'name': 'Signal transduction'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'Schizoaffective disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01267#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Paliperidone']}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'comment': \"This drug seems to be used for prophylaxis only because of its high cost and limited efficacy (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7096974/#CR20). It's believed to elicit an antibody-dependent cell-mediated cytotoxicity activity in vivo ()https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4000855/.\", 'directed': True, 'graph': {'_id': 'DB00110_MESH_D018357_1', 'disease': 'Respiratory syncytial virus infection', 'disease_mesh': 'MESH:D018357', 'drug': 'palivizumab', 'drug_mesh': 'MESH:D000069455', 'drugbank': 'DB:DB00110'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069455', 'target': 'UniProt:P13843'}, {'key': 'positively regulates', 'source': 'UniProt:P13843', 'target': 'GO:0019064'}, {'key': 'positively regulates', 'source': 'UniProt:P13843', 'target': 'GO:0046718'}, {'key': 'in taxon', 'source': 'GO:0046718', 'target': 'NCBITaxon:12814'}, {'key': 'in taxon', 'source': 'GO:0019064', 'target': 'NCBITaxon:12814'}, {'key': 'causes', 'source': 'NCBITaxon:12814', 'target': 'MESH:D018357'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069455', 'label': 'Drug', 'name': 'palivizumab'}, {'id': 'UniProt:P13843', 'label': 'Protein', 'name': 'Fusion glycoprotein F0'}, {'id': 'GO:0019064', 'label': 'BiologicalProcess', 'name': 'fusion of virus membrane with host plasma membrane'}, {'id': 'GO:0046718', 'label': 'BiologicalProcess', 'name': 'viral entry into host cell'}, {'id': 'NCBITaxon:12814', 'label': 'OrganismTaxon', 'name': 'Respiratory syncytial virus'}, {'id': 'MESH:D018357', 'label': 'Disease', 'name': 'Respiratory syncytial virus infection'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201586/', 'https://go.drugbank.com/drugs/DB00110#BE0000686', 'https://en.wikipedia.org/wiki/Respiratory_syncytial_virus#Immunoprophylaxis', 'https://en.wikipedia.org/wiki/Palivizumab']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01603_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'meticillin', 'drug_mesh': 'MESH:D008712', 'drugbank': 'DB:DB01603'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:P0A3M6'}, {'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0008955'}, {'key': 'positively correlated with', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0008955', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008712', 'label': 'Drug', 'name': 'meticillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0008955', 'label': 'MolecularActivity', 'name': 'peptidoglycan glycosyltransferase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01603#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sinusitis#Acute', 'https://en.wikipedia.org/wiki/Methicillin#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01603_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'meticillin', 'drug_mesh': 'MESH:D008712', 'drugbank': 'DB:DB01603'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:P0A3M6'}, {'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0008955'}, {'key': 'positively correlated with', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0008955', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008712', 'label': 'Drug', 'name': 'meticillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0008955', 'label': 'MolecularActivity', 'name': 'peptidoglycan glycosyltransferase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01603#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methicillin#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0A9Z7'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD63'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P62593'}, {'key': 'positively regulates', 'source': 'UniProt:P0A9Z7', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P62593', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P0A9Z7', 'label': 'Protein', 'name': 'Beta-lactamase SHV-2'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'UniProt:P62593', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_2', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD64'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:Q9F663'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD64', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:Q9F663', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:Q9F663', 'label': 'Protein', 'name': 'Carbapenem-hydrolyzing beta-lactamase KPC'}, {'id': 'UniProt:P0AD64', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_3', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P05364'}, {'key': 'positively regulates', 'source': 'UniProt:P05364', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:550'}, {'key': 'causes', 'source': 'NCBITaxon:550', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P05364', 'label': 'Protein', 'name': 'Beta-lactamase'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:550', 'label': 'OrganismTaxon', 'name': 'Enterobacter cloacae'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_4', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P37321'}, {'key': 'positively regulates', 'source': 'UniProt:P37321', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:287'}, {'key': 'causes', 'source': 'NCBITaxon:287', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P37321', 'label': 'Protein', 'name': 'Extended-spectrum beta-lactamase PER-1'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:287', 'label': 'OrganismTaxon', 'name': 'Pseudomonas aeruginosa'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics. The majority of cases of pyelonephritis are caused by E.coli (https://en.wikipedia.org/wiki/Pyelonephritis#Causes), hence using this species in the indication path here.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0A9Z7'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD63'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P62593'}, {'key': 'positively regulates', 'source': 'UniProt:P0A9Z7', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P62593', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P0A9Z7', 'label': 'Protein', 'name': 'Beta-lactamase SHV-2'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'UniProt:P62593', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'No mechanism of action available either in DrugBank (https://go.drugbank.com/drugs/DB12225#mechanism-of-action) or ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3126842/) as per 02032021.', 'directed': True, 'graph': {'_id': 'DB12225_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'beclabuvir', 'drug_mesh': 'MESH:C587012', 'drugbank': 'DB:DB12225'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C587012', 'target': 'UniProt:P27958'}, {'key': 'positively regulates', 'source': 'UniProt:P27958', 'target': 'GO:0039694'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:63746'}, {'key': 'causes', 'source': 'NCBITaxon:63746', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587012', 'label': 'Drug', 'name': 'beclabuvir'}, {'id': 'UniProt:P27958', 'label': 'Protein', 'name': 'Genome polyprotein'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'NCBITaxon:63746', 'label': 'OrganismTaxon', 'name': 'Hepatitis C virus (isolate H77)'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://en.wikipedia.org/wiki/Beclabuvir', 'https://pubchem.ncbi.nlm.nih.gov/compound/56934415#section=Pharmacology-and-Biochemistry', 'https://www.kegg.jp/entry/D10610', 'https://en.wikipedia.org/wiki/Hepatitis_C_virus#Molecular_biology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This drug converts uric acid into allantoin, therefore it clears uric acid from the blood (whose elevated levels - Hyperuricemia - can lead to gout).', 'directed': True, 'graph': {'_id': 'DB09208_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'pegloticase', 'drug_mesh': 'MESH:C031545', 'drugbank': 'DB:DB09208'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C031545', 'target': 'CHEBI:27226'}, {'key': 'positively correlated with', 'source': 'CHEBI:27226', 'target': 'HP:0002149'}, {'key': 'manifestation of', 'source': 'HP:0002149', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C031545', 'label': 'Drug', 'name': 'pegloticase'}, {'id': 'CHEBI:27226', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'HP:0002149', 'label': 'PhenotypicFeature', 'name': 'Hyperuricemia'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'Gout'}], 'reference': ['https://go.drugbank.com/drugs/DB09208#mechanism-of-action', 'https://en.wikipedia.org/wiki/Pegloticase#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06684_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'vilazodone', 'drug_mesh': 'MESH:D000069503', 'drugbank': 'DB:DB06684'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069503', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069503', 'label': 'Drug', 'name': 'vilazodone'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB06684#mechanism-of-action', 'https://go.drugbank.com/drugs/DB06684#BE0000749']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'this drug is a partial agonist at postsynaptic 5-HT1A receptors (https://en.wikipedia.org/wiki/5-HT1A_receptor#Partial_agonists) and are sometimes used in low doses as augmentation to SSRIs (https://en.wikipedia.org/wiki/5-HT1A_receptor#Neuromodulation).', 'directed': True, 'graph': {'_id': 'DB06684_MESH_D003865_2', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'vilazodone', 'drug_mesh': 'MESH:D000069503', 'drugbank': 'DB:DB06684'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000069503', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069503', 'label': 'Drug', 'name': 'vilazodone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'serotonin secretion, neurotransmission'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB06684#mechanism-of-action', 'https://go.drugbank.com/drugs/DB06684#BE0000291', 'https://en.wikipedia.org/wiki/5-HT1A_receptor', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4841022/', 'https://en.wikipedia.org/wiki/5-HT1A_receptor#cite_note-pmid2883013-21', 'https://pubmed.ncbi.nlm.nih.gov/12559651/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The drug name available in the original file (before curation) was Rutoside. This is one of the synonyms of Rutin, which is the canonical name in DrugBank). Its mechanism of action is not well reported. Some sources have it as an aid to enhance the action of vitamin C (https://www.drugs.com/mtm/rutin.html), whereas others describe rutin (aka vitamin P) acting as a \"sparing factor, which slows the oxidation of vitamin C\" into dehydroascorbic acid (https://en.wikipedia.org/wiki/Dehydroascorbic_acid).', 'directed': True, 'graph': {'_id': 'DB01698_MESH_D001206_1', 'disease': 'Ascorbic acid deficiency', 'disease_mesh': 'MESH:D001206', 'drug': 'Rutin', 'drug_mesh': 'MESH:D012431', 'drugbank': 'DB:DB01698'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D012431', 'target': 'CHEBI:21241'}, {'key': 'positively correlated with', 'source': 'CHEBI:21241', 'target': 'MESH:D001205'}, {'key': 'negatively correlated with', 'source': 'MESH:D001205', 'target': 'MESH:D001206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012431', 'label': 'Drug', 'name': 'Rutin'}, {'id': 'CHEBI:21241', 'label': 'ChemicalSubstance', 'name': 'vitamin C'}, {'id': 'MESH:D001205', 'label': 'ChemicalSubstance', 'name': 'Ascorbic Acid'}, {'id': 'MESH:D001206', 'label': 'Disease', 'name': 'Ascorbic acid deficiency'}], 'reference': ['https://en.wikipedia.org/wiki/Vitamin_C#Significance', 'https://en.wikipedia.org/wiki/Rutin']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12865_MESH_D006962_1', 'disease': 'Secondary hyperparathyroidism', 'disease_mesh': 'MESH:D006962', 'drug': 'etelcalcetide', 'drug_mesh': 'MESH:C583569', 'drugbank': 'DB:DB12865'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C583569', 'target': 'UniProt:P41180'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0002901'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'HP:0003165'}, {'key': 'positively correlated with', 'source': 'HP:0003165', 'target': 'MESH:D006962'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C583569', 'label': 'Drug', 'name': 'etelcalcetide'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'An abnormally decreased calcium concentration in the blood'}, {'id': 'HP:0003165', 'label': 'PhenotypicFeature', 'name': 'Elevated circulating parathyroid hormone level'}, {'id': 'MESH:D006962', 'label': 'Disease', 'name': 'Secondary hyperparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB12865#mechanism-of-action', 'https://en.wikipedia.org/wiki/Parathyroid_hormone#Disorders', 'https://en.wikipedia.org/wiki/Secondary_hyperparathyroidism#Cause', 'https://en.wikipedia.org/wiki/Etelcalcetide#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01166_MESH_D007383_1', 'disease': 'Intermittent claudication', 'disease_mesh': 'MESH:D007383', 'drug': 'cilostazol', 'drug_mesh': 'MESH:C045645', 'drugbank': 'DB:DB01166'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C045645', 'target': 'UniProt:Q14432'}, {'key': 'positively regulates', 'source': 'UniProt:Q14432', 'target': 'GO:0004115'}, {'key': 'decreases abundance of', 'source': 'GO:0004115', 'target': 'CHEBI:17489'}, {'key': 'increases activity of', 'source': 'CHEBI:17489', 'target': 'MESH:D017868'}, {'key': 'positively correlated with', 'source': 'MESH:D017868', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'MESH:D017868', 'target': 'GO:0070527'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D007383'}, {'key': 'positively correlated with', 'source': 'GO:0070527', 'target': 'MESH:D007383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045645', 'label': 'Drug', 'name': 'cilostazol'}, {'id': 'UniProt:Q14432', 'label': 'Protein', 'name': \"cGMP-inhibited 3',5'-cyclic phosphodiesterase A\"}, {'id': 'GO:0004115', 'label': 'MolecularActivity', 'name': \"3',5'-cyclic-AMP phosphodiesterase activity\"}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D017868', 'label': 'GeneFamily', 'name': 'Cyclic AMP-Dependent Protein Kinases'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D007383', 'label': 'Disease', 'name': 'Intermittent claudication'}], 'reference': ['https://go.drugbank.com/drugs/DB01166#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cilostazol#Mechanism', 'https://www.sciencedirect.com/science/article/pii/S1078588402917958', 'https://www.jvascsurg.org/article/0741-5214(86)90027-3/fulltext']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01144_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'dichlorphenamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB01144'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:O43570'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:O43570', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'alt_names': ['Diclofenamide'], 'id': 'MESH:D004005', 'label': 'Drug', 'name': 'dichlorphenamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'UniProt:O43570', 'label': 'Protein', 'name': 'Carbonic anhydrase 12'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01144#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL17/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08842_MESH_D000544_1', 'disease': \"Alzheimer's disease\", 'disease_mesh': 'MESH:D000544', 'drug': 'acetylcarnitine', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB08842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004005', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'GO:0014055'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D000544'}, {'key': 'positively regulates', 'source': 'MESH:D004005', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D000544'}, {'key': 'increases activity of', 'source': 'MESH:D004005', 'target': 'GO:0005947'}, {'key': 'positively regulates', 'source': 'GO:0005947', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'increases activity of', 'source': 'MESH:D004005', 'target': 'GO:0004129'}, {'key': 'positively regulates', 'source': 'GO:0004129', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'decreases abundance of', 'source': 'MESH:D004005', 'target': 'MESH:D005609'}, {'key': 'positively correlated with', 'source': 'MESH:D005609', 'target': 'HP:0025464'}, {'key': 'positively correlated with', 'source': 'HP:0025464', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'increases expression of', 'source': 'MESH:D004005', 'target': 'MESH:D017475'}, {'key': 'positively correlated with', 'source': 'MESH:D017475', 'target': 'GO:0007613'}, {'key': 'negatively correlated with', 'source': 'GO:0007613', 'target': 'HP:0002354'}, {'key': 'positively correlated with', 'source': 'HP:0002354', 'target': 'MESH:D000544'}, {'key': 'positively correlated with', 'source': 'MESH:D004005', 'target': 'GO:0018393'}, {'key': 'occurs in', 'source': 'GO:0018393', 'target': 'CHEBI:64645'}, {'key': 'contributes to', 'source': 'CHEBI:64645', 'target': 'CHEBI:60425'}, {'key': 'positively correlated with', 'source': 'CHEBI:60425', 'target': 'MESH:D000544'}, {'key': 'positively correlated with', 'source': 'MESH:D004005', 'target': 'GO:0018393'}, {'key': 'occurs in', 'source': 'GO:0018393', 'target': 'InterPro:IPR002955'}, {'key': 'contributes to', 'source': 'InterPro:IPR002955', 'target': 'HP:0002185'}, {'key': 'positively correlated with', 'source': 'HP:0002185', 'target': 'MESH:D000544'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004005', 'label': 'Drug', 'name': 'acetylcarnitine'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion, neurotransmission (BP)'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission (BP)'}, {'id': 'GO:0005947', 'label': 'CellularComponent', 'name': 'mitochondrial alpha-ketoglutarate dehydrogenase complex'}, {'id': 'GO:0004129', 'label': 'MolecularActivity', 'name': 'cytochrome-c oxidase activity'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'response to oxidative stress'}, {'id': 'GO:0150076', 'label': 'BiologicalProcess', 'name': 'neuroinflammatory response'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'HP:0025464', 'label': 'PhenotypicFeature', 'name': 'Increased reactive oxygen species production'}, {'id': 'MESH:D017475', 'label': 'GeneFamily', 'name': 'Receptors, Nerve Growth Factor'}, {'id': 'GO:0007613', 'label': 'BiologicalProcess', 'name': 'memory'}, {'id': 'HP:0002354', 'label': 'PhenotypicFeature', 'name': 'Memory impairment'}, {'id': 'GO:0018393', 'label': 'BiologicalProcess', 'name': 'peptidyl-lysine acetylation'}, {'id': 'InterPro:IPR002955', 'label': 'GeneFamily', 'name': 'Microtubule-associated protein Tau'}, {'id': 'HP:0002185', 'label': 'PhenotypicFeature', 'name': 'Neurofibrillary Tangles'}, {'id': 'CHEBI:64645', 'label': 'ChemicalSubstance', 'name': 'amyloid-beta'}, {'id': 'CHEBI:60425', 'label': 'ChemicalSubstance', 'name': 'amyloid fibril'}, {'alt_ids': ['MESH:C566998'], 'id': 'MESH:D000544', 'label': 'Disease', 'name': \"Alzheimer's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB08842#mechanism-of-action', 'https://www.nature.com/articles/4000805', 'https://en.wikipedia.org/wiki/Acetylcarnitine', 'https://pubmed.ncbi.nlm.nih.gov/16273023/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5791143/', 'https://en.wikipedia.org/wiki/Alzheimer%27s_disease#Causes', 'https://pubmed.ncbi.nlm.nih.gov/8937831/', 'https://pubmed.ncbi.nlm.nih.gov/22729864/', 'https://pubmed.ncbi.nlm.nih.gov/10381209/', 'https://en.wikipedia.org/wiki/Oxoglutarate_dehydrogenase_complex#Pathology']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00903_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'ethacrynic acid', 'drug_mesh': 'MESH:D004976', 'drugbank': 'DB:DB00903'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004976', 'target': 'UniProt:Q13621'}, {'key': 'positively regulates', 'source': 'UniProt:Q13621', 'target': 'GO:0008511'}, {'key': 'negatively correlated with', 'source': 'GO:0008511', 'target': 'GO:0036359'}, {'key': 'negatively correlated with', 'source': 'GO:0008511', 'target': 'GO:0035812'}, {'key': 'negatively correlated with', 'source': 'GO:0036359', 'target': 'GO:0003092'}, {'key': 'negatively correlated with', 'source': 'GO:0035812', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004976', 'label': 'Drug', 'name': 'ethacrynic acid'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0008511', 'label': 'MolecularActivity', 'name': 'sodium:potassium:chloride symporter activity'}, {'id': 'GO:0035812', 'label': 'BiologicalProcess', 'name': 'renal sodium excretion'}, {'id': 'GO:0036359', 'label': 'BiologicalProcess', 'name': 'renal potassium excretion'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://en.wikipedia.org/wiki/Etacrynic_acid#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Loop_diuretic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Na-K-Cl_cotransporter#NKCC2', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL456/', 'https://go.drugbank.com/drugs/DB00903#BE0000502', 'https://en.wikipedia.org/wiki/Diuretic#High_ceiling/loop_diuretic']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00038_MESH_D013921_1', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'oprelvekin', 'drug_mesh': 'MESH:C105308', 'drugbank': 'DB:DB00038'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C105308', 'target': 'UniProt:Q14626'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0004921'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0035726'}, {'key': 'positively regulates', 'source': 'GO:0004921', 'target': 'GO:0030220'}, {'key': 'positively regulates', 'source': 'GO:0035726', 'target': 'GO:0030220'}, {'key': 'negatively correlated with', 'source': 'GO:0030220', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C105308', 'label': 'Drug', 'name': 'oprelvekin'}, {'id': 'UniProt:Q14626', 'label': 'Protein', 'name': 'Interleukin-11 receptor subunit alpha'}, {'id': 'GO:0004921', 'label': 'MolecularActivity', 'name': 'interleukin-11 receptor activity'}, {'id': 'GO:0035726', 'label': 'BiologicalProcess', 'name': 'common myeloid progenitor cell proliferation'}, {'id': 'GO:0030220', 'label': 'BiologicalProcess', 'name': 'platelet formation'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00038#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oprelvekin']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00038_MESH_D013921_2', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'oprelvekin', 'drug_mesh': 'MESH:C105308', 'drugbank': 'DB:DB00038'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C105308', 'target': 'UniProt:Q14626'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0004921'}, {'key': 'positively correlated with', 'source': 'GO:0004921', 'target': 'GO:0035726'}, {'key': 'positively correlated with', 'source': 'GO:0035726', 'target': 'MESH:D034061'}, {'key': 'negatively correlated with', 'source': 'MESH:D034061', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C105308', 'label': 'Drug', 'name': 'oprelvekin'}, {'id': 'UniProt:Q14626', 'label': 'Protein', 'name': 'Interleukin-11 receptor subunit alpha'}, {'id': 'GO:0004921', 'label': 'MolecularActivity', 'name': 'interleukin-11 receptor activity'}, {'id': 'GO:0035726', 'label': 'BiologicalProcess', 'name': 'common myeloid progenitor cell proliferation'}, {'id': 'MESH:D034061', 'label': 'BiologicalProcess', 'name': 'Thrombopoiesis'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00038#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oprelvekin']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Sclerosing solutions cause the vein to scar, forcing blood to reroute through healthier veins. The collapsed vein is reabsorbed into local tissue and eventually fades (https://www.mayoclinic.org/tests-procedures/sclerotherapy/about/pac-20384592).', 'directed': True, 'graph': {'_id': 'DB00464_MESH_D014648_1', 'disease': 'Venous varices', 'disease_mesh': 'MESH:D014648', 'drug': 'sodium tetradecyl sulfate', 'drug_mesh': 'MESH:D012981', 'drugbank': 'DB:DB00464'}, 'links': [{'key': 'part of', 'source': 'MESH:D012981', 'target': 'MESH:D012597'}, {'key': 'negatively correlated with', 'source': 'MESH:D012597', 'target': 'HP:0012514'}, {'key': 'negatively correlated with', 'source': 'MESH:D012597', 'target': 'HP:0010741'}, {'key': 'manifestation of', 'source': 'HP:0012514', 'target': 'MESH:D014648'}, {'key': 'manifestation of', 'source': 'HP:0010741', 'target': 'MESH:D014648'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012981', 'label': 'Drug', 'name': 'sodium tetradecyl sulfate'}, {'id': 'MESH:D012597', 'label': 'ChemicalSubstance', 'name': 'Sclerosing Solutions'}, {'id': 'HP:0012514', 'label': 'PhenotypicFeature', 'name': 'Lower limb pain'}, {'id': 'HP:0010741', 'label': 'PhenotypicFeature', 'name': 'Pedal edema'}, {'id': 'MESH:D014648', 'label': 'Disease', 'name': 'Venous varices'}], 'reference': ['https://en.wikipedia.org/wiki/Sodium_tetradecyl_sulfate']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'MESH:D014652 was initially denoted as Disorder of blood vessel in the original xls file but the name on the MESH website, Vascular Diseases, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00797_MESH_D014652_1', 'disease': 'Vascular Diseases', 'disease_mesh': 'MESH:D014652', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D014652'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D014652', 'label': 'Disease', 'name': 'Vascular Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'MESH:D014652 was initially denoted as Disorder of blood vessel in the original xls file but the name on the MESH website, Vascular Diseases, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00797_MESH_D014652_2', 'disease': 'Vascular Diseases', 'disease_mesh': 'MESH:D014652', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D014652'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D014652', 'label': 'Disease', 'name': 'Vascular Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://www.ajol.info/index.php/njps/article/view/120209/109692']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00797_MESH_D002561_1', 'disease': 'Cerebrovascular disease', 'disease_mesh': 'MESH:D002561', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D002561'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D002561'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D002561', 'label': 'Disease', 'name': 'Cerebrovascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://en.wikipedia.org/wiki/Cerebrovascular_disease#Treatment']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00797_MESH_D010547_1', 'disease': 'Persistent pulmonary hypertension of the newborn', 'disease_mesh': 'MESH:D010547', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D010547'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D010547'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D010547', 'label': 'Disease', 'name': 'Persistent pulmonary hypertension of the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://en.wikipedia.org/wiki/Persistent_fetal_circulation#Treatment']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01144_MESH_D015812_1', 'disease': 'Angle-closure glaucoma', 'disease_mesh': 'MESH:D015812', 'drug': 'dichlorphenamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB01144'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:O43570'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:O43570', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D015812'}], 'multigraph': True, 'nodes': [{'alt_names': ['Diclofenamide'], 'id': 'MESH:D004005', 'label': 'Drug', 'name': 'dichlorphenamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'UniProt:O43570', 'label': 'Protein', 'name': 'Carbonic anhydrase 12'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D015812', 'label': 'Disease', 'name': 'Angle-closure glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01144#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL17/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication\\\\', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'This drug is fungistatic at concetrations up to 20 mcg/mL, and is fungicidal in vitro when used at higher concentrations. Also please note that MESH:D002181 was initially denoted as Candidal vulvovaginitis in the original xls file but the name on the MESH website, which is Candidiasis, Vulvovaginal, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002181_1', 'disease': 'Candidiasis, Vulvovaginal', 'disease_mesh': 'MESH:D002181', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis, Vulvovaginal'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comment': \"Diaper rash can be caused by different factors, including fungus, when it's known as diaper candidiasis. If a fungal origin is identified, the treatment is based on antifungals (e.g. clotrimazole). Therefore the original cause must be determined first as the treatments vary (https://en.wikipedia.org/wiki/Irritant_diaper_dermatitis#Secondary_infections).\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D003963_1', 'disease': 'Diaper rash', 'disease_mesh': 'MESH:D003963', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D003963'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D003963', 'label': 'Disease', 'name': 'Diaper rash'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'MESH:D002179 was initially denoted as Candidiasis of skin in the original xls file but the name on the MESH website, which is Candidiasis, Cutaneous, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002179_1', 'disease': 'Candidiasis, Cutaneous', 'disease_mesh': 'MESH:D002179', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis, Cutaneous'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'MESH:D002180 was initially denoted as Candidiasis of mouth in the original xls file but the name on the MESH website, which is Candidiasis, Oral, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002180_1', 'disease': 'Candidiasis, Oral', 'disease_mesh': 'MESH:D002180', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002180', 'label': 'Disease', 'name': 'Candidiasis, Oral'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D003022', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'MESH:D014010 was initially denoted as Pityriasis versicolor in the original xls file but the name on the MESH website, Tinea Versicolor, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D014010_1', 'disease': 'Tinea Versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Tinea Versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'MESH:D016780 was initially denoted as Falciparum malaria in the original xls file but the name on the MESH website is Malaria, Falciparum, which is the name used here.', 'directed': True, 'graph': {'_id': 'DB09274_MESH_D016778_1', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Artesunate', 'drug_mesh': 'MESH:D000077332', 'drugbank': 'DB:DB09274'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000077332', 'target': 'UniProt:P04926'}, {'key': 'in taxon', 'source': 'UniProt:P04926', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C111789'], 'id': 'MESH:D000077332', 'label': 'Drug', 'name': 'Artesunate'}, {'id': 'UniProt:P04926', 'label': 'Protein', 'name': 'Malaria protein EXP-1'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://go.drugbank.com/drugs/DB09274#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/6917864#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'MESH:D016780 was initially denoted as Vivax malaria in the original xls file but the name on the MESH website, Malaria, Vivax, is the one used here.', 'directed': True, 'graph': {'_id': 'DB09274_MESH_D016780_1', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Artesunate', 'drug_mesh': 'MESH:D000077332', 'drugbank': 'DB:DB09274'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000077332', 'target': 'Pfam:PF06589'}, {'key': 'in taxon', 'source': 'Pfam:PF06589', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C111789'], 'id': 'MESH:D000077332', 'label': 'Drug', 'name': 'Artesunate'}, {'id': 'Pfam:PF06589', 'label': 'GeneFamily', 'name': 'Circumsporozoite-related antigen (CRA)'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://go.drugbank.com/drugs/DB09274#pharmacodynamics', 'https://pubchem.ncbi.nlm.nih.gov/compound/6917864#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'GeneFamily', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'ABT-267 is also known as ombitasvir (see Other names at https://en.wikipedia.org/wiki/Ombitasvir).', 'directed': True, 'graph': {'_id': 'DB09296_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'ABT-267', 'drug_mesh': 'MESH:C586094', 'drugbank': 'DB:DB09296'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C586094', 'target': 'UniProt:Q5L478'}, {'key': 'molecularly interacts with', 'source': 'UniProt:Q5L478', 'target': 'MESH:C000618292'}, {'key': 'increases abundance of', 'source': 'MESH:C000618292', 'target': 'MESH:C037178'}, {'key': 'positively correlated with', 'source': 'MESH:C037178', 'target': 'MESH:D002784'}, {'key': 'located in', 'source': 'MESH:D002784', 'target': 'MESH:D000086969'}, {'key': 'location of', 'source': 'MESH:D000086969', 'target': 'GO:0039694'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0003968'}, {'key': 'positively regulates', 'source': 'GO:0003968', 'target': 'GO:0039694'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0004197'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0004252'}, {'key': 'positively correlated with', 'source': 'GO:0004197', 'target': 'MESH:D014779'}, {'key': 'positively correlated with', 'source': 'GO:0004252', 'target': 'MESH:D014779'}, {'key': 'positively correlated with', 'source': 'MESH:D014779', 'target': 'MESH:D019065'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'in taxon', 'source': 'MESH:D019065', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C586094', 'label': 'Drug', 'name': 'ABT-267'}, {'id': 'UniProt:Q5L478', 'label': 'Protein', 'name': 'Nonstructural protein 5A'}, {'id': 'GO:0003968', 'label': 'MolecularActivity', 'name': \"RNA-directed 5'-3' RNA polymerase activity\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'MESH:C000618292', 'label': 'Protein', 'name': 'PI4KIIIalpha protein, human'}, {'id': 'MESH:C037178', 'label': 'ChemicalSubstance', 'name': 'phosphatidylinositol 4-phosphate'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D000086969', 'label': 'CellularComponent', 'name': 'Viral Replication Compartments'}, {'id': 'GO:0004197', 'label': 'MolecularActivity', 'name': 'cysteine-type endopeptidase activity'}, {'id': 'GO:0004252', 'label': 'MolecularActivity', 'name': 'serine-type endopeptidase activity'}, {'id': 'MESH:D014779', 'label': 'BiologicalProcess', 'name': 'Virus Replication'}, {'id': 'MESH:D019065', 'label': 'BiologicalProcess', 'name': 'Virus Assembly'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB09296#mechanism-of-action', 'https://en.wikipedia.org/wiki/Discovery_and_development_of_NS5A_inhibitors#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Discovery_and_development_of_NS5A_inhibitors#Function', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4246218/', 'https://www.ncbi.nlm.nih.gov/books/NBK1623/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate).\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D052456_1', 'disease': 'Hypoalphalipoproteinemia', 'disease_mesh': 'MESH:D052456', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'positively regulates', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases abundance of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D008075'}, {'key': 'increases abundance of', 'source': 'UniProt:P49019', 'target': 'MESH:D008075'}, {'key': 'negatively correlated with', 'source': 'MESH:D008075', 'target': 'MESH:D052456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'MESH:D008075', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, HDL'}, {'id': 'MESH:D052456', 'label': 'Disease', 'name': 'Hypoalphalipoproteinemia'}], 'reference': ['https://en.wikipedia.org/wiki/Hypoalphalipoproteinemia', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'comment': \"This disease was named Mixed hyperlipidemia in the original file for curation but it's known as Hyperlipidemia, Familial Combined in MESH. Note there does not seem to be any evidence supporting this drug indication (e.g. https://en.wikipedia.org/wiki/Combined_hyperlipidemia#Treatment), so this path is hypothetic and based on the disease phenotype (i.e increased LDL and triglyceride concentrations). Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D006950_1', 'disease': 'Hyperlipidemia, Familial Combined', 'disease_mesh': 'MESH:D006950', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:C032607'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:C032607', 'target': 'MESH:D006950'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006950'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:C032607', 'label': 'ChemicalSubstance', 'name': 'low density lipoprotein triglyceride'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Hyperlipidemia, Familial Combined'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Triglyceride#Role_in_disease', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypertriglyceridemia#Treatment', 'https://en.wikipedia.org/wiki/Triglyceride#Role_in_disease', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:C032607'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:C032607', 'target': 'MESH:D006937'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006937'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:C032607', 'label': 'ChemicalSubstance', 'name': 'low density lipoprotein triglyceride'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypercholesterolemia#Medication', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'MESH:D015451 can also be denoted as Chronic lymphoid leukemia.', 'directed': True, 'graph': {'_id': 'DB11581_MESH_D015451_1', 'disease': 'Leukemia, Lymphocytic, Chronic, B-Cell', 'disease_mesh': 'MESH:D015451', 'drug': 'venetoclax', 'drug_mesh': 'MESH:C579720', 'drugbank': 'DB:DB11581'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C579720', 'target': 'UniProt:P10415'}, {'key': 'positively regulates', 'source': 'UniProt:P10415', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000542'}, {'key': 'location of', 'source': 'CL:0000542', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C579720', 'label': 'Drug', 'name': 'venetoclax'}, {'id': 'UniProt:P10415', 'label': 'Protein', 'name': 'Apoptosis regulator Bcl-2'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000542', 'label': 'Cell', 'name': 'lymphocyte'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Leukemia, Lymphocytic, Chronic, B-Cell'}], 'reference': ['https://go.drugbank.com/drugs/DB11581#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bcl-2#Venetoclax_(ABT-199)']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'FDA has withdrawn the approval for marketing this drug as per its cardiovascular side-effects.', 'directed': True, 'graph': {'_id': 'DB01191_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'dexfenfluramine', 'drug_mesh': 'MESH:D020372', 'drugbank': 'DB:DB01191'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D020372', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'affects risk for', 'source': 'GO:0051610', 'target': 'HP:0100738'}, {'key': 'positively correlated with', 'source': 'HP:0100738', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020372', 'label': 'Drug', 'name': 'dexfenfluramine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'HP:0100738', 'label': 'PhenotypicFeature', 'name': 'Abnormal eating behavior'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01191#mechanism-of-action', 'https://en.wikipedia.org/wiki/Dexfenfluramine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'FDA has withdrawn the approval for marketing this drug as per its cardiovascular side-effects.', 'directed': True, 'graph': {'_id': 'DB01191_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'dexfenfluramine', 'drug_mesh': 'MESH:D020372', 'drugbank': 'DB:DB01191'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D020372', 'target': 'UniProt:P28335'}, {'key': 'participates in', 'source': 'UniProt:P28335', 'target': 'REACT:R-HSA-416476'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0007631'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0032098'}, {'key': 'positively correlated with', 'source': 'GO:0007631', 'target': 'MESH:D009765'}, {'key': 'negatively correlated with', 'source': 'GO:0032098', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020372', 'label': 'Drug', 'name': 'dexfenfluramine'}, {'id': 'UniProt:P28335', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2C'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'GO:0007631', 'label': 'BiologicalProcess', 'name': 'feeding behavior'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'regulation of appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01191#mechanism-of-action', 'https://en.wikipedia.org/wiki/5-HT2C_receptor_agonist#Obesity', 'https://en.wikipedia.org/wiki/5-HT2C_receptor_agonist#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0005059'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0005059', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0005059', 'label': 'PhenotypicFeature', 'name': 'Arthralgia/arthritis'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ketoprofen#Mechanism', 'https://en.wikipedia.org/wiki/Rheumatoid_arthritis#Anti-inflammatory_and_analgesic_agents']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D001172_2', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P25024'}, {'key': 'positively regulates', 'source': 'UniProt:P25024', 'target': 'GO:0030593'}, {'key': 'positively regulates', 'source': 'UniProt:P25024', 'target': 'GO:0002407'}, {'key': 'positively correlated with', 'source': 'GO:0030593', 'target': 'HP:0005059'}, {'key': 'positively correlated with', 'source': 'GO:0030593', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'GO:0002407', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0005059', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P25024', 'label': 'Protein', 'name': 'C-X-C chemokine receptor type 1'}, {'id': 'GO:0030593', 'label': 'BiologicalProcess', 'name': 'neutrophil chemotaxis'}, {'id': 'GO:0002407', 'label': 'BiologicalProcess', 'name': 'dendritic cell chemotaxis'}, {'id': 'HP:0005059', 'label': 'PhenotypicFeature', 'name': 'Arthralgia/arthritis'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009#BE0003552', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4943798/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01009', 'https://en.wikipedia.org/wiki/Analgesic#COX-2_inhibitors']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0070471'}, {'key': 'positively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01009', 'https://www.aafp.org/afp/1999/0801/p489.html']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'In contrast to rheumatoid arthritis, in osteoarthritis the joints do not become hot or red. (https://en.wikipedia.org/wiki/Osteoarthritis#cite_note-NIH2015-1)', 'directed': True, 'graph': {'_id': 'DB01009_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C005193', 'target': 'CHEBI:15940'}, {'key': 'increases abundance of', 'source': 'CHEBI:15940', 'target': 'CHEBI:17154'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17154', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'nicotinic acid'}, {'id': 'CHEBI:17154', 'label': 'ChemicalSubstance', 'name': 'nicotinamide'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/3720#section=Drug-and-Medication-Information', 'https://en.wikipedia.org/wiki/Pellagra#Treatment', 'https://en.wikipedia.org/wiki/Nicotinamide', 'https://en.wikipedia.org/wiki/Nicotinamide#Niacin_deficiency', 'https://onlinelibrary.wiley.com/doi/epdf/10.1002/jppr.1250']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Adapalene', 'drug_mesh': 'MESH:D000068816', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068816', 'target': 'MESH:D018168'}, {'key': 'negatively regulates', 'source': 'MESH:D018168', 'target': 'GO:0031424'}, {'key': 'increases abundance of', 'source': 'GO:0031424', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068816', 'label': 'Drug', 'name': 'Adapalene'}, {'id': 'MESH:D018168', 'label': 'GeneFamily', 'name': 'Receptors, Retinoic Acid'}, {'id': 'GO:0031424', 'label': 'BiologicalProcess', 'name': 'keratinization'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00210#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374937/', 'https://en.wikipedia.org/wiki/Adapalene#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/19929446/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_2', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Adapalene', 'drug_mesh': 'MESH:D000068816', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000068816', 'target': 'UniProt:O60603'}, {'key': 'positively regulates', 'source': 'UniProt:O60603', 'target': 'UniProt:P05412'}, {'key': 'positively correlated with', 'source': 'UniProt:P05412', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:1747'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068816', 'label': 'Drug', 'name': 'Adapalene'}, {'id': 'UniProt:O60603', 'label': 'Protein', 'name': 'Toll-like receptor 2'}, {'id': 'UniProt:P05412', 'label': 'Protein', 'name': 'Transcription factor AP-1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00210#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374937/', 'https://en.wikipedia.org/wiki/Adapalene#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/19929446/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09256_MESH_D013274_1', 'disease': 'Malignant tumor of stomach', 'disease_mesh': 'MESH:D013274', 'drug': 'Tegafur', 'drug_mesh': 'MESH:D005641', 'drugbank': 'DB:DB09256'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005641', 'target': 'InterPro:IPR001128'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001128', 'target': 'MESH:D005472'}, {'key': 'has metabolite', 'source': 'MESH:D005472', 'target': 'MESH:D005468'}, {'key': 'has metabolite', 'source': 'MESH:D005472', 'target': 'MESH:C025635'}, {'key': 'negatively regulates', 'source': 'MESH:C025635', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'MESH:C025635', 'target': 'GO:0006412'}, {'key': 'decreases activity of', 'source': 'MESH:D005468', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0071897'}, {'key': 'located in', 'source': 'GO:0071897', 'target': 'CL:0001063'}, {'key': 'located in', 'source': 'GO:0032774', 'target': 'CL:0001063'}, {'key': 'located in', 'source': 'GO:0006412', 'target': 'CL:0001063'}, {'key': 'contributes to', 'source': 'CL:0001063', 'target': 'MESH:D013274'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005641', 'label': 'Drug', 'name': 'Tegafur'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'cytochrome P-450'}, {'id': 'MESH:D005472', 'label': 'ChemicalSubstance', 'name': '5-fluorouracil'}, {'id': 'MESH:D005468', 'label': 'ChemicalSubstance', 'name': '5-fluoro-2-deoxyuridine monophosphate'}, {'id': 'MESH:C025635', 'label': 'ChemicalSubstance', 'name': '5-fluorouridine triphosphate'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D013274', 'label': 'Disease', 'name': 'Malignant tumor of stomach'}], 'reference': ['https://go.drugbank.com/drugs/DB09256#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tegafur#section=Mechanism-of-Action']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01267_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Paliperidone', 'drug_mesh': None, 'drugbank': 'DB:DB01267'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-162582'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-162582', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01267', 'label': 'Drug', 'name': 'Paliperidone'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha 1 adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha 2 adrenergic receptor'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-162582', 'label': 'Pathway', 'name': 'Signal transduction'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01267#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Paliperidone']}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12833_MESH_D002012_1', 'disease': 'Bruxism (teeth grinding)', 'disease_mesh': 'MESH:D002012', 'drug': 'Tandospirone', 'drug_mesh': 'MESH:C055267', 'drugbank': 'DB:DB12833'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C055267', 'target': 'UniProt:P08908'}, {'key': 'negatively regulates', 'source': 'UniProt:P08908', 'target': 'HP:0000739'}, {'key': 'correlated with', 'source': 'HP:0000739', 'target': 'MESH:D002012'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C055267', 'label': 'Drug', 'name': 'Tandospirone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-HT1A receptor'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'MESH:D002012', 'label': 'Disease', 'name': 'Bruxism'}], 'reference': ['https://go.drugbank.com/drugs/DB12833#mechanismofaction']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09079_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'Nintedanib', 'drug_mesh': 'MESH:C530716', 'drugbank': 'DB:DB09079'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR009135'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR009135', 'target': 'REACT:R-HSA-194138'}, {'key': 'participates in', 'source': 'REACT:R-HSA-194138', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR016248'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR016248', 'target': 'REACT:R-HSA-190236'}, {'key': 'participates in', 'source': 'REACT:R-HSA-190236', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR006782'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR006782', 'target': 'REACT:R-HSA-186797'}, {'key': 'participates in', 'source': 'REACT:R-HSA-186797', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P36888'}, {'key': 'negatively regulates', 'source': 'UniProt:P36888', 'target': 'REACT:R-HSA-9607240'}, {'key': 'participates in', 'source': 'REACT:R-HSA-9607240', 'target': 'GO:0001525'}, {'key': 'prevents', 'source': 'GO:0001525', 'target': 'GO:0008283'}, {'key': 'contributes to', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530716', 'label': 'Drug', 'name': 'Nintedanib'}, {'id': 'InterPro:IPR009135', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor receptor'}, {'id': 'REACT:R-HSA-194138', 'label': 'Pathway', 'name': 'Signaling by VEGF'}, {'id': 'UniProt:P36888', 'label': 'Protein', 'name': 'fms like tyrosine kinase 3 (FLT-3)'}, {'id': 'REACT:R-HSA-9607240', 'label': 'Pathway', 'name': 'FLT3 Signaling'}, {'id': 'InterPro:IPR006782', 'label': 'GeneFamily', 'name': 'Platelet-derived growth factor receptor'}, {'id': 'REACT:R-HSA-186797', 'label': 'Pathway', 'name': 'Signaling by PDGF'}, {'id': 'InterPro:IPR016248', 'label': 'GeneFamily', 'name': 'Fibroblast growth factor receptor'}, {'id': 'REACT:R-HSA-190236', 'label': 'Pathway', 'name': 'Signaling by FGFR'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB09079#mechanismofaction', 'https://en.wikipedia.org/wiki/Nintedanib', 'doi:10.1183/09031936.00174914']}\n", + "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09079_MESH_D000080203_1', 'disease': 'Hamman-Rich syndrome', 'disease_mesh': 'MESH:D000080203', 'drug': 'Nintedanib', 'drug_mesh': 'MESH:C530716', 'drugbank': 'DB:DB09079'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P12931'}, {'key': 'negatively regulates', 'source': 'UniProt:P12931', 'target': 'REACT:R-HSA-9006927'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P06239'}, {'key': 'negatively regulates', 'source': 'UniProt:P06239', 'target': 'REACT:R-HSA-9006927'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P07948'}, {'key': 'negatively regulates', 'source': 'UniProt:P07948', 'target': 'REACT:R-HSA-9006927'}, {'key': 'prevents', 'source': 'REACT:R-HSA-9006927', 'target': 'HP:0006530'}, {'key': 'correlated with', 'source': 'HP:0006530', 'target': 'MESH:D000080203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530716', 'label': 'Drug', 'name': 'Nintedanib'}, {'id': 'UniProt:P12931', 'label': 'Protein', 'name': 'Proto-oncogene tyrosine-protein kinase Src'}, {'id': 'UniProt:P07948', 'label': 'Protein', 'name': 'Tyrosine-protein kinase Lyn'}, {'id': 'UniProt:P06239', 'label': 'Protein', 'name': 'Tyrosine-protein kinase Lck'}, {'id': 'REACT:R-HSA-9006927', 'label': 'Pathway', 'name': 'Signaling by Non-Receptor Tyrosine Kinases'}, {'id': 'HP:0006530', 'label': 'PhenotypicFeature', 'name': 'lung fibrosis'}, {'id': 'MESH:D000080203', 'label': 'Disease', 'name': 'Hamman-Rich syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB09079#mechanismofaction', 'https://en.wikipedia.org/wiki/Nintedanib', 'doi:10.1183/09031936.00174914']}\n", + "['Drug', 'Protein', 'Pathway', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05336_MESH_C571912_1', 'disease': 'Inhalational anthrax', 'disease_mesh': 'MESH:C571912', 'drug': 'Obiltoxaximab', 'drug_mesh': 'MESH:C000611266', 'drugbank': 'DB:DB05336'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C000611266', 'target': 'InterPro:IPR027439'}, {'key': 'part of', 'source': 'InterPro:IPR027439', 'target': 'MESH:C030325'}, {'key': 'prevents', 'source': 'MESH:C030325', 'target': 'GO:0035635'}, {'key': 'in taxon', 'source': 'GO:0035635', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:C571912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000611266', 'label': 'Drug', 'name': 'Obiltoxaximab'}, {'id': 'InterPro:IPR027439', 'label': 'GeneFamily', 'name': 'Protective Antigen'}, {'id': 'MESH:C030325', 'label': 'ChemicalSubstance', 'name': 'Anthrax toxin'}, {'id': 'GO:0035635', 'label': 'BiologicalProcess', 'name': 'Entry of bacterium into host cell'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:C571912', 'label': 'Disease', 'name': 'Inhalational anthrax'}], 'reference': ['https://go.drugbank.com/drugs/DB05336#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13125_MESH_D013921_1', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'Lusutrombopag', 'drug_mesh': 'MESH:C000611387', 'drugbank': 'DB:DB13125'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C000611387', 'target': 'UniProt:P40238'}, {'key': 'positively regulates', 'source': 'UniProt:P40238', 'target': 'GO:0007259'}, {'key': 'enables', 'source': 'GO:0007259', 'target': 'MESH:D034061'}, {'key': 'expressed in', 'source': 'MESH:D034061', 'target': 'CL:0000556'}, {'key': 'increases activity of', 'source': 'CL:0000556', 'target': 'GO:0008283'}, {'key': 'increases abundance of', 'source': 'GO:0008283', 'target': 'HP:0001873'}, {'key': 'increases activity of', 'source': 'CL:0000556', 'target': 'GO:0030154'}, {'key': 'increases abundance of', 'source': 'GO:0030154', 'target': 'HP:0001873'}, {'key': 'manifestation of', 'source': 'HP:0001873', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000611387', 'label': 'Drug', 'name': 'Lusutrombopag'}, {'id': 'UniProt:P40238', 'label': 'Protein', 'name': 'thrombopoietin receptor'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'Receptor signaling pathway via JAK-STAT'}, {'id': 'MESH:D034061', 'label': 'BiologicalProcess', 'name': 'Thrombocytopoiesis'}, {'id': 'CL:0000556', 'label': 'Cell', 'name': 'Megakaryocytes'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'Cell differentiation'}, {'id': 'HP:0001873', 'label': 'PhenotypicFeature', 'name': 'Platelet counts'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB13125#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04897_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Lucinactant', 'drug_mesh': 'MESH:C502722', 'drugbank': 'DB:DB04897'}, 'links': [{'key': 'chemically similar to', 'source': 'MESH:C502722', 'target': 'UniProt:P07988'}, {'key': 'decreases activity of', 'source': 'UniProt:P07988', 'target': 'GO:0050828'}, {'key': 'located in', 'source': 'GO:0050828', 'target': 'UBERON:0002299'}, {'key': 'increases activity of', 'source': 'UBERON:0002299', 'target': 'GO:0043576'}, {'key': 'correlated with', 'source': 'GO:0043576', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C502722', 'label': 'Drug', 'name': 'Lucinactant'}, {'id': 'UniProt:P07988', 'label': 'Protein', 'name': 'Surfactant protein B (SP-B)'}, {'id': 'GO:0050828', 'label': 'BiologicalProcess', 'name': 'Surface tension at the air-liquid interface'}, {'id': 'UBERON:0002299', 'label': 'GrossAnatomicalStructure', 'name': 'Alveolus of lung'}, {'id': 'GO:0043576', 'label': 'BiologicalProcess', 'name': 'Respiratory gaseous exchange'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB04897#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_2', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'decreases response to', 'source': 'GO:0051381', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'Levocabastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1-receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Itching'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01106#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_3', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:O95665'}, {'key': 'decreases response to', 'source': 'UniProt:O95665', 'target': 'HP:0012531'}, {'key': 'correlated with', 'source': 'HP:0012531', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'Levocabastine'}, {'id': 'UniProt:O95665', 'label': 'Protein', 'name': 'Neurotensin receptor type 2'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01106#mechanismofaction']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00593_MESH_D004832_1', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'Ethosuximide', 'drug_mesh': 'MESH:D005013', 'drugbank': 'DB:DB00593'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D005013', 'target': 'UniProt:O43497'}, {'key': 'increases transport of', 'source': 'UniProt:O43497', 'target': 'MESH:D002118'}, {'key': 'decreases activity of', 'source': 'MESH:D002118', 'target': 'GO:0099608'}, {'key': 'located in', 'source': 'GO:0099608', 'target': 'UBERON:0000955'}, {'key': 'prevents', 'source': 'UBERON:0000955', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005013', 'label': 'Drug', 'name': 'Ethosuximide'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'T-type voltage sensitive calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium ions'}, {'id': 'GO:0099608', 'label': 'BiologicalProcess', 'name': 'Regulation of action potential firing pattern'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00593#mechanismofaction', 'doi:10.1111/j.1527-3458.2007.00009.x', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ethosuximide#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00593_MESH_D004832_2', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'Ethosuximide', 'drug_mesh': 'MESH:D005013', 'drugbank': 'DB:DB00593'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005013', 'target': 'GO:0005228'}, {'key': 'increases transport of', 'source': 'GO:0005228', 'target': 'MESH:D009569'}, {'key': 'decreases activity of', 'source': 'MESH:D005013', 'target': 'GO:0015269'}, {'key': 'increases transport of', 'source': 'GO:0015269', 'target': 'MESH:D009569'}, {'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'GO:0042747'}, {'key': 'prevents', 'source': 'GO:0042747', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005013', 'label': 'Drug', 'name': 'Ethosuximide'}, {'id': 'GO:0005228', 'label': 'MolecularActivity', 'name': 'Intracellular sodium activated potassium channel activity'}, {'id': 'GO:0015269', 'label': 'MolecularActivity', 'name': 'Calcium-activated potassium channel activity'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'Nitric oxide'}, {'id': 'GO:0042747', 'label': 'BiologicalProcess', 'name': 'Paradoxical sleep'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00593#mechanismofaction', 'doi:10.1111/j.1527-3458.2007.00009.x', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ethosuximide#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Empagliflozin is used in combination with proper diet and exercise', 'directed': True, 'graph': {'_id': 'DB09038_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Empagliflozin', 'drug_mesh': 'MESH:C570240', 'drugbank': 'DB:DB09038'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C570240', 'target': 'UniProt:P31639'}, {'key': 'negatively regulates', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'has phenotype', 'source': 'GO:0035623', 'target': 'HP:0003076'}, {'key': 'decreases abundance of', 'source': 'HP:0003076', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C570240', 'label': 'Drug', 'name': 'Empagliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'HP:0003076', 'label': 'PhenotypicFeature', 'name': 'Glycosuria'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09038#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D004381_1', 'disease': 'Duodenal ulcer disease', 'disease_mesh': 'MESH:D004381', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D004381'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D004381', 'label': 'Disease', 'name': 'Duodenal ulcer disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D013276_1', 'disease': 'Gastric ulcer', 'disease_mesh': 'MESH:D013276', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D013276'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D013276', 'label': 'Disease', 'name': 'Gastric ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D015043_1', 'disease': 'Zollinger-Ellison syndrome', 'disease_mesh': 'MESH:D015043', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0034776'}, {'key': 'negatively regulates', 'source': 'GO:0034776', 'target': 'InterPro:IPR000072'}, {'key': 'correlated with', 'source': 'InterPro:IPR000072', 'target': 'MESH:D015043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'Response to histamine'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'MESH:D015043', 'label': 'Disease', 'name': 'Zollinger-Ellison syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D009377_1', 'disease': 'Multiple endocrine adenomas', 'disease_mesh': 'MESH:D009377', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0034776'}, {'key': 'negatively regulates', 'source': 'GO:0034776', 'target': 'InterPro:IPR000072'}, {'key': 'correlated with', 'source': 'InterPro:IPR000072', 'target': 'MESH:D009377'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'Response to histamine'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'MESH:D009377', 'label': 'Disease', 'name': 'Multiple endocrine adenomas'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Cimetidine has a role in treating the symptoms of systemic mastocytosis', 'directed': True, 'graph': {'_id': 'DB00501_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'located in', 'source': 'GO:0001821', 'target': 'CL:0000097'}, {'key': 'correlated with', 'source': 'CL:0000097', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'CL:0000097', 'label': 'Cell', 'name': 'Mast cell'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01183_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'Naloxone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB01183'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'negatively regulates', 'source': 'UniProt:P41143', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'negatively regulates', 'source': 'UniProt:P41145', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR000276', 'target': 'InterPro:IPR000274'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR000274', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'MESH:D013375'}, {'key': 'correlated with', 'source': 'MESH:D013375', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naloxone'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G-Protein coupled receptor'}, {'id': 'InterPro:IPR000274', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP levels'}, {'id': 'MESH:D013375', 'label': 'Disease', 'name': 'Withdrawal symptoms'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01183#mechanismofaction', 'DOI:10.18773/austprescr/1996.063', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3999180/']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01183_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Naloxone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB01183'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'negatively regulates', 'source': 'UniProt:P41143', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'negatively regulates', 'source': 'UniProt:P41145', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR000276', 'target': 'InterPro:IPR000274'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR000274', 'target': 'MESH:D000242'}, {'key': 'positively regulates', 'source': 'MESH:D000242', 'target': 'GO:0048265'}, {'key': 'caused by', 'source': 'GO:0048265', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naloxone'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G-Protein coupled receptor'}, {'id': 'InterPro:IPR000274', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP levels'}, {'id': 'GO:0048265', 'label': 'BiologicalProcess', 'name': 'Response to pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01183#mechanismofaction', 'DOI:10.18773/austprescr/1996.063', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3999180/']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D013832_1', 'disease': 'Thiamin deficiency', 'disease_mesh': 'MESH:D013832', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0014055'}, {'key': 'negatively regulates', 'source': 'MESH:D013831', 'target': 'GO:0019249'}, {'key': 'positively regulates', 'source': 'GO:0006006', 'target': 'GO:0042775'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D013832'}, {'key': 'positively correlated with', 'source': 'GO:0019249', 'target': 'MESH:D013832'}, {'key': 'negatively correlated with', 'source': 'GO:0042775', 'target': 'MESH:D013832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'GO:0019249', 'label': 'BiologicalProcess', 'name': 'Lactate biosynthetic process'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'MESH:D013832', 'label': 'Disease', 'name': 'Thiamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Thiamine_deficiency']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Please note that there appears to be no connection between thiamin and cobalamin deficiency', 'directed': True, 'graph': {'_id': 'DB00152_MESH_D014806_1', 'disease': 'Cobalamin deficiency', 'disease_mesh': 'MESH:D014806', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'treats', 'source': 'MESH:D013831', 'target': 'MESH:D014806'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Cobalamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://drugcentral.org/drugcard/2832?q=thiamine']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D020915_1', 'disease': 'Korsakoff Syndrome', 'disease_mesh': 'MESH:D020915', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'occurs in', 'source': 'GO:0006006', 'target': 'UBERON:0002206'}, {'key': 'positively regulates', 'source': 'UBERON:0002206', 'target': 'GO:0007616'}, {'key': 'negatively correlated with', 'source': 'GO:0007616', 'target': 'MESH:D020915'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'UBERON:0002206', 'label': 'GrossAnatomicalStructure', 'name': 'Mammillary body'}, {'id': 'GO:0007616', 'label': 'BiologicalProcess', 'name': 'Long-term memory'}, {'id': 'MESH:D020915', 'label': 'Disease', 'name': 'Korsakoff Syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Korsakoff_syndrome']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D001361_1', 'disease': 'Avitaminosis', 'disease_mesh': 'MESH:D001361', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0014055'}, {'key': 'negatively regulates', 'source': 'MESH:D013831', 'target': 'GO:0019249'}, {'key': 'positively regulates', 'source': 'GO:0006006', 'target': 'GO:0042775'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D001361'}, {'key': 'positively correlated with', 'source': 'GO:0019249', 'target': 'MESH:D001361'}, {'key': 'negatively correlated with', 'source': 'GO:0042775', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'GO:0019249', 'label': 'BiologicalProcess', 'name': 'Lactate biosynthetic process'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Avitaminosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Thiamine_deficiency', 'https://en.wikipedia.org/wiki/Vitamin_deficiency']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Please note that the pernicious anemia is a megaloblastic anemia caused by vitamin B12 deficiency not thiamine deficiency. Differential diagnosis for pernicious anemia includes thiamine-responsive megaloblastic anemia syndrome which is treated high doses of thiamine', 'directed': True, 'graph': {'_id': 'DB00152_MESH_D000752_1', 'disease': 'Pernicious anemia', 'disease_mesh': 'MESH:D000752', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'treats', 'source': 'MESH:D013831', 'target': 'MESH:D000752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'MESH:D000752', 'label': 'Disease', 'name': 'Pernicious anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://drugcentral.org/drugcard/2832?q=thiamine']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Midodrine is a prodrug, i.e., the therapeutic effect of orally administered midodrine is due to the major metabolite desglymidodrine', 'directed': True, 'graph': {'_id': 'DB00211_MESH_D007024_1', 'disease': 'Orthostatic hypotension', 'disease_mesh': 'MESH:D007024', 'drug': 'Midodrine', 'drug_mesh': 'MESH:D008879', 'drugbank': 'DB:DB00211'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D008879', 'target': 'CHEBI:73248'}, {'key': 'increases activity of', 'source': 'CHEBI:73248', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'CHEBI:73248', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'HP:0032263'}, {'key': 'negatively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D007024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008879', 'label': 'Drug', 'name': 'Midodrine'}, {'id': 'CHEBI:73248', 'label': 'ChemicalSubstance', 'name': 'Deglymidodrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D007024', 'label': 'Disease', 'name': 'Orthostatic hypotension'}], 'reference': ['https://go.drugbank.com/drugs/DB00211#BE0000501']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D010301'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Postencephalitic parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D020734'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001480'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D001480'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'MESH:D001480', 'label': 'Disease', 'name': 'Basal Ganglia Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D010300_1', 'disease': 'Parkinson Disease', 'disease_mesh': 'MESH:D010300', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D010300'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': 'Parkinson Disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00458_MESH_D053206_1', 'disease': 'Nocturnal enuresis', 'disease_mesh': 'MESH:D053206', 'drug': 'Imipramine', 'drug_mesh': 'MESH:D007099', 'drugbank': 'DB:DB00458'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'InterPro:IPR000995'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000995', 'target': 'CHEBI:15355'}, {'key': 'positively regulates', 'source': 'CHEBI:15355', 'target': 'UBERON:0000381'}, {'key': 'positively regulates', 'source': 'UBERON:0000381', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007099', 'label': 'Drug', 'name': 'Imipramine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'UBERON:0000381', 'label': 'GrossAnatomicalStructure', 'name': 'Urinary bladder detrusor smooth muscle'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Micturition'}, {'id': 'MESH:D053206', 'label': 'Disease', 'name': 'Nocturnal enuresis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/22761613/', 'https://go.drugbank.com/drugs/DB00458']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00458_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Imipramine', 'drug_mesh': 'MESH:D007099', 'drugbank': 'DB:DB00458'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'negatively regulates', 'source': 'GO:0051620', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0051610', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007099', 'label': 'Drug', 'name': 'Imipramine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Norepinephrine uptake'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00458']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Please note Porfimer sodium is a photosensitizing agent used in combination with a specific type of light in so called photodynamic therapy', 'directed': True, 'graph': {'_id': 'DB00707_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'Porfimer sodium', 'drug_mesh': 'MESH:D017323', 'drugbank': 'DB:DB00707'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D017323', 'target': 'GO:0006979'}, {'key': 'positively correlated with', 'source': 'GO:0006979', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017323', 'label': 'Drug', 'name': 'Porfimer sodium'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Response to oxidative stress'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00707']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Please note Porfimer sodium is a photosensitizing agent used in combination with a specific type of light in so called photodynamic therapy', 'directed': True, 'graph': {'_id': 'DB00707_MESH_D004938_1', 'disease': 'Malignant tumor of esophagus', 'disease_mesh': 'MESH:D004938', 'drug': 'Porfimer sodium', 'drug_mesh': 'MESH:D017323', 'drugbank': 'DB:DB00707'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D017323', 'target': 'GO:0006979'}, {'key': 'positively correlated with', 'source': 'GO:0006979', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D004938'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017323', 'label': 'Drug', 'name': 'Porfimer sodium'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Response to oxidative stress'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D004938', 'label': 'Disease', 'name': 'Malignant tumor of esophagus'}], 'reference': ['https://go.drugbank.com/drugs/DB00707']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The mechanism of action of trimipramine is not fully clear', 'directed': True, 'graph': {'_id': 'DB00726_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Trimipramine', 'drug_mesh': 'MESH:D014299', 'drugbank': 'DB:DB00726'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014299', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014299', 'target': 'GO:0042421'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'negatively regulates', 'source': 'MESH:D006632', 'target': 'GO:0030431'}, {'key': 'positively correlated with', 'source': 'GO:0042421', 'target': 'GO:0061533'}, {'key': 'negatively correlated with', 'source': 'GO:0030431', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014299', 'label': 'Drug', 'name': 'Trimipramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0042421', 'label': 'BiologicalProcess', 'name': 'Norepinephrine biosynthetic proces'}, {'id': 'GO:0030431', 'label': 'BiologicalProcess', 'name': 'Sleep'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00726', 'https://pubmed.ncbi.nlm.nih.gov/8863001/', 'https://en.wikipedia.org/wiki/Trimipramine']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D000788_1', 'disease': 'Prinzmetal angina', 'disease_mesh': 'MESH:D000788', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively correlated with', 'source': 'GO:0045907', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Prinzmetal angina'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430', 'https://en.wikipedia.org/wiki/Variant_angina#Mechanism']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430', 'https://en.wikipedia.org/wiki/Angina']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01178_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'Chlormezanone', 'drug_mesh': 'MESH:D002720', 'drugbank': 'DB:DB01178'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002720', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D001007'}, {'key': 'negatively regulates', 'source': 'GO:0061534', 'target': 'MESH:D007319'}, {'key': 'manifestation of', 'source': 'MESH:D007319', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002720', 'label': 'Drug', 'name': 'Chlormezanone'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Sleeplessness'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB01178']}\n", + "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09101_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Elvitegravir', 'drug_mesh': 'MESH:C509700', 'drugbank': 'DB:DB09101'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C509700', 'target': 'UniProt:Q7ZJM1'}, {'key': 'positively regulates', 'source': 'UniProt:Q7ZJM1', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C509700', 'label': 'Drug', 'name': 'Elvitegravir'}, {'id': 'UniProt:Q7ZJM1', 'label': 'Protein', 'name': 'Integrase (Human immunodeficiency virus 1)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB09101#BE0004855']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P75352'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P22446'}, {'key': 'participates in', 'source': 'UniProt:P75352', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:P22446', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P75352', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Mycoplasma 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'UniProt:P72525', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q8DPM2', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:Q8DPM2', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Streptococcus pneumoniae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:Q9Z7I9'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:Q54A16'}, {'key': 'participates in', 'source': 'UniProt:Q9Z7I9', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q54A16', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:Q9Z7I9', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Chlamydial pneumoniae)'}, {'id': 'UniProt:Q54A16', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Chlamydial pneumoniae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydial pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P43702'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P43700'}, {'key': 'participates in', 'source': 'UniProt:P43702', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:P43700', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P43702', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Haemophilus influenzae)'}, {'id': 'UniProt:P43700', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Haemophilus influenzae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01219_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'dantrolene', 'drug_mesh': 'MESH:D003620', 'drugbank': 'DB:DB01219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003620', 'target': 'UniProt:P21817'}, {'key': 'part of', 'source': 'UniProt:P21817', 'target': 'GO:1990425'}, {'key': 'participates in', 'source': 'GO:1990425', 'target': 'GO:0005219'}, {'key': 'participates in', 'source': 'GO:0005219', 'target': 'GO:0032470'}, {'key': 'participates in', 'source': 'GO:0032470', 'target': 'GO:0006936'}, {'key': 'regulates', 'source': 'GO:0006936', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003620', 'label': 'Drug', 'name': 'Dantrolene'}, {'id': 'UniProt:P21817', 'label': 'Protein', 'name': 'Ryanodine receptor 1'}, {'id': 'GO:1990425', 'label': 'CellularComponent', 'name': 'Ryanodine receptor complex'}, {'id': 'GO:0005219', 'label': 'MolecularActivity', 'name': 'ryanodine-sensitive calcium-release channel activity'}, {'id': 'GO:0032470', 'label': 'BiologicalProcess', 'name': 'positive regulation of endoplasmic reticulum calcium ion concentration'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'muscle contraction'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01219#mechanism-of-action']}\n", + "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01219_MESH_C535694_1', 'disease': 'Malignant hyperthermia', 'disease_mesh': 'MESH:C535694', 'drug': 'dantrolene', 'drug_mesh': 'MESH:D003620', 'drugbank': 'DB:DB01219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003620', 'target': 'UniProt:P21817'}, {'key': 'part of', 'source': 'UniProt:P21817', 'target': 'GO:1990425'}, {'key': 'participates in', 'source': 'GO:1990425', 'target': 'GO:0005219'}, {'key': 'participates in', 'source': 'GO:0005219', 'target': 'GO:0032470'}, {'key': 'participates in', 'source': 'GO:0032470', 'target': 'GO:0006936'}, {'key': 'regulates', 'source': 'GO:0006936', 'target': 'MESH:C535694'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003620', 'label': 'Drug', 'name': 'Dantrolene'}, {'id': 'UniProt:P21817', 'label': 'Protein', 'name': 'Ryanodine receptor 1'}, {'id': 'GO:1990425', 'label': 'CellularComponent', 'name': 'Ryanodine receptor complex'}, {'id': 'GO:0005219', 'label': 'MolecularActivity', 'name': 'ryanodine-sensitive calcium-release channel activity'}, {'id': 'GO:0032470', 'label': 'BiologicalProcess', 'name': 'positive regulation of endoplasmic reticulum calcium ion concentration'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'muscle contraction'}, {'id': 'MESH:C535694', 'label': 'Disease', 'name': 'Malignant hyperthermia'}], 'reference': ['https://go.drugbank.com/drugs/DB01219#mechanism-of-action', 'https://en.wikipedia.org/wiki/Malignant_hyperthermia#Disease_mechanism']}\n", + "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6751347/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D000799_1', 'disease': 'Angioedema', 'disease_mesh': 'MESH:D000799', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000799'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular 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[{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:Q54906'}, {'key': 'positively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding protein (Streptococcus pyogenes)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0AD65'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD65', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding protein 2 (Escherichia coli)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3049134/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0AD65'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD65', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding protein 2 (Streptococcus 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{'key': 'positively regulates', 'source': 'UniProt:Q53725', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:Q53725', 'label': 'Protein', 'name': 'Cell division protein FtsI (Staphylococcus aureus)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0A3M6'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04884_MESH_D061686_1', 'disease': 'Premature ejaculation', 'disease_mesh': 'MESH:D061686', 'drug': 'dapoxetine', 'drug_mesh': 'MESH:C080598', 'drugbank': 'DB:DB04884'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C080598', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'increases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'prevents', 'source': 'MESH:D012701', 'target': 'MESH:D061686'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C080598', 'label': 'Drug', 'name': 'dapoxetine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'sodium dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Neuronal serotonin reuptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D061686', 'label': 'Disease', 'name': 'Premature ejaculation'}], 'reference': ['https://go.drugbank.com/drugs/DB04884#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1936309/', 'https://pubmed.ncbi.nlm.nih.gov/19557098/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2695237/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06788_MESH_D011629_1', 'disease': 'Precocious puberty', 'disease_mesh': 'MESH:D011629', 'drug': 'Histrelin', 'drug_mesh': 'MESH:C029256', 'drugbank': 'DB:DB06788'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C029256', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006702'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006701'}, {'key': 'positively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D011629'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'MESH:D011629'}, {'key': 'positively correlated with', 'source': 'GO:0006701', 'target': 'MESH:D011629'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C029256', 'label': 'Drug', 'name': 'Histrelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006701', 'label': 'BiologicalProcess', 'name': 'progesterone biosynthetic process'}, {'id': 'MESH:D011629', 'label': 'Disease', 'name': 'Precocious puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB06788#mechanism-of-action', 'https://en.wikipedia.org/wiki/Precocious_puberty', 'https://en.wikipedia.org/wiki/Histrelin']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09013_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Befunolol', 'drug_mesh': 'MESH:C006034', 'drugbank': 'DB:DB09013'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P07550'}, {'key': 'regulates', 'source': 'UniProt:P08588', 'target': 'HP:0007906'}, {'key': 'regulates', 'source': 'UniProt:P07550', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006034', 'label': 'Drug', 'name': 'Befunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09013', 'https://pubmed.ncbi.nlm.nih.gov/12480285/', 'https://pubmed.ncbi.nlm.nih.gov/37605/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09013_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Befunolol', 'drug_mesh': 'MESH:C006034', 'drugbank': 'DB:DB09013'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P07550'}, {'key': 'regulates', 'source': 'UniProt:P08588', 'target': 'HP:0007906'}, {'key': 'regulates', 'source': 'UniProt:P07550', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006034', 'label': 'Drug', 'name': 'Befunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB09013', 'https://pubmed.ncbi.nlm.nih.gov/12480285/', 'https://pubmed.ncbi.nlm.nih.gov/37605/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00099_MESH_C537592_1', 'disease': 'Congenital neutropenia', 'disease_mesh': 'MESH:C537592', 'drug': 'Filgrastim', 'drug_mesh': 'MESH:D000069585', 'drugbank': 'DB:DB00099'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069585', 'target': 'UniProt:Q99062'}, {'key': 'positively regulates', 'source': 'UniProt:Q99062', 'target': 'GO:0030223'}, {'key': 'negatively correlated with', 'source': 'GO:0030223', 'target': 'MESH:C537592'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069585', 'label': 'Drug', 'name': 'Filgrastim'}, {'id': 'UniProt:Q99062', 'label': 'Protein', 'name': 'Granulocyte colony-stimulating factor receptor'}, {'id': 'GO:0030223', 'label': 'BiologicalProcess', 'name': 'Neutrophil differentiation'}, {'id': 'MESH:C537592', 'label': 'Disease', 'name': 'Congenital neutropenia'}], 'reference': ['https://en.wikipedia.org/wiki/Severe_congenital_neutropenia', 'https://go.drugbank.com/drugs/DB00099#BE0000793']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00099_MESH_C536227_1', 'disease': 'Cyclical neutropenia', 'disease_mesh': 'MESH:C536227', 'drug': 'Filgrastim', 'drug_mesh': 'MESH:D000069585', 'drugbank': 'DB:DB00099'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069585', 'target': 'UniProt:Q99062'}, {'key': 'positively regulates', 'source': 'UniProt:Q99062', 'target': 'GO:0030223'}, {'key': 'negatively correlated with', 'source': 'GO:0030223', 'target': 'MESH:C536227'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069585', 'label': 'Drug', 'name': 'Filgrastim'}, {'id': 'UniProt:Q99062', 'label': 'Protein', 'name': 'Granulocyte colony-stimulating factor receptor'}, {'id': 'GO:0030223', 'label': 'BiologicalProcess', 'name': 'Neutrophil differentiation'}, {'id': 'MESH:C536227', 'label': 'Disease', 'name': 'Cyclical neutropenia'}], 'reference': ['https://en.wikipedia.org/wiki/Severe_congenital_neutropenia', 'https://go.drugbank.com/drugs/DB00099#BE0000793']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D014552_1', 'disease': 'Urinary Tract Infections', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary Tract Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB00274', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D059413_1', 'disease': 'Intraabdominal Infections', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Intraabdominal Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00574_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'Fenfluramine', 'drug_mesh': 'MESH:D005277', 'drugbank': 'DB:DB00574'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005277', 'target': 'UniProt:P28221'}, {'key': 'positively correlated with', 'source': 'UniProt:P28221', 'target': 'MESH:D012701'}, {'key': 'negatively regulates', 'source': 'MESH:D012701', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005277', 'label': 'Drug', 'name': 'Fenfluramine'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00574', 'https://pubmed.ncbi.nlm.nih.gov/2692639/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00808_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'Indapamide', 'drug_mesh': 'MESH:D007190', 'drugbank': 'DB:DB00808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007190', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007190', 'label': 'Drug', 'name': 'Indapamide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00808']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00808_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Indapamide', 'drug_mesh': 'MESH:D007190', 'drugbank': 'DB:DB00808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007190', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007190', 'label': 'Drug', 'name': 'Indapamide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00808']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00939', 'https://pubmed.ncbi.nlm.nih.gov/6344539/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 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True, 'graph': {'_id': 'DB00939_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 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'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00953_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Rizatriptan', 'drug_mesh': 'MESH:C093622', 'drugbank': 'DB:DB00953'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P30939'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0004993'}, {'key': 'positively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0004993'}, {'key': 'positively regulates', 'source': 'UniProt:P30939', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093622', 'label': 'Drug', 'name': 'Rizatriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': 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{'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012293', 'label': 'Drug', 'name': 'Rifampicin'}, {'id': 'UniProt:P9WGY9', 'label': 'Protein', 'name': 'DNA-directed RNA polymerase subunit beta (Mycobacterium tuberculosis)'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01045#BE0000257']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09046_MESH_C562448_1', 'disease': 'Acquired partial lipodystrophy', 'disease_mesh': 'MESH:C562448', 'drug': 'Metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'positively correlated with', 'source': 'UniProt:P48357', 'target': 'MESH:D020738'}, {'key': 'produced by', 'source': 'MESH:D020738', 'target': 'UBERON:0001013'}, {'key': 'negatively correlated with', 'source': 'UBERON:0001013', 'target': 'MESH:C562448'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'Metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'Leptin receptor'}, {'id': 'MESH:D020738', 'label': 'ChemicalSubstance', 'name': 'Leptin'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'MESH:C562448', 'label': 'Disease', 'name': 'Acquired partial lipodystrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB09046#BE0003376', 'https://en.wikipedia.org/wiki/Lipodystrophy']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09046_MESH_D052497_1', 'disease': 'Congenital generalized lipodystrophy', 'disease_mesh': 'MESH:D052497', 'drug': 'Metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'positively correlated with', 'source': 'UniProt:P48357', 'target': 'MESH:D020738'}, {'key': 'produced by', 'source': 'MESH:D020738', 'target': 'UBERON:0001013'}, {'key': 'negatively correlated with', 'source': 'UBERON:0001013', 'target': 'MESH:D052497'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'Metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'Leptin receptor'}, {'id': 'MESH:D020738', 'label': 'ChemicalSubstance', 'name': 'Leptin'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'MESH:D052497', 'label': 'Disease', 'name': 'Congenital generalized lipodystrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB09046#BE0003376', 'https://en.wikipedia.org/wiki/Congenital_generalized_lipodystrophy']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09093_MESH_D014141_1', 'disease': 'Trachoma', 'disease_mesh': 'MESH:D014141', 'drug': 'Chlortetracycline', 'drug_mesh': 'MESH:D002751', 'drugbank': 'DB:DB09093'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002751', 'target': 'InterPro:IPR030826'}, {'key': 'decreases activity of', 'source': 'MESH:D002751', 'target': 'MESH:D012336'}, {'key': 'participates in', 'source': 'InterPro:IPR030826', 'target': 'GO:0006412'}, {'key': 'participates in', 'source': 'MESH:D012336', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D014141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002751', 'label': 'Drug', 'name': 'Chlortetracycline'}, {'id': 'InterPro:IPR030826', 'label': 'GeneFamily', 'name': '30S ribosomal protein'}, {'id': 'MESH:D012336', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 16S'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D014141', 'label': 'Disease', 'name': 'Trachoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09093#BE0004799', 'https://en.wikipedia.org/wiki/Trachoma']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Diagnostic aid', 'directed': True, 'graph': {'_id': 'DB09352_MESH_D015878_1', 'disease': 'Mydriasis', 'disease_mesh': 'MESH:D015878', 'drug': 'Hydroxyamfetamine', 'drug_mesh': 'MESH:D010136', 'drugbank': 'DB:DB09352'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010136', 'target': 'GO:0061533'}, {'key': 'positively regulates', 'source': 'GO:0061533', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010136', 'label': 'Drug', 'name': 'Hydroxyamfetamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmissions'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Mydriasis'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/3651', 'https://go.drugbank.com/drugs/DB09352']}\n", + "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", + "{'comment': 'Heme (MESH:D006418) and hemin (MESH:D006427) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016780_1', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C027871', 'target': 'GO:0042540'}, {'key': 'increases abundance of', 'source': 'GO:0042540', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'GO:0042540', 'label': 'BiologicalProcess', 'name': 'hemoglobin catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3483207/']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Hemin (MESH:D006427) and heme (MESH:D006418) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016780_2', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C027871', 'target': 'MESH:D006427'}, {'key': 'disrupts', 'source': 'MESH:D006427', 'target': 'CL:0000232'}, {'key': 'location of', 'source': 'CL:0000232', 'target': 'GO:0019954'}, {'key': 'in taxon', 'source': 'GO:0019954', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'MESH:D006427', 'label': 'ChemicalSubstance', 'name': 'Hemin'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocyte'}, {'id': 'GO:0019954', 'label': 'BiologicalProcess', 'name': 'asexual reproduction'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf']}\n", + "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Heme (MESH:D006418) and hemin (MESH:D006427) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016778_1', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C027871', 'target': 'GO:0042540'}, {'key': 'increases abundance of', 'source': 'GO:0042540', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'GO:0042540', 'label': 'BiologicalProcess', 'name': 'hemoglobin catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3483207/']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Hemin (MESH:D006427) and heme (MESH:D006418) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016778_2', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C027871', 'target': 'MESH:D006427'}, {'key': 'disrupts', 'source': 'MESH:D006427', 'target': 'CL:0000232'}, {'key': 'location of', 'source': 'CL:0000232', 'target': 'GO:0019954'}, {'key': 'in taxon', 'source': 'GO:0019954', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'MESH:D006427', 'label': 'ChemicalSubstance', 'name': 'Hemin'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocyte'}, {'id': 'GO:0019954', 'label': 'BiologicalProcess', 'name': 'asexual reproduction'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf']}\n", + "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D007641'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000935'}, {'key': 'disrupts', 'source': 'MESH:D000935', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}, {'key': 'negatively correlated with', 'source': 'MESH:D007641', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000935', 'label': 'Drug', 'name': 'Antifungal Agents'}, {'id': 'MESH:D007641', 'label': 'Drug', 'name': 'Keratolytic Agents'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis#Causes']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Disease']\n", + "{'comment': 'The disease is denoted as Acute necrotizing ulcerative gingivitis in the original file but the name used for the path is the one seen in the MESH website.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D005892_1', 'disease': 'Gingivitis, Necrotizing Ulcerative', 'disease_mesh': 'MESH:D005892', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:28131'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:848'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:157'}, {'key': 'causes', 'source': 'NCBITaxon:157', 'target': 'MESH:D005892'}, {'key': 'causes', 'source': 'NCBITaxon:848', 'target': 'MESH:D005892'}, {'key': 'causes', 'source': 'NCBITaxon:28131', 'target': 'MESH:D005892'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'NCBITaxon:157', 'label': 'OrganismTaxon', 'name': 'Treponema'}, {'id': 'NCBITaxon:848', 'label': 'OrganismTaxon', 'name': 'Fusobacterium'}, {'id': 'NCBITaxon:28131', 'label': 'OrganismTaxon', 'name': 'Prevotella intermedia'}, {'id': 'MESH:D005892', 'label': 'Disease', 'name': 'Gingivitis, Necrotizing Ulcerative'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://en.wikipedia.org/wiki/Acute_necrotizing_ulcerative_gingivitis#Causes']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'comment': \"Sulfur's usefulness as a topical remedy for acne dates back to at least the reign of Cleopatra i.e. 69–30 BCE (https://en.wikipedia.org/wiki/Acne#History).\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_3', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D007641'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:1747'}, {'key': 'decreases abundance of', 'source': 'MESH:D007641', 'target': 'HP:0025249'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'MESH:D007641', 'label': 'Drug', 'name': 'Keratolytic Agents'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"The disease is denoted as Aphthous ulcer of mouth in the original file but the name used for the path is the one seen in the MESH website. The causes for this disease are not well known (https://ada.com/conditions/aphthous-ulcers/#causes). It's important to prevent secondary infection of the ulcers (https://en.wikipedia.org/wiki/Aphthous_stomatitis#Medication); that's when anti-bacterial agents can be administered.\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D013281_1', 'disease': 'Stomatitis, Aphthous', 'disease_mesh': 'MESH:D013281', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D013281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'MESH:D013281', 'label': 'Disease', 'name': 'Stomatitis, Aphthous'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://ada.com/conditions/aphthous-ulcers/#causes', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4441245/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4002348/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3227248/', 'https://www.mayoclinic.org/diseases-conditions/canker-sore/symptoms-causes/syc-20370615']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1392'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D018410'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Tonsillitis#Causes']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'Neisseria gonorrhoeae'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Gonorrhea#Cause']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': \"This disease is denoted as Streptococcus pyogenes infection in the original file but it's named Streptococcal Infections by MESH.\", 'directed': True, 'graph': {'_id': 'DB01416_MESH_D013290_1', 'disease': 'Streptococcal Infections', 'disease_mesh': 'MESH:D013290', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcal Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The disease is denoted Menopausal flushing in the original file but Hot flashes in MESH. The etiology of hot flashes has yet to be determined (https://pubmed.ncbi.nlm.nih.gov/15065632/).', 'directed': True, 'graph': {'_id': 'DB06710_MESH_D019584_1', 'disease': 'Menopausal Flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'precedes', 'source': 'MESH:D008777', 'target': 'CHEBI:34179'}, {'key': 'increases activity of', 'source': 'CHEBI:34179', 'target': 'UniProt:P03372'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'correlated with', 'source': 'UniProt:P10275', 'target': 'GO:0097746'}, {'key': 'correlated with', 'source': 'GO:0097746', 'target': 'MESH:D014666'}, {'key': 'regulates', 'source': 'GO:0006874', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'CHEBI:34179', 'label': 'Drug', 'name': '17alpha-Methylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0097746', 'label': 'BiologicalProcess', 'name': 'blood vessel diameter maintenance'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal Flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methyltestosterone#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Methylestradiol#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Hot_flash#Mechanism', 'https://academic.oup.com/jcem/article/100/11/3975/2836060']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'MESH:D005058 is named male hypogonadism in the original file.', 'directed': True, 'graph': {'_id': 'DB06710_MESH_D005058_1', 'disease': 'Eunuchism', 'disease_mesh': 'MESH:D005058', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060742'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0007283'}, {'key': 'positively correlated with', 'source': 'GO:0060742', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0048808', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0008584', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0019102', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0007283', 'target': 'CHEBI:17347'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17347', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060742', 'label': 'BiologicalProcess', 'name': 'epithelial cell differentiation involved in prostate gland development'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'male somatic sex determination'}, {'id': 'GO:0007283', 'label': 'BiologicalProcess', 'name': 'spermatogenesis'}, {'id': 'CHEBI:17347', 'label': 'ChemicalSubstance', 'name': 'testosterone'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Eunuchism'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypogonadism#Treatment', 'https://en.wikipedia.org/wiki/Hypogonadism#Men']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06710_MESH_D011628_1', 'disease': 'Puberty, Delayed', 'disease_mesh': 'MESH:D011628', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030518'}, {'key': 'positively correlated with', 'source': 'GO:0030518', 'target': 'GO:0071394'}, {'key': 'positively correlated with', 'source': 'GO:0030518', 'target': 'GO:0071391'}, {'key': 'positively correlated with', 'source': 'GO:0071394', 'target': 'GO:0048808'}, {'key': 'positively correlated with', 'source': 'GO:0071391', 'target': 'GO:0048807'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D011628'}, {'key': 'negatively correlated with', 'source': 'GO:0048807', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030518', 'label': 'BiologicalProcess', 'name': 'intracellular steroid hormone receptor signaling pathway'}, {'id': 'GO:0071394', 'label': 'BiologicalProcess', 'name': 'cellular response to testosterone stimulus'}, {'id': 'GO:0071391', 'label': 'BiologicalProcess', 'name': 'cellular response to estrogen stimulus'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'male genitalia morphogenesis'}, {'id': 'GO:0048807', 'label': 'BiologicalProcess', 'name': 'female genitalia morphogenesis'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Puberty, Delayed'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Delayed_pubertydrugs/DB06710#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission (https://go.drugbank.com/drugs/DB00555#BE0000013). However this is rather contentious, so it has not been annotated as such in here. Besides if the drug does modulate gamma-aminobutyric acid receptor it's a rather weak inhibition seen in animal models (yet to be determined in humans). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, note that this disease is denoted as Tonic-clonic seizure in the original file but known as Seizures in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D012640_1', 'disease': 'Seizures', 'disease_mesh': 'MESH:D012640', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission (https://go.drugbank.com/drugs/DB00555#BE0000013). However this is rather contentious, so it has not been annotated as such in here. Besides if the drug does inhibit gamma-aminobutyric acid receptor it's a rather weak inhibition seen in animal models (yet to be determined in humans). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Tonic-clonic seizure in the original file but known as Seizures in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D012640_2', 'disease': 'Seizures', 'disease_mesh': 'MESH:D012640', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Simple partial seizure in the original file but known as Epilepsies, Partial in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004828_1', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'HP:0032843', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032843', 'label': 'PhenotypicFeature', 'name': 'Focal-onset epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology', 'https://en.wikipedia.org/wiki/Focal_seizure']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Simple partial seizure in the original file but known as Epilepsies, Partial in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004828_2', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'HP:0032843', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032843', 'label': 'PhenotypicFeature', 'name': 'Focal-onset epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D065768_2', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004827_2', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00850_MESH_D012559_2', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'prochlorperazine', 'drug_mesh': 'MESH:D011346', 'drugbank': 'DB:DB00850'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011346', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'positively correlated with', 'source': 'CHEBI:18243', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011346', 'label': 'Drug', 'name': 'prochlorperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00433#mechanism-of-action', 'https://en.wikipedia.org/wiki/Prochlorperazine#Pharmacology', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Aminosalicylic acid is often administered in association with isoniazid', 'directed': True, 'graph': {'_id': 'DB00233_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Aminosalicylic acid', 'drug_mesh': 'MESH:D010131', 'drugbank': 'DB:DB00233'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010131', 'target': 'InterPro:IPR001796'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001796', 'target': 'GO:0071897'}, {'key': 'positively correlated with', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010131', 'label': 'Drug', 'name': 'Aminosalicylic acid'}, {'id': 'InterPro:IPR001796', 'label': 'GeneFamily', 'name': 'Dihydrofolate reductase domain'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00233', 'https://en.wikipedia.org/wiki/4-Aminosalicylic_acid#Pharmacology']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D011015_1', 'disease': 'Aspiration pneumonia', 'disease_mesh': 'MESH:D011015', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011015'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011015', 'label': 'Disease', 'name': 'Aspiration pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01061', 'https://en.wikipedia.org/wiki/Aspiration_pneumonia']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D016868_1', 'disease': 'Bacterial infection due to Serratia', 'disease_mesh': 'MESH:D016868', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:615'}, {'key': 'causes', 'source': 'NCBITaxon:615', 'target': 'MESH:D016868'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:615', 'label': 'OrganismTaxon', 'name': 'Serratia marcescens'}, {'id': 'MESH:D016868', 'label': 'Disease', 'name': 'Bacterial infection due to Serratia'}], 'reference': ['https://go.drugbank.com/drugs/DB01061']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01061', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01147']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01147']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01147', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01147', 'https://en.wikipedia.org/wiki/Sinusitis#Causes']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001172'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D010003'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB02383_MESH_D048909_1', 'disease': 'Diabetic complication', 'disease_mesh': 'MESH:D048909', 'drug': 'Tolrestat', 'drug_mesh': 'MESH:C040550', 'drugbank': 'DB:DB02383'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C040550', 'target': 'UniProt:P15121'}, {'key': 'increases abundance of', 'source': 'UniProt:P15121', 'target': 'MESH:D013012'}, {'key': 'causes', 'source': 'MESH:D013012', 'target': 'GO:0006970'}, {'key': 'positively correlated with', 'source': 'GO:0006970', 'target': 'HP:0000518'}, {'key': 'manifestation of', 'source': 'HP:0000518', 'target': 'MESH:D048909'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C040550', 'label': 'Drug', 'name': 'Tolrestat'}, {'id': 'UniProt:P15121', 'label': 'Protein', 'name': 'Aldose reductase'}, {'id': 'MESH:D013012', 'label': 'ChemicalSubstance', 'name': 'Sorbitol'}, {'id': 'GO:0006970', 'label': 'BiologicalProcess', 'name': 'Response to osmotic stress'}, {'id': 'HP:0000518', 'label': 'PhenotypicFeature', 'name': 'Cataract'}, {'id': 'MESH:D048909', 'label': 'Disease', 'name': 'Diabetic complication'}], 'reference': ['https://go.drugbank.com/drugs/DB02383', 'https://en.wikipedia.org/wiki/Aldose_reductase_inhibitor']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05351_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Dexlansoprazole', 'drug_mesh': 'MESH:D064748', 'drugbank': 'DB:DB05351'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P20648'}, {'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P51164'}, {'key': 'positively regulates', 'source': 'UniProt:P20648', 'target': 'GO:0001696'}, {'key': 'positively regulates', 'source': 'UniProt:P51164', 'target': 'GO:0001696'}, {'key': 'increases abundance of', 'source': 'GO:0001696', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064748', 'label': 'Drug', 'name': 'Dexlansoprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'UniProt:P51164', 'label': 'Protein', 'name': 'Potassium-transporting ATPase subunit beta'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB05351#BE0000349']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05351_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Dexlansoprazole', 'drug_mesh': 'MESH:D064748', 'drugbank': 'DB:DB05351'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P20648'}, {'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P51164'}, {'key': 'positively regulates', 'source': 'UniProt:P20648', 'target': 'GO:0001696'}, {'key': 'positively regulates', 'source': 'UniProt:P51164', 'target': 'GO:0001696'}, {'key': 'increases abundance of', 'source': 'GO:0001696', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064748', 'label': 'Drug', 'name': 'Dexlansoprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'UniProt:P51164', 'label': 'Protein', 'name': 'Potassium-transporting ATPase subunit beta'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB05351#BE0000349']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB05521_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Telaprevir', 'drug_mesh': 'MESH:C486464', 'drugbank': 'DB:DB05521'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C486464', 'target': 'UniProt:B0B3C9'}, {'key': 'positively regulates', 'source': 'UniProt:B0B3C9', 'target': 'GO:0039694'}, {'key': 'capable of', 'source': 'UniProt:B0B3C9', 'target': 'GO:0008236'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'in taxon', 'source': 'GO:0008236', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C486464', 'label': 'Drug', 'name': 'Telaprevir'}, {'id': 'UniProt:B0B3C9', 'label': 'Protein', 'name': 'Genome polyprotein'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'Viral RNA genome replication'}, {'id': 'GO:0008236', 'label': 'MolecularActivity', 'name': 'Serine-type peptidase activity'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB05521']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D051474_1', 'disease': 'Postherpetic neuralgia', 'disease_mesh': 'MESH:D051474', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D051474'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D051474', 'label': 'Disease', 'name': 'Postherpetic neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D009437_1', 'disease': 'Neuralgia', 'disease_mesh': 'MESH:D009437', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D009437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D009437', 'label': 'Disease', 'name': 'Neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09040_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'Efinaconazole', 'drug_mesh': 'MESH:C431707', 'drugbank': 'DB:DB09040'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C431707', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:5551'}, {'key': 'causes', 'source': 'NCBITaxon:5551', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C431707', 'label': 'Drug', 'name': 'Efinaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'Ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5551', 'label': 'OrganismTaxon', 'name': 'Trichophyton rubrum'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB09040#BE0000690', 'https://en.wikipedia.org/wiki/Onychomycosis#Dermatophytes']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11606_MESH_C536392_1', 'disease': 'Acquired factor VIII deficiency disease', 'disease_mesh': 'MESH:C536392', 'drug': 'Susoctocog alfa', 'drug_mesh': None, 'drugbank': 'DB:DB11606'}, 'links': [{'key': 'participates in', 'source': 'DB:DB11606', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:C536392'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB11606', 'label': 'Drug', 'name': 'Susoctocog alfa'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'MESH:C536392', 'label': 'Disease', 'name': 'Acquired factor VIII deficiency disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11606']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11607_MESH_D006467_1', 'disease': 'Hereditary factor VIII deficiency disease', 'disease_mesh': 'MESH:D006467', 'drug': 'Efmoroctocog alfa', 'drug_mesh': 'MESH:C587014', 'drugbank': 'DB:DB11607'}, 'links': [{'key': 'participates in', 'source': 'MESH:C587014', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:D006467'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587014', 'label': 'Drug', 'name': 'Efmoroctocog alfa'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'MESH:D006467', 'label': 'Disease', 'name': 'Hereditary factor VIII deficiency disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11607']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'This drug is most commonly used to treat epileptic conditions that are resistant to other treatments due to its toxicity (https://en.wikipedia.org/wiki/Trimethadione, https://go.drugbank.com/drugs/DB00347).', 'directed': True, 'graph': {'_id': 'DB00347_MESH_D004832_2', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'positively regulates', 'source': 'UniProt:O43497', 'target': 'GO:0007268'}, {'key': 'correlated with', 'source': 'GO:0007268', 'target': 'HP:0012535'}, {'key': 'correlated with', 'source': 'HP:0012535', 'target': 'HP:0002121'}, {'key': 'positively correlated with', 'source': 'HP:0002121', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'HP:0012535', 'label': 'PhenotypicFeature', 'name': 'Abnormal synaptic transmission'}, {'id': 'HP:0002121', 'label': 'PhenotypicFeature', 'name': 'Generalized non-motor (absence) seizure'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00347#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D001987_1', 'disease': 'Bronchiectasis', 'disease_mesh': 'MESH:D001987', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0001005'}, {'key': 'location of', 'source': 'UBERON:0001005', 'target': 'MESH:D001987'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001005', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory airway'}, {'id': 'MESH:D001987', 'label': 'Disease', 'name': 'Bronchiectasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668', 'https://en.wikipedia.org/wiki/Bronchodilator#Common_bronchodilators', 'https://en.wikipedia.org/wiki/Adrenaline#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Bronchiectasis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668', 'https://en.wikipedia.org/wiki/Bronchodilator#Common_bronchodilators', 'https://en.wikipedia.org/wiki/Bronchitis']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comments': 'The use of bronchodilators does not seem to improve the condition per se as it does for other respiratory conditions such as asthma for example. The benefit is rather small (https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators).', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0044557'}, {'key': 'negatively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002187'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'terminal bronchiole'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comments': 'MESH:D012135 is denoted as Wheezing in the original file. Note that wheezing is commonly experienced by patients with a lung disease where the respiratory tract is somehow obstructed.', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D012135_1', 'disease': 'Respiratory Sounds', 'disease_mesh': 'MESH:D012135', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042311'}, {'key': 'located in', 'source': 'GO:0042311', 'target': 'UBERON:0000065'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0000065'}, {'key': 'location of', 'source': 'UBERON:0000065', 'target': 'MESH:D012135'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'UBERON:0000065', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory tract'}, {'id': 'MESH:D012135', 'label': 'Disease', 'name': 'Respiratory Sounds'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D004417_1', 'disease': 'Dyspnea', 'disease_mesh': 'MESH:D004417', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0000065'}, {'key': 'location of', 'source': 'UBERON:0000065', 'target': 'MESH:D004417'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0000065', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory tract'}, {'id': 'MESH:D004417', 'label': 'Disease', 'name': 'Dyspnea'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#BE0000694', 'https://en.wikipedia.org/wiki/Shortness_of_breath#Chronic_obstructive_pulmonary_disease', 'https://en.wikipedia.org/wiki/Beta2-adrenergic_agonist#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D015451_1', 'disease': 'Chronic lymphoid leukemia, disease', 'disease_mesh': 'MESH:D015451', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D015451'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D015451'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Chronic lymphoid leukemia, disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'Many other members of the sodium channel protein alpha unit family (MESH:D061566 or CHEMBL:2331043) could also be targets for this drug, presumably through the same MoA, according to ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201754/) and Pharos (https://pharos.nih.gov/ligands/rufinamide).', 'directed': True, 'graph': {'_id': 'DB06201_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'rufinamide', 'drug_mesh': 'MESH:C079703', 'drugbank': 'DB:DB06201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C079703', 'target': 'UniProt:Q15858'}, {'key': 'positively regulates', 'source': 'UniProt:Q15858', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0007269'}, {'key': 'positively correlated with', 'source': 'GO:0007269', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C079703', 'label': 'Drug', 'name': 'rufinamide'}, {'id': 'UniProt:Q15858', 'label': 'Protein', 'name': 'Sodium channel protein type 9 subunit alpha'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter secretion'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06201#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rufinamide', 'https://pubmed.ncbi.nlm.nih.gov/30391662/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Seizures']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The drug will inhibit the glutamate receptor only at high concentration (https://pubchem.ncbi.nlm.nih.gov/compound/129228#section=Pharmacology-and-Biochemistry).', 'directed': True, 'graph': {'_id': 'DB06201_MESH_D065768_2', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'rufinamide', 'drug_mesh': 'MESH:C079703', 'drugbank': 'DB:DB06201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C079703', 'target': 'UniProt:P41594'}, {'key': 'positively correlated with', 'source': 'UniProt:P41594', 'target': 'GO:0099530'}, {'key': 'positively correlated with', 'source': 'GO:0099530', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C079703', 'label': 'Drug', 'name': 'rufinamide'}, {'id': 'UniProt:P41594', 'label': 'Protein', 'name': 'Metabotropic glutamate receptor 5'}, {'id': 'GO:0099530', 'label': 'MolecularActivity', 'name': 'G protein-coupled receptor activity involved in regulation of postsynaptic membrane potential'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06201#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rufinamide', 'https://pubmed.ncbi.nlm.nih.gov/30391662/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Seizures']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'This drug seems to have mixed effects in the dopamine, serotonin, and noradrenaline systems (https://pubmed.ncbi.nlm.nih.gov/2869188/), suggesting it can compensate for deficits in disease and in aging while preventing the pathological effects that result from excessive activity in these systems in normal individuals. This drug is contraindicated in patients who have psychosis, acute or chronic (https://en.wikipedia.org/wiki/Ergoloid#Contraindications).', 'directed': True, 'graph': {'_id': 'DB01049_MESH_D003704_1', 'disease': 'Dementia', 'disease_mesh': 'MESH:D003704', 'drug': 'Ergoloid mesylates', 'drug_mesh': 'MESH:D004877', 'drugbank': 'DB:DB01049'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR000929'}, {'key': 'positively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR002231'}, {'key': 'negatively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR002233'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000929', 'target': 'GO:0001963'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0001963'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0051932'}, {'key': 'negatively correlated with', 'source': 'GO:0007271', 'target': 'HP:0001268'}, {'key': 'negatively correlated with', 'source': 'GO:0035249', 'target': 'HP:0001268'}, {'key': 'negatively correlated with', 'source': 'GO:0051932', 'target': 'HP:0001268'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002233', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0002354'}, {'key': 'manifestation of', 'source': 'HP:0002354', 'target': 'MESH:D003704'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'HP:0001268'}, {'key': 'manifestation of', 'source': 'HP:0001268', 'target': 'MESH:D003704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004877', 'label': 'Drug', 'name': 'Ergoloid mesylates'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'InterPro:IPR002233', 'label': 'GeneFamily', 'name': 'Adrenoceptor family'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'GO:0051932', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, GABAergic'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0002354', 'label': 'PhenotypicFeature', 'name': 'Memory impairment'}, {'id': 'HP:0001268', 'label': 'PhenotypicFeature', 'name': 'Mental deterioration'}, {'id': 'MESH:D003704', 'label': 'Disease', 'name': 'Dementia'}], 'reference': ['https://go.drugbank.com/drugs/DB01049#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ergoloid#Mechanism_of_action', 'https://selfhacked.com/blog/hydergine/#Mechanism_of_Action', 'https://en.wikipedia.org/wiki/5-HT_receptor']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'This drug could potentially modulate UniProt:P43115 as it has little selectivity. However, the action upon activing this target would be vasoconstriction, which would be contraindicated in Pulmonary arterial hypertension. This could explain the hypertension adverse event reported in https://www.targetvalidation.org/summary?drug=CHEMBL494. DrugBank has the phosphodiesterase gene family as possible targets for this drug but this is based on experiments where Iloprost was used in combination with phosphodiesterase inhibitors. So, Iloprost on its own does not modulate phosphodiesterases.', 'directed': True, 'graph': {'_id': 'DB01088_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'iloprost', 'drug_mesh': 'MESH:D016285', 'drugbank': 'DB:DB01088'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P43119'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P34995'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P43116'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P35408'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:Q9Y5Y4'}, {'key': 'decreases abundance of', 'source': 'UniProt:P34995', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43116', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q9Y5Y4', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P35408', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43119', 'target': 'MESH:D002118'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016285', 'label': 'Drug', 'name': 'iloprost'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'UniProt:P34995', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP1 subtype'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'UniProt:P35408', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP4 subtype'}, {'id': 'UniProt:Q9Y5Y4', 'label': 'Protein', 'name': 'Prostaglandin D2 receptor 2'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01088#BE0000475', 'https://en.wikipedia.org/wiki/Iloprost#Clinical_pharmacology', 'https://en.wikipedia.org/wiki/Vasodilation#Examples_and_individual_mechanisms', 'https://en.wikipedia.org/wiki/Prostacyclin#Mechanism', 'https://en.wikipedia.org/wiki/Prostaglandin_EP3_receptor#Therapeutics']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'the exact mechanism by which anagrelide lowers platelet count is unclear', 'directed': True, 'graph': {'_id': 'DB00261_MESH_D013920_1', 'disease': 'Essential thrombocythemia', 'disease_mesh': 'MESH:D013920', 'drug': 'Anagrelide', 'drug_mesh': 'MESH:C021139', 'drugbank': 'DB:DB00261'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C021139', 'target': 'GO:0035855'}, {'key': 'positively correlated with', 'source': 'GO:0035855', 'target': 'GO:0030220'}, {'key': 'positively correlated with', 'source': 'GO:0030220', 'target': 'HP:0001894'}, {'key': 'manifestation of', 'source': 'HP:0001894', 'target': 'MESH:D013920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C021139', 'label': 'Drug', 'name': 'Anagrelid'}, {'id': 'GO:0035855', 'label': 'BiologicalProcess', 'name': 'Megakaryocyte development'}, {'id': 'GO:0030220', 'label': 'BiologicalProcess', 'name': 'Platelet formation'}, {'id': 'HP:0001894', 'label': 'PhenotypicFeature', 'name': 'Thrombocytosis'}, {'id': 'MESH:D013920', 'label': 'Disease', 'name': 'Essential thrombocythemia'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/12487784/', 'https://go.drugbank.com/drugs/DB00261#BE0000436', 'https://en.wikipedia.org/wiki/Essential_thrombocythemia']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D008545_1', 'disease': 'Malignant melanoma', 'disease_mesh': 'MESH:D008545', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0097325'}, {'key': 'positively correlated with', 'source': 'GO:0097325', 'target': 'MESH:D008545'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0097325', 'label': 'BiologicalProcess', 'name': 'Melanocyte proliferation'}, {'id': 'MESH:D008545', 'label': 'Disease', 'name': 'Malignant melanoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00309', 'https://en.wikipedia.org/wiki/Melanoma']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D008175_1', 'disease': 'Lung Neoplasms', 'disease_mesh': 'MESH:D008175', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008175'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008175', 'label': 'Disease', 'name': 'Lung Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB00309']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00309']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': \"Capreomycin is a member of the aminoglycoside family of antibiotics, but little is known about capreomycin's exact mechanism of action. Capreomycin is used in the treatment of tuberculosis in combination with other drugs.\", 'directed': True, 'graph': {'_id': 'DB00314_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Capreomycin', 'drug_mesh': 'MESH:D002207', 'drugbank': 'DB:DB00314'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002207', 'target': 'GO:0005840'}, {'key': 'participates in', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002207', 'label': 'Drug', 'name': 'Capreomycin'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00314#BE0009727']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Ethambutol is indicated in combination with other anti-tuberculosis drugs in the treatment of pulmonary tuberculosis', 'directed': True, 'graph': {'_id': 'DB00330_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Ethambutol', 'drug_mesh': 'MESH:D004977', 'drugbank': 'DB:DB00330'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL5'}, {'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL7'}, {'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL9'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL5', 'target': 'GO:0071766'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL7', 'target': 'GO:0071766'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL9', 'target': 'GO:0071766'}, {'key': 'positively correlated with', 'source': 'GO:0071766', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004977', 'label': 'Drug', 'name': 'Ethambutol'}, {'id': 'UniProt:P9WNL5', 'label': 'Protein', 'name': 'Probable arabinosyltransferase C'}, {'id': 'UniProt:P9WNL7', 'label': 'Protein', 'name': 'Probable arabinosyltransferase B'}, {'id': 'UniProt:P9WNL9', 'label': 'Protein', 'name': 'Probable arabinosyltransferase A'}, {'id': 'GO:0071766', 'label': 'BiologicalProcess', 'name': 'Actinobacterium-type cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00330']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00374_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'Treprostinil', 'drug_mesh': 'MESH:C427248', 'drugbank': 'DB:DB00374'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C427248', 'target': 'UniProt:P43119'}, {'key': 'positively regulates', 'source': 'UniProt:P43119', 'target': 'GO:0007189'}, {'key': 'increases activity of', 'source': 'GO:0007189', 'target': 'InterPro:IPR044109'}, {'key': 'positively regulates', 'source': 'InterPro:IPR044109', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C427248', 'label': 'Drug', 'name': 'Treprostinil'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'InterPro:IPR044109', 'label': 'GeneFamily', 'name': 'cAMP-dependent protein kinase catalytic subunit'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00374#BE0000475', 'https://en.wikipedia.org/wiki/Treprostinil#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01196_MESH_D011471_1', 'disease': 'Neoplasm of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'Estramustine', 'drug_mesh': 'MESH:D004961', 'drugbank': 'DB:DB01196'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004961', 'target': 'UniProt:P11137'}, {'key': 'decreases activity of', 'source': 'MESH:D004961', 'target': 'UniProt:P78559'}, {'key': 'disrupts', 'source': 'MESH:D004961', 'target': 'MESH:D004247'}, {'key': 'positively correlated with', 'source': 'UniProt:P11137', 'target': 'GO:0005874'}, {'key': 'positively correlated with', 'source': 'UniProt:P78559', 'target': 'GO:0005874'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0140014'}, {'key': 'positively regulates', 'source': 'GO:0005874', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004961', 'label': 'Drug', 'name': 'Estramustine'}, {'id': 'UniProt:P11137', 'label': 'Protein', 'name': 'Microtubule-associated protein 2'}, {'id': 'UniProt:P78559', 'label': 'Protein', 'name': 'Microtubule-associated protein 1A'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0005874', 'label': 'CellularComponent', 'name': 'Microtubule'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Neoplasm of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB01196#BE0001100']}\n", + "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01418_MESH_D011655_2', 'disease': 'Pulmonary embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'Acenocoumarol', 'drug_mesh': 'MESH:D000074', 'drugbank': 'DB:DB01418'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000074', 'target': 'UniProt:Q9BQB6'}, {'key': 'participates in', 'source': 'UniProt:Q9BQB6', 'target': 'GO:0042373'}, {'key': 'positively correlated with', 'source': 'GO:0042373', 'target': 'GO:0007596'}, {'key': 'has output', 'source': 'GO:0007596', 'target': 'UBERON:0010210'}, {'key': 'positively correlated with', 'source': 'UBERON:0010210', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000074', 'label': 'Drug', 'name': 'Acenocoumarol'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'Vitamin K epoxide reductase complex subunit 1'}, {'id': 'GO:0042373', 'label': 'BiologicalProcess', 'name': 'Vitamin K metabolic process'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'UBERON:0010210', 'label': 'GrossAnatomicalStructure', 'name': 'Blood clot'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB01418#BE0000713', 'https://en.wikipedia.org/wiki/Pulmonary_embolism']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D003456_1', 'disease': 'Undescended testicle', 'disease_mesh': 'MESH:D003456', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D003456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen 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{'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D003456', 'label': 'Disease', 'name': 'Undescended testicle'}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D011628_1', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Delayed puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D011628_1', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 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'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D005058_1', 'disease': 'Male hypogonadism', 'disease_mesh': 'MESH:D005058', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04911_MESH_D013207_1', 'disease': 'Staphylococcal infection of skin', 'disease_mesh': 'MESH:D013207', 'drug': 'Oritavancin', 'drug_mesh': 'MESH:C100708', 'drugbank': 'DB:DB04911'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C100708', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D013207'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100708', 'label': 'Drug', 'name': 'Oritavancin'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013207', 'label': 'Disease', 'name': 'Staphylococcal infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB04911#BE0009914']}\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04911_MESH_D017192_1', 'disease': 'Bacterial infection of skin', 'disease_mesh': 'MESH:D017192', 'drug': 'Oritavancin', 'drug_mesh': 'MESH:C100708', 'drugbank': 'DB:DB04911'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C100708', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100708', 'label': 'Drug', 'name': 'Oritavancin'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB04911#BE0009914']}\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06414_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Etravirine', 'drug_mesh': 'MESH:C451734', 'drugbank': 'DB:DB06414'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C451734', 'target': 'InterPro:IPR000477'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000477', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C451734', 'label': 'Drug', 'name': 'Etravirine'}, {'id': 'InterPro:IPR000477', 'label': 'GeneFamily', 'name': 'Reverse transcriptase domain'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB06414', 'https://en.wikipedia.org/wiki/Etravirine']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08907_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Canagliflozin', 'drug_mesh': 'MESH:D000068896', 'drugbank': 'DB:DB08907'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068896', 'target': 'UniProt:P31639'}, {'key': 'participates in', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:0035623', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068896', 'label': 'Drug', 'name': 'Canagliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08907#BE0004753']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09054_MESH_D008224_1', 'disease': \"Follicular non-Hodgkin's lymphoma\", 'disease_mesh': 'MESH:D008224', 'drug': 'Idelalisib', 'drug_mesh': 'MESH:C552946', 'drugbank': 'DB:DB09054'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C552946', 'target': 'UniProt:O00329'}, {'key': 'participates in', 'source': 'UniProt:O00329', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D008224'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C552946', 'label': 'Drug', 'name': 'Idelalisib'}, {'id': 'UniProt:O00329', 'label': 'Protein', 'name': 'Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit delta isoform'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D008224', 'label': 'Disease', 'name': \"Follicular non-Hodgkin's lymphoma\"}], 'reference': ['https://go.drugbank.com/drugs/DB09054#BE0002406', 'https://en.wikipedia.org/wiki/Follicular_lymphoma']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09054_MESH_D015451_1', 'disease': 'Leukemia, Lymphocytic, Chronic, B-Cell', 'disease_mesh': 'MESH:D015451', 'drug': 'Idelalisib', 'drug_mesh': 'MESH:C552946', 'drugbank': 'DB:DB09054'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C552946', 'target': 'UniProt:O00329'}, {'key': 'participates in', 'source': 'UniProt:O00329', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C552946', 'label': 'Drug', 'name': 'Idelalisib'}, {'id': 'UniProt:O00329', 'label': 'Protein', 'name': 'Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit delta isoform'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Leukemia, Lymphocytic, Chronic, B-Cell'}], 'reference': ['https://go.drugbank.com/drugs/DB09054#BE0002406', 'https://en.wikipedia.org/wiki/Chronic_lymphocytic_leukemia']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Commonly recommended for a treatment of ovarian cancer patients with deleterious or suspected deleterious germline BRCA-mutations', 'directed': True, 'graph': {'_id': 'DB09074_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Olaparib', 'drug_mesh': 'MESH:C531550', 'drugbank': 'DB:DB09074'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:P09874'}, {'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:Q9UGN5'}, {'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:Q9Y6F1'}, {'key': 'positively regulates', 'source': 'UniProt:P09874', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UGN5', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:Q9Y6F1', 'target': 'GO:0006281'}, {'key': 'prevents', 'source': 'GO:0006281', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'GO:0007048'}, {'key': 'positively correlated with', 'source': 'GO:0007048', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C531550', 'label': 'Drug', 'name': 'Olaparib'}, {'id': 'UniProt:P09874', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 1'}, {'id': 'UniProt:Q9UGN5', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 2'}, {'id': 'UniProt:Q9Y6F1', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 3'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'GO:0007048', 'label': 'BiologicalProcess', 'name': 'Obsolete oncogenesis'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://go.drugbank.com/drugs/DB09074#BE0001717']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': ':Lumacaftor is used to treat people with cystic fibrosis who are homozygous for the F508del mutation', 'directed': True, 'graph': {'_id': 'DB09280_MESH_D003550_1', 'disease': 'Cystic fibrosis of the lung', 'disease_mesh': 'MESH:D003550', 'drug': 'Lumacaftor', 'drug_mesh': 'MESH:C569105', 'drugbank': 'DB:DB09280'}, 'links': [{'key': 'increases stability of', 'source': 'MESH:C569105', 'target': 'UniProt:P13569'}, {'key': 'disrupted by', 'source': 'UniProt:P13569', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569105', 'label': 'Drug', 'name': 'Lumacaftor'}, {'id': 'UniProt:P13569', 'label': 'Protein', 'name': 'Cystic fibrosis transmembrane conductance regulator'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis of the lung'}], 'reference': ['https://go.drugbank.com/drugs/DB09280#BE0001195', 'https://en.wikipedia.org/wiki/Lumacaftor']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'Nasopharynx cavity'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 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'graph': {'_id': 'DB00405_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00751_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Epinastine', 'drug_mesh': 'MESH:C053090', 'drugbank': 'DB:DB00751'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053090', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 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'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00751#BE0000112']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 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'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Parkinsonism', 'https://en.wikipedia.org/wiki/Dementia_with_Lewy_bodies#Causes']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 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'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01084', 'https://en.wikipedia.org/wiki/Hives']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01084_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01084', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", + "['Drug', 'Protein', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01084_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01084']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'For use as a diagnostic aid in the screening of patients presumed to have adrenocortical insufficiency. Please note tetracosactide does not significantly increase plasma cortisol concentration in patients with primary or secondary adrenocortical insufficiency.', 'directed': True, 'graph': {'_id': 'DB01284_MESH_D000309_1', 'disease': 'Adrenal cortical hypofunction', 'disease_mesh': 'MESH:D000309', 'drug': 'Tetracosactide', 'drug_mesh': 'MESH:D003366', 'drugbank': 'DB:DB01284'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003366', 'target': 'UniProt:Q01718'}, {'key': 'positively regulates', 'source': 'UniProt:Q01718', 'target': 'REACT:R-HSA-170660'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-170660', 'target': 'GO:0006694'}, {'key': 'increases abundance of', 'source': 'GO:0006694', 'target': 'MESH:D000305'}, {'key': 'negatively correlated with', 'source': 'MESH:D000305', 'target': 'MESH:D000309'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003366', 'label': 'Drug', 'name': 'Tetracosactide'}, {'id': 'UniProt:Q01718', 'label': 'Protein', 'name': 'Adrenocorticotropic hormone receptor'}, {'id': 'REACT:R-HSA-170660', 'label': 'Pathway', 'name': 'Adenylate cyclase activating pathway'}, {'id': 'GO:0006694', 'label': 'BiologicalProcess', 'name': 'Steroid biosynthetic process'}, {'id': 'MESH:D000305', 'label': 'ChemicalSubstance', 'name': 'Adrenal Cortex Hormones'}, {'id': 'MESH:D000309', 'label': 'Disease', 'name': 'Adrenal cortical hypofunction'}], 'reference': ['https://go.drugbank.com/drugs/DB01284#BE0000848', 'https://en.wikipedia.org/wiki/Adrenocorticotropic_hormone#Function', 'https://en.wikipedia.org/wiki/ACTH_stimulation_test']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Illicit, Withdrawn. Please note that amineptine selectively inhibits the reuptake of dopamine and to a lesser extent norepinephrine.', 'directed': True, 'graph': {'_id': 'DB04836_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Amineptine', 'drug_mesh': 'MESH:C011597', 'drugbank': 'DB:DB04836'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C011597', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:C011597', 'target': 'UniProt:Q01959'}, {'key': 'positively regulates', 'source': 'MESH:C011597', 'target': 'GO:0061527'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'UniProt:Q01959', 'target': 'GO:0051583'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051583', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011597', 'label': 'Drug', 'name': 'Amineptine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0051583', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake involved in synaptic transmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04836', 'https://en.wikipedia.org/wiki/Amineptine#Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04843_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Mepenzolate', 'drug_mesh': 'MESH:C005101', 'drugbank': 'DB:DB04843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005101', 'label': 'Drug', 'name': 'Mepenzolate'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB04843#BE0000092']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04843_MESH_D013276_1', 'disease': 'Gastric ulcer', 'disease_mesh': 'MESH:D013276', 'drug': 'Mepenzolate', 'drug_mesh': 'MESH:C005101', 'drugbank': 'DB:DB04843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D013276'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005101', 'label': 'Drug', 'name': 'Mepenzolate'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'MESH:D013276', 'label': 'Disease', 'name': 'Gastric ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB04843#BE0000092']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04890_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'bepotastine', 'drug_mesh': 'MESH:C511534,MESH:C108476', 'drugbank': 'DB:DB04890'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB04890', 'target': 'UniProt:P35367'}, {'key': 'negatively regulates', 'source': 'DB:DB04890', 'target': 'GO:0043303'}, {'key': 'increases abundance of', 'source': 'GO:0043303', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB04890', 'label': 'Drug', 'name': 'Bepotastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04890#BE0000442']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Please note that the mechanism by which peginterferon beta-1a exerts its effects in patients with multiple sclerosis is not fully known. Although DrugBank states that Peginterferon beta-1a is an Interferon alpha/beta receptor 1 downregulator, there is an evidence in the literature showing that Peginterferon beta-1a is in fact Interferon alpha/beta receptor 1 activator https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4303928/', 'directed': True, 'graph': {'_id': 'DB09122_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Peginterferon beta-1a', 'drug_mesh': 'MESH:C428112', 'drugbank': 'DB:DB09122'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C428112', 'target': 'UniProt:P17181'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0042100'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0050798'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0019882'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0050798', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0019882', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C428112', 'label': 'Drug', 'name': 'Peginterferon beta-1a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'GO:0050798', 'label': 'BiologicalProcess', 'name': 'Activated T cell proliferation'}, {'id': 'GO:0019882', 'label': 'BiologicalProcess', 'name': 'Antigen processing and presentation'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB09122', 'https://pubmed.ncbi.nlm.nih.gov/28638705/', 'https://pubmed.ncbi.nlm.nih.gov/17562848/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09128_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Brexpiprazole', 'drug_mesh': 'MESH:C000591922', 'drugbank': 'DB:DB09128'}, 'links': [{'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P08908'}, {'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C000591922', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P08908', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003865'}, {'key': 'disrupted by', 'source': 'GO:0060096', 'target': 'MESH:D003865'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000591922', 'label': 'Drug', 'name': 'Brexpiprazole'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09128#BE0000291', 'https://en.wikipedia.org/wiki/Major_depressive_disorder', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5716179/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09128_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Brexpiprazole', 'drug_mesh': 'MESH:C000591922', 'drugbank': 'DB:DB09128'}, 'links': [{'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P08908'}, {'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C000591922', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P08908', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D012559'}, {'key': 'disrupted by', 'source': 'GO:0060096', 'target': 'MESH:D012559'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000591922', 'label': 'Drug', 'name': 'Brexpiprazole'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB09128#BE0000291', 'https://en.wikipedia.org/wiki/Schizophrenia']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00060_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Interferon beta-1a', 'drug_mesh': 'MESH:D000068556', 'drugbank': 'DB:DB00060'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068556', 'target': 'UniProt:P17181'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0042100'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0050798'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0019882'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0050798', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0019882', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068556', 'label': 'Drug', 'name': 'Interferon beta-1a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'GO:0050798', 'label': 'BiologicalProcess', 'name': 'Activated T cell proliferation'}, {'id': 'GO:0019882', 'label': 'BiologicalProcess', 'name': 'Antigen processing and presentation'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00060', 'https://pubmed.ncbi.nlm.nih.gov/28638705/', 'https://pubmed.ncbi.nlm.nih.gov/17562848/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00162_MESH_D014802_1', 'disease': 'Vitamin A deficiency', 'disease_mesh': 'MESH:D014802', 'drug': 'Retinol', 'drug_mesh': 'MESH:D014801', 'drugbank': 'DB:DB00162'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D014801', 'target': 'GO:0016063'}, {'key': 'positively regulates', 'source': 'MESH:D014801', 'target': 'GO:0042098'}, {'key': 'increases abundance of', 'source': 'GO:0016063', 'target': 'UniProt:P08100'}, {'key': 'participates in', 'source': 'UniProt:P08100', 'target': 'GO:0007603'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0007603', 'target': 'HP:0000662'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:D014802'}, {'key': 'manifestation of', 'source': 'HP:0000662', 'target': 'MESH:D014802'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014801', 'label': 'Drug', 'name': 'Retinol'}, {'id': 'GO:0016063', 'label': 'BiologicalProcess', 'name': 'Rhodopsin biosynthetic process'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'UniProt:P08100', 'label': 'Protein', 'name': 'Rhodopsin'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'GO:0007603', 'label': 'BiologicalProcess', 'name': 'Phototransduction, visible light'}, {'id': 'HP:0000662', 'label': 'PhenotypicFeature', 'name': 'Nyctalopia'}, {'id': 'MESH:D014802', 'label': 'Disease', 'name': 'Vitamin A deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00162', 'https://en.wikipedia.org/wiki/Vitamin_A_deficiency#Signs_and_symptoms']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00162_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Retinol', 'drug_mesh': 'MESH:D014801', 'drugbank': 'DB:DB00162'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D014801', 'target': 'GO:0016063'}, {'key': 'positively regulates', 'source': 'MESH:D014801', 'target': 'GO:0042098'}, {'key': 'increases abundance of', 'source': 'GO:0016063', 'target': 'UniProt:P08100'}, {'key': 'participates in', 'source': 'UniProt:P08100', 'target': 'GO:0007603'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0007603', 'target': 'HP:0000662'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:D001361'}, {'key': 'manifestation of', 'source': 'HP:0000662', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014801', 'label': 'Drug', 'name': 'Retinol'}, {'id': 'GO:0016063', 'label': 'BiologicalProcess', 'name': 'Rhodopsin biosynthetic process'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'UniProt:P08100', 'label': 'Protein', 'name': 'Rhodopsin'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'GO:0007603', 'label': 'BiologicalProcess', 'name': 'Phototransduction, visible light'}, {'id': 'HP:0000662', 'label': 'PhenotypicFeature', 'name': 'Nyctalopia'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00162', 'https://en.wikipedia.org/wiki/Vitamin_A_deficiency#Signs_and_symptoms']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D008101_1', 'disease': 'Amebic liver abscess', 'disease_mesh': 'MESH:D008101', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5759'}, {'key': 'causes', 'source': 'NCBITaxon:5759', 'target': 'MESH:D008101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5759', 'label': 'OrganismTaxon', 'name': 'Entamoeba histolytica'}, {'id': 'MESH:D008101', 'label': 'Disease', 'name': 'Amebic liver abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Amoebic_liver_abscess']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D016585_1', 'disease': 'Bacterial vaginosis', 'disease_mesh': 'MESH:D016585', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016585', 'label': 'Disease', 'name': 'Bacterial vaginosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00911']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D014245_1', 'disease': 'Infection by Trichomonas', 'disease_mesh': 'MESH:D014245', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5722'}, {'key': 'causes', 'source': 'NCBITaxon:5722', 'target': 'MESH:D014245'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5722', 'label': 'OrganismTaxon', 'name': 'Trichomonas vaginalis'}, {'id': 'MESH:D014245', 'label': 'Disease', 'name': 'Infection by Trichomonas'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Trichomoniasis#Treatment']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Giardiasis']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01117_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Atovaquone', 'drug_mesh': 'MESH:D053626', 'drugbank': 'DB:DB01117'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053626', 'target': 'UniProt:Q02768'}, {'key': 'decreases activity of', 'source': 'MESH:D053626', 'target': 'UniProt:Q08210'}, {'key': 'positively regulates', 'source': 'UniProt:Q02768', 'target': 'GO:0042773'}, {'key': 'positively regulates', 'source': 'UniProt:Q08210', 'target': 'GO:0019856'}, {'key': 'in taxon', 'source': 'GO:0042773', 'target': 'NCBITaxon:5833'}, {'key': 'in taxon', 'source': 'GO:0019856', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053626', 'label': 'Drug', 'name': 'Atovaquone'}, {'id': 'UniProt:Q02768', 'label': 'Protein', 'name': 'Cytochrome b (Plasmodium falciparum)'}, {'id': 'UniProt:Q08210', 'label': 'Protein', 'name': 'Dihydroorotate dehydrogenase (quinone), mitochondrial'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0019856', 'label': 'BiologicalProcess', 'name': 'Pyrimidine nucleobase biosynthetic process'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01117#BE0004428']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Infective_endocarditis#Cause']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae subsp. rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Rhinoscleroma']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Pneumonia#Cause']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Streptococcus_pneumoniae']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Propylene glycol helps create an ocular shield, allowing for epithelial repair.', 'directed': True, 'graph': {'_id': 'DB01839_MESH_D015352_1', 'disease': 'Dry Eye Syndromes', 'disease_mesh': 'MESH:D015352', 'drug': 'Propylene glycol', 'drug_mesh': 'MESH:D019946', 'drugbank': 'DB:DB01839'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D019946', 'target': 'GO:0010669'}, {'key': 'negatively correlated with', 'source': 'GO:0010669', 'target': 'MESH:D015352'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019946', 'label': 'Drug', 'name': 'Propylene glycol'}, {'id': 'GO:0010669', 'label': 'BiologicalProcess', 'name': 'Epithelial structure maintenance'}, {'id': 'MESH:D015352', 'label': 'Disease', 'name': 'Dry Eye Syndromes'}], 'reference': ['https://go.drugbank.com/drugs/DB01839#BE0002565', 'https://en.wikipedia.org/wiki/Dry_eye_syndrome']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06720_MESH_D005776_1', 'disease': \"Chronic non-neuropathic Gaucher's disease\", 'disease_mesh': 'MESH:D005776', 'drug': 'Velaglucerase alfa', 'drug_mesh': None, 'drugbank': 'DB:DB06720'}, 'links': [{'key': 'decreases abundance of', 'source': 'DB:DB06720', 'target': 'MESH:D005963'}, {'key': 'causes', 'source': 'MESH:D005963', 'target': 'MESH:D005776'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06720', 'label': 'Drug', 'name': 'Velaglucerase alfa'}, {'id': 'MESH:D005963', 'label': 'ChemicalSubstance', 'name': 'Glucosylceramides'}, {'id': 'MESH:D005776', 'label': 'Disease', 'name': \"Chronic non-neuropathic Gaucher's disease\"}], 'reference': ['https://en.wikipedia.org/wiki/Gaucher%27s_disease', 'https://go.drugbank.com/drugs/DB06720']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09045_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Dulaglutide', 'drug_mesh': 'MESH:C555680', 'drugbank': 'DB:DB09045'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C555680', 'target': 'UniProt:P43220'}, {'key': 'positively correlated with', 'source': 'UniProt:P43220', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C555680', 'label': 'Drug', 'name': 'Dulaglutide'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'Glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09045#BE0000857', 'https://en.wikipedia.org/wiki/Glucagon-like_peptide-1']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09477_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Enalaprilat', 'drug_mesh': 'MESH:D015773', 'drugbank': 'DB:DB09477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09477#BE0000221']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09477_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Enalaprilat', 'drug_mesh': 'MESH:D015773', 'drugbank': 'DB:DB09477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'HP:0000822'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D006333', 'label': 'Disease', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB09477#BE0000221', 'https://en.wikipedia.org/wiki/Heart_failure']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'nicotinamide', 'drug_mesh': 'MESH:D009536', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'correlated with', 'source': 'MESH:D009536', 'target': 'CHEBI:15940'}, {'key': 'negatively correlated with', 'source': 'CHEBI:15940', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009536', 'label': 'Drug', 'name': 'nicotinamide'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'nicotinic acid'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://en.wikipedia.org/wiki/Nicotinamide', 'https://en.wikipedia.org/wiki/Pellagra#Treatment']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'nicotinamide', 'drug_mesh': 'MESH:D009536', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009536', 'target': 'REACT:R-HSA-181438'}, {'key': 'part of', 'source': 'REACT:R-HSA-181438', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:1747'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}, {'key': 'decreases abundance of', 'source': 'MESH:D009536', 'target': 'UBERON:0001866'}, {'key': 'positively correlated with', 'source': 'UBERON:0001866', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009536', 'label': 'Drug', 'name': 'nicotinamide'}, {'id': 'UBERON:0001866', 'label': 'GrossAnatomicalStructure', 'name': 'sebum'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'REACT:R-HSA-181438', 'label': 'Pathway', 'name': 'Toll Like Receptor 2 (TLR2) Cascade'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://en.wikipedia.org/wiki/Nicotinamide#Acne']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Muscarinic receptor antagonists (also known as anticholinergics) seem to be used in patients with Schizophrenia to alleviate motor side effects caused by first-generation antipsychotics. However these antagonists do seem to lead to cognitive dysfunction in healthy controls. So whether these muscarinic receptors should be positively or negatively regulated in schizophrenia is a matter of debate (see https://www.nature.com/articles/4001924 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3726271/). In addition, some suggest that that schizophrenia involves an overactivation of cholinergic neurons, which could provide cholinergic input to dopaminergic neurons. The dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910). See https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy for more details.', 'directed': True, 'graph': {'_id': 'DB01239_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'chlorprothixene', 'drug_mesh': 'MESH:D002749', 'drugbank': 'DB:DB01239'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR000995'}, {'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR000929'}, {'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR002231'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0007274'}, {'key': 'positively correlated with', 'source': 'GO:0007274', 'target': 'HP:0011442'}, {'key': 'manifestation of', 'source': 'HP:0011442', 'target': 'MESH:D012559'}, {'key': 'positively regulates', 'source': 'InterPro:IPR002231', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0007213'}, {'key': 'positively correlated with', 'source': 'GO:0007213', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000929', 'target': 'GO:0014046'}, {'key': 'positively correlated with', 'source': 'GO:0014046', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002749', 'label': 'Drug', 'name': 'chlorprothixene'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'GO:0007274', 'label': 'BiologicalProcess', 'name': 'neuromuscular synaptic transmission'}, {'id': 'GO:0007213', 'label': 'BiologicalProcess', 'name': 'G protein-coupled acetylcholine receptor signaling pathway'}, {'id': 'HP:0011442', 'label': 'PhenotypicFeature', 'name': 'Abnormal central motor function'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01239#mechanism-of-action', 'https://go.drugbank.com/drugs/DB01239#BE0000092', 'https://www.targetvalidation.org/summary?drug=CHEMBL908', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders', 'https://en.wikipedia.org/wiki/Schizophrenia#Medication']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'ecabet', 'drug_mesh': 'MESH:C061681', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C061681', 'target': 'MESH:C047874'}, {'key': 'located in', 'source': 'MESH:C047874', 'target': 'MESH:D005753'}, {'key': 'produces', 'source': 'MESH:D005753', 'target': 'UBERON:0000912'}, {'key': 'negatively correlated with', 'source': 'UBERON:0000912', 'target': 'MESH:D010437'}, {'key': 'disrupts', 'source': 'MESH:C061681', 'target': 'CHEBI:16412'}, {'key': 'positively regulates', 'source': 'CHEBI:16412', 'target': 'REACT:R-HSA-166016'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-166016', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001276'}, {'key': 'location of', 'source': 'UBERON:0001276', 'target': 'MESH:D010437'}, {'key': 'negatively regulates', 'source': 'MESH:C061681', 'target': 'InterPro:IPR017950'}, {'key': 'positively regulates', 'source': 'InterPro:IPR017950', 'target': 'GO:0009039'}, {'key': 'in taxon', 'source': 'GO:0009039', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061681', 'label': 'Drug', 'name': 'ecabet'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'REACT:R-HSA-166016', 'label': 'Pathway', 'name': 'Toll Like Receptor 4 (TLR4) Cascade'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0001276', 'label': 'GrossAnatomicalStructure', 'name': 'epithelium of stomach'}, {'id': 'InterPro:IPR017950', 'label': 'GeneFamily', 'name': 'Urease active site'}, {'id': 'GO:0009039', 'label': 'MolecularActivity', 'name': 'urease activity'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'MESH:C047874', 'label': 'GeneFamily', 'name': 'gastric mucus glycoproteins'}, {'id': 'UBERON:0000912', 'label': 'GrossAnatomicalStructure', 'name': 'Mucus'}, {'id': 'MESH:D005753', 'label': 'GrossAnatomicalStructure', 'name': 'Gastric Mucosa'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB05265#mechanism-of-action', 'https://en.wikipedia.org/wiki/Peptic_ulcer_disease#H._pylori', 'https://drugs.ncats.io/drug/2K02669KW']}\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00880_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'chlorothiazide', 'drug_mesh': 'MESH:D002740', 'drugbank': 'DB:DB00880'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P55017'}, {'key': 'positively regulates', 'source': 'UniProt:P55017', 'target': 'GO:0015378'}, {'key': 'participates in', 'source': 'GO:0015378', 'target': 'GO:0035812'}, {'key': 'positively correlated with', 'source': 'GO:0035812', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002740', 'label': 'Drug', 'name': 'chlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0015378', 'label': 'MolecularActivity', 'name': 'sodium:chloride symporter activity'}, {'id': 'GO:0035812', 'label': 'BiologicalProcess', 'name': 'renal sodium excretion'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00880#BE0000419', 'https://en.wikipedia.org/wiki/Diuretic#Thiazides', 'https://en.wikipedia.org/wiki/Thiazide']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The hypotensive effects of chlorothiazide and other thiazides are not necessarily due to their diuretic activity (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2904515/#S1title). The exact mechanism is yet not fully understood.', 'directed': True, 'graph': {'_id': 'DB00880_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'chlorothiazide', 'drug_mesh': 'MESH:D002740', 'drugbank': 'DB:DB00880'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P55017'}, {'key': 'positively regulates', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P00918'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0038166'}, {'key': 'positively correlated with', 'source': 'GO:0038166', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively regulates', 'source': 'MESH:D002740', 'target': 'UniProt:Q12791'}, {'key': 'positively regulates', 'source': 'UniProt:Q12791', 'target': 'GO:0060087'}, {'key': 'negatively correlated with', 'source': 'GO:0060087', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002740', 'label': 'Drug', 'name': 'chlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:Q12791', 'label': 'Protein', 'name': 'Calcium-activated potassium channel subunit alpha-1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'relaxation of vascular associated smooth muscle'}, {'id': 'GO:0038166', 'label': 'BiologicalProcess', 'name': 'angiotensin-activated signaling pathway'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00880#BE0000322', 'https://go.drugbank.com/drugs/DB00880#BE0000419', 'https://en.wikipedia.org/wiki/Category:Carbonic_anhydrase_inhibitors', 'https://pubchem.ncbi.nlm.nih.gov/compound/2720#section=Mechanism-of-Action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'This drug may be able to bind to UniProt:P08908 but its pharmacological activity (agonism vs. antagonism) is not known (https://go.drugbank.com/drugs/DB00422#BE0000291).', 'directed': True, 'graph': {'_id': 'DB00422_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'methylphenidate', 'drug_mesh': 'MESH:D008774', 'drugbank': 'DB:DB00422'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D001289'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008774', 'label': 'Drug', 'name': 'methylphenidate'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00422#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methylphenidate#Pharmacodynamics', 'https://www.targetvalidation.org/summary?drug=CHEMBL796']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'This drug may be able to bind to UniProt:P08908 but its pharmacological activity (agonism vs. antagonism) is not known (https://go.drugbank.com/drugs/DB00422#BE0000291).', 'directed': True, 'graph': {'_id': 'DB00422_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'methylphenidate', 'drug_mesh': 'MESH:D008774', 'drugbank': 'DB:DB00422'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D009290'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008774', 'label': 'Drug', 'name': 'methylphenidate'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00422#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methylphenidate#Pharmacodynamics', 'https://www.targetvalidation.org/summary?drug=CHEMBL796', 'https://en.wikipedia.org/wiki/Narcolepsy#Treatment']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D014860_1', 'disease': 'Verruca', 'disease_mesh': 'MESH:D014860', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D014860'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D014860', 'label': 'Disease', 'name': 'Verruca'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Wart#Treatment']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Genital_wart#Topical_agents']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D055623_1', 'disease': 'Actinic keratosis', 'disease_mesh': 'MESH:D055623', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:333922'}, {'key': 'causes', 'source': 'NCBITaxon:333922', 'target': 'MESH:D055623'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:333922', 'label': 'OrganismTaxon', 'name': 'Betapapillomavirus'}, {'id': 'MESH:D055623', 'label': 'Disease', 'name': 'Actinic keratosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Other_risk_factors', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Medication']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This drug can also inhbit human proteins and affect with the mammalian cell division/replication, which make them an attractive antitumour agent (https://pubmed.ncbi.nlm.nih.gov/11102564/).', 'directed': True, 'graph': {'_id': 'DB01179_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'podophyllotoxin', 'drug_mesh': 'MESH:D011034', 'drugbank': 'DB:DB01179'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011034', 'target': 'UniProt:P03120'}, {'key': 'positively regulates', 'source': 'UniProt:P03120', 'target': 'GO:0039693'}, {'key': 'in taxon', 'source': 'GO:0039693', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011034', 'label': 'Drug', 'name': 'podophyllotoxin'}, {'id': 'UniProt:P03120', 'label': 'Protein', 'name': 'Regulatory protein E2'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA genome replication'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://drugcentral.org/drugcard/3481?q=Podofilox']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'A right balance needs to be struck for normal bone formation, which involved bone resorption, the breaking down of bone tissue. This drug is actually a portion of the physiologically procuded hormone, PTH, which does increase bone resorption. So the right amount of drug (and frequency) is needed to be achieved to have a net effect of stimulating new bone formation therefore preventing osteoporosis.', 'directed': True, 'graph': {'_id': 'DB06285_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'teriparatide', 'drug_mesh': 'MESH:D019379', 'drugbank': 'DB:DB06285'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D019379', 'target': 'UniProt:Q03431'}, {'key': 'positively regulates', 'source': 'UniProt:Q03431', 'target': 'GO:0004991'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002076'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002062'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002076'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002076', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002062', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002076', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019379', 'label': 'Drug', 'name': 'teriparatide'}, {'id': 'UniProt:Q03431', 'label': 'Protein', 'name': 'Parathyroid hormone/parathyroid hormone-related peptide receptor'}, {'id': 'GO:0004991', 'label': 'MolecularActivity', 'name': 'parathyroid hormone receptor activity'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0002076', 'label': 'BiologicalProcess', 'name': 'osteoblast development'}, {'id': 'GO:0002062', 'label': 'BiologicalProcess', 'name': 'chondrocyte differentiation'}, {'id': 'HP:0004349', 'label': 'Disease', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Teriparatide#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09030_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'vorapaxar', 'drug_mesh': 'MESH:C530299', 'drugbank': 'DB:DB09030'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C530299', 'target': 'UniProt:P25116'}, {'key': 'positively regulates', 'source': 'UniProt:P25116', 'target': 'GO:0015057'}, {'key': 'participates in', 'source': 'GO:0015057', 'target': 'REACT:R-HSA-140877'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-140877', 'target': 'GO:0070527'}, {'key': 'positively correlated with', 'source': 'GO:0070527', 'target': 'MESH:D013927'}, {'key': 'positively correlated with', 'source': 'MESH:D013927', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530299', 'label': 'Drug', 'name': 'vorapaxar'}, {'id': 'UniProt:P25116', 'label': 'Protein', 'name': 'Proteinase-activated receptor 1'}, {'id': 'GO:0015057', 'label': 'MolecularActivity', 'name': 'thrombin-activated receptor activity'}, {'id': 'REACT:R-HSA-140877', 'label': 'Pathway', 'name': 'Formation of Fibrin Clot (Clotting Cascade)'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D013927', 'label': 'PhenotypicFeature', 'name': 'Thrombosis'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB09030#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vorapaxar#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11792_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'mirodenafil', 'drug_mesh': 'MESH:C528396', 'drugbank': 'DB:DB11792'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C528396', 'target': 'UniProt:O76074'}, {'key': 'positively regulates', 'source': 'UniProt:O76074', 'target': 'GO:0046069'}, {'key': 'decreases abundance of', 'source': 'GO:0046069', 'target': 'CHEBI:16356'}, {'key': 'positively correlated with', 'source': 'CHEBI:16356', 'target': 'GO:0007263'}, {'key': 'positively correlated with', 'source': 'GO:0007263', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'HP:0100639'}, {'key': 'manifestation of', 'source': 'HP:0100639', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'all_id': ['MESH:C518762'], 'id': 'MESH:C528396', 'label': 'Drug', 'name': 'mirodenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'GO:0046069', 'label': 'BiologicalProcess', 'name': 'cGMP catabolic process'}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0007263', 'label': 'BiologicalProcess', 'name': 'nitric oxide mediated signal transduction'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'HP:0100639', 'label': 'PhenotypicFeature', 'name': 'Erectile dysfunction'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://en.wikipedia.org/wiki/Mirodenafil', 'https://en.wikipedia.org/wiki/PDE5_inhibitor#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Nitric_oxide#Biological_functions']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12214_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'luseogliflozin', 'drug_mesh': 'MESH:C549343', 'drugbank': 'DB:DB12214'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C549343', 'target': 'UniProt:P13866'}, {'key': 'negatively regulates', 'source': 'MESH:C549343', 'target': 'UniProt:Q8WWX8'}, {'key': 'positively regulates', 'source': 'UniProt:P13866', 'target': 'GO:0098708'}, {'key': 'positively regulates', 'source': 'UniProt:Q8WWX8', 'target': 'GO:1904659'}, {'key': 'positively correlated with', 'source': 'GO:0098708', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:1904659', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:0035623', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C549343', 'label': 'Drug', 'name': 'luseogliflozin'}, {'id': 'UniProt:P13866', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 1'}, {'id': 'UniProt:Q8WWX8', 'label': 'Protein', 'name': 'Sodium/myo-inositol cotransporter 2'}, {'id': 'GO:0098708', 'label': 'BiologicalProcess', 'name': 'glucose import across plasma membrane'}, {'id': 'GO:1904659', 'label': 'BiologicalProcess', 'name': 'glucose transmembrane transport'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'renal glucose absorption'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://en.wikipedia.org/wiki/Luseogliflozin', 'https://en.wikipedia.org/wiki/SGLT2_inhibitor']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043308'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0043308', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'GO:0043308', 'label': 'BiologicalProcess', 'name': 'eosinophil degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'This condition does not seem to be a true ocular allergic reaction, rather caused by repeated mechanical irritation of the conjunctiva (https://en.wikipedia.org/wiki/Allergic_conjunctivitis#Giant_papillary_conjunctivitis). So the treatment with cromoglicic acid may not be needed/useful at all but interruption of contact lens wearing.', 'directed': True, 'graph': {'_id': 'DB01003_MESH_D003233_1', 'disease': 'Giant papillary conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043308'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0043308', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D003233'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'GO:0043308', 'label': 'BiologicalProcess', 'name': 'eosinophil degranulation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Giant papillary conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://en.wikipedia.org/wiki/S100P#Interactions']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions', 'https://en.wikipedia.org/wiki/Mastocytosis#Anti-mediator_therapy', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions', 'https://en.wikipedia.org/wiki/Mastocytosis#Anti-mediator_therapy', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://en.wikipedia.org/wiki/Asthma#Management']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11824_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Tofogliflozin', 'drug_mesh': 'MESH:C575086', 'drugbank': 'DB:DB11824'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C575086', 'target': 'UniProt:P31639'}, {'key': 'prevents', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'decreases abundance of', 'source': 'GO:0035623', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C575086', 'label': 'Drug', 'name': 'Tofogliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'SGLT2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB11824#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'contributes to', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-8866423'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-8866423', 'target': 'MESH:D008077'}, {'key': 'contributes to', 'source': 'MESH:D008077', 'target': 'MESH:D006950'}, {'key': 'contributes to', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'REACT:R-HSA-8866423', 'label': 'Pathway', 'name': 'Very low density lipoprotein (VLDL) synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Low density lipoprotein-cholesterol (LDL-C)'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D014280'}, {'key': 'contributes to', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D052456_1', 'disease': 'Hypoalphalipoproteinemia', 'disease_mesh': 'MESH:D052456', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'increases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D008075'}, {'key': 'contributes to', 'source': 'MESH:D008075', 'target': 'MESH:D052456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D008075', 'label': 'ChemicalSubstance', 'name': 'High density lipoprotein-cholesterol (HDL-C)'}, {'id': 'MESH:D052456', 'label': 'Disease', 'name': 'Hypoalphalipoproteinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006952_1', 'disease': 'Familial type 3 hyperlipoproteinemia', 'disease_mesh': 'MESH:D006952', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D001055'}, {'key': 'contributes to', 'source': 'MESH:D001055', 'target': 'MESH:D006952'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D001055', 'label': 'ChemicalSubstance', 'name': 'Apolipoprotein B (apoB)'}, {'id': 'MESH:D006952', 'label': 'Disease', 'name': 'Familial type 3 hyperlipoproteinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'prevents', 'source': 'MESH:D002784', 'target': 'HP:0007201'}, {'key': 'correlated with', 'source': 'HP:0007201', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'HP:0007201', 'label': 'PhenotypicFeature', 'name': 'Cerebral artery plaque formation'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin', 'https://pubmed.ncbi.nlm.nih.gov/15083596/#:~:text=Epidemiological%20studies%20indicate%20that%20high,the%20frequency%20of%20hemorrhagic%20stroke.']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D001161_1', 'disease': 'Arteriosclerotic vascular disease', 'disease_mesh': 'MESH:D001161', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'prevents', 'source': 'MESH:D002784', 'target': 'HP:0002621'}, {'key': 'correlated with', 'source': 'HP:0002621', 'target': 'MESH:D001161'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'HP:0002621', 'label': 'PhenotypicFeature', 'name': 'atherosclerotic plaque formation'}, {'id': 'MESH:D001161', 'label': 'Disease', 'name': 'Arteriosclerotic vascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin', 'https://pubmed.ncbi.nlm.nih.gov/15083596/#:~:text=Epidemiological%20studies%20indicate%20that%20high,the%20frequency%20of%20hemorrhagic%20stroke.']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01621_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Pipotiazine palmitate', 'drug_mesh': None, 'drugbank': 'DB:DB01621'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01621', 'target': 'InterPro:IPR000929'}, {'key': 'located in', 'source': 'InterPro:IPR000929', 'target': 'UBERON:0000349'}, {'key': 'location of', 'source': 'UBERON:0000349', 'target': 'GO:0004952'}, {'key': 'decreases activity of', 'source': 'DB:DB01621', 'target': 'InterPro:IPR002231'}, {'key': 'located in', 'source': 'InterPro:IPR002231', 'target': 'UBERON:0000956'}, {'key': 'location of', 'source': 'UBERON:0000956', 'target': 'GO:0004952'}, {'key': 'positively regulates', 'source': 'GO:0004952', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01621', 'label': 'Drug', 'name': 'Pipotiazine palmitate'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'UBERON:0000349', 'label': 'GrossAnatomicalStructure', 'name': 'Limbic system'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'UBERON:0000956', 'label': 'GrossAnatomicalStructure', 'name': 'Cerebral cortex'}, {'id': 'GO:0004952', 'label': 'BiologicalProcess', 'name': 'Dopamine neurotransmitter receptor activity'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01621#mechanismofaction', 'https://academic.oup.com/bmb/article/114/1/169/246291']}\n", + "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00790_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Perindopril', 'drug_mesh': 'MESH:D020913', 'drugbank': 'DB:DB00790'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D020913', 'target': 'MESH:C053500'}, {'key': 'decreases activity of', 'source': 'MESH:C053500', 'target': 'UniProt:P12821'}, {'key': 'negatively regulates', 'source': 'UniProt:P12821', 'target': 'REACT:R-HSA-2022377'}, {'key': 'prevents', 'source': 'REACT:R-HSA-2022377', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P12821', 'target': 'GO:0035932'}, {'key': 'located in', 'source': 'GO:0035932', 'target': 'UBERON:0001235'}, {'key': 'positively regulates', 'source': 'UBERON:0001235', 'target': 'GO:0003095'}, {'key': 'negatively regulates', 'source': 'GO:0003095', 'target': 'HP:0000822'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020913', 'label': 'Drug', 'name': 'Perindopril'}, {'id': 'MESH:C053500', 'label': 'Drug', 'name': 'Perindoprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'REACT:R-HSA-2022377', 'label': 'Pathway', 'name': 'Renin-angiotensin-aldosterone system'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0035932', 'label': 'BiologicalProcess', 'name': 'Aldosterone secretion'}, {'id': 'GO:0003095', 'label': 'BiologicalProcess', 'name': 'Pressure natriuresis'}, {'id': 'UBERON:0001235', 'label': 'GrossAnatomicalStructure', 'name': 'Adrenal cortex'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00790#mechanismofaction']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Paromomycin helps to treat hepatic encephalopathy by stopping the growth of certain bacteria in your intestines that make ammonia', 'directed': True, 'graph': {'_id': 'DB01421_MESH_D006501_1', 'disease': 'Hepatic coma', 'disease_mesh': 'MESH:D006501', 'drug': 'Paromomycin', 'drug_mesh': 'MESH:D010303', 'drugbank': 'DB:DB01421'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D010303', 'target': 'MESH:D012336'}, {'key': 'negatively regulates', 'source': 'MESH:D012336', 'target': 'MESH:D014176'}, {'key': 'produces', 'source': 'MESH:D014176', 'target': 'GO:0030163'}, {'key': 'precedes', 'source': 'GO:0030163', 'target': 'GO:0001896'}, {'key': 'in taxon', 'source': 'GO:0001896', 'target': 'NCBITaxon:543'}, {'key': 'contributes to', 'source': 'NCBITaxon:543', 'target': 'MESH:D006501'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010303', 'label': 'Drug', 'name': 'Paromomycin'}, {'id': 'MESH:D012336', 'label': 'ChemicalSubstance', 'name': '16S ribosomal RNA'}, {'id': 'MESH:D014176', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'GO:0030163', 'label': 'BiologicalProcess', 'name': 'Defective polypeptide chains'}, {'id': 'GO:0001896', 'label': 'BiologicalProcess', 'name': 'Bacterial death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D006501', 'label': 'Disease', 'name': 'Hepatic coma'}], 'reference': ['https://go.drugbank.com/drugs/DB01421#mechanismofaction', 'https://www.webmd.com/drugs/2/drug-5160/paromomycin-oral/details']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Iproniazid is stated as Withdrawn from the Canadian market in July 1964 due to interactions with food products containing tyrosine', 'directed': True, 'graph': {'_id': 'DB04818_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Iproniazid', 'drug_mesh': 'MESH:D007490', 'drugbank': 'DB:DB04818'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007490', 'target': 'InterPro:IPR001613'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001613', 'target': 'HP:0000716'}, {'key': 'has metabolite', 'source': 'MESH:D007490', 'target': 'MESH:C044821'}, {'key': 'decreases activity of', 'source': 'MESH:C044821', 'target': 'InterPro:IPR001613'}, {'key': 'causes', 'source': 'HP:0000716', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007490', 'label': 'Drug', 'name': 'Iproniazid'}, {'id': 'InterPro:IPR001613', 'label': 'GeneFamily', 'name': 'Monoamine oxidase'}, {'id': 'MESH:C044821', 'label': 'ChemicalSubstance', 'name': 'Isopropylhydrazine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depression'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04818#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Iproniazid#section=MeSH-Pharmacological-Classification']}\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D012148_2', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Gabapentin', 'drug_mesh': None, 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00996', 'target': 'UniProt:Q9NY47'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR018882'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR018882', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR037440'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR037440', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR000884'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR000884', 'target': 'UniProt:Q00975'}, {'key': 'located in', 'source': 'UniProt:Q00975', 'target': 'GO:0098793'}, {'key': 'prevents', 'source': 'GO:0098793', 'target': 'GO:0015278'}, {'key': 'positively regulates', 'source': 'GO:0015278', 'target': 'GO:0007269'}, {'key': 'negatively regulates', 'source': 'GO:0098793', 'target': 'GO:0005262'}, {'key': 'positively regulates', 'source': 'GO:0005262', 'target': 'GO:0007269'}, {'key': 'ameliorates', 'source': 'GO:0007269', 'target': 'HP:0012514'}, {'key': 'correlated with', 'source': 'HP:0012514', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00996', 'label': 'Drug', 'name': 'Gabapentin'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'InterPro:IPR018882', 'label': 'GeneFamily', 'name': 'NMDA receptors'}, {'id': 'InterPro:IPR037440', 'label': 'GeneFamily', 'name': 'Neurexins'}, {'id': 'InterPro:IPR000884', 'label': 'GeneFamily', 'name': 'Thrombospondins'}, {'id': 'UniProt:Q00975', 'label': 'Protein', 'name': 'Voltage-gated calcium channels'}, {'id': 'GO:0098793', 'label': 'CellularComponent', 'name': 'Presynapse'}, {'id': 'GO:0015278', 'label': 'MolecularActivity', 'name': 'Calcium-release channel activity'}, {'id': 'GO:0005262', 'label': 'MolecularActivity', 'name': 'Calcium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter release'}, {'id': 'HP:0012514', 'label': 'PhenotypicFeature', 'name': 'Lower limb pain'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00996#mechanismofaction', 'https://en.wikipedia.org/wiki/Gabapentin']}\n", + "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D051474_1', 'disease': 'Postherpetic neuralgia', 'disease_mesh': 'MESH:D051474', 'drug': 'Gabapentin', 'drug_mesh': None, 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00996', 'target': 'UniProt:Q9NY47'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR018882'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR018882', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR037440'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR037440', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR000884'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR000884', 'target': 'UniProt:Q00975'}, {'key': 'located in', 'source': 'UniProt:Q00975', 'target': 'GO:0098793'}, {'key': 'prevents', 'source': 'GO:0098793', 'target': 'GO:0015278'}, {'key': 'positively regulates', 'source': 'GO:0015278', 'target': 'GO:0007269'}, {'key': 'negatively regulates', 'source': 'GO:0098793', 'target': 'GO:0005262'}, {'key': 'positively regulates', 'source': 'GO:0005262', 'target': 'GO:0007269'}, {'key': 'ameliorates', 'source': 'GO:0007269', 'target': 'HP:0012531'}, {'key': 'correlated with', 'source': 'HP:0012531', 'target': 'MESH:D051474'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00996', 'label': 'Drug', 'name': 'Gabapentin'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'InterPro:IPR018882', 'label': 'GeneFamily', 'name': 'NMDA receptors'}, {'id': 'InterPro:IPR037440', 'label': 'GeneFamily', 'name': 'Neurexins'}, {'id': 'InterPro:IPR000884', 'label': 'GeneFamily', 'name': 'Thrombospondins'}, {'id': 'UniProt:Q00975', 'label': 'Protein', 'name': 'Voltage-gated calcium channels'}, {'id': 'GO:0098793', 'label': 'CellularComponent', 'name': 'Presynapse'}, {'id': 'GO:0015278', 'label': 'MolecularActivity', 'name': 'Calcium-release channel activity'}, {'id': 'GO:0005262', 'label': 'MolecularActivity', 'name': 'Calcium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter release'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D051474', 'label': 'Disease', 'name': 'Postherpetic neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00996#mechanismofaction', 'https://en.wikipedia.org/wiki/Gabapentin']}\n", + "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01320_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Fosphenytoin', 'drug_mesh': 'MESH:C043114', 'drugbank': 'DB:DB01320'}, 'links': [{'key': 'derives into', 'source': 'MESH:C043114', 'target': 'MESH:D010672'}, {'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043114', 'label': 'Drug', 'name': 'Fosphenytoin'}, {'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01320#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Fosphenytoin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01320_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'Fosphenytoin', 'drug_mesh': 'MESH:C043114', 'drugbank': 'DB:DB01320'}, 'links': [{'key': 'derives into', 'source': 'MESH:C043114', 'target': 'MESH:D010672'}, {'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043114', 'label': 'Drug', 'name': 'Fosphenytoin'}, {'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB01320#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Fosphenytoin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01158_MESH_D014693_1', 'disease': 'Ventricular fibrillation', 'disease_mesh': 'MESH:D014693', 'drug': 'Bretylium', 'drug_mesh': 'MESH:C045166', 'drugbank': 'DB:DB01158'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C045166', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'GO:0048243', 'target': 'InterPro:IPR005821'}, {'key': 'decreases response to', 'source': 'InterPro:IPR005821', 'target': 'GO:0001508'}, {'key': 'prevents', 'source': 'GO:0001508', 'target': 'HP:0004308'}, {'key': 'causes', 'source': 'HP:0004308', 'target': 'MESH:D014693'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045166', 'label': 'Drug', 'name': 'Bretylium'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'Release of norepinephrine'}, {'id': 'InterPro:IPR005821', 'label': 'GeneFamily', 'name': 'Voltage-gated potassium channel'}, {'id': 'GO:0001508', 'label': 'BiologicalProcess', 'name': 'Action potential'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmias'}, {'id': 'MESH:D014693', 'label': 'Disease', 'name': 'Ventricular fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB01158#mechanismofaction']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004828_1', 'disease': 'Localization-related epilepsy', 'disease_mesh': 'MESH:D004828', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Localization-related epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D012640_1', 'disease': 'Tonic-clonic seizure', 'disease_mesh': 'MESH:D012640', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Tonic-clonic seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"Please note that the original drug to curate for this disease was aspartic acid but there is no evidence for it to be used as a treatment for hypokalemia unless it's a potassium salt of aspartic acid.\", 'directed': True, 'graph': {'_id': 'DB00128_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Aspartic Acid, Potassium Salt', 'drug_mesh': 'MESH:D001224', 'drugbank': 'DB:DB00128'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D001224', 'target': 'MESH:D011188'}, {'key': 'negatively correlated with', 'source': 'MESH:D011188', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001224', 'label': 'Drug', 'name': 'Aspartic Acid, Potassium Salt'}, {'id': 'MESH:D011188', 'label': 'ChemicalSubstance', 'name': 'Potassium'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://en.wikipedia.org/wiki/Hypokalemia', 'https://go.drugbank.com/drugs/DB00128']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010146_2', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'MESH:D010146'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D010146'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'has phenotype', 'source': 'GO:0019233', 'target': 'HP:0012531'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0012531'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D059350'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'MESH:D059350'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D059350'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00270_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Isradipine', 'drug_mesh': 'MESH:D017275', 'drugbank': 'DB:DB00270'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR005446'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR000584'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR013680'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'UniProt:O95180'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000584', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013680', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0004687'}, {'key': 'positively regulates', 'source': 'GO:0004687', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0042310'}, {'key': 'affects risk for', 'source': 'GO:0042310', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017275', 'label': 'Drug', 'name': 'Isradipine'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'InterPro:IPR000584', 'label': 'GeneFamily', 'name': 'Voltage-dependent L-type calcium channel subunit beta'}, {'id': 'InterPro:IPR013680', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, alpha-2/delta subunit, conserved regio'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0004687', 'label': 'BiologicalProcess', 'name': 'Myosin light chain kinase activity'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00270#BE0000864']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'There is an evidence indicating that levonorgestrel activates progesteron receptor https://pubmed.ncbi.nlm.nih.gov/16112947/', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D008595_2', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016912', 'target': 'UniProt:P06401'}, {'key': 'negatively regulates', 'source': 'UniProt:P06401', 'target': 'GO:0050673'}, {'key': 'positively correlated with', 'source': 'GO:0050673', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'GO:0050673', 'label': 'BiologicalProcess', 'name': 'Epithelial cell proliferation'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://pubmed.ncbi.nlm.nih.gov/8671392/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Norgestrel is composed of a racemic mixture of two stereoisomers, dextronorgestrel and levonorgestrel. However, only the levorotary enantiomer (levonorgestrel) is biologically active. There is an evidence indicating that levonorgestrel activates progesteron receptor https://pubmed.ncbi.nlm.nih.gov/16112947/', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009644', 'target': 'UniProt:P06401'}, {'key': 'negatively regulates', 'source': 'UniProt:P06401', 'target': 'GO:0050673'}, {'key': 'positively correlated with', 'source': 'GO:0050673', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'GO:0050673', 'label': 'BiologicalProcess', 'name': 'Epithelial cell proliferation'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://pubmed.ncbi.nlm.nih.gov/8671392/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Levonorgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent osteoporosis and in this case estradiol is the acive drug that prevents oseoporosis, while levonorgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'treats', 'source': 'MESH:D016912', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Levonorgestrel#Hormone_therapy']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Norgestrel is composed of a racemic mixture of two stereoisomers, dextronorgestrel and levonorgestrel. However, only the levorotary enantiomer (levonorgestrel) is biologically active. Norgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent osteoporosis and in this case estradiol is the acive drug that prevents oseoporosis, while norgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'treats', 'source': 'MESH:D009644', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Norgestrel#Medical_uses']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Levonorgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent menopausal flushing and in this case estradiol is the acive drug, while levonorgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'treats', 'source': 'MESH:D016912', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Levonorgestrel#Hormone_therapy']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Norgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent menopausal flushing; in this drug combination estradiol is the acive drug, while norgestrel is added for the protection of the endometrium.', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'treats', 'source': 'MESH:D009644', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Norgestrel#Medical_uses']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00471_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Montelukast', 'drug_mesh': 'MESH:C093875', 'drugbank': 'DB:DB00471'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093875', 'target': 'UniProt:Q9Y271'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0070254'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0070254', 'target': 'MESH:D065631'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D065631'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093875', 'label': 'Drug', 'name': 'Montelukast'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'Mucus secretion'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00471#BE0000705', 'https://en.wikipedia.org/wiki/Montelukast#Pharmacology']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D004828_1', 'disease': 'Simple partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Simple partial seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01133_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'Tiludronic acid', 'drug_mesh': 'MESH:C058651', 'drugbank': 'DB:DB01133'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058651', 'target': 'MESH:D000255'}, {'key': 'located in', 'source': 'MESH:D000255', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0046849'}, {'key': 'causes', 'source': 'GO:0046849', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058651', 'label': 'Drug', 'name': 'Tiludronic acid'}, {'id': 'MESH:D000255', 'label': 'ChemicalSubstance', 'name': 'Adenosine Triphosphate'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://en.wikipedia.org/wiki/Tiludronic_acid', 'https://go.drugbank.com/drugs/DB01133', 'https://en.wikipedia.org/wiki/Paget%27s_disease_of_bone']}\n", + "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Potentially non-efficacious https://pubmed.ncbi.nlm.nih.gov/26615034/', 'directed': True, 'graph': {'_id': 'DB04837_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D012220_1', 'disease': 'Rhinitis', 'disease_mesh': 'MESH:D012220', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D012220'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D012220', 'label': 'Disease', 'name': 'Rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Clofedanol suppresses the cough reflex by a direct effect on the cough center in the medulla of the brain', 'directed': True, 'graph': {'_id': 'DB04837_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'GO:0060004'}, {'key': 'positively correlated with', 'source': 'GO:0060004', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'GO:0060004', 'label': 'BiologicalProcess', 'name': 'Reflex'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB04837', 'https://pubchem.ncbi.nlm.nih.gov/compound/2795']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Rhinitis#Nonallergic_rhinitis', 'https://go.drugbank.com/drugs/DB04837', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'comment': \"The precise mechanism of brivaracetam's anti-epileptogenic activity is unknown. It is thought that brivaracetam binds to SV2A and causes the reduction in the rate of vesicle release including release of excitatory neurotransmitters.\", 'directed': True, 'graph': {'_id': 'DB05541_MESH_D004828_1', 'disease': 'Partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'Brivaracetam', 'drug_mesh': 'MESH:C482793', 'drugbank': 'DB:DB05541'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C482793', 'target': 'UniProt:Q7L0J3'}, {'key': 'negatively regulates', 'source': 'MESH:C482793', 'target': 'GO:0005248'}, {'key': 'participates in', 'source': 'UniProt:Q7L0J3', 'target': 'GO:0007269'}, {'key': 'positively correlated with', 'source': 'GO:0005248', 'target': 'HP:0001250'}, {'key': 'correlated with', 'source': 'GO:0007269', 'target': 'MESH:D004828'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C482793', 'label': 'Drug', 'name': 'Brivaracetam'}, {'id': 'UniProt:Q7L0J3', 'label': 'Protein', 'name': 'Synaptic vesicle glycoprotein 2A'}, {'id': 'GO:0005248', 'label': 'MolecularActivity', 'name': 'Voltage-gated sodium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter secretion'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Partial seizure'}], 'reference': ['https://en.wikipedia.org/wiki/Brivaracetam#Pharmacology', 'https://go.drugbank.com/drugs/DB05541', 'https://pubmed.ncbi.nlm.nih.gov/27768878/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4888813/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'MolecularActivity', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09205_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'Moxisylyte', 'drug_mesh': 'MESH:D013948', 'drugbank': 'DB:DB09205'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013948', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'GO:0004936', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013948', 'label': 'Drug', 'name': 'Moxisylyte'}, {'id': 'GO:0004936', 'label': 'BiologicalProcess', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB09205#BE0004888']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09205_MESH_D011928_1', 'disease': \"Raynaud's disease\", 'disease_mesh': 'MESH:D011928', 'drug': 'Moxisylyte', 'drug_mesh': 'MESH:D013948', 'drugbank': 'DB:DB09205'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013948', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'GO:0004936', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D011928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013948', 'label': 'Drug', 'name': 'Moxisylyte'}, {'id': 'GO:0004936', 'label': 'BiologicalProcess', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D011928', 'label': 'Disease', 'name': \"Raynaud's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB09205#BE0004888', 'https://en.wikipedia.org/wiki/Raynaud_syndrome']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00108_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Natalizumab', 'drug_mesh': 'MESH:D000069442', 'drugbank': 'DB:DB00108'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D000069442', 'target': 'UniProt:P13612'}, {'key': 'participates in', 'source': 'UniProt:P13612', 'target': 'GO:0007159'}, {'key': 'regulates', 'source': 'GO:0007159', 'target': 'GO:0050900'}, {'key': 'regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069442', 'label': 'Drug', 'name': 'Natalizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'GO:0007159', 'label': 'BiologicalProcess', 'name': 'leukocyte cell-cell adhesion'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00108#BE0000590', 'https://en.wikipedia.org/wiki/Natalizumab', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2721358/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00108_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'Natalizumab', 'drug_mesh': 'MESH:D000069442', 'drugbank': 'DB:DB00108'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D000069442', 'target': 'UniProt:P13612'}, {'key': 'participates in', 'source': 'UniProt:P13612', 'target': 'GO:1904994'}, {'key': 'regulates', 'source': 'GO:1904994', 'target': 'GO:0050900'}, {'key': 'regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069442', 'label': 'Drug', 'name': 'Natalizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'GO:1904994', 'label': 'BiologicalProcess', 'name': 'regulation of leukocyte adhesion to vascular endothelial cell'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00108#BE0000590', 'https://en.wikipedia.org/wiki/Natalizumab']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00843_MESH_D000544_1', 'disease': \"Alzheimer's disease\", 'disease_mesh': 'MESH:D000544', 'drug': 'donepezil', 'drug_mesh': 'MESH:C076946', 'drugbank': 'DB:DB00843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076946', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'participates in', 'source': 'GO:0045202', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'GO:0007613'}, {'key': 'prevents', 'source': 'GO:0007613', 'target': 'MESH:D000544'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076946', 'label': 'Drug', 'name': 'donepezil'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0007613', 'label': 'BiologicalProcess', 'name': 'memory'}, {'id': 'MESH:D000544', 'label': 'Disease', 'name': \"Alzheimer's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00843#BE0000426', 'https://en.wikipedia.org/wiki/Donepezil']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00938_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'salmeterol', 'drug_mesh': 'MESH:D000068299', 'drugbank': 'DB:DB00938'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068299', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'affected by', 'source': 'UBERON:0002185', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068299', 'label': 'Drug', 'name': 'salmeterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00938#BE0000694', 'https://en.wikipedia.org/wiki/Salmeterol']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:80308'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:3165'}, {'key': 'located in', 'source': 'CHEBI:80308', 'target': 'UBERON:0000176'}, {'key': 'located in', 'source': 'CHEBI:3165', 'target': 'UBERON:0000176'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0025095'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0000989'}, {'key': 'correlated with', 'source': 'HP:0025095', 'target': 'MESH:D006255'}, {'key': 'correlated with', 'source': 'HP:0000989', 'target': 'MESH:D006255'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'CHEBI:80308', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'CHEBI:3165', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'UBERON:0000176', 'label': 'GrossAnatomicalStructure', 'name': 'oronasal secretion'}, {'id': 'HP:0025095', 'label': 'PhenotypicFeature', 'name': 'Sneeze'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:80308'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:3165'}, {'key': 'located in', 'source': 'CHEBI:80308', 'target': 'UBERON:0000176'}, {'key': 'located in', 'source': 'CHEBI:3165', 'target': 'UBERON:0000176'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0025095'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0000989'}, {'key': 'correlated with', 'source': 'HP:0025095', 'target': 'MESH:D065631'}, {'key': 'correlated with', 'source': 'HP:0000989', 'target': 'MESH:D065631'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'CHEBI:80308', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'CHEBI:3165', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'UBERON:0000176', 'label': 'GrossAnatomicalStructure', 'name': 'oronasal secretion'}, {'id': 'HP:0025095', 'label': 'PhenotypicFeature', 'name': 'Sneeze'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01253_MESH_D006473_1', 'disease': 'Postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'ergometrine', 'drug_mesh': 'MESH:D004874', 'drugbank': 'DB:DB01253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004874', 'target': 'UniProt:P35348'}, {'key': 'located in', 'source': 'UniProt:P35348', 'target': 'UBERON:0001135'}, {'key': 'location of', 'source': 'UBERON:0001135', 'target': 'UBERON:0000995'}, {'key': 'increases activity of', 'source': 'UBERON:0000995', 'target': 'GO:0070471'}, {'key': 'negatively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004874', 'label': 'Drug', 'name': 'ergometrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UBERON:0001135', 'label': 'GrossAnatomicalStructure', 'name': 'smooth muscle'}, {'id': 'UBERON:0000995', 'label': 'GrossAnatomicalStructure', 'name': 'uterus'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'Postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01253#BE0000501']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01430_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'almitrine', 'drug_mesh': 'MESH:D015765,MESH:C037558', 'drugbank': 'DB:DB01430'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01430', 'target': 'UniProt:P05023'}, {'key': 'located in', 'source': 'UniProt:P05023', 'target': 'UBERON:0001629'}, {'key': 'participates in', 'source': 'UBERON:0001629', 'target': 'GO:0003039'}, {'key': 'participates in', 'source': 'UBERON:0001629', 'target': 'GO:0003035'}, {'key': 'positively correlated with', 'source': 'GO:0003039', 'target': 'GO:0007585'}, {'key': 'positively correlated with', 'source': 'GO:0003035', 'target': 'GO:0007585'}, {'key': 'treats', 'source': 'GO:0007585', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01430', 'label': 'Drug', 'name': 'almitrine'}, {'id': 'UniProt:P05023', 'label': 'Protein', 'name': 'Sodium/potassium-transporting ATPase subunit alpha-1'}, {'id': 'UBERON:0001629', 'label': 'GrossAnatomicalStructure', 'name': 'carotid body'}, {'id': 'GO:0003039', 'label': 'BiologicalProcess', 'name': 'detection of reduced oxygen by carotid body chemoreceptor signaling'}, {'id': 'GO:0003035', 'label': 'BiologicalProcess', 'name': 'detection of increased carbon dioxide by carotid body chemoreceptor signaling'}, {'id': 'GO:0007585', 'label': 'BiologicalProcess', 'name': 'respiratory gaseous exchange by respiratory system'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01430']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01433_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'acetylmethadol', 'drug_mesh': 'MESH:D008692', 'drugbank': 'DB:DB01433'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008692', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR013673'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR013673', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'decreases activity of', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'decreases response to', 'source': 'GO:0060081', 'target': 'HP:0033515'}, {'key': 'ameliorates', 'source': 'HP:0033515', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008692', 'label': 'Drug', 'name': 'acetylmethadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu opioid receptor'}, {'id': 'InterPro:IPR013673', 'label': 'GeneFamily', 'name': 'G-protein–gated potassium channel'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'HP:0033515', 'label': 'PhenotypicFeature', 'name': 'opioid addiction'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01433', 'https://smpdb.ca/view/SMP0000678?highlight[compounds][]=DB01433&highlight[proteins][]=DB01433']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01626_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'pargyline', 'drug_mesh': 'MESH:D010293', 'drugbank': 'DB:DB01626'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D010293', 'target': 'UniProt:P27338'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D006973'}, {'key': 'negatively correlated with', 'source': 'GO:0099155', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010293', 'label': 'Drug', 'name': 'pargyline'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, noradrenergic'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01626#BE0002196', 'https://pubmed.ncbi.nlm.nih.gov/8489485/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08900_MESH_D012778_1', 'disease': 'Short bowel syndrome', 'disease_mesh': 'MESH:D012778', 'drug': 'teduglutide', 'drug_mesh': 'MESH:C438272,MESH:C494910', 'drugbank': 'DB:DB08900'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB08900', 'target': 'UniProt:O95838'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'UBERON:0002439'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'UBERON:0005304'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'CL:1001516'}, {'key': 'positively correlated with', 'source': 'UBERON:0002439', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'UBERON:0005304', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'CL:1001516', 'target': 'GO:0050892'}, {'key': 'negatively correlated with', 'source': 'UniProt:O95838', 'target': 'GO:1990768'}, {'key': 'positively correlated with', 'source': 'UniProt:O95838', 'target': 'GO:0001696'}, {'key': 'treats', 'source': 'GO:0001696', 'target': 'MESH:D012778'}, {'key': 'treats', 'source': 'GO:1990768', 'target': 'MESH:D012778'}, {'key': 'treats', 'source': 'GO:0050892', 'target': 'MESH:D012778'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08900', 'label': 'Drug', 'name': 'teduglutide'}, {'id': 'UniProt:O95838', 'label': 'Protein', 'name': 'Glucagon-like peptide receptor'}, {'id': 'UBERON:0002439', 'label': 'GrossAnatomicalStructure', 'name': 'myenteric nerve plexus'}, {'id': 'UBERON:0005304', 'label': 'GrossAnatomicalStructure', 'name': 'submucous nerve plexus'}, {'id': 'CL:1001516', 'label': 'Cell', 'name': 'intestinal enteroendocrine cell'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal absorption'}, {'id': 'GO:1990768', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric mucosal blood circulation'}, {'id': 'MESH:D012778', 'label': 'Disease', 'name': 'Short bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01253#BE0000501']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively 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'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 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rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D011704_2', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Pyelonephritis#Causes', 'https://en.wikipedia.org/wiki/Pyelonephritis#Simple']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D000881_1', 'disease': 'Anthrax', 'disease_mesh': 'MESH:D000881', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D000881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D000881', 'label': 'Disease', 'name': 'Anthrax'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Anthrax#Bacteria', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Gram-positive', 'https://en.wikipedia.org/wiki/Staphylococcus_aureus#Role_in_disease', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chlamydia#Infants', 'https://pubmed.ncbi.nlm.nih.gov/32809709/', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus sp.'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Conjunctivitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D003234_2', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D003234', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Conjunctivitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This drug is used in combination with dalfopristin. Both interfere with the bacterial protein synthesis, at different stages of the translation. Quinupristin inhibits the late phase of protein synthesis, whereas dalfopristin inhibits the early phase of protein synthesis in the bacterial ribosome. In combination, both drugs are more effective than each used individually (https://go.drugbank.com/drugs/DB01369#description).', 'directed': True, 'graph': {'_id': 'DB01369_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'quinupristin', 'drug_mesh': 'MESH:C113825', 'drugbank': 'DB:DB01369'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C113825', 'target': 'MESH:D054681'}, {'key': 'negatively regulates', 'source': 'MESH:C113825', 'target': 'Pfam:PF00466'}, {'key': 'negatively regulates', 'source': 'MESH:C113825', 'target': 'Pfam:PF00237'}, {'key': 'positively regulates', 'source': 'Pfam:PF00466', 'target': 'GO:0006412'}, {'key': 'positively regulates', 'source': 'Pfam:PF00237', 'target': 'GO:0006412'}, {'key': 'location of', 'source': 'MESH:D054681', 'target': 'GO:0000048'}, {'key': 'positively correlated with', 'source': 'GO:0000048', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C113825', 'label': 'Drug', 'name': 'quinupristin'}, {'id': 'MESH:D054681', 'label': 'ChemicalSubstance', 'name': 'Ribosome Subunits, Large, Bacterial'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'GO:0000048', 'label': 'MolecularActivity', 'name': 'peptidyltransferase activity'}, {'id': 'Pfam:PF00237', 'label': 'GeneFamily', 'name': 'Ribosomal protein L22p/L17e'}, {'id': 'Pfam:PF00466', 'label': 'GeneFamily', 'name': 'Ribosomal protein L10'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01369#mechanism-of-action', 'https://en.wikipedia.org/wiki/Quinupristin', 'https://www.tandfonline.com/doi/abs/10.1517/13543784.7.4.591', 'https://en.wikipedia.org/wiki/Quinupristin/dalfopristin#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Nabumetone is a prodrug, which is metabolised into the pharmacologically active drug (CHEBI:35628, 6-methoxy-2-naphthyl acetic acid). Note that the drug preferentially blocks COX-2 activity.', 'directed': True, 'graph': {'_id': 'DB00461_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Nabumetone', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB00461'}, 'links': [{'key': 'produces', 'source': 'MESH:D007660', 'target': 'CHEBI:35628'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'Nabumetone'}, {'id': 'CHEBI:35628', 'label': 'Drug', 'name': '(6-methoxy-2-naphthyl)acetic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00461#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nabumetone']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Nabumetone is a prodrug, which is metabolised into the pharmacologically active drug (CHEBI:35628, 6-methoxy-2-naphthyl acetic acid). Note that the drug preferentially blocks COX-2 activity.', 'directed': True, 'graph': {'_id': 'DB00461_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Nabumetone', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB00461'}, 'links': [{'key': 'produces', 'source': 'MESH:D007660', 'target': 'CHEBI:35628'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'Nabumetone'}, {'id': 'CHEBI:35628', 'label': 'Drug', 'name': '(6-methoxy-2-naphthyl)acetic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00461#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nabumetone']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"The activation of Atrial natriuretic peptide receptor 1 has been observed in vitro (https://pubmed.ncbi.nlm.nih.gov/12890708/) and it's reported in DrugBank whereas ChEMBL favours the Soluble Guanylyl Cyclase route. Also note that when the drug is admnistered at low doses, it dilates veins and reduces the volume of blood in the heart after filling (this is supposedly the main mechanism of action). At higher doses, it dilates arteries as well.\", 'directed': True, 'graph': {'_id': 'DB00727_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'glyceryl trinitrate', 'drug_mesh': 'MESH:D005996', 'drugbank': 'DB:DB00727'}, 'links': [{'key': 'produces', 'source': 'MESH:D005996', 'target': 'CHEBI:16480'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0038060'}, {'key': 'positively correlated with', 'source': 'GO:0038060', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'UniProt:P16066'}, {'key': 'positively regulates', 'source': 'UniProt:P16066', 'target': 'GO:0007168'}, {'key': 'positively correlated with', 'source': 'GO:0007168', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'alt_names': ['Nitroglycerin'], 'id': 'MESH:D005996', 'label': 'Drug', 'name': 'glyceryl trinitrate'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'UniProt:P16066', 'label': 'Protein', 'name': 'Atrial natriuretic peptide receptor 1'}, {'id': 'GO:0038060', 'label': 'BiologicalProcess', 'name': 'nitric oxide-cGMP-mediated signaling pathway'}, {'id': 'GO:0007168', 'label': 'BiologicalProcess', 'name': 'receptor guanylyl cyclase signaling pathway'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00727#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL730/', 'https://en.wikipedia.org/wiki/Nitroglycerin#Medical_use']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01280_MESH_D054218_1', 'disease': 'T-cell acute lymphoblastic leukemia', 'disease_mesh': 'MESH:D054218', 'drug': 'nelarabine', 'drug_mesh': 'MESH:C104457', 'drugbank': 'DB:DB01280'}, 'links': [{'key': 'produces', 'source': 'MESH:C104457', 'target': 'MESH:C022206'}, {'key': 'decreases activity of', 'source': 'MESH:C022206', 'target': 'UniProt:P09884'}, {'key': 'positively regulates', 'source': 'UniProt:P09884', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031379'}, {'key': 'prevents', 'source': 'MESH:C022206', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'GO:0090592', 'target': 'HP:0031379'}, {'key': 'positively correlated with', 'source': 'HP:0031379', 'target': 'MESH:D054218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C104457', 'label': 'Drug', 'name': 'nelarabine'}, {'id': 'MESH:C022206', 'label': 'ChemicalSubstance', 'name': \"9-beta-D-arabinofuranosylguanosine 5'-triphosphate\"}, {'id': 'UniProt:P09884', 'label': 'Protein', 'name': 'DNA polymerase alpha catalytic subunit'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031379', 'label': 'PhenotypicFeature', 'name': 'Abnormal T cell proliferation'}, {'id': 'MESH:D054218', 'label': 'Disease', 'name': 'T-cell acute lymphoblastic leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01280#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nelarabine']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'There appears to be no connection between Niacin deficiency and nicotine. Although niacin and nicotine are somehow related (nicotine can turn into nicotinic acid via oxidation), nicotine may not be able to replace niacin as treatment for Niacin deficiency. Actually nicotine could compete with niacin for binding sites in the enzymes necessary for vitamin B3 metabolism, and therefore would decrease the amount of B3 available for the cells.', 'directed': True, 'graph': {'_id': 'DB00184_MESH_D010383_1', 'disease': 'Niacin deficiency', 'disease_mesh': 'MESH:D010383', 'drug': 'nicotine', 'drug_mesh': 'MESH:D009538', 'drugbank': 'DB:DB00184'}, 'links': [{'key': 'treats', 'source': 'MESH:D009538', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D061485'], 'id': 'MESH:D009538', 'label': 'Drug', 'name': 'nicotine'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Niacin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00184#indication', 'https://en.wikipedia.org/wiki/Nicotine#Biosynthesis', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3/', 'https://hopes.stanford.edu/nicotinamide/#relationship-between-nicotinamide-and-nicotine']}\n", + "['Drug', 'Disease']\n", + "{'comment': \"Both DrugBank (https://go.drugbank.com/drugs/DB06718#mechanism-of-action) and ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2079587/) have this drug modulating target AR (UniProt:P10275) but that's not the mechanism of action for this indication (MESH:D054179).\", 'directed': True, 'graph': {'_id': 'DB06718_MESH_D054179_1', 'disease': 'Hereditary angioneurotic edema', 'disease_mesh': 'MESH:D054179', 'drug': 'stanozolol', 'drug_mesh': 'MESH:D013197', 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013197', 'target': 'UniProt:P05155'}, {'key': 'negatively regulates', 'source': 'UniProt:P05155', 'target': 'GO:0006956'}, {'key': 'positively correlated with', 'source': 'GO:0006956', 'target': 'Pfam:PF06753'}, {'key': 'negatively correlated with', 'source': 'UniProt:P05155', 'target': 'MESH:D007610'}, {'key': 'positively correlated with', 'source': 'MESH:D007610', 'target': 'Pfam:PF06753'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06753', 'target': 'MESH:D002199'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06753', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'MESH:D002199', 'target': 'MESH:D054179'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D054179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013197', 'label': 'Drug', 'name': 'stanozolol'}, {'id': 'UniProt:P05155', 'label': 'Protein', 'name': 'Plasma protease C1 inhibitor'}, {'id': 'GO:0006956', 'label': 'BiologicalProcess', 'name': 'complement activation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D007610', 'label': 'GeneFamily', 'name': 'Kallikreins'}, {'id': 'Pfam:PF06753', 'label': 'GeneFamily', 'name': 'Bradykinin'}, {'id': 'MESH:D002199', 'label': 'BiologicalProcess', 'name': 'Capillary Permeability'}, {'id': 'MESH:D054179', 'label': 'Disease', 'name': 'Hereditary angioneurotic edema'}], 'reference': ['https://en.wikipedia.org/wiki/C1-inhibitor', 'https://en.wikipedia.org/wiki/Bradykinin', 'https://en.wikipedia.org/wiki/Kallikrein', 'https://en.wikipedia.org/wiki/Kinin%E2%80%93kallikrein_system#C1-INH_Involvement', 'https://en.wikipedia.org/wiki/Hereditary_angioedema', 'https://en.wikipedia.org/wiki/Complement_system#Regulation', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3666183/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'Marketing for this drug has been discontinued and is not available in North America due to its likely carcinogenic potential and cytotoxic properties.', 'directed': True, 'graph': {'_id': 'DB06718_MESH_D006470_1', 'disease': 'Hemorrhage', 'disease_mesh': 'MESH:D006470', 'drug': 'menadiol sodium diphosphate', 'drug_mesh': None, 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00734'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P08709'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00740'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00742'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P04070'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P38435'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P07225'}, {'key': 'regulates', 'source': 'UniProt:P07225', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P38435', 'target': 'GO:0007596'}, {'key': 'regulates', 'source': 'UniProt:P04070', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00740', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P08709', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00734', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:D006470'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06718', 'label': 'Drug', 'name': 'menadiol sodium diphosphate'}, {'id': 'UniProt:P00734', 'label': 'Protein', 'name': 'Prothrombin'}, {'id': 'UniProt:P08709', 'label': 'Protein', 'name': 'Coagulation factor VII'}, {'id': 'UniProt:P00740', 'label': 'Protein', 'name': 'Coagulation factor IX'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'UniProt:P04070', 'label': 'Protein', 'name': 'Vitamin K-dependent protein C'}, {'id': 'UniProt:P38435', 'label': 'Protein', 'name': 'Vitamin K-dependent gamma-carboxylase'}, {'id': 'UniProt:P07225', 'label': 'Protein', 'name': 'Vitamin K-dependent protein S'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'MESH:D006470', 'label': 'Disease', 'name': 'Hemorrhage'}], 'reference': ['https://journals.sagepub.com/doi/abs/10.3181/00379727-37-9668P', 'https://www.medicalnewstoday.com/articles/165749#complications', 'https://en.wikipedia.org/wiki/Vitamin_K#History']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06718_MESH_D010673_1', 'disease': 'Pheochromocytoma', 'disease_mesh': 'MESH:D010673', 'drug': 'phenoxybenzamine', 'drug_mesh': 'MESH:D010643', 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P35348'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P18825'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P25100'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P35368'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P18825', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D014655'}, {'key': 'positively correlated with', 'source': 'MESH:D014655', 'target': 'HP:0002640'}, {'key': 'manifestation of', 'source': 'HP:0002640', 'target': 'MESH:D010673'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010643', 'label': 'Drug', 'name': 'phenoxybenzamine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D014655', 'label': 'BiologicalProcess', 'name': 'Vascular Resistance'}, {'id': 'HP:0002640', 'label': 'PhenotypicFeature', 'name': 'Hypertension associated with pheochromocytoma'}, {'id': 'MESH:D010673', 'label': 'Disease', 'name': 'Pheochromocytoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00925#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL753/', 'https://en.wikipedia.org/wiki/Alpha_blocker#Hypertension', 'https://en.wikipedia.org/wiki/Phenoxybenzamine#Pharmacology', 'https://en.wikipedia.org/wiki/Pheochromocytoma#Alpha_blockade']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00184_MESH_D014029_1', 'disease': 'Nicotine dependence', 'disease_mesh': 'MESH:D014029', 'drug': 'nicotine', 'drug_mesh': 'MESH:D009538', 'drugbank': 'DB:DB00184'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009538', 'target': 'MESH:D011950'}, {'key': 'participates in', 'source': 'MESH:D011950', 'target': 'REACT:R-HSA-629587\\ufeff'}, {'key': 'participates in', 'source': 'MESH:D011950', 'target': 'REACT:R-HSA-629594\\ufeff'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-629587\\ufeff', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-629594\\ufeff', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'GO:0051899', 'target': 'GO:0014046'}, {'key': 'positively correlated with', 'source': 'GO:0014046', 'target': 'HP:0030858'}, {'key': 'positively correlated with', 'source': 'HP:0030858', 'target': 'MESH:D014029'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D061485'], 'id': 'MESH:D009538', 'label': 'Drug', 'name': 'nicotine'}, {'id': 'MESH:D011950', 'label': 'GeneFamily', 'name': 'Receptors, Cholinergic'}, {'id': 'REACT:R-HSA-629587\\ufeff', 'label': 'Pathway', 'name': 'Highly sodium permeable postsynaptic acetylcholine nicotinic receptors'}, {'id': 'REACT:R-HSA-629594\\ufeff', 'label': 'Pathway', 'name': 'Highly calcium permeable postsynaptic nicotinic acetylcholine receptors'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'HP:0030858', 'label': 'PhenotypicFeature', 'name': 'Addictive behavior'}, {'id': 'MESH:D014029', 'label': 'Disease', 'name': 'Nicotine dependence'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3/', 'https://en.wikipedia.org/wiki/Nicotine_replacement_therapy#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Nicotine_dependence#Biomolecular', 'https://en.wikipedia.org/wiki/Nicotine#Pharmacodynamics']}\n", + "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00507_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Nitazoxanide', 'drug_mesh': 'MESH:C041747', 'drugbank': 'DB:DB00507'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C041747', 'target': 'UniProt:A8B852'}, {'key': 'positively regulates', 'source': 'UniProt:A8B852', 'target': 'GO:0006754'}, {'key': 'in taxon', 'source': 'GO:0006754', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C041747', 'label': 'Drug', 'name': 'Nitazoxanide'}, {'id': 'UniProt:A8B852', 'label': 'Protein', 'name': 'Pyruvate-flavodoxin oxidoreductase (Giardia intestinalis)'}, {'id': 'GO:0006754', 'label': 'BiologicalProcess', 'name': 'ATP biosynthetic process'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://en.wikipedia.org/wiki/Giardiasis', 'https://go.drugbank.com/drugs/DB00507', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC88984/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00507_MESH_D003457_1', 'disease': 'Infection by Cryptosporidium', 'disease_mesh': 'MESH:D003457', 'drug': 'Nitazoxanide', 'drug_mesh': 'MESH:C041747', 'drugbank': 'DB:DB00507'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C041747', 'target': 'UniProt:Q968X7'}, {'key': 'positively regulates', 'source': 'UniProt:Q968X7', 'target': 'GO:0006754'}, {'key': 'in taxon', 'source': 'GO:0006754', 'target': 'NCBITaxon:5806'}, {'key': 'causes', 'source': 'NCBITaxon:5806', 'target': 'MESH:D003457'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C041747', 'label': 'Drug', 'name': 'Nitazoxanide'}, {'id': 'UniProt:Q968X7', 'label': 'Protein', 'name': 'Pyruvate dehydrogenase [NADP(+)] (Cryptosporidium parvum)'}, {'id': 'GO:0006754', 'label': 'BiologicalProcess', 'name': 'ATP biosynthetic process'}, {'id': 'NCBITaxon:5806', 'label': 'OrganismTaxon', 'name': 'Cryptosporidium'}, {'id': 'MESH:D003457', 'label': 'Disease', 'name': 'Infection by Cryptosporidium'}], 'reference': ['https://go.drugbank.com/drugs/DB00507', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1803158/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00713']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D013203_1', 'disease': 'Staphylococcal infectious disease', 'disease_mesh': 'MESH:D013203', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Staphylococcal infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00713']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00713', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00713', 'https://en.wikipedia.org/wiki/Sinusitis#Causes', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00716_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Nedocromil', 'drug_mesh': 'MESH:D017835', 'drugbank': 'DB:DB00716'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9NS75'}, {'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9Y271'}, {'key': 'negatively regulates', 'source': 'MESH:D017835', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9NS75', 'target': 'MESH:D017998'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'precedes', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D003233'}, {'key': 'positively regulates', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017835', 'label': 'Drug', 'name': 'Nedocromil'}, {'id': 'UniProt:Q9NS75', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 2'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00716', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00716_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Nedocromil', 'drug_mesh': 'MESH:D017835', 'drugbank': 'DB:DB00716'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9NS75'}, {'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9Y271'}, {'key': 'negatively regulates', 'source': 'MESH:D017835', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9NS75', 'target': 'MESH:D017998'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'precedes', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'MESH:D016084'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D001249'}, {'key': 'manifestation of', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively regulates', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017835', 'label': 'Drug', 'name': 'Nedocromil'}, {'id': 'UniProt:Q9NS75', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 2'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016084', 'label': 'Disease', 'name': 'Bronchoconstriction'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00716', 'https://en.wikipedia.org/wiki/Asthma']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00950', 'https://en.wikipedia.org/wiki/Sneeze']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01121_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Phenacemide', 'drug_mesh': 'MESH:C005396', 'drugbank': 'DB:DB01121'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005396', 'target': 'UniProt:P35498'}, {'key': 'positively regulates', 'source': 'UniProt:P35498', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005396', 'label': 'Drug', 'name': 'Phenacemide'}, {'id': 'UniProt:P35498', 'label': 'Protein', 'name': 'Sodium channel protein type 1 subunit alpha'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01121#BE0000141']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01136_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Carvedilol', 'drug_mesh': 'MESH:C043211', 'drugbank': 'DB:DB01136'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043211', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C043211', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043211', 'label': 'Drug', 'name': 'Carvedilol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01136#BE0000172']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D010051'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D010051'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D010051'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D007890_1', 'disease': 'Leiomyosarcoma', 'disease_mesh': 'MESH:D007890', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D007890'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D007890'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D007890'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D007890'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D007890', 'label': 'Disease', 'name': 'Leiomyosarcoma'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D008080_1', 'disease': 'Liposarcoma', 'disease_mesh': 'MESH:D008080', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D008080'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D008080'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D008080'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008080', 'label': 'Disease', 'name': 'Liposarcoma'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Colfosceril palmitate will form a very thin film that will cover the surface of the alveolar cells, thus reducing the tension and stabilizing the alveoli from collapsing.', 'directed': True, 'graph': {'_id': 'DB09114_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Colfosceril palmitate', 'drug_mesh': 'MESH:C081581', 'drugbank': 'DB:DB09114'}, 'links': [{'key': 'capable of', 'source': 'MESH:C081581', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081581', 'label': 'Drug', 'name': 'Colfosceril palmitate'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB09114', 'https://en.wikipedia.org/wiki/Infant_respiratory_distress_syndrome']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Talaporfin (INN, also known as aspartyl chlorin, mono-L-aspartyl chlorin e6, NPe6, or LS11) is a chlorin based photosensitizer used in photodynamic therapy.', 'directed': True, 'graph': {'_id': 'DB11812_MESH_D001932_1', 'disease': 'Primary malignant neoplasm of brain', 'disease_mesh': 'MESH:D001932', 'drug': 'Talaporfin', 'drug_mesh': 'MESH:C053434', 'drugbank': 'DB:DB11812'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C053434', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D001932'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053434', 'label': 'Drug', 'name': 'Talaporfin'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D001932', 'label': 'Disease', 'name': 'Primary malignant neoplasm of brain'}], 'reference': ['https://en.wikipedia.org/wiki/Talaporfin']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Talaporfin (INN, also known as aspartyl chlorin, mono-L-aspartyl chlorin e6, NPe6, or LS11) is a chlorin based photosensitizer used in photodynamic therapy.', 'directed': True, 'graph': {'_id': 'DB11812_MESH_D008175_1', 'disease': 'Malignant tumor of lung', 'disease_mesh': 'MESH:D008175', 'drug': 'Talaporfin', 'drug_mesh': 'MESH:C053434', 'drugbank': 'DB:DB11812'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C053434', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D008175'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053434', 'label': 'Drug', 'name': 'Talaporfin'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D008175', 'label': 'Disease', 'name': 'Malignant tumor of lung'}], 'reference': ['https://en.wikipedia.org/wiki/Talaporfin']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Trilostane was withdrawn from the United States market in April 1994 | MESH:D000308 refers to higher term Adrenocortical Hyperfunction that includes Hypercortisolism', 'directed': True, 'graph': {'_id': 'DB01108_MESH_D000308_1', 'disease': 'Hypercortisolism', 'disease_mesh': 'MESH:D000308', 'drug': 'Trilostane', 'drug_mesh': 'MESH:C009954', 'drugbank': 'DB:DB01108'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009954', 'target': 'InterPro:IPR002225'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-196071'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-196071', 'target': 'MESH:D013256'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-193993'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-193993', 'target': 'MESH:D013256'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-194002'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-194002', 'target': 'MESH:D013256'}, {'key': 'manifestation of', 'source': 'MESH:D013256', 'target': 'MESH:D000308'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009954', 'label': 'Drug', 'name': 'Trilostane'}, {'id': 'InterPro:IPR002225', 'label': 'GeneFamily', 'name': '3-beta-hydroxysteroid dehydrogenase/delta 5,4 ketosteroid isomerase'}, {'id': 'REACT:R-HSA-196071', 'label': 'Pathway', 'name': 'Metabolism of steroid hormones'}, {'id': 'REACT:R-HSA-193993', 'label': 'Pathway', 'name': 'Mineralocorticoid biosynthesis'}, {'id': 'REACT:R-HSA-194002', 'label': 'Pathway', 'name': 'Glucocorticoid biosynthesis'}, {'id': 'MESH:D013256', 'label': 'ChemicalSubstance', 'name': 'Steroids'}, {'id': 'MESH:D000308', 'label': 'Disease', 'name': 'Hypercortisolism'}], 'reference': ['https://go.drugbank.com/drugs/DB01108#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trilostane']}\n", + "['Drug', 'GeneFamily', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 'UniProt:P01270'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01270', 'target': 'MESH:D002112'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'InterPro:IPR008250'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR008250', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0000945'}, {'key': 'negatively regulates', 'source': 'UBERON:0000945', 'target': 'GO:0045453'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9H1D0'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9H1D0', 'target': 'GO:0006816'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9NQA5'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NQA5', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0002113'}, {'key': 'negatively regulates', 'source': 'UBERON:0002113', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P01270', 'target': 'UniProt:P06881'}, {'key': 'negatively regulates', 'source': 'UniProt:P06881', 'target': 'GO:0045453'}, {'key': 'negatively regulates', 'source': 'UniProt:P01270', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'CL:0000137'}, {'key': 'negatively regulates', 'source': 'CL:0000137', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'GO:0045453', 'target': 'GO:0055074'}, {'key': 'positively regulates', 'source': 'MESH:D010710', 'target': 'GO:0055074'}, {'key': 'manifestation of', 'source': 'GO:0055074', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020243', 'label': 'Drug', 'name': 'Calcium Phosphate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G protein-coupled receptor'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'Parathyroid hormone'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'Calcium ion transport'}, {'id': 'MESH:D010710', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D002112', 'label': 'ChemicalSubstance', 'name': 'Calcidiol'}, {'id': 'InterPro:IPR008250', 'label': 'GeneFamily', 'name': 'Calcium dependent ATPases'}, {'id': 'UBERON:0000945', 'label': 'GrossAnatomicalStructure', 'name': 'Gut'}, {'id': 'UniProt:Q9H1D0', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 6 (TRPV6)'}, {'id': 'UniProt:Q9NQA5', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 5 (TRPV5)'}, {'id': 'UBERON:0002113', 'label': 'GrossAnatomicalStructure', 'name': 'Kidney'}, {'id': 'UniProt:P06881', 'label': 'Protein', 'name': 'Calcitonin'}, {'id': 'CL:0000137', 'label': 'Cell', 'name': 'Osteocyte'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'Calcium ion homeostasis'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 'UniProt:P01270'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01270', 'target': 'MESH:D002112'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'InterPro:IPR008250'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR008250', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0000945'}, {'key': 'negatively regulates', 'source': 'UBERON:0000945', 'target': 'GO:0045453'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9H1D0'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9H1D0', 'target': 'GO:0006816'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9NQA5'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NQA5', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0002113'}, {'key': 'negatively regulates', 'source': 'UBERON:0002113', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P01270', 'target': 'UniProt:P06881'}, {'key': 'negatively regulates', 'source': 'UniProt:P06881', 'target': 'GO:0045453'}, {'key': 'negatively regulates', 'source': 'UniProt:P01270', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'CL:0000137'}, {'key': 'negatively regulates', 'source': 'CL:0000137', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'GO:0045453', 'target': 'GO:0055074'}, {'key': 'positively regulates', 'source': 'MESH:D010710', 'target': 'GO:0055074'}, {'key': 'manifestation of', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020243', 'label': 'Drug', 'name': 'Calcium Phosphate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G protein-coupled receptor'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'Parathyroid hormone'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'Calcium ion 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'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 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'BiologicalProcess', 'name': 'Calcium ion transport'}, {'id': 'MESH:D010710', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D002112', 'label': 'ChemicalSubstance', 'name': 'Calcidiol'}, {'id': 'InterPro:IPR008250', 'label': 'GeneFamily', 'name': 'Calcium dependent ATPases'}, {'id': 'UBERON:0000945', 'label': 'GrossAnatomicalStructure', 'name': 'Gut'}, {'id': 'UniProt:Q9H1D0', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 6 (TRPV6)'}, {'id': 'UniProt:Q9NQA5', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 5 (TRPV5)'}, {'id': 'UBERON:0002113', 'label': 'GrossAnatomicalStructure', 'name': 'Kidney'}, {'id': 'UniProt:P06881', 'label': 'Protein', 'name': 'Calcitonin'}, {'id': 'CL:0000137', 'label': 'Cell', 'name': 'Osteocyte'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'Calcium ion homeostasis'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D006527_1', 'disease': \"Wilson's disease\", 'disease_mesh': 'MESH:D006527', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'positively regulates', 'source': 'MESH:D003300', 'target': 'GO:0055070'}, {'key': 'manifestation of', 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'source': 'MESH:D014266', 'target': 'MESH:D054856'}, {'key': 'decreases activity of', 'source': 'MESH:D054856', 'target': 'InterPro:IPR003545'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR003545', 'target': 'GO:0016049'}, {'key': 'located in', 'source': 'GO:0016049', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'MESH:D054856', 'label': 'ChemicalSubstance', 'name': 'G-quadruplex'}, {'id': 'InterPro:IPR003545', 'label': 'GeneFamily', 'name': 'Telomerase'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D002292_2', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:IPR000072'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR000072', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P05230'}, {'key': 'negatively regulates', 'source': 'UniProt:P05230', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:IPR000975'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR000975', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:PR003573'}, {'key': 'negatively regulates', 'source': 'InterPro:PR003573', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P10145'}, {'key': 'negatively regulates', 'source': 'UniProt:P10145', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P19838'}, {'key': 'negatively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P00441'}, {'key': 'negatively regulates', 'source': 'UniProt:P00441', 'target': 'GO:0001525'}, {'key': 'located in', 'source': 'GO:0001525', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'MESH:D003300', 'label': 'ChemicalSubstance', 'name': 'Copper'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor-1'}, {'id': 'UniProt:P00441', 'label': 'Protein', 'name': 'Superoxide dismutase 1'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor kappa-light-chain-enhancer of activated B cells'}, {'id': 'UniProt:P10145', 'label': 'Protein', 'name': 'Interleukin 8'}, {'id': 'InterPro:PR003573', 'label': 'GeneFamily', 'name': 'Interleukin 6'}, {'id': 'InterPro:IPR000975', 'label': 'GeneFamily', 'name': 'Interleukin 1'}, {'id': 'UniProt:P05230', 'label': 'Protein', 'name': 'Fibroblast growth factor-1'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D002292_3', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014266', 'target': 'REACT:R-HSA-6802957'}, {'key': 'causes', 'source': 'REACT:R-HSA-6802957', 'target': 'GO:0012501'}, {'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'increases abundance of', 'source': 'MESH:D003300', 'target': 'MESH:D000975'}, {'key': 'causes', 'source': 'MESH:D000975', 'target': 'GO:0012501'}, {'key': 'located in', 'source': 'GO:0012501', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'REACT:R-HSA-6802957', 'label': 'Pathway', 'name': 'Oncogenic MAPK signaling'}, {'id': 'MESH:D003300', 'label': 'ChemicalSubstance', 'name': 'Copper'}, {'id': 'MESH:D000975', 'label': 'ChemicalSubstance', 'name': 'Antioxidants'}, {'id': 'GO:0012501', 'label': 'BiologicalProcess', 'name': 'Apoptosis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D009617_1', 'disease': 'Nocardiosis', 'disease_mesh': 'MESH:D009617', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:U5EHR3'}, {'key': 'decreases abundance of', 'source': 'UniProt:U5EHR3', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:1824'}, {'key': 'causes', 'source': 'NCBITaxon:1824', 'target': 'MESH:D009617'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:U5EHR3', 'label': 'Protein', 'name': 'Dihydropteroate 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combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D014123_1', 'disease': 'Toxoplasmosis', 'disease_mesh': 'MESH:D014123', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:Q4U207'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q4U207', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:5811'}, {'key': 'causes', 'source': 'NCBITaxon:5811', 'target': 'MESH:D014123'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:Q4U207', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:5811', 'label': 'OrganismTaxon', 'name': 'Toxoplasma gondii'}, {'id': 'MESH:D014123', 'label': 'Disease', 'name': 'Toxoplasmosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D003235_1', 'disease': 'Chlamydial conjunctivitis', 'disease_mesh': 'MESH:D003235', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:A0A655MZZ2'}, {'key': 'decreases abundance of', 'source': 'UniProt:A0A655MZZ2', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D003235'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:A0A655MZZ2', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D003235', 'label': 'Disease', 'name': 'Chlamydial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00299_MESH_D006560_1', 'disease': 'Herpes labialis', 'disease_mesh': 'MESH:D006560', 'drug': 'Penciclovir', 'drug_mesh': 'MESH:C053539', 'drugbank': 'DB:DB00299'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C053539', 'target': 'MESH:C092310'}, {'key': 'decreases molecular interaction', 'source': 'MESH:C092310', 'target': 'MESH:C029603'}, {'key': 'decreases activity of', 'source': 'MESH:C029603', 'target': 'UniProt:Q99FY1'}, {'key': 'prevents', 'source': 'UniProt:Q99FY1', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10292'}, {'key': 'causes', 'source': 'NCBITaxon:10292', 'target': 'MESH:D006560'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053539', 'label': 'Drug', 'name': 'Penciclovir'}, {'id': 'MESH:C092310', 'label': 'ChemicalSubstance', 'name': 'Penciclovir triphosphate'}, {'id': 'MESH:C029603', 'label': 'ChemicalSubstance', 'name': 'Deoxyguanosine triphosphate'}, {'id': 'UniProt:Q99FY1', 'label': 'Protein', 'name': 'Viral DNA polymerase'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral replication'}, {'id': 'NCBITaxon:10292', 'label': 'OrganismTaxon', 'name': 'Herpesviridae'}, {'id': 'MESH:D006560', 'label': 'Disease', 'name': 'Herpes labialis'}], 'reference': ['https://go.drugbank.com/drugs/DB00299#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06626_MESH_D002292_1', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Axitinib', 'drug_mesh': None, 'drugbank': 'DB:DB06626'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P17948'}, {'key': 'negatively regulates', 'source': 'UniProt:P17948', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P35968'}, {'key': 'negatively regulates', 'source': 'UniProt:P35968', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P35916'}, {'key': 'negatively regulates', 'source': 'UniProt:P35916', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'InterPro:IPR006782'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR006782', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P10721'}, {'key': 'negatively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0001525'}, {'key': 'located in', 'source': 'GO:0001525', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06626', 'label': 'Drug', 'name': 'Axitinib'}, {'id': 'UniProt:P17948', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 1'}, {'id': 'UniProt:P35968', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 2'}, {'id': 'UniProt:P35916', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 3'}, {'id': 'InterPro:IPR006782', 'label': 'GeneFamily', 'name': 'Platelet-derived growth factor receptor'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'c-Kit'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06626#mechanismofaction', 'https://en.wikipedia.org/wiki/Axitinib']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001172'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Joint pain'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D001171_1', 'disease': 'Juvenile idiopathic arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001171'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001171'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile idiopathic arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D015535_1', 'disease': 'Psoriasis with arthropathy', 'disease_mesh': 'MESH:D015535', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D015535'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D015535'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriasis with arthropathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Psoriatic_arthritis#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00260_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Cycloserine', 'drug_mesh': 'MESH:D003523', 'drugbank': 'DB:DB00260'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003523', 'target': 'UniProt:P9WP31'}, {'key': 'decreases activity of', 'source': 'MESH:D003523', 'target': 'UniProt:P9WQA9'}, {'key': 'positively regulates', 'source': 'UniProt:P9WP31', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'UniProt:P9WQA9', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003523', 'label': 'Drug', 'name': 'Cycloserine'}, {'id': 'UniProt:P9WP31', 'label': 'Protein', 'name': 'D-alanine--D-alanine ligase (Mycobacterium tuberculosis)'}, {'id': 'UniProt:P9WQA9', 'label': 'Protein', 'name': 'Alanine racemase (Mycobacterium tuberculosis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00260']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The mechanism of action of amitriptyline is not fully elucidated.', 'directed': True, 'graph': {'_id': 'DB00321_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Amitriptyline', 'drug_mesh': 'MESH:D000639', 'drugbank': 'DB:DB00321'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P31645'}, {'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'negatively regulates', 'source': 'GO:0051620', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0051610', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000639', 'label': 'Drug', 'name': 'Amitriptyline'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Norepinephrine uptake'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00321', 'https://pubmed.ncbi.nlm.nih.gov/10703757/', 'https://en.wikipedia.org/wiki/5-HT2A_receptor', 'https://en.wikipedia.org/wiki/Tricyclic_antidepressant#Clinical_depression']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00831_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Trifluoperazine', 'drug_mesh': 'MESH:D014268', 'drugbank': 'DB:DB00831'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P21728'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21728', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'affected by', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014268', 'label': 'Drug', 'name': 'Trifluoperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00831#BE0000666', 'https://pubchem.ncbi.nlm.nih.gov/compound/5566', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4032934/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00831_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'Trifluoperazine', 'drug_mesh': 'MESH:D014268', 'drugbank': 'DB:DB00831'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P21728'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21728', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'affected by', 'source': 'GO:0061527', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014268', 'label': 'Drug', 'name': 'Trifluoperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00831#BE0000666', 'https://pubchem.ncbi.nlm.nih.gov/compound/5566', 'https://pubmed.ncbi.nlm.nih.gov/26317601/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01382_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Glymidine', 'drug_mesh': 'MESH:C073263', 'drugbank': 'DB:DB01382'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073263', 'target': 'UniProt:P48048'}, {'key': 'negatively correlated with', 'source': 'UniProt:P48048', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'GO:0005245', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'positively correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073263', 'label': 'Drug', 'name': 'Glymidine'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0005245', 'label': 'BiologicalProcess', 'name': 'Voltage-gated calcium channel activity'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01382', 'https://pubchem.ncbi.nlm.nih.gov/compound/9565']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Nicotinyl alcohol has been shown to be metabolized rapidly to nicotinic acid https://pubmed.ncbi.nlm.nih.gov/4883785/', 'directed': True, 'graph': {'_id': 'DB04145_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D009540', 'target': 'CHEBI:15940'}, {'key': 'negatively correlated with', 'source': 'CHEBI:15940', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'Nicotinic acid'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://go.drugbank.com/categories/DBCAT002431', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04145_MESH_D008575_1', 'disease': \"Ménière's disease\", 'disease_mesh': 'MESH:D008575', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009540', 'target': 'GO:0042310'}, {'key': 'contributes to', 'source': 'GO:0042310', 'target': 'MESH:D008575'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D008575', 'label': 'Disease', 'name': \"Ménière's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://en.wikipedia.org/wiki/M%C3%A9ni%C3%A8re%27s_disease#Causes', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Nicotinyl alcohol has been shown to be metabolized rapidly to nicotinic acid (niacin) https://pubmed.ncbi.nlm.nih.gov/4883785/', 'directed': True, 'graph': {'_id': 'DB04145_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D009540', 'target': 'CHEBI:15940'}, {'key': 'increases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:Q96PD7'}, {'key': 'decreases abundance of', 'source': 'UniProt:P49019', 'target': 'MESH:D005227'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D005227'}, {'key': 'increases abundance of', 'source': 'UniProt:Q96PD7', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D005227', 'target': 'UniProt:P02656'}, {'key': 'positively correlated with', 'source': 'UniProt:P02656', 'target': 'MESH:D015243'}, {'key': 'positively correlated with', 'source': 'MESH:D015243', 'target': 'MESH:D006949'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'Nicotinic acid'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:Q96PD7', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2'}, {'id': 'MESH:D005227', 'label': 'ChemicalSubstance', 'name': 'Fatty Acids'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C-III'}, {'id': 'MESH:D015243', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, VLDL'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol', 'https://en.wikipedia.org/wiki/Hyperlipidemia', 'https://go.drugbank.com/drugs/DB00627', 'https://en.wikipedia.org/wiki/Niacin#As_lipid-modifying_medication']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://en.wikipedia.org/wiki/Pyelonephritis#Causes']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB06211']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://www.ncbi.nlm.nih.gov/books/NBK519573/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D002764_1', 'disease': 'Cholecystitis', 'disease_mesh': 'MESH:D002764', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'occurs in', 'source': 'NCBITaxon:2', 'target': 'MESH:D002764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D002764', 'label': 'Disease', 'name': 'Cholecystitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://en.wikipedia.org/wiki/Cholecystitis#Causes']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06317_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Elotuzumab', 'drug_mesh': 'MESH:C546027', 'drugbank': 'DB:DB06317'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C546027', 'target': 'UniProt:Q9NQ25'}, {'key': 'expressed in', 'source': 'UniProt:Q9NQ25', 'target': 'CL:0000623'}, {'key': 'capable of', 'source': 'CL:0000623', 'target': 'GO:0001788'}, {'key': 'precedes', 'source': 'GO:0001788', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C546027', 'label': 'Drug', 'name': 'Elotuzumab'}, {'id': 'UniProt:Q9NQ25', 'label': 'Protein', 'name': 'SLAM family member 7'}, {'id': 'CL:0000623', 'label': 'Cell', 'name': 'Natural killer cell'}, {'id': 'GO:0001788', 'label': 'BiologicalProcess', 'name': 'Antibody-dependent cellular cytotoxicity'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/27695618/', 'https://go.drugbank.com/drugs/DB06317#BE0003492']}\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Enviomycin share the same binding site on the bacterial ribosome and have effects on bacterial cells similar to those of viomycin https://pubmed.ncbi.nlm.nih.gov/26755601/', 'directed': True, 'graph': {'_id': 'DB08993_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Enviomycin', 'drug_mesh': 'MESH:D004776', 'drugbank': 'DB:DB08993'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004776', 'target': 'GO:0005840'}, {'key': 'participates in', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004776', 'label': 'Drug', 'name': 'Enviomycin'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06827', 'https://en.wikipedia.org/wiki/Viomycin', 'https://go.drugbank.com/drugs/DB08993']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Being a prodrug, enalapril is rapidly biotransformed into its active metabolite, enalaprilat. Please note this drug had 2 DrugBank IDs in the Drug Centarl, DB00584 and DB09477. The DB09477 is ID for Enalapril, which has been previously curated.', 'directed': True, 'graph': {'_id': 'DB00584_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Enalapril', 'drug_mesh': 'MESH:D004656', 'drugbank': 'DB:DB00584'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D004656', 'target': 'MESH:D015773'}, {'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'HP:0000822'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004656', 'label': 'Drug', 'name': 'Enalapril'}, {'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D006333', 'label': 'Disease', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB00584', 'https://en.wikipedia.org/wiki/Heart_failure']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Being a prodrug, enalapril is rapidly biotransformed into its active metabolite, enalaprilat. Please note this drug had 2 DrugBank IDs in the Drug Centarl, DB00584 and DB09477. The DB09477 is ID for Enalapril, which has been previously curated.', 'directed': True, 'graph': {'_id': 'DB00584_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Enalapril', 'drug_mesh': 'MESH:D004656', 'drugbank': 'DB:DB00584'}, 'links': [{'key': 'produces', 'source': 'MESH:D004656', 'target': 'MESH:D015773'}, {'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004656', 'label': 'Drug', 'name': 'Enalapril'}, {'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00584', 'https://go.drugbank.com/drugs/DB09477#BE0000221']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C010038', 'target': 'MESH:D017382'}, {'key': 'negatively regulates', 'source': 'MESH:D017382', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'MESH:D017382', 'label': 'ChemicalSubstance', 'name': 'Free oxygen radical'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010038', 'target': 'UBERON:0001821'}, {'key': 'prevents', 'source': 'UBERON:0001821', 'target': 'GO:0006096'}, {'key': 'negatively regulates', 'source': 'GO:0006096', 'target': 'GO:0016049'}, {'key': 'in taxon', 'source': 'GO:0016049', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'UBERON:0001821', 'label': 'GrossAnatomicalStructure', 'name': 'Sebaceous Gland'}, {'id': 'GO:0006096', 'label': 'BiologicalProcess', 'name': 'Glycolytic process'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Propionibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", + "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_2', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010038', 'target': 'UBERON:0001821'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:A0A7C6MFF9'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A7C6MFF9', 'target': 'GO:0016049'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:D4HBV0'}, {'key': 'negatively regulates', 'source': 'UniProt:D4HBV0', 'target': 'GO:0016049'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:D4HCU8'}, {'key': 'negatively regulates', 'source': 'UniProt:D4HCU8', 'target': 'GO:0016049'}, {'key': 'in taxon', 'source': 'GO:0016049', 'target': 'NCBITaxon:1282'}, {'key': 'causes', 'source': 'NCBITaxon:1282', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'UBERON:0001821', 'label': 'GrossAnatomicalStructure', 'name': 'Sebaceous Gland'}, {'id': 'UniProt:A0A7C6MFF9', 'label': 'Protein', 'name': 'Tyrosinase'}, {'id': 'UniProt:D4HCU8', 'label': 'Protein', 'name': 'DNA polymerase'}, {'id': 'UniProt:D4HBV0', 'label': 'Protein', 'name': 'Thioredoxin reductase'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'NCBITaxon:1282', 'label': 'OrganismTaxon', 'name': 'Staphylococcus epidermidis'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", + "['Drug', 'GrossAnatomicalStructure', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_3', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C010038', 'target': 'MESH:D017382'}, {'key': 'negatively regulates', 'source': 'MESH:D017382', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'MESH:D017382', 'label': 'ChemicalSubstance', 'name': 'Free oxygen radical'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01415_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Ceftibuten', 'drug_mesh': None, 'drugbank': 'DB:DB01415'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01415', 'target': 'UniProt:Q54906'}, {'key': 'prevents', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'negatively regulates', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01415', 'label': 'Drug', 'name': 'Ceftibuten'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell-wall synthesis'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01415#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/5282242']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01415_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Ceftibuten', 'drug_mesh': None, 'drugbank': 'DB:DB01415'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01415', 'target': 'UniProt:Q54906'}, {'key': 'prevents', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'negatively regulates', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01415', 'label': 'Drug', 'name': 'Ceftibuten'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell-wall synthesis'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01415#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/5282242']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01501_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'Difenoxin', 'drug_mesh': 'MESH:C100010', 'drugbank': 'DB:DB01501'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100010', 'target': 'InterPro:IPR001418'}, {'key': 'located in', 'source': 'InterPro:IPR001418', 'target': 'UBERON:0012453'}, {'key': 'negatively regulates', 'source': 'UBERON:0012453', 'target': 'GO:0061526'}, {'key': 'regulates', 'source': 'GO:0061526', 'target': 'GO:0120054'}, {'key': 'correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100010', 'label': 'Drug', 'name': 'Difenoxin'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptors'}, {'id': 'UBERON:0012453', 'label': 'GrossAnatomicalStructure', 'name': 'Peripheral nerve terminal'}, {'id': 'GO:0061526', 'label': 'GrossAnatomicalStructure', 'name': 'Release of acetylcholine'}, {'id': 'GO:0120054', 'label': 'GrossAnatomicalStructure', 'name': 'Intestinal motility'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'Diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Difenoxin#section=Pharmacology']}\n", + "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00644_MESH_D000568_1', 'disease': 'Amenorrhea', 'disease_mesh': 'MESH:D000568', 'drug': 'Gonadorelin', 'drug_mesh': 'MESH:D007987', 'drugbank': 'DB:DB00644'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007987', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0046884'}, {'key': 'location of', 'source': 'GO:0046884', 'target': 'UBERON:0000007'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0032275'}, {'key': 'location of', 'source': 'GO:0032275', 'target': 'UBERON:0000007'}, {'key': 'produces', 'source': 'UBERON:0000007', 'target': 'MESH:D012739'}, {'key': 'manifestation of', 'source': 'MESH:D012739', 'target': 'MESH:D000568'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007987', 'label': 'Drug', 'name': 'Gonadorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'GO:0046884', 'label': 'BiologicalProcess', 'name': 'Follicle-stimulating hormone secretion'}, {'id': 'UBERON:0000007', 'label': 'GrossAnatomicalStructure', 'name': 'Pituitary gland'}, {'id': 'MESH:D012739', 'label': 'ChemicalSubstance', 'name': 'Gonadal Steroid Hormones'}, {'id': 'MESH:D000568', 'label': 'Disease', 'name': 'Amenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00644#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Gonadorelin']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08887_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Icosapent ethyl', 'drug_mesh': None, 'drugbank': 'DB:DB08887'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08887', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'DB:DB08887', 'target': 'UniProt:P06858'}, {'key': 'located in', 'source': 'UniProt:P06858', 'target': 'UBERON:0000178'}, {'key': 'increases degradation of', 'source': 'UBERON:0000178', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'DB:DB08887', 'target': 'GO:0006635'}, {'key': 'increases degradation of', 'source': 'GO:0006635', 'target': 'MESH:D014280'}, {'key': 'manifestation of', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08887', 'label': 'Drug', 'name': 'Icosapent ethyl'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diglyceride acyltransferase'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'GO:0006635', 'label': 'BiologicalProcess', 'name': 'Fatty acid beta-oxidation'}, {'id': 'UBERON:0000178', 'label': 'GrossAnatomicalStructure', 'name': 'Blood'}, {'id': 'UniProt:P06858', 'label': 'Protein', 'name': 'Lipoprotein lipase'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08887#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Icosapent-ethyl#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Ethyl_eicosapentaenoic_acid']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'part of', 'source': 'MESH:D009525', 'target': 'MESH:D019587'}, {'key': 'ameliorates', 'source': 'MESH:D019587', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'manifestation of', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diglyceride acyltransferase'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006950'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006937'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006949'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00205_MESH_D008288_1', 'disease': 'Malaria', 'disease_mesh': 'MESH:D008288', 'drug': 'pyrimethamine', 'drug_mesh': 'MESH:D011739', 'drugbank': 'DB:DB00205'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011739', 'target': 'UniProt:P13922'}, {'key': 'positively regulates', 'source': 'UniProt:P13922', 'target': 'GO:0046654'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0006221'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0019363'}, {'key': 'positively correlated with', 'source': 'GO:0006221', 'target': 'GO:0000280'}, {'key': 'positively correlated with', 'source': 'GO:0019363', 'target': 'GO:0000280'}, {'key': 'in taxon', 'source': 'GO:0000280', 'target': 'NCBITaxon:5839'}, {'key': 'causes', 'source': 'NCBITaxon:5839', 'target': 'MESH:D008288'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011739', 'label': 'Drug', 'name': 'pyrimethamine'}, {'id': 'UniProt:P13922', 'label': 'Protein', 'name': 'Bifunctional dihydrofolate reductase-thymidylate synthase'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0019363', 'label': 'BiologicalProcess', 'name': 'pyridine nucleotide biosynthetic process'}, {'id': 'GO:0000280', 'label': 'BiologicalProcess', 'name': 'nuclear division'}, {'id': 'NCBITaxon:5839', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum K1'}, {'id': 'MESH:D008288', 'label': 'Disease', 'name': 'Malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00205#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL1939/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00205_MESH_D014123_1', 'disease': 'Toxoplasmosis', 'disease_mesh': 'MESH:D014123', 'drug': 'pyrimethamine', 'drug_mesh': 'MESH:D011739', 'drugbank': 'DB:DB00205'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011739', 'target': 'Pfam:PF00186'}, {'key': 'positively regulates', 'source': 'Pfam:PF00186', 'target': 'GO:0046654'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0006221'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0019363'}, {'key': 'positively correlated with', 'source': 'GO:0006221', 'target': 'GO:0000280'}, {'key': 'positively correlated with', 'source': 'GO:0019363', 'target': 'GO:0000280'}, {'key': 'in taxon', 'source': 'GO:0000280', 'target': 'NCBITaxon:5811'}, {'key': 'causes', 'source': 'NCBITaxon:5811', 'target': 'MESH:D014123'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011739', 'label': 'Drug', 'name': 'pyrimethamine'}, {'id': 'Pfam:PF00186', 'label': 'GeneFamily', 'name': 'Dihydrofolate reductase'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0019363', 'label': 'BiologicalProcess', 'name': 'pyridine nucleotide biosynthetic process'}, {'id': 'GO:0000280', 'label': 'BiologicalProcess', 'name': 'nuclear division'}, {'id': 'NCBITaxon:5811', 'label': 'OrganismTaxon', 'name': 'Toxoplasma gondii'}, {'id': 'MESH:D014123', 'label': 'Disease', 'name': 'Toxoplasmosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00205#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL1939/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The drug has an anti-inflammatory role which can help with treating some of the signs and symptoms of rosasea.', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001041'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0031284'}, {'key': 'positively correlated with', 'source': 'HP:0031284', 'target': 'MESH:D012393'}, {'key': 'positively correlated with', 'source': 'HP:0001041', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0031284', 'label': 'PhenotypicFeature', 'name': 'Flushing'}, {'id': 'HP:0001041', 'label': 'PhenotypicFeature', 'name': 'Facial erythema'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Rosacea#Medications', 'https://pubmed.ncbi.nlm.nih.gov/26566370/']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The disease is also known as Indigestion as per in the original file before curation. Note that in the majority of cases no cause can be attributed to leading to the disease. When a cause can indeed be determined, the majority of cases will be due to gastroesophageal reflux and gastritis (https://en.wikipedia.org/wiki/Indigestion#Cause).', 'directed': True, 'graph': {'_id': 'DB09087_MESH_D004415_1', 'disease': 'Dyspepsia', 'disease_mesh': 'MESH:D004415', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0005263'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004415'}, {'key': 'manifestation of', 'source': 'HP:0005263', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0005263', 'label': 'PhenotypicFeature', 'name': 'Gastritis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Dyspepsia'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000534', 'target': 'MESH:D001252'}, {'key': 'negatively correlated with', 'source': 'MESH:D001252', 'target': 'MESH:D005744'}, {'key': 'located in', 'source': 'MESH:D005744', 'target': 'UBERON:0001043'}, {'key': 'location of', 'source': 'UBERON:0001043', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'MESH:D001252', 'label': 'ChemicalSubstance', 'name': 'Astringents'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'UBERON:0001043', 'label': 'GrossAnatomicalStructure', 'name': 'esophagus'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics', 'https://en.wikipedia.org/wiki/Heartburn#Treatment']}\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000534', 'target': 'MESH:D001252'}, {'key': 'negatively correlated with', 'source': 'MESH:D001252', 'target': 'MESH:D005744'}, {'key': 'located in', 'source': 'MESH:D005744', 'target': 'UBERON:0001043'}, {'key': 'location of', 'source': 'UBERON:0001043', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'MESH:D001252', 'label': 'ChemicalSubstance', 'name': 'Astringents'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'UBERON:0001043', 'label': 'GrossAnatomicalStructure', 'name': 'esophagus'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics', 'https://en.wikipedia.org/wiki/Gastroesophageal_reflux_disease#Antacids']}\n", + "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x).', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D004942_1', 'disease': 'Esophagitis, Peptic', 'disease_mesh': 'MESH:D004942', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0004791'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0004791', 'target': 'MESH:D004942'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004942'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0004791', 'label': 'PhenotypicFeature', 'name': 'Esophageal ulceration'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004942', 'label': 'Disease', 'name': 'Esophagitis, Peptic'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Esophagitis#Causes', 'https://en.wikipedia.org/wiki/Esophagitis#Medications']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D015043_1', 'disease': 'Zollinger-Ellison syndrome', 'disease_mesh': 'MESH:D015043', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0004398'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002588'}, {'key': 'manifestation of', 'source': 'HP:0002588', 'target': 'MESH:D015043'}, {'key': 'manifestation of', 'source': 'HP:0004398', 'target': 'MESH:D015043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0002588', 'label': 'PhenotypicFeature', 'name': 'Duodenal ulcer'}, {'id': 'HP:0004398', 'label': 'PhenotypicFeature', 'name': 'Peptic Ulcer'}, {'id': 'MESH:D015043', 'label': 'Disease', 'name': 'Zollinger-Ellison syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Esophagitis#Causes', 'https://en.wikipedia.org/wiki/Esophagitis#Medications', 'https://en.wikipedia.org/wiki/Zollinger%E2%80%93Ellison_syndrome#Treatment', 'https://en.wikipedia.org/wiki/Zollinger%E2%80%93Ellison_syndrome#Pathophysiology']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01048_MESH_D015658_2', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'abacavir', 'drug_mesh': 'MESH:C106538', 'drugbank': 'DB:DB01048'}, 'links': [{'key': 'produces', 'source': 'MESH:C106538', 'target': 'CHEBI:64174'}, {'key': 'decreases activity of', 'source': 'CHEBI:64174', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106538', 'label': 'Drug', 'name': 'abacavir'}, {'id': 'CHEBI:64174', 'label': 'ChemicalSubstance', 'name': 'carbovir triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01048#mechanism-of-action', 'https://en.wikipedia.org/wiki/Abacavir#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The disease is also known as Sore throat symptom as per the original file.', 'directed': True, 'graph': {'_id': 'DB06742_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'ambroxol', 'drug_mesh': 'MESH:D000551', 'drugbank': 'DB:DB06742'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000551', 'target': 'GO:0038060'}, {'key': 'positively correlated with', 'source': 'GO:0038060', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0033050'}, {'key': 'negatively regulates', 'source': 'MESH:D000551', 'target': 'Pfam:PF06512'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06512', 'target': 'GO:0006954'}, {'key': 'increases abundance of', 'source': 'GO:0038060', 'target': 'UBERON:0016552'}, {'key': 'positively correlated with', 'source': 'UBERON:0016552', 'target': 'HP:0031602'}, {'key': 'positively correlated with', 'source': 'HP:0031602', 'target': 'HP:0033050'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06512', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'HP:0012531', 'target': 'HP:0033050'}, {'key': 'manifestation of', 'source': 'HP:0033050', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000551', 'label': 'Drug', 'name': 'ambroxol'}, {'id': 'GO:0038060', 'label': 'BiologicalProcess', 'name': 'nitric oxide-cGMP-mediated signaling pathway'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'UBERON:0016552', 'label': 'GrossAnatomicalStructure', 'name': 'phlegm'}, {'id': 'HP:0031602', 'label': 'PhenotypicFeature', 'name': 'Abnormal mucociliary clearance'}, {'id': 'Pfam:PF06512', 'label': 'GeneFamily', 'name': 'Sodium ion transport-associated'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0033050', 'label': 'PhenotypicFeature', 'name': 'Pharyngalgia'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://en.wikipedia.org/wiki/Ambroxol#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB06742#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/28937232/', 'https://en.wikipedia.org/wiki/Sore_throat#Diagnosis']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption. There are different types of hyponatremia, and medications like tolvaptan should only be used in those patients with high volume or normal volume hyponatremia (https://en.wikipedia.org/wiki/Hyponatremia#Medications).', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D007010_1', 'disease': 'Hyponatremia', 'disease_mesh': 'MESH:D007010', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-432040'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-432040', 'target': 'GO:0070295'}, {'key': 'positively correlated with', 'source': 'GO:0070295', 'target': 'MESH:D007010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-432040', 'label': 'Pathway', 'name': 'Vasopressin regulates renal water homeostasis via Aquaporins'}, {'id': 'GO:0070295', 'label': 'BiologicalProcess', 'name': 'renal water absorption'}, {'id': 'MESH:D007010', 'label': 'Disease', 'name': 'Hyponatremia'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'This disease is also known as Syndrome of inappropriate vasopressin secretion as per the original file. Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption.', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D007177_1', 'disease': 'Inappropriate ADH Syndrome', 'disease_mesh': 'MESH:D007177', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-432040'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-432040', 'target': 'GO:0070295'}, {'key': 'positively correlated with', 'source': 'GO:0070295', 'target': 'MESH:D007177'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-432040', 'label': 'Pathway', 'name': 'Vasopressin regulates renal water homeostasis via Aquaporins'}, {'id': 'GO:0070295', 'label': 'BiologicalProcess', 'name': 'renal water absorption'}, {'alt_names': ['Syndrome of Inappropriate ADH Secretion, SIADH'], 'id': 'MESH:D007177', 'label': 'Disease', 'name': 'Inappropriate ADH Syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist', 'https://en.wikipedia.org/wiki/Syndrome_of_inappropriate_antidiuretic_hormone_secretion#Treatment']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'This disease is also known as Polycystic kidney disease adult type as per the original file. Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption.', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D016891_1', 'disease': 'Polycystic Kidney, Autosomal Dominant', 'disease_mesh': 'MESH:D016891', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'HP:0000107'}, {'key': 'manifestation of', 'source': 'HP:0000107', 'target': 'MESH:D016891'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D016891'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'HP:0000107', 'label': 'PhenotypicFeature', 'name': 'Renal cyst'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D016891', 'label': 'Disease', 'name': 'Polycystic Kidney, Autosomal Dominant'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Autosomal_dominant_polycystic_kidney_disease#Aquaretic_medication', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist#Polycystic_kidney_disease']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00855_MESH_D055623_1', 'disease': 'Actinic keratosis', 'disease_mesh': 'MESH:D055623', 'drug': 'Aminolevulinic acid', 'drug_mesh': 'MESH:D000622', 'drugbank': 'DB:DB00855'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000622', 'target': 'MESH:D017319'}, {'key': 'positively correlated with', 'source': 'MESH:D017319', 'target': 'MESH:D005609'}, {'key': 'disrupts', 'source': 'MESH:D005609', 'target': 'HP:0011355'}, {'key': 'positively correlated with', 'source': 'HP:0011355', 'target': 'MESH:D055623'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000622', 'label': 'Drug', 'name': 'Aminolevulinic acid'}, {'id': 'MESH:D017319', 'label': 'ChemicalSubstance', 'name': 'Photosensitizing Agents'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'HP:0011355', 'label': 'PhenotypicFeature', 'name': 'Localized skin lesion'}, {'id': 'MESH:D055623', 'label': 'Disease', 'name': 'Actinic keratosis'}], 'reference': ['https://en.wikipedia.org/wiki/Aminolevulinic_acid#Medical_uses', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Procedures', 'https://en.wikipedia.org/wiki/Photodynamic_therapy#Photosensitizers']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"In Parkinson's disease, there is imbalance between levels of acetylcholine and dopamine, where increased levels of acetylcholine and degeneration of dopaminergic pathways are observed. Therefore, muscarinic antagonists such as biperiden block central cholinergic activity and balancing out neurotransmitters in the brain (https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects). Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).\", 'directed': True, 'graph': {'_id': 'DB00810_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'manifestation of', 'source': 'HP:0100022', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is denoted as Postencephalitic parkinsonism in the original file. This disease is believed to be caused by a viral infection, leading to clinical parkinsonism (https://en.wikipedia.org/wiki/Postencephalitic_parkinsonism) and anti-Parkinson drugs may be helpful in treating the symptoms (https://en.wikipedia.org/wiki/Encephalitis_lethargica). For example, muscarinic antagonists can allow dopamine levels to rebalance, which can help relieve some Parkinsonian symptoms e.g. involuntary movements. Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D010301_1', 'disease': 'Parkinson Disease, Postencephalitic', 'disease_mesh': 'MESH:D010301', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'positively correlated with', 'source': 'HP:0100022', 'target': 'HP:0001300'}, {'key': 'manifestation of', 'source': 'HP:0001300', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'HP:0001300', 'label': 'PhenotypicFeature', 'name': 'Parkinsonism'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Parkinson Disease, Postencephalitic'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as Parkinsonism as per the original file. Muscarinic antagonists can allow dopamine levels to rebalance, which can help relieve some Parkinsonian symptoms e.g. involuntary movements. Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'manifestation of', 'source': 'HP:0100022', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action', 'https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as Extrapyramidal disease as per the original file.', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0002071'}, {'key': 'manifestation of', 'source': 'HP:0002071', 'target': 'MESH:D001480'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0002071', 'label': 'PhenotypicFeature', 'name': 'Abnormality of extrapyramidal motor function'}, {'id': 'MESH:D001480', 'label': 'Disease', 'name': 'Basal Ganglia Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action', 'https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects', 'https://en.wikipedia.org/wiki/Extrapyramidal_symptoms#Treatment']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'UBERON:0003956 includes the uveoscleral network as well as other canals for aqueous humor drainage. The uveoscleral network is the structure that seems to be affected by alpha adrenergic agonists, such as brimonidine, specially in long-term treatments (i.e. chronic dosing).', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006939'}, {'key': 'regulates', 'source': 'GO:0006939', 'target': 'UBERON:0003956'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'negatively correlated with', 'source': 'UBERON:0003956', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'UBERON:0003956', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous drainage system'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['mhttps://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance https://en.wikipedia.org/wiki/Ciliary_body#Clinical_significance']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The drug has an anti-inflammatory role which can help with treating some of the signs and symptoms of rosasea.', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D012393_2', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'MESH:D018341'}, {'key': 'participates in', 'source': 'MESH:D018341', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'MESH:D018341', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001041'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0031284'}, {'key': 'positively correlated with', 'source': 'HP:0031284', 'target': 'MESH:D012393'}, {'key': 'positively correlated with', 'source': 'HP:0001041', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'MESH:D018341', 'label': 'GeneFamily', 'name': 'Receptors, Adrenergic, alpha-2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0031284', 'label': 'PhenotypicFeature', 'name': 'Flushing'}, {'id': 'HP:0001041', 'label': 'PhenotypicFeature', 'name': 'Facial erythema'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Rosacea#Medications', 'https://pubmed.ncbi.nlm.nih.gov/26566370/']}\n", + "['Drug', 'GeneFamily', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'UBERON:0003956 includes the uveoscleral network as well as other canals for aqueous humor drainage. The uveoscleral network is the structure that seems to be affected by alpha adrenergic agonists, such as brimonidine, specially in long-term treatments (i.e. chronic dosing).', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D009798_2', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006939'}, {'key': 'regulates', 'source': 'GO:0006939', 'target': 'UBERON:0003956'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}, {'key': 'negatively correlated with', 'source': 'UBERON:0003956', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'UBERON:0003956', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous drainage system'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance', 'https://en.wikipedia.org/wiki/Ciliary_body#Clinical_significance']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D009230_1', 'disease': 'Myxedema', 'disease_mesh': 'MESH:D009230', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'increases abundance of', 'source': 'GO:0070460', 'target': 'CHEBI:18085'}, {'key': 'positively correlated with', 'source': 'CHEBI:18085', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D009230'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'CHEBI:18085', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D009230', 'label': 'Disease', 'name': 'Myxedema'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Myxedema']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D007037_1', 'disease': 'Hypothyroidism', 'disease_mesh': 'MESH:D007037', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0001659'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D007037'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D007037'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature homeostasis'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'MESH:D007037', 'label': 'Disease', 'name': 'Hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Hypothyroidism#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D006042_1', 'disease': 'Goiter', 'disease_mesh': 'MESH:D006042', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006042'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006042', 'label': 'Disease', 'name': 'Goiter'}], 'reference': ['https://en.wikipedia.org/wiki/Goitre#Causes', 'https://www.ncbi.nlm.nih.gov/books/NBK562161/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D003409_1', 'disease': 'Congenital hypothyroidism', 'disease_mesh': 'MESH:D003409', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001508'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001252'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0002045'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001249'}, {'key': 'positively correlated with', 'source': 'HP:0001508', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001249', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001252', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0002045', 'target': 'MESH:D003409'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0001508', 'label': 'PhenotypicFeature', 'name': 'Failure to thrive'}, {'id': 'HP:0001252', 'label': 'PhenotypicFeature', 'name': 'Hypotonia'}, {'id': 'HP:0002045', 'label': 'PhenotypicFeature', 'name': 'Hypothermia'}, {'id': 'HP:0001249', 'label': 'PhenotypicFeature', 'name': 'Intellectual disability'}, {'id': 'MESH:D003409', 'label': 'Disease', 'name': 'Congenital hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Congenital_hypothyroidism#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D006043_1', 'disease': 'Simple goiter', 'disease_mesh': 'MESH:D006043', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006043', 'label': 'Disease', 'name': 'Simple goiter'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Goitre#Causes', 'https://www.ncbi.nlm.nih.gov/books/NBK562161/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Travoprost, an isopropyl ester prodrug,that is rapidly hydrolyzed by esterases in the cornea to its biologically active free acid.', 'directed': True, 'graph': {'_id': 'DB00287_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Travoprost', 'drug_mesh': 'MESH:D000069557', 'drugbank': 'DB:DB00287'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069557', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069557', 'label': 'Drug', 'name': 'Travoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/', 'https://go.drugbank.com/drugs/DB00287']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Travoprost, an isopropyl ester prodrug,that is rapidly hydrolyzed by esterases in the cornea to its biologically active free acid.', 'directed': True, 'graph': {'_id': 'DB00287_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Travoprost', 'drug_mesh': 'MESH:D000069557', 'drugbank': 'DB:DB00287'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069557', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'affects risk for', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069557', 'label': 'Drug', 'name': 'Travoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/', 'https://go.drugbank.com/drugs/DB00287']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00868_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'Benzonatate', 'drug_mesh': 'MESH:C029755', 'drugbank': 'DB:DB00868'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C029755', 'target': 'GO:0072347'}, {'key': 'negatively correlated with', 'source': 'GO:0072347', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C029755', 'label': 'Drug', 'name': 'Benzonatate'}, {'id': 'GO:0072347', 'label': 'BiologicalProcess', 'name': 'Response to anesthetic'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB00868', 'https://en.wikipedia.org/wiki/Benzonatate']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D002761_1', 'disease': 'Cholangitis', 'disease_mesh': 'MESH:D002761', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D002761'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D002761', 'label': 'Disease', 'name': 'Cholangitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01327', 'https://en.wikipedia.org/wiki/Ascending_cholangitis']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01327', 'https://en.wikipedia.org/wiki/Infective_endocarditis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06243_MESH_D014353_1', 'disease': 'African trypanosomiasis', 'disease_mesh': 'MESH:D014353', 'drug': 'Eflornithine', 'drug_mesh': 'MESH:D000518', 'drugbank': 'DB:DB06243'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000518', 'target': 'UniProt:P11926'}, {'key': 'positively regulates', 'source': 'UniProt:P11926', 'target': 'GO:0033387'}, {'key': 'positively correlated with', 'source': 'GO:0033387', 'target': 'CHEBI:35490'}, {'key': 'positively regulates', 'source': 'CHEBI:35490', 'target': 'GO:0045454'}, {'key': 'in taxon', 'source': 'GO:0045454', 'target': 'NCBITaxon:5691'}, {'key': 'causes', 'source': 'NCBITaxon:5691', 'target': 'MESH:D014353'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000518', 'label': 'Drug', 'name': 'Eflornithine'}, {'id': 'UniProt:P11926', 'label': 'Protein', 'name': 'Ornithine decarboxylase'}, {'id': 'GO:0033387', 'label': 'BiologicalProcess', 'name': 'Putrescine biosynthetic process from ornithine'}, {'id': 'CHEBI:35490', 'label': 'ChemicalSubstance', 'name': 'Trypanothione disulfide'}, {'id': 'GO:0045454', 'label': 'BiologicalProcess', 'name': 'Cell redox homeostasis'}, {'id': 'NCBITaxon:5691', 'label': 'OrganismTaxon', 'name': 'Trypanosoma brucei'}, {'id': 'MESH:D014353', 'label': 'Disease', 'name': 'African trypanosomiasis'}], 'reference': ['https://www.sciencedirect.com/topics/pharmacology-toxicology-and-pharmaceutical-science/eflornithine#:~:text=Eflornithine%20acts%20as%20an%20irreversible,to%20block%20reactive%20oxygen%20intermediates', 'https://go.drugbank.com/drugs/DB06243']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Plerixafor is used in combination with granulocyte-colony stimulating factor (G-CSF, filgrastim) to mobilize hematopoietic stem cells to the peripheral blood for collection and subsequent autologous transplantation in patients with multiple myeloma.', 'directed': True, 'graph': {'_id': 'DB06809_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Plerixafor', 'drug_mesh': 'MESH:C088327', 'drugbank': 'DB:DB06809'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C088327', 'target': 'UniProt:P61073'}, {'key': 'negatively correlated with', 'source': 'UniProt:P61073', 'target': 'GO:0035701'}, {'key': 'increases abundance of', 'source': 'GO:0035701', 'target': 'CL:0000037'}, {'key': 'treats', 'source': 'CL:0000037', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C088327', 'label': 'Drug', 'name': 'Plerixafor'}, {'id': 'UniProt:P61073', 'label': 'Protein', 'name': 'C-X-C chemokine receptor type 4'}, {'id': 'GO:0035701', 'label': 'BiologicalProcess', 'name': 'Hematopoietic stem cell migration'}, {'id': 'CL:0000037', 'label': 'Cell', 'name': 'Hematopoietic stem cell'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://en.wikipedia.org/wiki/Plerixafor#Pharmacology', 'https://go.drugbank.com/drugs/DB06809', 'https://pubmed.ncbi.nlm.nih.gov/17640590/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C026329', 'target': 'MESH:D011188'}, {'key': 'negatively correlated with', 'source': 'MESH:D011188', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D011188', 'label': 'ChemicalSubstance', 'name': 'Potassium'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11098', 'https://en.wikipedia.org/wiki/Hypokalemia']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively regulates', 'source': 'MESH:D005744', 'target': 'InterPro:IPR034162'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR034162', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin catalytic domain'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", + "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006996_2', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006947_1', 'disease': 'Hyperkalemia', 'disease_mesh': 'MESH:D006947', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006947'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006947', 'label': 'Disease', 'name': 'Hyperkalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D011618_1', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 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['https://go.drugbank.com/drugs/DB00477']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00477', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6478116/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D019958_1', 'disease': 'Disruptive behavior disorder', 'disease_mesh': 'MESH:D019958', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D019958'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D019958', 'label': 'Disease', 'name': 'Disruptive behavior disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00477']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00773_MESH_D013736_1', 'disease': 'Malignant tumor of testis', 'disease_mesh': 'MESH:D013736', 'drug': 'etoposide', 'drug_mesh': 'MESH:D005047', 'drugbank': 'DB:DB00773'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005047', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0003916'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000084'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000085'}, {'key': 'positively correlated with', 'source': 'GO:0000084', 'target': 'GO:0007049'}, {'key': 'positively correlated with', 'source': 'GO:0000085', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D013736'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005047', 'label': 'Drug', 'name': 'etoposide'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0003916', 'label': 'MolecularActivity', 'name': 'DNA topoisomerase activity'}, {'id': 'GO:0000084', 'label': 'BiologicalProcess', 'name': 'mitotic S phase'}, {'id': 'GO:0000085', 'label': 'BiologicalProcess', 'name': 'mitotic G2 phase'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'cell cycle'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D013736', 'label': 'Disease', 'name': 'Malignant tumor of testis'}], 'reference': ['https://go.drugbank.com/drugs/DB00773', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4652635/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00773_MESH_D055752_1', 'disease': 'Small cell carcinoma of lung', 'disease_mesh': 'MESH:D055752', 'drug': 'etoposide', 'drug_mesh': 'MESH:D005047', 'drugbank': 'DB:DB00773'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005047', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0003916'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000084'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000085'}, {'key': 'positively correlated with', 'source': 'GO:0000084', 'target': 'GO:0007049'}, {'key': 'positively correlated with', 'source': 'GO:0000085', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D055752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005047', 'label': 'Drug', 'name': 'etoposide'}, {'id': 'UniProt:P11388', 'label': 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'source': 'MESH:D016049', 'target': 'MESH:C037773'}, {'key': 'decreases activity of', 'source': 'MESH:C037773', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016049', 'label': 'Drug', 'name': 'didanosine'}, {'id': 'MESH:C037773', 'label': 'ChemicalSubstance', 'name': 'dideoxyadenosine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00900#BE0004136']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D000080223_1', 'disease': 'Chronic idiopathic urticaria', 'disease_mesh': 'MESH:D000080223', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000080223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000080223', 'label': 'Disease', 'name': 'Chronic idiopathic urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6751347/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06663_MESH_D000308_1', 'disease': 'Hypercortisolism', 'disease_mesh': 'MESH:D000308', 'drug': 'pasireotide', 'drug_mesh': 'MESH:C517782', 'drugbank': 'DB:DB06663'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P30872'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P30874'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P32745'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P35346'}, {'key': 'participates in', 'source': 'UniProt:P30872', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P30874', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P32745', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P35346', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'GO:0051460', 'target': 'GO:0051463'}, {'key': 'decreases abundance of', 'source': 'GO:0051463', 'target': 'CHEBI:17650'}, {'key': 'positively correlated with', 'source': 'CHEBI:17650', 'target': 'MESH:D000308'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C517782', 'label': 'Drug', 'name': 'pasireotide'}, {'id': 'UniProt:P30872', 'label': 'Protein', 'name': 'Somatostatin receptor type 1'}, {'id': 'UniProt:P30874', 'label': 'Protein', 'name': 'Somatostatin receptor type 2'}, {'id': 'UniProt:P32745', 'label': 'Protein', 'name': 'Somatostatin receptor type 3'}, {'id': 'UniProt:P35346', 'label': 'Protein', 'name': 'Somatostatin receptor type 5'}, {'id': 'GO:0051460', 'label': 'BiologicalProcess', 'name': 'negative regulation of corticotropin secretion'}, {'id': 'GO:0051463', 'label': 'BiologicalProcess', 'name': 'negative regulation of cortisol secretion'}, {'id': 'CHEBI:17650', 'label': 'ChemicalSubstance', 'name': 'cortisol'}, {'id': 'MESH:D000308', 'label': 'Disease', 'name': 'Hypercortisolism'}], 'reference': ['https://go.drugbank.com/drugs/DB06663', 'https://pubmed.ncbi.nlm.nih.gov/23462624/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08889_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'carfilzomib', 'drug_mesh': 'MESH:C524865, MESH:C519125', 'drugbank': 'DB:DB08889'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28062'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28065'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P49721'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P40306'}, {'key': 'located in', 'source': 'UniProt:P28074', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P28062', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P20618', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P28065', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P49721', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P40306', 'target': 'GO:0005839'}, {'key': 'positively correlated with', 'source': 'GO:0005839', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08889', 'label': 'Drug', 'name': 'carfilzomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P28062', 'label': 'Protein', 'name': 'Proteasome subunit beta type-8'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'UniProt:P28065', 'label': 'Protein', 'name': 'Proteasome subunit beta type-9'}, {'id': 'UniProt:P49721', 'label': 'Protein', 'name': 'Proteasome subunit beta type-2'}, {'id': 'UniProt:P40306', 'label': 'Protein', 'name': 'Proteasome subunit beta type-10'}, {'id': 'GO:0005839', 'label': 'CellularComponent', 'name': 'proteosome core complex'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://go.drugbank.com/drugs/DB08889', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4849338/']}\n", + "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08899_MESH_D011471_1', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'enzalutamide', 'drug_mesh': 'MESH:C540278', 'drugbank': 'DB:DB08899'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C540278', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0006351'}, {'key': 'precedes', 'source': 'GO:0006351', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C540278', 'label': 'Drug', 'name': 'enzalutamide'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'androgen receptor signaling pathway'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB08899#BE0000132', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3721441/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D009203_1', 'disease': 'Myocardial infarction', 'disease_mesh': 'MESH:D009203', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'decreases abundance of', 'source': 'GO:0001516', 'target': 'MESH:D013928'}, {'key': 'decreases activity of', 'source': 'MESH:D013928', 'target': 'GO:0070527'}, {'key': 'prevents', 'source': 'GO:0070527', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D009203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood clotting'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'MESH:D009203', 'label': 'Disease', 'name': 'Myocardial infarction'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D010146_2', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D014098_1', 'disease': 'Toothache', 'disease_mesh': 'MESH:D014098', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D014098'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D014098', 'label': 'Disease', 'name': 'Toothache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D020773_1', 'disease': 'Headache', 'disease_mesh': 'MESH:D020773', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0003418'}, {'key': 'correlated with', 'source': 'HP:0003418', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0003418', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D018771_1', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'ameliorates', 'source': 'MESH:D019587', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D005494_1', 'disease': 'Folic acid deficiency', 'disease_mesh': 'MESH:D005494', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'positively regulates', 'source': 'MESH:D019587', 'target': 'UniProt:Q99707'}, {'key': 'regulates', 'source': 'UniProt:Q99707', 'target': 'MESH:D006710'}, {'key': 'manifestation of', 'source': 'MESH:D006710', 'target': 'MESH:D005494'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'Methionine synthase'}, {'id': 'MESH:D006710', 'label': 'ChemicalSubstance', 'name': 'Homocysteine'}, {'id': 'MESH:D005494', 'label': 'Disease', 'name': 'Folic acid deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D018798_1', 'disease': 'Iron deficiency anemia', 'disease_mesh': 'MESH:D018798', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'increases activity of', 'source': 'MESH:D019587', 'target': 'GO:0071897'}, {'key': 'positively regulates', 'source': 'GO:0071897', 'target': 'HP:0010972'}, {'key': 'produces', 'source': 'HP:0010972', 'target': 'CL:0000232'}, {'key': 'manifestation of', 'source': 'CL:0000232', 'target': 'MESH:D018798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'HP:0010972', 'label': 'PhenotypicFeature', 'name': 'Erythropoiesis'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'Red blood cells'}, {'id': 'MESH:D018798', 'label': 'Disease', 'name': 'Iron deficiency anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00049_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'Rasburicase', 'drug_mesh': 'MESH:C469709', 'drugbank': 'DB:DB00049'}, 'links': [{'key': 'increases metabolic processing of', 'source': 'MESH:C469709', 'target': 'MESH:D014527'}, {'key': 'causes', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C469709', 'label': 'Drug', 'name': 'Rasburicase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'Uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00049#mechanismofaction', 'https://en.wikipedia.org/wiki/Rasburicase']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Thioguanine also referred to as 6-thioguanine and as tioguanine', 'directed': True, 'graph': {'_id': 'DB00352_MESH_D015470_1', 'disease': 'Acute myeloid leukemia', 'disease_mesh': 'MESH:D015470', 'drug': 'Thioguanine', 'drug_mesh': 'MESH:D013866', 'drugbank': 'DB:DB00352'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D013866', 'target': 'CHEBI:80613'}, {'key': 'decreases activity of', 'source': 'CHEBI:80613', 'target': 'UniProt:Q06203'}, {'key': 'decreases activity of', 'source': 'MESH:D013866', 'target': 'InterPro:IPR001093'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001093', 'target': 'GO:0046099'}, {'key': 'prevents', 'source': 'GO:0006164', 'target': 'GO:0032774'}, {'key': 'prevents', 'source': 'GO:0046099', 'target': 'GO:0032774'}, {'key': 'precedes', 'source': 'GO:0032774', 'target': 'GO:0008219'}, {'key': 'prevents', 'source': 'GO:0046099', 'target': 'GO:0071897'}, {'key': 'similar to', 'source': 'MESH:D013866', 'target': 'MESH:D006147'}, {'key': 'participates in', 'source': 'MESH:D006147', 'target': 'GO:0071897'}, {'key': 'participates in', 'source': 'MESH:D006147', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'UniProt:Q06203', 'target': 'GO:0006164'}, {'key': 'prevents', 'source': 'GO:0006164', 'target': 'GO:0071897'}, {'key': 'precedes', 'source': 'GO:0071897', 'target': 'GO:0008219'}, {'key': 'occurs in', 'source': 'GO:0008219', 'target': 'MESH:D015470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013866', 'label': 'Disease', 'name': 'Thioguanine'}, {'id': 'CHEBI:80613', 'label': 'ChemicalSubstance', 'name': '6-thioguanilyic acid'}, {'id': 'UniProt:Q06203', 'label': 'Protein', 'name': 'Glutamine-5-phosphoribosylpyrophosphate amidotransferase'}, {'id': 'GO:0006164', 'label': 'BiologicalProcess', 'name': 'Purine biosynthesis'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'InterPro:IPR001093', 'label': 'GeneFamily', 'name': 'Inosine-5′-monophosphate dehydrogenase'}, {'id': 'MESH:D006147', 'label': 'ChemicalSubstance', 'name': 'Guanine'}, {'id': 'GO:0046099', 'label': 'BiologicalProcess', 'name': 'Guanine synthesis'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D015470', 'label': 'Disease', 'name': 'Acute myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00352#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Thioguanine#section=Pharmacology', 'https://en.wikipedia.org/wiki/Tioguanine#Mechanism_of_action']}\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D005076_1', 'disease': 'Eruption of skin', 'disease_mesh': 'MESH:D005076', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D005076'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D005076', 'label': 'Disease', 'name': 'Eruption of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00610_MESH_D007022_1', 'disease': 'Low blood pressure', 'disease_mesh': 'MESH:D007022', 'drug': 'metaraminol', 'drug_mesh': 'MESH:D008680', 'drugbank': 'DB:DB00610'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008680', 'target': 'UniProt:P35348'}, {'key': 'positively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0060048'}, {'key': 'negatively correlated with', 'source': 'GO:0060048', 'target': 'MESH:D007022'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D007022'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008680', 'label': 'Drug', 'name': 'metaraminol'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'cardiac muscle contraction'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D007022', 'label': 'Disease', 'name': 'Low blood pressure'}], 'reference': ['https://go.drugbank.com/drugs/DB00610#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D015863_1', 'disease': 'Iridocyclitis', 'disease_mesh': 'MESH:D015863', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D015863'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D015863', 'label': 'Disease', 'name': 'Iridocyclitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia sp.'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Efficacy']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014848_1', 'disease': 'Vulvovaginitis', 'disease_mesh': 'MESH:D014848', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D014848'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D014848', 'label': 'Disease', 'name': 'Vulvovaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vaginitis#Infection', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'This disease is denoted as Chlamydial conjunctivitis in the original file.', 'directed': True, 'graph': {'_id': 'DB00634_MESH_D003235_1', 'disease': 'Conjunctivitis, Inclusion', 'disease_mesh': 'MESH:D003235', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D003235'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D003235', 'label': 'Disease', 'name': 'Conjunctivitis, Inclusion'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chlamydia_trachomatis#Role_in_disease', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014141_1', 'disease': 'Trachoma', 'disease_mesh': 'MESH:D014141', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D014141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D014141', 'label': 'Disease', 'name': 'Trachoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00710_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'ibandronic acid', 'drug_mesh': 'MESH:C073007', 'drugbank': 'DB:DB00710'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:P14324'}, {'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:O95749'}, {'key': 'molecularly interacts with', 'source': 'MESH:C073007', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'positively correlated with', 'source': 'UniProt:P14324', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'UniProt:O95749', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'GO:0008299', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073007', 'label': 'Drug', 'name': 'ibandronic acid'}, {'id': 'UniProt:P14324', 'label': 'Protein', 'name': 'Farnesyl pyrophosphate synthase'}, {'id': 'UniProt:O95749', 'label': 'Protein', 'name': 'Geranylgeranyl pyrophosphate synthase'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'GO:0008299', 'label': 'BiologicalProcess', 'name': 'isoprenoid biosynthetic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00710#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/60852#section=Pharmacology', 'https://journals.sagepub.com/doi/10.4137/BTRI.S36138', 'https://pubmed.ncbi.nlm.nih.gov/16531132/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00710_MESH_D006934_1', 'disease': 'Hypercalcemia', 'disease_mesh': 'MESH:D006934', 'drug': 'ibandronic acid', 'drug_mesh': 'MESH:C073007', 'drugbank': 'DB:DB00710'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:P14324'}, {'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:O95749'}, {'key': 'molecularly interacts with', 'source': 'MESH:C073007', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'positively correlated with', 'source': 'UniProt:P14324', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'UniProt:O95749', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'GO:0008299', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D006934'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D006934'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D006934'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073007', 'label': 'Drug', 'name': 'ibandronic acid'}, {'id': 'UniProt:P14324', 'label': 'Protein', 'name': 'Farnesyl pyrophosphate synthase'}, {'id': 'UniProt:O95749', 'label': 'Protein', 'name': 'Geranylgeranyl pyrophosphate synthase'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'GO:0008299', 'label': 'BiologicalProcess', 'name': 'isoprenoid biosynthetic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'MESH:D006934', 'label': 'Disease', 'name': 'Hypercalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00710#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/60852#section=Pharmacology', 'https://en.wikipedia.org/wiki/Hypercalcaemia#Bisphosphonates_and_calcitonin', 'https://journals.sagepub.com/doi/10.4137/BTRI.S36138', 'https://pubmed.ncbi.nlm.nih.gov/16531132/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00754_MESH_D004830_1', 'disease': 'Epilepsy, Tonic-Clonic', 'disease_mesh': 'MESH:D004830', 'drug': 'ethotoin', 'drug_mesh': 'MESH:C084606', 'drugbank': 'DB:DB00754'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C084606', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0019227'}, {'key': 'positively correlated with', 'source': 'GO:0019227', 'target': 'HP:0002069'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'HP:0002069'}, {'key': 'positively correlated with', 'source': 'HP:0002069', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084606', 'label': 'Drug', 'name': 'ethotoin'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'neuronal action potential propagation'}, {'id': 'HP:0002069', 'label': 'PhenotypicFeature', 'name': 'Bilateral tonic-clonic seizure'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Epilepsy, Tonic-Clonic'}], 'reference': ['https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL2331043/', 'https://en.wikipedia.org/wiki/Ethotoin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Phenytoin#Mechanism_of_action']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00827_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'cinoxacin', 'drug_mesh': 'MESH:D002937', 'drugbank': 'DB:DB00827'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002937', 'target': 'UniProt:P0AES4'}, {'key': 'positively regulates', 'source': 'UniProt:P0AES4', 'target': 'GO:0006261'}, {'key': 'precedes', 'source': 'GO:0006261', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002937', 'label': 'Drug', 'name': 'cinoxacin'}, {'id': 'UniProt:P0AES4', 'label': 'Protein', 'name': 'DNA gyrase subunit A'}, {'id': 'GO:0006261', 'label': 'BiologicalProcess', 'name': 'DNA-dependent DNA replication'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00827#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'The drug is no longer FDA approved (https://en.wikipedia.org/wiki/Tocolytic#Types_of_agents).', 'directed': True, 'graph': {'_id': 'DB00867_MESH_D007752_1', 'disease': 'Premature labor', 'disease_mesh': 'MESH:D007752', 'drug': 'ritodrine', 'drug_mesh': 'MESH:D012312', 'drugbank': 'DB:DB00867'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D012312', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0044558'}, {'key': 'negatively correlated with', 'source': 'GO:0044558', 'target': 'MESH:D007752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012312', 'label': 'Drug', 'name': 'ritodrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0044558', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle relaxation'}, {'id': 'MESH:D007752', 'label': 'Disease', 'name': 'Premature labor'}], 'reference': ['https://go.drugbank.com/drugs/DB00867#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ritodrine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04920_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'clevidipine', 'drug_mesh': 'MESH:C118563', 'drugbank': 'DB:DB04920'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C118563', 'target': 'MESH:D020746'}, {'key': 'positively regulates', 'source': 'MESH:D020746', 'target': 'GO:0006816'}, {'key': 'positively regulates', 'source': 'GO:0006816', 'target': 'GO:0014829'}, {'key': 'contributes to', 'source': 'GO:0014829', 'target': 'MESH:D014655'}, {'key': 'positively correlated with', 'source': 'MESH:D014655', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C118563', 'label': 'Drug', 'name': 'clevidipine'}, {'id': 'MESH:D020746', 'label': 'GeneFamily', 'name': 'Calcium Channels, L-Type'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular associated smooth muscle contraction'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'calcium ion transport'}, {'id': 'MESH:D014655', 'label': 'BiologicalProcess', 'name': 'Vascular Resistance'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04920#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clevidipine#Basic_chemical_and_pharmacological_properties']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06636_MESH_D001228_1', 'disease': 'Aspergillosis', 'disease_mesh': 'MESH:D001228', 'drug': 'isavuconazonium', 'drug_mesh': 'MESH:C508735', 'drugbank': 'DB:DB06636'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C508735', 'target': 'Pfam:PF00067'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0008398'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0006696'}, {'key': 'positively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16933'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'negatively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16521'}, {'key': 'decreases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16521'}, {'key': 'negatively correlated with', 'source': 'CHEBI:16521', 'target': 'GO:0009277'}, {'key': 'contributes to', 'source': 'CHEBI:16933', 'target': 'GO:0009277'}, {'key': 'in taxon', 'source': 'GO:0009277', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D001228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C508735', 'label': 'Drug', 'name': 'isavuconazonium'}, {'id': 'Pfam:PF00067', 'label': 'GeneFamily', 'name': 'Cytochrome P450'}, {'id': 'GO:0008398', 'label': 'MolecularActivity', 'name': 'sterol 14-demethylase activity'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'CHEBI:16521', 'label': 'ChemicalSubstance', 'name': 'lanosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'fungal-type cell wall'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus sp.'}, {'id': 'MESH:D001228', 'label': 'Disease', 'name': 'Aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06636#mechanism-of-action', 'https://en.wikipedia.org/wiki/Isavuconazonium#Pharmacology']}\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06636_MESH_D009091_1', 'disease': 'Mucormycosis', 'disease_mesh': 'MESH:D009091', 'drug': 'isavuconazonium', 'drug_mesh': 'MESH:C508735', 'drugbank': 'DB:DB06636'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C508735', 'target': 'Pfam:PF00067'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0008398'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0006696'}, {'key': 'positively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16933'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'negatively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16521'}, {'key': 'decreases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16521'}, {'key': 'negatively correlated with', 'source': 'CHEBI:16521', 'target': 'GO:0009277'}, {'key': 'contributes to', 'source': 'CHEBI:16933', 'target': 'GO:0009277'}, {'key': 'in taxon', 'source': 'GO:0009277', 'target': 'NCBITaxon:4827'}, {'key': 'causes', 'source': 'NCBITaxon:4827', 'target': 'MESH:D009091'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C508735', 'label': 'Drug', 'name': 'isavuconazonium'}, {'id': 'Pfam:PF00067', 'label': 'GeneFamily', 'name': 'Cytochrome P450'}, {'id': 'GO:0008398', 'label': 'MolecularActivity', 'name': 'sterol 14-demethylase activity'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'CHEBI:16521', 'label': 'ChemicalSubstance', 'name': 'lanosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'fungal-type cell wall'}, {'id': 'NCBITaxon:4827', 'label': 'OrganismTaxon', 'name': 'Mucorales'}, {'id': 'MESH:D009091', 'label': 'Disease', 'name': 'Mucormycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06636#mechanism-of-action', 'https://en.wikipedia.org/wiki/Isavuconazonium#Pharmacology', 'https://en.wikipedia.org/wiki/Mucormycosis#Treatment']}\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09265_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'lixisenatide', 'drug_mesh': 'MESH:C479460', 'drugbank': 'DB:DB09265'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C479460', 'target': 'UniProt:P43220'}, {'key': 'participates in', 'source': 'UniProt:P43220', 'target': 'REACT:R-HSA-381676'}, {'key': 'participates in', 'source': 'UniProt:P43220', 'target': 'REACT:R-HSA-418555'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0014808'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-381676', 'target': 'GO:0014808'}, {'key': 'positively correlated with', 'source': 'GO:0014808', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C479460', 'label': 'Drug', 'name': 'lixisenatide'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'REACT:R-HSA-381676', 'label': 'Pathway', 'name': 'Glucagon-like Peptide-1 (GLP1) regulates insulin secretion'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0014808', 'label': 'BiologicalProcess', 'name': 'release of sequestered calcium ion into cytosol by sarcoplasmic reticulum'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09265', 'https://en.wikipedia.org/wiki/Lixisenatide#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glucagon-like_peptide-1_receptor#Function_and_therapeutic_potential']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'There seems to be no evidence linking sulfacetamide as treatment for Amebic infection. Sulfacetamide is an antibacterial type of drug (https://www.kegg.jp/entry/D05947) and it seems the drug has some anti-inflammatory role. Since the disease could lead to inflammation and ulceration of the colon perhaps there could be an anti-inflammation hypothesis but the drug is mainly available as eye drops and lotions (https://en.wikipedia.org/wiki/Sulfacetamide#Available_forms), and therefore unavailable to treat the intestinal tract in such formats. Note there are few amoeba species that may cause skin or eye issues (https://en.wikipedia.org/wiki/Acanthamoeba_keratitis), in which case sulfacetamide could potentially be an indication, albeit no evidence to prove this assumption has been found in databases or literature.', 'directed': True, 'graph': {'_id': 'DB00634_MESH_D000562_1', 'disease': 'Amebic infection', 'disease_mesh': 'MESH:D000562', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013409', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebic infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The action of the drug on 5-HT2 receptors is of an inverse agonist (https://en.wikipedia.org/wiki/Inverse_agonist). The dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910)(https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy).', 'directed': True, 'graph': {'_id': 'DB08922_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'perospirone', 'drug_mesh': 'MESH:C065533', 'drugbank': 'DB:DB08922'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P08908'}, {'key': 'decreases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P28223'}, {'key': 'negatively correlated with', 'source': 'UniProt:P08908', 'target': 'HP:0000739'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014047'}, {'key': 'positively correlated with', 'source': 'GO:0014047', 'target': 'GO:0004952'}, {'key': 'positively correlated with', 'source': 'GO:0004952', 'target': 'HP:0000709'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000709'}, {'key': 'positively correlated with', 'source': 'HP:0000709', 'target': 'MESH:D012559'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0009834'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0100543'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0030213'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0012154'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0002465'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0000741'}, {'key': 'manifestation of', 'source': 'HP:0100543', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0030213', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0012154', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0002465', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0000741', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0000739', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065533', 'label': 'Drug', 'name': 'perospirone'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'GO:0014047', 'label': 'BiologicalProcess', 'name': 'glutamate secretion'}, {'id': 'GO:0004952', 'label': 'MolecularActivity', 'name': 'dopamine neurotransmitter receptor activity'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0009834', 'label': 'GrossAnatomicalStructure', 'name': 'dorsolateral prefrontal cortex'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0100543', 'label': 'PhenotypicFeature', 'name': 'Cognitive impairment'}, {'id': 'HP:0030213', 'label': 'PhenotypicFeature', 'name': 'Emotional blunting'}, {'id': 'HP:0012154', 'label': 'PhenotypicFeature', 'name': 'Anhedonia'}, {'id': 'HP:0002465', 'label': 'PhenotypicFeature', 'name': 'Poor speech'}, {'id': 'HP:0000741', 'label': 'PhenotypicFeature', 'name': 'Apathy'}, {'id': 'HP:0000709', 'label': 'PhenotypicFeature', 'name': 'Psychosis'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB08922#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders', 'https://en.wikipedia.org/wiki/Schizophrenia#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Dopaminergic_pathways#Pathways', 'https://en.wikipedia.org/wiki/Mesocortical_pathway', 'https://en.wikipedia.org/wiki/Dopamine_hypothesis_of_schizophrenia#Introduction', 'https://en.wikipedia.org/wiki/Atypical_antipsychotic#Pharmacology', 'https://en.wikipedia.org/wiki/5-HT1A_receptor#Function']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'MolecularActivity', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00180_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Flunisolide', 'drug_mesh': 'MESH:C007734', 'drugbank': 'DB:DB00180'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007734', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006939', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007734', 'label': 'Drug', 'name': 'Flunisolide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00180', 'https://en.wikipedia.org/wiki/Leukotriene', 'https://en.wikipedia.org/wiki/Asthma']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00180_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Flunisolide', 'drug_mesh': 'MESH:C007734', 'drugbank': 'DB:DB00180'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007734', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0070254'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0070254', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007734', 'label': 'Drug', 'name': 'Flunisolide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'Mucus secretion'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00180', 'https://en.wikipedia.org/wiki/Leukotriene', 'https://en.wikipedia.org/wiki/Allergic_rhinitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The precise mechanism of action of ropinirole as a treatment for Restless Legs Syndrome is unknown, however, it is believed to be related to its ability to stimulate dopamine receptors', 'directed': True, 'graph': {'_id': 'DB00268_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Ropinirole', 'drug_mesh': 'MESH:C046649', 'drugbank': 'DB:DB00268'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046649', 'label': 'Drug', 'name': 'Ropinirole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00268', 'https://en.wikipedia.org/wiki/Restless_legs_syndrome#Mechanism']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00268_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Ropinirole', 'drug_mesh': 'MESH:C046649', 'drugbank': 'DB:DB00268'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'disrupted by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046649', 'label': 'Drug', 'name': 'Ropinirole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'Dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'Nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00268', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00654_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Latanoprost', 'drug_mesh': 'MESH:C072042', 'drugbank': 'DB:DB00654'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C072042', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072042', 'label': 'Drug', 'name': 'Latanoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00654', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00654_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Latanoprost', 'drug_mesh': 'MESH:C072042', 'drugbank': 'DB:DB00654'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C072042', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'affects risk for', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072042', 'label': 'Drug', 'name': 'Latanoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00654', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00714_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Apomorphine', 'drug_mesh': 'MESH:D001058', 'drugbank': 'DB:DB00714'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'disrupted by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001058', 'label': 'Drug', 'name': 'Apomorphine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'Dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'Nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00714', 'https://en.wikipedia.org/wiki/Apomorphine#Pharmacology']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D003550_1', 'disease': 'Cystic fibrosis', 'disease_mesh': 'MESH:D003550', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'positively regulates', 'source': 'GO:0006972', 'target': 'GO:0120197'}, {'key': 'negatively correlated with', 'source': 'GO:0120197', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'GO:0120197', 'label': 'BiologicalProcess', 'name': 'Mucociliary clearance'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00742', 'https://en.wikipedia.org/wiki/Cystic_fibrosis#Pathophysiology']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D011559_1', 'disease': 'Benign intracranial hypertension', 'disease_mesh': 'MESH:D011559', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D011559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D011559', 'label': 'Disease', 'name': 'Benign intracranial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D001929_1', 'disease': 'Cerebral edema', 'disease_mesh': 'MESH:D001929', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D001929'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D001929', 'label': 'Disease', 'name': 'Cerebral edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00745_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'Modafinil', 'drug_mesh': 'MESH:C048833', 'drugbank': 'DB:DB00745'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C048833', 'target': 'UniProt:Q01959'}, {'key': 'increases abundance of', 'source': 'MESH:C048833', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:C048833', 'target': 'UniProt:O43612'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q01959', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D006632', 'target': 'GO:0042746'}, {'key': 'positively correlated with', 'source': 'UniProt:O43612', 'target': 'GO:0042746'}, {'key': 'negatively correlated with', 'source': 'GO:0042746', 'target': 'MESH:D009290'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C048833', 'label': 'Drug', 'name': 'Modafinil'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:O43612', 'label': 'Protein', 'name': 'Orexin'}, {'id': 'GO:0042746', 'label': 'BiologicalProcess', 'name': 'Circadian sleep/wake cycle, wakefulness'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Narcolepsy'}], 'reference': ['https://en.wikipedia.org/wiki/Modafinil#Pharmacology', 'https://go.drugbank.com/drugs/DB00745', 'https://pubmed.ncbi.nlm.nih.gov/29616340/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04931_MESH_D046351_2', 'disease': 'Erythropoietic protoporphyria', 'disease_mesh': 'MESH:D046351', 'drug': 'Afamelanotide', 'drug_mesh': 'MESH:C534526', 'drugbank': 'DB:DB04931'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C534526', 'target': 'UniProt:Q01726'}, {'key': 'participates in', 'source': 'UniProt:Q01726', 'target': 'GO:0004977'}, {'key': 'positively regulates', 'source': 'GO:0004977', 'target': 'GO:0042438'}, {'key': 'positively correlated with', 'source': 'GO:0042438', 'target': 'GO:0009650'}, {'key': 'negatively correlated with', 'source': 'GO:0009650', 'target': 'HP:0000992'}, {'key': 'manifestation of', 'source': 'HP:0000992', 'target': 'MESH:D046351'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C534526', 'label': 'Drug', 'name': 'Afamelanotide'}, {'id': 'UniProt:Q01726', 'label': 'Protein', 'name': 'Melanocyte-stimulating hormone receptor'}, {'id': 'GO:0004977', 'label': 'MolecularActivity', 'name': 'Melanocortin receptor activity'}, {'id': 'GO:0042438', 'label': 'BiologicalProcess', 'name': 'Melanin biosynthetic process'}, {'id': 'GO:0009650', 'label': 'BiologicalProcess', 'name': 'UV protection'}, {'id': 'HP:0000992', 'label': 'PhenotypicFeature', 'name': 'Cutaneous photosensitivity'}, {'id': 'MESH:D046351', 'label': 'Drug', 'name': 'Erythropoietic protoporphyria'}], 'reference': ['https://go.drugbank.com/drugs/DB04931#BE0002447', 'https://en.wikipedia.org/wiki/Erythropoietic_protoporphyria']}\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D018771_1', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D018771_2', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases 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'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'occurs in', 'source': 'MESH:D011453', 'target': 'UBERON:0000955'}, {'key': 'location of', 'source': 'UBERON:0000955', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature Homeostasis'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB08797', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6047205/']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'Nusinersen modulates alternative splicing of the SMN2 gene, functionally converting it into SMN1 gene, thus increasing the level of SMN protein in the CNS.', 'directed': True, 'graph': {'_id': 'DB13161_MESH_D009134_1', 'disease': 'Spinal muscular atrophy', 'disease_mesh': 'MESH:D009134', 'drug': 'Nusinersen', 'drug_mesh': 'MESH:C000590926', 'drugbank': 'DB:DB13161'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C000590926', 'target': 'GO:0000380'}, {'key': 'produces', 'source': 'GO:0000380', 'target': 'UniProt:B4DP61'}, {'key': 'disrupted by', 'source': 'UniProt:B4DP61', 'target': 'MESH:D009134'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000590926', 'label': 'Drug', 'name': 'Nusinersen'}, {'id': 'GO:0000380', 'label': 'BiologicalProcess', 'name': 'Alternative mRNA splicing, via spliceosome'}, {'id': 'UniProt:B4DP61', 'label': 'Protein', 'name': 'Survival motor neuron protein'}, {'id': 'MESH:D009134', 'label': 'Disease', 'name': 'Spinal muscular atrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB13161', 'https://en.wikipedia.org/wiki/Nusinersen']}\n", + "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", + "{'comment': 'Mesalazine is the active moiety of sulfasalazine, which is metabolized to sulfapyridine and mesalazine.', 'directed': True, 'graph': {'_id': 'DB00244_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'Mesalazine', 'drug_mesh': 'MESH:D019804', 'drugbank': 'DB:DB00244'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P09917'}, {'key': 'increases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P37231'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P09917', 'target': 'MESH:D015289'}, {'key': 'negatively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0038061'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015289', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0038061', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019804', 'label': 'Drug', 'name': 'Mesalazine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Polyunsaturated fatty acid 5-lipoxygenase'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D015289', 'label': 'ChemicalSubstance', 'name': 'Leukotrienes'}, {'id': 'GO:0038061', 'label': 'BiologicalProcess', 'name': 'NIK/NF-kappaB signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00244#BE0000248', 'https://link.springer.com/article/10.1186/s13020-020-0296-z', 'https://www.uniprot.org/uniprot/P37231']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00337_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Pimecrolimus', 'drug_mesh': 'MESH:C117268', 'drugbank': 'DB:DB00337'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C117268', 'target': 'UniProt:Q08209'}, {'key': 'negatively regulates', 'source': 'MESH:C117268', 'target': 'GO:0043303'}, {'key': 'positively regulates', 'source': 'UniProt:Q08209', 'target': 'GO:0032623'}, {'key': 'positively correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0032623', 'target': 'GO:0042110'}, {'key': 'positively correlated with', 'source': 'GO:0042110', 'target': 'GO:0006955'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C117268', 'label': 'Drug', 'name': 'Pimecrolimus'}, {'id': 'UniProt:Q08209', 'label': 'Protein', 'name': 'Serine/threonine-protein phosphatase 2B catalytic subunit alpha isoform'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0032623', 'label': 'BiologicalProcess', 'name': 'Interleukin-2 production'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042110', 'label': 'BiologicalProcess', 'name': 'T cell activation'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://en.wikipedia.org/wiki/Pimecrolimus', 'https://go.drugbank.com/drugs/DB00337', 'https://en.wikipedia.org/wiki/Immunosuppressive_drug#Drugs_acting_on_immunophilins']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00705_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Delavirdine', 'drug_mesh': 'MESH:D020008', 'drugbank': 'DB:DB00705'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020008', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0001171'}, {'key': 'positively correlated with', 'source': 'GO:0001171', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020008', 'label': 'Drug', 'name': 'Delavirdine'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0001171', 'label': 'BiologicalProcess', 'name': 'Reverse transcription'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00705']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Phytomenadione promotes calcification of bones and teeth and can be supplemented together with calcium sources in cases of hypocalcemia. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/', 'https://en.wikipedia.org/wiki/Hypocalcemia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Phytomenadione promotes calcification of bones and can be supplemented together with calcium sources in cases of postmenopausal osteoporosis. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Phytomenadione promotes calcification of bones and can be supplemented together with calcium sources in cases of postmenopausal osteoporosis. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Orphenadrine restores the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_1', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01173_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:O15399'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:Q05586'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:O60391'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:Q8TCU5'}, {'key': 'positively correlated with', 'source': 'UniProt:O15399', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:Q05586', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:O60391', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:Q8TCU5', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'UniProt:O15399', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2D'}, {'id': 'UniProt:Q05586', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 1'}, {'id': 'UniProt:O60391', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 3B'}, {'id': 'UniProt:Q8TCU5', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 3A'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, glutamatergic'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01173#BE0000396', 'https://pubmed.ncbi.nlm.nih.gov/1337136/', 'https://en.wikipedia.org/wiki/Orphenadrine']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D004756_1', 'disease': 'Infection due to Enterobacteriaceae', 'disease_mesh': 'MESH:D004756', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D004756'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D004756', 'label': 'Disease', 'name': 'Infection due to Enterobacteriaceae'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06216_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Asenapine', 'drug_mesh': 'MESH:C522667', 'drugbank': 'DB:DB06216'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C522667', 'target': 'UniProt:P28223'}, {'key': 'decreases activity of', 'source': 'MESH:C522667', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'occurs in', 'source': 'HP:0000716', 'target': 'MESH:D012559'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C522667', 'label': 'Drug', 'name': 'Asenapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine receptors'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/27356921/', 'https://go.drugbank.com/drugs/DB06216#BE0000451', 'https://en.wikipedia.org/wiki/5-HT2A_receptor']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06439_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Tyloxapol', 'drug_mesh': 'MESH:C016811', 'drugbank': 'DB:DB06439'}, 'links': [{'key': 'capable of', 'source': 'MESH:C016811', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016811', 'label': 'Drug', 'name': 'Tyloxapol'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06439', 'https://en.wikipedia.org/wiki/Infant_respiratory_distress_syndrome', 'https://en.wikipedia.org/wiki/Tyloxapol']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn. The mechanism of action of aurothioglucose is not well elucidated.', 'directed': True, 'graph': {'_id': 'DB09121_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Aurothioglucose', 'drug_mesh': 'MESH:D006051', 'drugbank': 'DB:DB09121'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006051', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006051', 'label': 'Drug', 'name': 'Aurothioglucose'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09121', 'https://en.wikipedia.org/wiki/Gold_salts#Mechanism_in_arthritis']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn. The mechanism of action of aurothioglucose is not well elucidated.', 'directed': True, 'graph': {'_id': 'DB09121_MESH_D001171_1', 'disease': 'Juvenile rheumatoid arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'Aurothioglucose', 'drug_mesh': 'MESH:D006051', 'drugbank': 'DB:DB09121'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006051', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006051', 'label': 'Drug', 'name': 'Aurothioglucose'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09121', 'https://en.wikipedia.org/wiki/Gold_salts#Mechanism_in_arthritis']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09270_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Ubidecarenone', 'drug_mesh': 'MESH:C010524', 'drugbank': 'DB:DB09270'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010524', 'target': 'UniProt:P56181'}, {'key': 'increases activity of', 'source': 'MESH:C010524', 'target': 'UniProt:P31040'}, {'key': 'positively regulates', 'source': 'UniProt:P56181', 'target': 'GO:0042773'}, {'key': 'positively regulates', 'source': 'UniProt:P31040', 'target': 'GO:0042773'}, {'key': 'increases abundance of', 'source': 'GO:0042773', 'target': 'CHEBI:15422'}, {'key': 'participates in', 'source': 'CHEBI:15422', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010524', 'label': 'Drug', 'name': 'Ubidecarenone'}, {'id': 'UniProt:P56181', 'label': 'Protein', 'name': 'NADH dehydrogenase [ubiquinone] flavoprotein 3, mitochondrial'}, {'id': 'UniProt:P31040', 'label': 'Protein', 'name': 'Succinate dehydrogenase [ubiquinone] flavoprotein subunit, mitochondrial'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'CHEBI:15422', 'label': 'ChemicalSubstance', 'name': 'ATP'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'MESH:D006333', 'label': 'Drug', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB09270#BE0000176']}\n", + "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Anicholinergic drugs restore the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_2', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Orphenadrine works centrally and interferes with reflex pathways for pain and skeletal muscle contraction. The precise mechanism of action of orphenadrine is not known, but it appears to indirectly relieve muscle spasm through central atropine-like effects, although its mild antihistaminic activity may have a role.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D009128_2', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'treats', 'source': 'MESH:D009966', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01173#BE0000396', 'https://pubmed.ncbi.nlm.nih.gov/1864455/', 'https://pubmed.ncbi.nlm.nih.gov/25050056/']}\n", + "['Drug', 'Disease']\n", + "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Muscarinic antagonists restore the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_3', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08808_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'bupranolol', 'drug_mesh': 'MESH:D002046', 'drugbank': 'DB:DB08808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002046', 'target': 'InterPro:cd15058'}, {'key': 'positively regulates', 'source': 'InterPro:cd15058', 'target': 'UBERON:0000013'}, {'key': 'positively correlated with', 'source': 'UBERON:0000013', 'target': 'UBERON:0018229'}, {'key': 'positively correlated with', 'source': 'UBERON:0018229', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002046', 'label': 'Drug', 'name': 'bupranolol'}, {'id': 'InterPro:cd15058', 'label': 'GeneFamily', 'name': 'beta adrenergic receptors (adenoceptors), member of the class A family of seven-transmembrane G protein-coupled receptors'}, {'id': 'UBERON:0000013', 'label': 'GrossAnatomicalStructure', 'name': 'sympathetic nervous system'}, {'id': 'UBERON:0018229', 'label': 'GrossAnatomicalStructure', 'name': 'renin-angiotensin system'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08808#mechanism-of-action', 'https://en.wikipedia.org/wiki/Beta_blocker#%CE%B2-receptor_antagonism']}\n", + "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08808_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'bupranolol', 'drug_mesh': 'MESH:D002046', 'drugbank': 'DB:DB08808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002046', 'target': 'InterPro:cd15058'}, {'key': 'positively correlated with', 'source': 'InterPro:cd15058', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002046', 'label': 'Drug', 'name': 'bupranolol'}, {'id': 'InterPro:cd15058', 'label': 'GeneFamily', 'name': 'beta adrenergic receptors (adenoceptors), member of the class A family of seven-transmembrane G protein-coupled receptors'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08808#mechanism-of-action']}\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Disease is also known as Infection by Onchocerca volvulus as per the original file.', 'directed': True, 'graph': {'_id': 'DB00602_MESH_D009855_2', 'disease': 'Onchocerciasis', 'disease_mesh': 'MESH:D009855', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'positively regulates', 'source': 'InterPro:IPR015680', 'target': 'GO:0005254'}, {'key': 'positively correlated with', 'source': 'GO:0005254', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099565'}, {'key': 'in taxon', 'source': 'GO:0099565', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'Glutamate-Gated Chloride Channel'}, {'id': 'GO:0005254', 'label': 'MolecularActivity', 'name': 'chloride channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0099565', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission, postsynaptic'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Onchocerciasis'}], 'reference': ['https://en.wikipedia.org/wiki/Ivermectin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00602#mechanism-of-action', 'https://en.wikipedia.org/wiki/Onchocerciasis#Ivermectin']}\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Disease is denoted Infection by Strongyloides in the original file.', 'directed': True, 'graph': {'_id': 'DB00602_MESH_D013322_1', 'disease': 'Strongyloidiasis', 'disease_mesh': 'MESH:D013322', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'positively regulates', 'source': 'InterPro:IPR015680', 'target': 'GO:0005254'}, {'key': 'positively correlated with', 'source': 'GO:0005254', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099565'}, {'key': 'in taxon', 'source': 'GO:0099565', 'target': 'NCBITaxon:6248'}, {'key': 'causes', 'source': 'NCBITaxon:6248', 'target': 'MESH:D013322'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'Glutamate-Gated Chloride Channel'}, {'id': 'GO:0005254', 'label': 'MolecularActivity', 'name': 'chloride channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0099565', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission, postsynaptic'}, {'id': 'NCBITaxon:6248', 'label': 'OrganismTaxon', 'name': 'Strongyloides stercoralis'}, {'id': 'MESH:D013322', 'label': 'Disease', 'name': 'Strongyloidiasis'}], 'reference': ['https://en.wikipedia.org/wiki/Ivermectin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00602#mechanism-of-action', 'https://en.wikipedia.org/wiki/Strongyloidiasis#Treatment']}\n", + "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Balsalazide is a prodrug and it releases mesalazine in the large intestine, the active site of ulcerative colitis (https://en.wikipedia.org/wiki/Balsalazide https://en.wikipedia.org/wiki/Mesalazine#Chemistry).', 'directed': True, 'graph': {'_id': 'DB01014_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'balsalazide', 'drug_mesh': 'MESH:C038637', 'drugbank': 'DB:DB01014'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C038637', 'target': 'MESH:D019804'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:O15111'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:O14920'}, {'key': 'positively regulates', 'source': 'UniProt:O14920', 'target': 'GO:0007249'}, {'key': 'positively regulates', 'source': 'UniProt:O15111', 'target': 'GO:0007249'}, {'key': 'positively correlated with', 'source': 'GO:0007249', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P09917'}, {'key': 'increases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P37231'}, {'key': 'negatively correlated with', 'source': 'UniProt:P37231', 'target': 'REACT:R-HSA-1169091'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-1169091', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P09917', 'target': 'REACT:R-HSA-2142691'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2142691', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001052'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001155'}, {'key': 'location of', 'source': 'UBERON:0001052', 'target': 'MESH:D003093'}, {'key': 'location of', 'source': 'UBERON:0001155', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C038637', 'label': 'Drug', 'name': 'balsalazide'}, {'id': 'MESH:D019804', 'label': 'ChemicalSubstance', 'name': 'Mesalamine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Polyunsaturated fatty acid 5-lipoxygenase'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma'}, {'id': 'UniProt:O15111', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit alpha'}, {'id': 'UniProt:O14920', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit beta'}, {'id': 'GO:0007249', 'label': 'BiologicalProcess', 'name': 'I-kappaB kinase/NF-kappaB signaling'}, {'id': 'REACT:R-HSA-2142691', 'label': 'Pathway', 'name': 'Synthesis of Leukotrienes (LT) and Eoxins (EX)'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'REACT:R-HSA-1169091', 'label': 'Pathway', 'name': 'Activation of NF-kappaB in B cells'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0001052', 'label': 'GrossAnatomicalStructure', 'name': 'rectum'}, {'id': 'UBERON:0001155', 'label': 'GrossAnatomicalStructure', 'name': 'colon'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01014#mechanism-of-action', 'https://go.drugbank.com/drugs/DB00244#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20151072/', 'https://go.drugbank.com/drugs/DB00244#BE0004655', 'https://en.wikipedia.org/wiki/CHUK#Clinical_significance', 'https://en.wikipedia.org/wiki/IKK2#Clinical_significance']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01224_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'quetiapine', 'drug_mesh': 'MESH:D000069348', 'drugbank': 'DB:DB01224'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000709'}, {'key': 'positively correlated with', 'source': 'HP:0000709', 'target': 'MESH:D012559'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0009834'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0100543'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0030213'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0012154'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0002465'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0000741'}, {'key': 'positively correlated with', 'source': 'HP:0100543', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0030213', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0012154', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0002465', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0000741', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069348', 'label': 'Drug', 'name': 'quetiapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0009834', 'label': 'GrossAnatomicalStructure', 'name': 'dorsolateral prefrontal cortex'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0100543', 'label': 'PhenotypicFeature', 'name': 'Cognitive impairment'}, {'id': 'HP:0030213', 'label': 'PhenotypicFeature', 'name': 'Emotional blunting'}, {'id': 'HP:0012154', 'label': 'PhenotypicFeature', 'name': 'Anhedonia'}, {'id': 'HP:0002465', 'label': 'PhenotypicFeature', 'name': 'Poor speech'}, {'id': 'HP:0000741', 'label': 'PhenotypicFeature', 'name': 'Apathy'}, {'id': 'HP:0000709', 'label': 'PhenotypicFeature', 'name': 'Psychosis'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01224#mechanism-of-action', 'https://go.drugbank.com/drugs/DB01224#BE0000451', 'https://go.drugbank.com/drugs/DB01224#BE0000756']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Imatinib also modulates other protein targets and is an indication for other malignancies (https://en.wikipedia.org/wiki/Imatinib#Medical_uses).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D015466_1', 'disease': 'Chronic phase chronic myeloid leukemia', 'disease_mesh': 'MESH:D015466', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'MESH:D016044'}, {'key': 'positively regulates', 'source': 'MESH:D016044', 'target': 'GO:0004674'}, {'key': 'positively correlated with', 'source': 'GO:0004674', 'target': 'GO:0007266'}, {'key': 'positively correlated with', 'source': 'GO:0007266', 'target': 'GO:0008283'}, {'key': 'negatively correlated with', 'source': 'GO:0007266', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015466'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D015466'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'GO:0004674', 'label': 'MolecularActivity', 'name': 'protein serine/threonine kinase activity'}, {'id': 'GO:0007266', 'label': 'BiologicalProcess', 'name': 'Rho protein signal transduction'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D015466', 'label': 'Disease', 'name': 'Chronic phase chronic myeloid leukemia'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#mechanism-of-action', 'https://en.wikipedia.org/wiki/Imatinib#Chronic_myelogenous_leukemia']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'The disease is denoted Blastic phase chronic myeloid leukemia in the original file.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D001752_1', 'disease': 'Blast Crisis', 'disease_mesh': 'MESH:D001752', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'MESH:D016044'}, {'key': 'positively correlated with', 'source': 'MESH:D016044', 'target': 'GO:0007266'}, {'key': 'positively correlated with', 'source': 'GO:0007266', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001974'}, {'key': 'manifestation of', 'source': 'HP:0001974', 'target': 'MESH:D001752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'GO:0007266', 'label': 'BiologicalProcess', 'name': 'Rho protein signal transduction'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001974', 'label': 'PhenotypicFeature', 'name': 'Leukocytosis'}, {'id': 'MESH:D001752', 'label': 'Disease', 'name': 'Blast Crisis'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Leukocytosis#Causes', 'https://en.wikipedia.org/wiki/Chronic_myelogenous_leukemia#Chronic_phase_2']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as Chronic eosinophilic leukemia as per the original file. The malignancy is driven by FIP1L1-PDGFRA fusion genes (https://en.wikipedia.org/wiki/FIP1L1#FIP1L1-PDGFRA_fusion_genes).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_C580364_1', 'disease': 'Pdgfra-Associated Chronic Eosinophilic Leukemia', 'disease_mesh': 'MESH:C580364', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0048008'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001880'}, {'key': 'manifestation of', 'source': 'HP:0001880', 'target': 'MESH:C580364'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0048008', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor signaling pathway'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001880', 'label': 'PhenotypicFeature', 'name': 'Eosinophilia'}, {'id': 'MESH:C580364', 'label': 'Disease', 'name': 'Pdgfra-Associated Chronic Eosinophilic Leukemia'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000205', 'https://go.drugbank.com/drugs/DB00619#BE0000852', 'https://en.wikipedia.org/wiki/Chronic_eosinophilic_leukemia', 'https://en.wikipedia.org/wiki/Eosinophilia#Chronic_eosinophilic_leukemia_(NOS)', 'https://en.wikipedia.org/wiki/Imatinib#Other']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as Idiopathic hypereosinophilic syndrome as per the original file. Treatment with imatinib is indicated for patients who have a PDGFRA-FIP1L1 chimera, where PDGR, a tyrosine kinase (https://en.wikipedia.org/wiki/Hypereosinophilic_syndrome#Diagnosis) and an oncogene (https://en.wikipedia.org/wiki/Oncogene#Classification) is fused with FIP1L1, giving rise to a PDGFRA-FIP1L1 chimera.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D017681_1', 'disease': 'Hypereosinophilic Syndrome', 'disease_mesh': 'MESH:D017681', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001880'}, {'key': 'manifestation of', 'source': 'HP:0001880', 'target': 'MESH:D017681'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001880', 'label': 'PhenotypicFeature', 'name': 'Eosinophilia'}, {'id': 'MESH:D017681', 'label': 'Disease', 'name': 'Hypereosinophilic Syndrome'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000205', 'https://go.drugbank.com/drugs/DB00619#BE0000852', 'https://en.wikipedia.org/wiki/Imatinib#Other']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The majority of Gastrointestinal stromal tumor patients have mutations on the KIT or PDGFRA genes (95% of all patients).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D046152_1', 'disease': 'Gastrointestinal stromal tumor', 'disease_mesh': 'MESH:D046152', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0035790'}, {'key': 'positively correlated with', 'source': 'GO:0035790', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035790', 'target': 'MESH:D002470'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0038109'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0030154'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D046152'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D046152'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D046152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0035790', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor-alpha signaling pathway'}, {'id': 'GO:0038109', 'label': 'BiologicalProcess', 'name': 'Kit signaling pathway'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D046152', 'label': 'Disease', 'name': 'Gastrointestinal stromal tumor'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Imatinib#Gastrointestinal_stromal_tumors', 'https://go.drugbank.com/drugs/DB00619#BE0000453', 'https://go.drugbank.com/drugs/DB00619#BE0000852']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The majority of dermatofibrosarcoma tumours have two genes fused due to a translocation involving the collagen gene (COL1A1) and the platelet-derived growth factor (PDGF). The latter can be further subdivided giving rise to PDGFA, for example, which is an oncogene.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D018223_1', 'disease': 'Dermatofibrosarcoma', 'disease_mesh': 'MESH:D018223', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0030154'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D018223'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D018223'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D018223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D018223', 'label': 'Disease', 'name': 'Dermatofibrosarcoma'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Dermatofibrosarcoma_protuberans#Pathophysiology', 'https://en.wikipedia.org/wiki/Imatinib#Dermatofibrosarcoma_protuberans_(DFSP)']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'The disease is denoted Systemic mast cell disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D034721_2', 'disease': 'Mastocytosis, Systemic', 'disease_mesh': 'MESH:D034721', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0038109'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0030154'}, {'key': 'increases abundance of', 'source': 'GO:0008283', 'target': 'MESH:D008407'}, {'key': 'correlated with', 'source': 'MESH:D008407', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'GO:0038109', 'label': 'BiologicalProcess', 'name': 'Kit signaling pathway'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D008407', 'label': 'Cell', 'name': 'Mast Cells'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Mastocytosis, Systemic'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000453']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0061337'}, {'key': 'positively correlated with', 'source': 'GO:0061337', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0001692'}, {'key': 'manifestation of', 'source': 'HP:0001692', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0001692', 'label': 'PhenotypicFeature', 'name': 'Atrial arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Atrial_fibrillation#Rate_control']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Angina#Treatment']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as as Prinzmetal angina.', 'directed': True, 'graph': {'_id': 'DB00661_MESH_D000788_1', 'disease': 'Angina Pectoris, Variant', 'disease_mesh': 'MESH:D000788', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Angina Pectoris, Variant'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Variant_angina#Maintenance']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09167_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'dosulepin', 'drug_mesh': 'MESH:D004308', 'drugbank': 'DB:DB09167'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004308', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'MESH:D004308', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'HP:0000716'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004308', 'label': 'Drug', 'name': 'dosulepin'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09167#BE0000486', 'https://go.drugbank.com/drugs/DB09167#BE0000749', 'https://en.wikipedia.org/wiki/Dosulepin#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/2670509/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The disease is denoted as Bipolar affective disorder, current episode depression in the original file. It seems that either Quetiapine or its metabolite (Norquetiapine, also known as N-desalkylquetiapine) could bind to UniProt:P23975 and inhibit its function and is associated with lower synaptic norepinephrine levels (https://en.wikipedia.org/wiki/Quetiapine#Pharmacokinetics https://www.ebi.ac.uk/chembl/document_report_card/CHEMBL3526075/).', 'directed': True, 'graph': {'_id': 'DB01224_MESH_D001714_1', 'disease': 'Bipolar Disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'quetiapine', 'drug_mesh': 'MESH:D000069348', 'drugbank': 'DB:DB01224'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0100754'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D001714'}, {'key': 'manifestation of', 'source': 'HP:0100754', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069348', 'label': 'Drug', 'name': 'quetiapine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'HP:0100754', 'label': 'PhenotypicFeature', 'name': 'Mania'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar Disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01224#mechanism-of-action', 'https://www.genecards.org/cgi-bin/carddisp.pl?gene=SLC6A2#drugs_compounds', 'https://en.wikipedia.org/wiki/Quetiapine#cite_note-pmid18059438-50', 'https://pubmed.ncbi.nlm.nih.gov/20307622/', 'https://pubmed.ncbi.nlm.nih.gov/20931407/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Octreotide has antiproliferative effects and it is used in treating neuroendocrine tumours including carcinoid tumours. Octreotide improves symptoms of carcinoid syndrome such as diarrhoea and flushing https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983100/. Octreotide is also used in imaging method called octreoscan where indium-111 labelled octreotide is used in scintigraphy for detecting tumors expressing somatostatin receptors https://en.wikipedia.org/wiki/Carcinoid_syndrome#Imaging', 'directed': True, 'graph': {'_id': 'DB00104_MESH_D008303_1', 'disease': 'Carcinoid syndrome', 'disease_mesh': 'MESH:D008303', 'drug': 'Octreotide', 'drug_mesh': 'MESH:D015282', 'drugbank': 'DB:DB00104'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015282', 'target': 'GO:0038169'}, {'key': 'negatively regulates', 'source': 'GO:0038169', 'target': 'UniProt:P01241'}, {'key': 'positively regulates', 'source': 'UniProt:P01241', 'target': 'UniProt:P05019'}, {'key': 'positively correlated with', 'source': 'UniProt:P05019', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008303'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015282', 'label': 'Drug', 'name': 'Octreotide'}, {'id': 'GO:0038169', 'label': 'BiologicalProcess', 'name': 'Somatostatin receptor signaling pathway'}, {'id': 'UniProt:P01241', 'label': 'Protein', 'name': 'Somatotropin'}, {'id': 'UniProt:P05019', 'label': 'Protein', 'name': 'Insulin-like growth factor I'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008303', 'label': 'Disease', 'name': 'Carcinoid syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00104#BE0010008', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983100/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00104_MESH_D000172_1', 'disease': 'Acromegaly', 'disease_mesh': 'MESH:D000172', 'drug': 'Octreotide', 'drug_mesh': 'MESH:D015282', 'drugbank': 'DB:DB00104'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015282', 'target': 'GO:0038169'}, {'key': 'negatively regulates', 'source': 'GO:0038169', 'target': 'UniProt:P01241'}, {'key': 'positively correlated with', 'source': 'UniProt:P01241', 'target': 'MESH:D000172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015282', 'label': 'Drug', 'name': 'Octreotide'}, {'id': 'GO:0038169', 'label': 'BiologicalProcess', 'name': 'Somatostatin receptor signaling pathway'}, {'id': 'UniProt:P01241', 'label': 'Protein', 'name': 'Somatotropin'}, {'id': 'MESH:D000172', 'label': 'Disease', 'name': 'Acromegaly'}], 'reference': ['https://go.drugbank.com/drugs/DB00104#BE0010008', 'https://en.wikipedia.org/wiki/Acromegaly#Signs_and_symptoms']}\n", + "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00503_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Ritonavir', 'drug_mesh': 'MESH:D019438', 'drugbank': 'DB:DB00503'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019438', 'target': 'UniProt:Q72874'}, {'key': 'increases activity of', 'source': 'UniProt:Q72874', 'target': 'UniProt:P04585'}, {'key': 'in taxon', 'source': 'UniProt:P04585', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019438', 'label': 'Drug', 'name': 'Ritonavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'Protease'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'Gag-Pol polyprotein'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00503']}\n", + "['Drug', 'Protein', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'While ritonavir is not an active antiviral agent against hepatitis C virus (HCV) infection, it is added in combination therapies indicated for treatment of HCV infections as a booster.', 'directed': True, 'graph': {'_id': 'DB00503_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Ritonavir', 'drug_mesh': 'MESH:D019438', 'drugbank': 'DB:DB00503'}, 'links': [{'key': 'treats', 'source': 'MESH:D019438', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019438', 'label': 'Drug', 'name': 'Ritonavir'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00503']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00678_MESH_D003928_1', 'disease': 'Diabetic renal disease', 'disease_mesh': 'MESH:D003928', 'drug': 'Losartan', 'drug_mesh': 'MESH:D019808', 'drugbank': 'DB:DB00678'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D019808', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'positively regulates', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D003928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019808', 'label': 'Drug', 'name': 'Losartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D003928', 'label': 'Disease', 'name': 'Diabetic renal disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00678', 'https://en.wikipedia.org/wiki/Diabetic_nephropathy#Risk_factors']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00678_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Losartan', 'drug_mesh': 'MESH:D019808', 'drugbank': 'DB:DB00678'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D019808', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'positively regulates', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019808', 'label': 'Drug', 'name': 'Losartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00678']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01019_MESH_D016055_1', 'disease': 'Retention of urine', 'disease_mesh': 'MESH:D016055', 'drug': 'Bethanechol', 'drug_mesh': 'MESH:D018723', 'drugbank': 'DB:DB01019'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D018723', 'target': 'UniProt:P08172'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'negatively correlated with', 'source': 'GO:0014832', 'target': 'MESH:D016055'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D018723', 'label': 'Drug', 'name': 'Bethanechol'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'MESH:D016055', 'label': 'Disease', 'name': 'Retention of urine'}], 'reference': ['https://go.drugbank.com/drugs/DB01019']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01033_MESH_D015473_1', 'disease': 'Acute promyelocytic leukemia', 'disease_mesh': 'MESH:D015473', 'drug': 'Mercaptopurine', 'drug_mesh': 'MESH:D015122', 'drugbank': 'DB:DB01033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P00492'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:Q06203'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P20839'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P12268'}, {'key': 'positively regulates', 'source': 'UniProt:P00492', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:Q06203', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:P20839', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:P12268', 'target': 'GO:0006164'}, {'key': 'occurs in', 'source': 'GO:0006164', 'target': 'CL:0000836'}, {'key': 'positively correlated with', 'source': 'CL:0000836', 'target': 'MESH:D015473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015122', 'label': 'Drug', 'name': 'Mercaptopurine'}, {'id': 'UniProt:P00492', 'label': 'Protein', 'name': 'Hypoxanthine-guanine phosphoribosyltransferase'}, {'id': 'UniProt:Q06203', 'label': 'Protein', 'name': 'Amidophosphoribosyltransferase'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'UniProt:P12268', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 2\"}, {'id': 'CL:0000836', 'label': 'Cell', 'name': 'Promyelocyte'}, {'id': 'GO:0006164', 'label': 'BiologicalProcess', 'name': 'Purine nucleotide biosynthetic process'}, {'id': 'MESH:D015473', 'label': 'Disease', 'name': 'Acute promyelocytic leukemia'}], 'reference': ['https://en.wikipedia.org/wiki/Acute_promyelocytic_leukemia', 'https://go.drugbank.com/drugs/DB01033']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P72525'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q59961'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P72524'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P0A4L9'}, {'key': 'participates in', 'source': 'UniProt:P72525', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q59961', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P72524', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P0A4L9', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:Q59961', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Streptococcus pneumoniae)'}, {'id': 'UniProt:P72524', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:P0A4L9', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Streptococcus pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0120217'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'GO:0120217', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'GO:0120217', 'label': 'CellularComponent', 'name': 'DNA gyrase complex'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01044#BE0003726']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q9Z8R4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q9Z8R3'}, {'key': 'participates in', 'source': 'UniProt:Q9Z8R4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q9Z8R3', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'UniProt:Q9Z8R4', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Chlamydia pneumoniae)'}, {'id': 'UniProt:Q9Z8R3', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Chlamydia pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS5'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FKQ0'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P66936'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS5', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P66936', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:Q2FYS4', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FYS5', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:P66936', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Staphylococcus aureus)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS5'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FKQ0'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P66936'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS5', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P66936', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:Q2FYS4', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FYS5', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:P66936', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Staphylococcus aureus)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0120217'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'GO:0120217', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'GO:0120217', 'label': 'CellularComponent', 'name': 'DNA gyrase complex'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044#BE0003726']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P75352'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P78016'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P22446'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P22447'}, {'key': 'participates in', 'source': 'UniProt:P75352', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P78016', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P22446', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P22447', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:P75352', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P78016', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P22446', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P22447', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Mycoplasma pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01120_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Gliclazide', 'drug_mesh': 'MESH:D005907', 'drugbank': 'DB:DB01120'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005907', 'target': 'UniProt:Q09428'}, {'key': 'positively correlated with', 'source': 'UniProt:Q09428', 'target': 'GO:0015272'}, {'key': 'negatively correlated with', 'source': 'GO:0015272', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'GO:0051899', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005907', 'label': 'Drug', 'name': 'Gliclazide'}, {'id': 'UniProt:Q09428', 'label': 'Protein', 'name': 'ATP-binding cassette sub-family C member 8'}, {'id': 'GO:0015272', 'label': 'BiologicalProcess', 'name': 'ATP-activated inward rectifier potassium channel activity'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25583094/', 'https://go.drugbank.com/drugs/DB01120']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01270_MESH_D003930_1', 'disease': 'Diabetic retinopathy', 'disease_mesh': 'MESH:D003930', 'drug': 'Ranibizumab', 'drug_mesh': 'MESH:D000069579', 'drugbank': 'DB:DB01270'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069579', 'target': 'UniProt:P15692'}, {'key': 'positively regulates', 'source': 'UniProt:P15692', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0001525', 'target': 'MESH:D003930'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069579', 'label': 'Drug', 'name': 'Ranibizumab'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor A'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'MESH:D003930', 'label': 'Disease', 'name': 'Diabetic retinopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB01270', 'https://pubmed.ncbi.nlm.nih.gov/19199892/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Dimethyl fumarate ia a prodrug which is metabolised into the pharmacologically active monomethyl fumarate. The mechanism of action of dimethyl fumarate in multiple sclerosis is not well understood.', 'directed': True, 'graph': {'_id': 'DB08908_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Dimethyl fumarate', 'drug_mesh': 'MESH:D000069462', 'drugbank': 'DB:DB08908'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000069462', 'target': 'REACT:R-HSA-8932339'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-8932339', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069462', 'label': 'Drug', 'name': 'Dimethyl fumarate'}, {'id': 'REACT:R-HSA-8932339', 'label': 'Pathway', 'name': 'ROS sensing by NFE2L2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB08908', 'https://pubmed.ncbi.nlm.nih.gov/27825853/', 'https://en.wikipedia.org/wiki/Dimethyl_fumarate#Pharmacology']}\n", + "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09303_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Evolocumab', 'drug_mesh': 'MESH:C577155', 'drugbank': 'DB:DB09303'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C577155', 'target': 'UniProt:Q8NBP7'}, {'key': 'decreases activity of', 'source': 'UniProt:Q8NBP7', 'target': 'UniProt:P01130'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01130', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C577155', 'label': 'Drug', 'name': 'Evolocumab'}, {'id': 'UniProt:Q8NBP7', 'label': 'Protein', 'name': 'Proprotein convertase subtilisin/kexin type 9'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://en.wikipedia.org/wiki/Evolocumab', 'https://go.drugbank.com/drugs/DB09303', 'https://en.wikipedia.org/wiki/LDL_receptor#Function']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12712_MESH_D013610_1', 'disease': 'Tachyarrhythmia', 'disease_mesh': 'MESH:D013610', 'drug': 'Pilsicainide', 'drug_mesh': 'MESH:C042288', 'drugbank': 'DB:DB12712'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C042288', 'target': 'UniProt:Q14524'}, {'key': 'positively regulates', 'source': 'UniProt:Q14524', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0060048'}, {'key': 'positively regulates', 'source': 'GO:0060048', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'GO:0010460'}, {'key': 'positively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D013610'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042288', 'label': 'Drug', 'name': 'Pilsicainide'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle contraction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'MESH:D013610', 'label': 'Disease', 'name': 'Tachyarrhythmia'}], 'reference': ['https://en.wikipedia.org/wiki/Pilsicainide', 'https://en.wikipedia.org/wiki/Tachycardia#Causes', 'https://en.wikipedia.org/wiki/Nav1.5', 'https://en.wikipedia.org/wiki/Sodium_channel_blocker#Class_Ic_agents']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Tropicamide is indicated to induce mydriasis (dilation of the pupil) and cycloplegia (paralysis of the ciliary muscle of the eye) in diagnostic procedures', 'directed': True, 'graph': {'_id': 'DB00809_MESH_D015878_1', 'disease': 'Dilated pupil', 'disease_mesh': 'MESH:D015878', 'drug': 'Tropicamide', 'drug_mesh': 'MESH:D014331', 'drugbank': 'DB:DB00809'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014331', 'target': 'InterPro:IPR000995'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0090075'}, {'key': 'causes', 'source': 'MESH:D014331', 'target': 'HP:0000602'}, {'key': 'correlated with', 'source': 'HP:0000602', 'target': 'MESH:D015878'}, {'key': 'location of', 'source': 'GO:0090075', 'target': 'UBERON:0001607'}, {'key': 'causes', 'source': 'UBERON:0001607', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014331', 'label': 'Drug', 'name': 'Tropicamide'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine (mACh) receptor'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'HP:0000602', 'label': 'PhenotypicFeature', 'name': 'Paralysis of ciliary muscle'}, {'id': 'UBERON:0001607', 'label': 'GrossAnatomicalStructure', 'name': 'Sphincter pupillae'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Dilated pupil'}], 'reference': ['https://go.drugbank.com/drugs/DB00809#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tropicamide']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "['Drug', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB00197', 'target': 'HP:0000855'}, {'key': 'location of', 'source': 'HP:0000855', 'target': 'UBERON:0001630'}, {'key': 'prevents', 'source': 'UBERON:0001630', 'target': 'REACT:R-HSA-70263'}, {'key': 'location of', 'source': 'HP:0000855', 'target': 'UBERON:0001013'}, {'key': 'prevents', 'source': 'UBERON:0001013', 'target': 'REACT:R-HSA-70263'}, {'key': 'location of', 'source': 'REACT:R-HSA-70263', 'target': 'UBERON:0002107'}, {'key': 'decreases abundance of', 'source': 'UBERON:0002107', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'HP:0000855', 'label': 'PhenotypicFeature', 'name': 'Insulin resistance'}, {'id': 'UBERON:0001630', 'label': 'GrossAnatomicalStructure', 'name': 'Muscle'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'REACT:R-HSA-70263', 'label': 'Pathway', 'name': 'Gluconeogenesis'}, {'id': 'UBERON:0002107', 'label': 'GrossAnatomicalStructure', 'name': 'Liver'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'PhenotypicFeature', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_2', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00197', 'target': 'UniProt:P37231'}, {'key': 'decreases abundance of', 'source': 'UniProt:P37231', 'target': 'MESH:D014280'}, {'key': 'negatively regulates', 'source': 'MESH:D014280', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'UniProt:P37231', 'target': 'MESH:D005227'}, {'key': 'negatively regulates', 'source': 'MESH:D005227', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma (PPAR-gamma)'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D005227', 'label': 'ChemicalSubstance', 'name': 'Circulating fatty acids'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_3', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00197', 'target': 'UniProt:P37231'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P37231', 'target': 'InterPro:IPR000003'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000003', 'target': 'GO:0030154'}, {'key': 'increases activity of', 'source': 'GO:0030154', 'target': 'REACT:R-HSA-70326'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-70326', 'target': 'MESH:D001786'}, {'key': 'increases activity of', 'source': 'GO:0030154', 'target': 'REACT:R-HSA-390918'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-390918', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma (PPAR-gamma)'}, {'id': 'InterPro:IPR000003', 'label': 'GeneFamily', 'name': '9-cis retinoic acid receptor (RXR [retinoid X receptor]'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'Cell differentiation'}, {'id': 'REACT:R-HSA-390918', 'label': 'Pathway', 'name': 'Lipid metabolism'}, {'id': 'REACT:R-HSA-70326', 'label': 'Pathway', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00469_MESH_D001168_1', 'disease': 'Arthritis', 'disease_mesh': 'MESH:D001168', 'drug': 'Tenoxicam', 'drug_mesh': 'MESH:C032801', 'drugbank': 'DB:DB00469'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C032801', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-265295'}, {'key': 'decreases activity of', 'source': 'MESH:C032801', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-265295'}, {'key': 'ameliorates', 'source': 'REACT:R-HSA-265295', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001168'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C032801', 'label': 'Drug', 'name': 'Tenoxicam'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'REACT:R-HSA-265295', 'label': 'Pathway', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'MESH:D001168', 'label': 'Disease', 'name': 'Arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00469#mechanismofaction']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00140_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Riboflavin', 'drug_mesh': 'MESH:D012256', 'drugbank': 'DB:DB00140'}, 'links': [{'key': 'part of', 'source': 'MESH:D012256', 'target': 'MESH:D019587'}, {'key': 'molecularly interacts with', 'source': 'MESH:D019587', 'target': 'UniProt:Q969G6'}, {'key': 'produces', 'source': 'UniProt:Q969G6', 'target': 'MESH:D005486'}, {'key': 'participates in', 'source': 'MESH:D005486', 'target': 'GO:0006112'}, {'key': 'molecularly interacts with', 'source': 'MESH:D019587', 'target': 'UniProt:Q8NFF5'}, {'key': 'produces', 'source': 'UniProt:Q8NFF5', 'target': 'MESH:D005182'}, {'key': 'participates in', 'source': 'MESH:D005182', 'target': 'GO:0006112'}, {'key': 'affected by', 'source': 'GO:0006112', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012256', 'label': 'Drug', 'name': 'Riboflavin'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'UniProt:Q969G6', 'label': 'Protein', 'name': 'Riboflavin kinase'}, {'id': 'MESH:D005486', 'label': 'ChemicalSubstance', 'name': 'Flavin mononucleotide'}, {'id': 'UniProt:Q8NFF5', 'label': 'Protein', 'name': 'Riboflavin synthase'}, {'id': 'MESH:D005182', 'label': 'ChemicalSubstance', 'name': 'Flavin adenine dinucleotide'}, {'id': 'GO:0006112', 'label': 'BiologicalProcess', 'name': 'Energy reserve metabolic process'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00140#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Riboflavin#section=Pharmacology']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06287_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'Temsirolimus', 'drug_mesh': 'MESH:C401859', 'drugbank': 'DB:DB06287'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C401859', 'target': 'InterPro:IPR001179'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001179', 'target': 'UniProt:P42345'}, {'key': 'decreases activity of', 'source': 'UniProt:P42345', 'target': 'UniProt:P24385'}, {'key': 'causes', 'source': 'UniProt:P24385', 'target': 'GO:0007050'}, {'key': 'occurs in', 'source': 'GO:0007050', 'target': 'GO:0051318'}, {'key': 'correlated with', 'source': 'GO:0051318', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C401859', 'label': 'Drug', 'name': 'Temsirolimus'}, {'id': 'InterPro:IPR001179', 'label': 'GeneFamily', 'name': 'FK Binding Protein-12'}, {'id': 'UniProt:P42345', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase mTOR'}, {'id': 'UniProt:P24385', 'label': 'Protein', 'name': 'cyclin D1'}, {'id': 'GO:0007050', 'label': 'BiologicalProcess', 'name': 'Cell cycle arrest'}, {'id': 'GO:0051318', 'label': 'BiologicalProcess', 'name': 'G1 phase'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06287#mechanismofaction', 'DOI:10.1158/1078-0432.CCR-07-4719']}\n", + "['Drug', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06287_MESH_D002292_1', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Temsirolimus', 'drug_mesh': 'MESH:C401859', 'drugbank': 'DB:DB06287'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C401859', 'target': 'InterPro:IPR001179'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001179', 'target': 'UniProt:P42345'}, {'key': 'decreases activity of', 'source': 'UniProt:P42345', 'target': 'UniProt:Q16665'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q16665', 'target': 'UniProt:P15692'}, {'key': 'negatively regulates', 'source': 'UniProt:P15692', 'target': 'GO:0001525'}, {'key': 'correlated with', 'source': 'GO:0001525', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C401859', 'label': 'Drug', 'name': 'Temsirolimus'}, {'id': 'InterPro:IPR001179', 'label': 'GeneFamily', 'name': 'FK Binding Protein-12'}, {'id': 'UniProt:P42345', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase mTOR'}, {'id': 'UniProt:Q16665', 'label': 'Protein', 'name': 'Hypoxia-inducible factor-1a (HIF-1a)'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06287#mechanismofaction', 'DOI:10.1158/1078-0432.CCR-07-4719']}\n", + "['Drug', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05271_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Rotigotine', 'drug_mesh': 'MESH:C047508', 'drugbank': 'DB:DB05271'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'UniProt:P35462', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21918'}, {'key': 'positively regulates', 'source': 'UniProt:P21918', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21917'}, {'key': 'positively regulates', 'source': 'UniProt:P21917', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0097332'}, {'key': 'decreases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0097332'}, {'key': 'ameliorates', 'source': 'GO:0097332', 'target': 'HP:0010833'}, {'key': 'correlated with', 'source': 'HP:0010833', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047508', 'label': 'Drug', 'name': 'Rotigotine'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine receptor D3'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'Dopamine receptor D1'}, {'id': 'UniProt:P21918', 'label': 'Protein', 'name': 'Dopamine receptor D5'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine receptor D4'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'GO:0097332', 'label': 'BiologicalProcess', 'name': 'Response to antipsychotic drug'}, {'id': 'HP:0010833', 'label': 'PhenotypicFeature', 'name': 'Neuropathic pain'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB05271#mechanismofaction', 'https://doi.org/10.1155/2011/403039']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05271_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Rotigotine', 'drug_mesh': 'MESH:C047508', 'drugbank': 'DB:DB05271'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'UniProt:P35462', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21918'}, {'key': 'positively regulates', 'source': 'UniProt:P21918', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21917'}, {'key': 'positively regulates', 'source': 'UniProt:P21917', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0097332'}, {'key': 'decreases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0097332'}, {'key': 'ameliorates', 'source': 'GO:0097332', 'target': 'HP:0010833'}, {'key': 'correlated with', 'source': 'HP:0010833', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047508', 'label': 'Drug', 'name': 'Rotigotine'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine receptor D3'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'Dopamine receptor D1'}, {'id': 'UniProt:P21918', 'label': 'Protein', 'name': 'Dopamine receptor D5'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine receptor D4'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'GO:0097332', 'label': 'BiologicalProcess', 'name': 'Response to antipsychotic drug'}, {'id': 'HP:0010833', 'label': 'PhenotypicFeature', 'name': 'Neuropathic pain'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB05271#mechanismofaction', 'https://doi.org/10.1159/000362629']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_2', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0018104'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D012141_2', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:P45299'}, {'key': 'negatively regulates', 'source': 'UniProt:P45299', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:P45299', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013290_2', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D014069_2', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013203_2', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_3', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:P42971'}, {'key': 'negatively regulates', 'source': 'UniProt:P42971', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:P42971', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:P42971'}, {'key': 'negatively regulates', 'source': 'UniProt:P42971', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:P42971', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004716_1', 'disease': 'Endometritis', 'disease_mesh': 'MESH:D004716', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A0H2X0X9'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A0H2X0X9', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:813'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D004716'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A0H2X0X9', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D004716', 'label': 'Disease', 'name': 'Endometritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:2'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin binding protein'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004756_1', 'disease': 'Infection due to Enterobacteriaceae', 'disease_mesh': 'MESH:D004756', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:E5YIW1'}, {'key': 'negatively regulates', 'source': 'UniProt:E5YIW1', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:543'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D004756'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:E5YIW1', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D004756', 'label': 'Disease', 'name': 'Infection due to Enterobacteriaceae'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A3Q9U7L4'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A3Q9U7L4', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:39831'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A3Q9U7L4', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D016868_1', 'disease': 'Bacterial infection due to Serratia', 'disease_mesh': 'MESH:D016868', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A5C7DBD7'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A5C7DBD7', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:613'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:613'}, {'key': 'causes', 'source': 'NCBITaxon:613', 'target': 'MESH:D016868'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A5C7DBD7', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:613', 'label': 'OrganismTaxon', 'name': 'Serratia'}, {'id': 'MESH:D016868', 'label': 'Disease', 'name': 'Bacterial infection due to Serratia'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00625_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Efavirenz', 'drug_mesh': 'MESH:C098320', 'drugbank': 'DB:DB00625'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C098320', 'target': 'UniProt:Q72547'}, {'key': 'prevents', 'source': 'UniProt:Q72547', 'target': 'GO:0039692'}, {'key': 'in taxon', 'source': 'GO:0039692', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C098320', 'label': 'Drug', 'name': 'Efavirenz'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0039692', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00625#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00883_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Isosorbide dinitrate', 'drug_mesh': 'MESH:D007548', 'drugbank': 'DB:DB00883'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D007548', 'target': 'MESH:D009569'}, {'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'InterPro:IPR001170'}, {'key': 'increases activity of', 'source': 'InterPro:IPR001170', 'target': 'MESH:D006152'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0006470'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0051208'}, {'key': 'positively correlated with', 'source': 'GO:0051208', 'target': 'GO:0060087'}, {'key': 'precedes', 'source': 'GO:0051208', 'target': 'GO:0042311'}, {'key': 'ameliorates', 'source': 'GO:0042311', 'target': 'MESH:D000787'}, {'key': 'occurs in', 'source': 'GO:0006470', 'target': 'MESH:D018994'}, {'key': 'positively correlated with', 'source': 'MESH:D018994', 'target': 'GO:0060087'}, {'key': 'ameliorates', 'source': 'GO:0060087', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007548', 'label': 'Drug', 'name': 'Isosorbide dinitrate'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'Nitric oxide'}, {'id': 'InterPro:IPR001170', 'label': 'GeneFamily', 'name': 'Guanylate cyclase'}, {'id': 'GO:0051208', 'label': 'BiologicalProcess', 'name': 'Sequestering of calcium ion'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': \"Cyclic guanosine 3',5'-monophosphate (cGMP)\"}, {'id': 'GO:0006470', 'label': 'BiologicalProcess', 'name': 'Protein dephosphorylation'}, {'id': 'MESH:D018994', 'label': 'ChemicalSubstance', 'name': 'Myosin light chains'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'Relaxation of vascular associated smooth muscle'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00883#mechanismofaction', 'https://en.wikipedia.org/wiki/Isosorbide_dinitrate#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01225_MESH_D020246_1', 'disease': 'Deep venous thrombosis', 'disease_mesh': 'MESH:D020246', 'drug': 'Enoxaparin sodium', 'drug_mesh': 'MESH:D017984', 'drugbank': 'DB:DB01225'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D017984', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00734'}, {'key': 'decreases abundance of', 'source': 'UniProt:P00734', 'target': 'MESH:D005337'}, {'key': 'prevents', 'source': 'MESH:D005337', 'target': 'GO:0007596'}, {'key': 'prevents', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'manifestation of', 'source': 'GO:0007596', 'target': 'MESH:D020246'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017984', 'label': 'Drug', 'name': 'Enoxaparin sodium'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00734', 'label': 'Protein', 'name': 'Factor IIa (thrombin)'}, {'id': 'MESH:D005337', 'label': 'ChemicalSubstance', 'name': 'Fibrin'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood clotting'}, {'id': 'MESH:D020246', 'label': 'Disease', 'name': 'Deep venous thrombosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01225#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00022_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Peginterferon alfa-2b', 'drug_mesh': 'MESH:C417083', 'drugbank': 'DB:DB00022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C417083', 'target': 'UniProt:P17181'}, {'key': 'decreases activity of', 'source': 'MESH:C417083', 'target': 'UniProt:P27958'}, {'key': 'prevents', 'source': 'UniProt:P27958', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11103'}, {'key': 'positively regulates', 'source': 'UniProt:P17181', 'target': 'REACT:R-HSA-8950505'}, {'key': 'increases response to', 'source': 'REACT:R-HSA-8950505', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C417083', 'label': 'Drug', 'name': 'Peginterferon alfa-2b'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'UniProt:P27958', 'label': 'Protein', 'name': 'Viral DNA polymerase'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral replication'}, {'id': 'REACT:R-HSA-8950505', 'label': 'Pathway', 'name': 'JAK/STAT pathway'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'Innate antiviral immune'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepatitis C virus'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00022#mechanismofaction', 'https://en.wikipedia.org/wiki/Peginterferon_alfa-2b']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06209_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'Prasugrel', 'drug_mesh': 'MESH:D000068799', 'drugbank': 'DB:DB06209'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068799', 'target': 'UniProt:Q9H244'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9H244', 'target': 'MESH:D000244'}, {'key': 'decreases activity of', 'source': 'MESH:D000244', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068799', 'label': 'Drug', 'name': 'Prasugrel'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y purinoceptor 12'}, {'id': 'MESH:D000244', 'label': 'ChemicalSubstance', 'name': 'Adenosine diphosphate (ADP)'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'Glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06209#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D015451_1', 'disease': 'Chronic lymphoid leukemia, disease', 'disease_mesh': 'MESH:D015451', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'part of', 'source': 'GO:0006260', 'target': 'GO:0046651'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'GO:0046651'}, {'key': 'positively correlated with', 'source': 'GO:0046651', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'GO:0046651', 'label': 'BiologicalProcess', 'name': 'Lymphocyte proliferation'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Chronic lymphoid leukemia, disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Chronic_lymphocytic_leukemia#Signs_and_symptoms']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D008224_1', 'disease': \"Follicular non-Hodgkin's lymphoma\", 'disease_mesh': 'MESH:D008224', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'part of', 'source': 'GO:0006260', 'target': 'GO:0042100'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D008224'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D008224', 'label': 'Disease', 'name': \"Follicular non-Hodgkin's lymphoma\"}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Follicular_lymphoma']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D006689_1', 'disease': \"Hodgkin's disease\", 'disease_mesh': 'MESH:D006689', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'CL:0000542'}, {'key': 'occurs in', 'source': 'GO:0006351', 'target': 'CL:0000542'}, {'key': 'positively correlated with', 'source': 'CL:0000542', 'target': 'MESH:D006689'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'CL:0000542', 'label': 'Cell', 'name': 'Lymphocyte'}, {'id': 'MESH:D006689', 'label': 'Disease', 'name': \"Hodgkin's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Hodgkin_lymphoma']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00439_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Cerivastatin', 'drug_mesh': 'MESH:C086276', 'drugbank': 'DB:DB00439'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086276', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086276', 'label': 'Drug', 'name': 'Cerivastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00439']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00439_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Cerivastatin', 'drug_mesh': 'MESH:C086276', 'drugbank': 'DB:DB00439'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086276', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086276', 'label': 'Drug', 'name': 'Cerivastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://en.wikipedia.org/wiki/Combined_hyperlipidemia', 'https://go.drugbank.com/drugs/DB00439']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01126_MESH_D011470_1', 'disease': 'Benign prostatic hyperplasia', 'disease_mesh': 'MESH:D011470', 'drug': 'Dutasteride', 'drug_mesh': 'MESH:D000068538', 'drugbank': 'DB:DB01126'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068538', 'target': 'UniProt:P31213'}, {'key': 'decreases activity of', 'source': 'MESH:D000068538', 'target': 'UniProt:P18405'}, {'key': 'increases abundance of', 'source': 'UniProt:P31213', 'target': 'MESH:D013196'}, {'key': 'increases abundance of', 'source': 'UniProt:P18405', 'target': 'MESH:D013196'}, {'key': 'positively correlated with', 'source': 'MESH:D013196', 'target': 'MESH:D011470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068538', 'label': 'Drug', 'name': 'Dutasteride'}, {'id': 'UniProt:P31213', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 2'}, {'id': 'UniProt:P18405', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 1'}, {'id': 'MESH:D013196', 'label': 'ChemicalSubstance', 'name': 'Dihydrotestosterone'}, {'id': 'MESH:D011470', 'label': 'Disease', 'name': 'Benign prostatic hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB01126']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Mestranol is a biologically inactive prodrug of ethinylestradiol, which it is demethylated in the liver with a conversion efficiency of 70%. Mestranol is used as an estrogen component of many combined oral contraceptives. The combined oral contraceptives show efficacy in a treatment of menorrhagia, but not estrogen component itself.', 'directed': True, 'graph': {'_id': 'DB01357_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Mestranol', 'drug_mesh': 'MESH:D008656', 'drugbank': 'DB:DB01357'}, 'links': [{'key': 'treats', 'source': 'MESH:D008656', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008656', 'label': 'Drug', 'name': 'Mestranol'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB01357', 'https://pubmed.ncbi.nlm.nih.gov/26695687/']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Mestranol is a biologically inactive prodrug of ethinylestradiol, which it is demethylated in the liver with a conversion efficiency of 70%. Mestranol is used as an estrogen component of many combined oral contraceptives. The combined oral contraceptives show efficacy in endometriosis symptoms management, but not estrogen component itself.', 'directed': True, 'graph': {'_id': 'DB01357_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'Mestranol', 'drug_mesh': 'MESH:D008656', 'drugbank': 'DB:DB01357'}, 'links': [{'key': 'treats', 'source': 'MESH:D008656', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008656', 'label': 'Drug', 'name': 'Mestranol'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01357', 'https://pubmed.ncbi.nlm.nih.gov/31488888/']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Calfactant adsorbs rapidly to the surface of the alveolar air-fluid interface and modifies surface tension to a minimum of less than 3 mN/m. It acts in a manner similar to natural lung surfactant, thus preventing or treating respiratory distress syndrome.', 'directed': True, 'graph': {'_id': 'DB06415_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Calfactant', 'drug_mesh': 'MESH:C117342', 'drugbank': 'DB:DB06415'}, 'links': [{'key': 'capable of', 'source': 'MESH:C117342', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C117342', 'label': 'Drug', 'name': 'Calfactant'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06415']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09033_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Vedolizumab', 'drug_mesh': 'MESH:C543529', 'drugbank': 'DB:DB09033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P13612'}, {'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P26010'}, {'key': 'positively regulates', 'source': 'UniProt:P13612', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:P26010', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0072676'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0072676', 'target': 'MESH:D003424'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543529', 'label': 'Drug', 'name': 'Vedolizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'UniProt:P26010', 'label': 'Protein', 'name': 'Integrin beta-7'}, {'id': 'UniProt:Q13477', 'label': 'Protein', 'name': 'Mucosal addressin cell adhesion molecule 1'}, {'id': 'GO:0072676', 'label': 'BiologicalProcess', 'name': 'Lymphocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25952593/', 'https://go.drugbank.com/drugs/DB09033#BE0000590']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09033_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'Vedolizumab', 'drug_mesh': 'MESH:C543529', 'drugbank': 'DB:DB09033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P13612'}, {'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P26010'}, {'key': 'positively regulates', 'source': 'UniProt:P13612', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:P26010', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0072676'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0072676', 'target': 'MESH:D003093'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543529', 'label': 'Drug', 'name': 'Vedolizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'UniProt:P26010', 'label': 'Protein', 'name': 'Integrin beta-7'}, {'id': 'UniProt:Q13477', 'label': 'Protein', 'name': 'Mucosal addressin cell adhesion molecule 1'}, {'id': 'GO:0072676', 'label': 'BiologicalProcess', 'name': 'Lymphocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25952593/', 'https://go.drugbank.com/drugs/DB09033#BE0000590']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01037_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'disrupted by', 'source': 'GO:0099153', 'target': 'MESH:D003866'}, {'key': 'disrupted by', 'source': 'GO:0099155', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'Selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'Cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, noradrenergic'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/26104056/', 'https://www.ncbi.nlm.nih.gov/books/NBK539848/', 'https://pubmed.ncbi.nlm.nih.gov/12369606/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions in Trichomonas by a ferredoxin-mediated electron transport system.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D014245_1', 'disease': 'Infection by Trichomonas', 'disease_mesh': 'MESH:D014245', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5722'}, {'key': 'causes', 'source': 'NCBITaxon:5722', 'target': 'MESH:D014245'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5722', 'label': 'OrganismTaxon', 'name': 'Trichomonas vaginalis'}, {'id': 'MESH:D014245', 'label': 'Disease', 'name': 'Infection by Trichomonas'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D016585_1', 'disease': 'Bacterial vaginosis', 'disease_mesh': 'MESH:D016585', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016585', 'label': 'Disease', 'name': 'Bacterial vaginosis'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D019355', 'target': 'UniProt:P41180'}, {'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D000080445_1', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D000080445'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000080445'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001986'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001986'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00204_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'dofetilide', 'drug_mesh': 'MESH:C063533', 'drugbank': 'DB:DB00204'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:Q12809'}, {'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:O95069'}, {'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:Q14500'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-5576890'}, {'key': 'regulates', 'source': 'UniProt:O95069', 'target': 'GO:0030322'}, {'key': 'positively regulates', 'source': 'UniProt:Q14500', 'target': 'GO:0061337'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-5576890', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'GO:0030322', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'GO:0061337', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'MESH:D012032', 'target': 'HP:0001692'}, {'key': 'manifestation of', 'source': 'HP:0001692', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C063533', 'label': 'Drug', 'name': 'dofetilide'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily H member 2'}, {'id': 'UniProt:O95069', 'label': 'Protein', 'name': 'Potassium channel subfamily K member 2'}, {'id': 'UniProt:Q14500', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 12'}, {'id': 'GO:0030322', 'label': 'BiologicalProcess', 'name': 'stabilization of membrane potential'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'REACT:R-HSA-5576890', 'label': 'Pathway', 'name': 'Phase 3 - rapid repolarisation'}, {'id': 'MESH:D012032', 'label': 'BiologicalProcess', 'name': 'Refractory Period, Electrophysiological'}, {'id': 'HP:0001692', 'label': 'PhenotypicFeature', 'name': 'Atrial arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00204#mechanism-of-action', 'https://en.wikipedia.org/wiki/Dofetilide#Mechanism_of_action', 'https://www.cvpharmacology.com/antiarrhy/potassium-blockers', 'https://pubmed.ncbi.nlm.nih.gov/10907968/']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease, specially the acute form, is mainly caused by infection (https://en.wikipedia.org/wiki/Enterocolitis#Cause), leading to inflammation. So in addition to treating the symptoms (such as spams and GI secretions), antibiotics, anti-virals etc may be needed for treatment (https://en.wikipedia.org/wiki/Enterocolitis#Treatment).', 'directed': True, 'graph': {'_id': 'DB00771_MESH_D004760_1', 'disease': 'Enterocolitis', 'disease_mesh': 'MESH:D004760', 'drug': 'clidinium', 'drug_mesh': 'MESH:C054940', 'drugbank': 'DB:DB00771'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C054940', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'HP:0003394'}, {'key': 'correlated with', 'source': 'GO:0001696', 'target': 'MESH:D004760'}, {'key': 'correlated with', 'source': 'HP:0003394', 'target': 'MESH:D004760'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054940', 'label': 'Drug', 'name': 'clidinium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Intestinal Secretions'}, {'id': 'HP:0003394', 'label': 'PhenotypicFeature', 'name': 'Muscle spasm'}, {'id': 'MESH:D004760', 'label': 'Disease', 'name': 'Enterocolitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00771#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clidinium_bromide#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00771_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'clidinium', 'drug_mesh': 'MESH:C054940', 'drugbank': 'DB:DB00771'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C054940', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'MESH:D013035'}, {'key': 'increases abundance of', 'source': 'MESH:D013035', 'target': 'HP:0032155'}, {'key': 'correlated with', 'source': 'HP:0032155', 'target': 'HP:0002579'}, {'key': 'manifestation of', 'source': 'HP:0002579', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054940', 'label': 'Drug', 'name': 'clidinium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'HP:0032155', 'label': 'PhenotypicFeature', 'name': 'Abdominal cramps'}, {'id': 'MESH:D013035', 'label': 'BiologicalProcess', 'name': 'Spasm'}, {'id': 'HP:0002579', 'label': 'PhenotypicFeature', 'name': 'Gastrointestinal dysmotility'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00771#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clidinium_bromide#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Irritable_bowel_syndrome#Medication']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"In Parkinson's disease, there is imbalance between levels of acetylcholine and dopamine, where increased levels of acetylcholine and degeneration of dopaminergic pathways are observed. Therefore, muscarinic antagonists block central cholinergic activity and balance out neurotransmitters in the brain (https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects). Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).\", 'directed': True, 'graph': {'_id': 'DB00942_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'cycrimine', 'drug_mesh': 'MESH:C012262', 'drugbank': 'DB:DB00942'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C012262', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'increases activity of', 'source': 'GO:0007271', 'target': 'GO:0014055'}, {'key': 'positively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012262', 'label': 'Drug', 'name': 'cycrimine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion, neurotransmission'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00942#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2911#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The antiseizure mechanism of action based on the voltage sodium channels is not a consensus (https://en.wikipedia.org/wiki/Eslicarbazepine_acetate#Mechanism_of_action). The drug could also bind to calcium channels (https://go.drugbank.com/drugs/DB09119#mechanism-of-action). Note that the protein target listed in DrugBank (https://go.drugbank.com/drugs/DB09119#BE0005793) does not seem to be involved in epilepsy, but rather in inflammation and pain.', 'directed': True, 'graph': {'_id': 'DB09119_MESH_D004828_1', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'eslicarbazepine acetate', 'drug_mesh': 'MESH:C416835', 'drugbank': 'DB:DB09119'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C416835', 'target': 'MESH:C571001'}, {'key': 'decreases activity of', 'source': 'MESH:C571001', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0035725'}, {'key': 'regulates', 'source': 'GO:0035725', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'HP:0011097'}, {'key': 'positively correlated with', 'source': 'HP:0011097', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C416835', 'label': 'Drug', 'name': 'eslicarbazepine acetate'}, {'id': 'MESH:C571001', 'label': 'Drug', 'name': 'eslicarbazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0035725', 'label': 'BiologicalProcess', 'name': 'sodium ion transmembrane transport'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'HP:0011097', 'label': 'PhenotypicFeature', 'name': 'Epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/179344#section=Pharmacology-and-Biochemistry', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL87992/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'This disease is also known as Disorder of lung as per DrugCentral. Note this disease name is a very generic term, that could encompass any diseases of the lungs, including neoplasms, infectious diseases (e.g. tuberculosis) and rare diseases (e.g. cystic fibrosis) for which theophylline may not have any therapeutic benefit at all. Therefore, this annotation is done for all lung diseases that could be indications for this drug to encompass diseases that are similar to asthma, bronchitis, COPD and alike.', 'directed': True, 'graph': {'_id': 'DB00277_MESH_D008171_1', 'disease': 'Lung Diseases', 'disease_mesh': 'MESH:D008171', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'InterPro:IPR023174'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'InterPro:IPR001634'}, {'key': 'positively regulates', 'source': 'InterPro:IPR023174', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR023174', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001634', 'target': 'HP:4000007'}, {'key': 'positively correlated with', 'source': 'HP:4000007', 'target': 'MESH:D008171'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001634', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D008171'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D008171'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'InterPro:IPR001634', 'label': 'GeneFamily', 'name': 'Adenosine receptor'}, {'id': 'InterPro:IPR023174', 'label': 'GeneFamily', 'name': \"3'5'-cyclic nucleotide phosphodiesterase, conserved site\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'HP:4000007', 'label': 'PhenotypicFeature', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D008171', 'label': 'Disease', 'name': 'Lung Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00046_MESH_D003922_1', 'disease': 'Diabetes mellitus type 1', 'disease_mesh': 'MESH:D003922', 'drug': 'insulin lispro', 'drug_mesh': 'MESH:D061268', 'drugbank': 'DB:DB00046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D061268', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'MESH:D055504'}, {'key': 'positively regulates', 'source': 'MESH:D055504', 'target': 'GO:0046323'}, {'key': 'negatively correlated with', 'source': 'GO:0046323', 'target': 'MESH:D003922'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061268', 'label': 'Drug', 'name': 'insulin lispro'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0004714', 'label': 'MolecularActivity', 'name': 'transmembrane receptor protein tyrosine kinase activity'}, {'id': 'MESH:D055504', 'label': 'GeneFamily', 'name': 'Insulin Receptor Substrate Proteins'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'glucose import'}, {'id': 'MESH:D003922', 'label': 'Disease', 'name': 'Diabetes mellitus type 1'}], 'reference': ['https://go.drugbank.com/drugs/DB00046#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201538/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00046_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'insulin lispro', 'drug_mesh': 'MESH:D061268', 'drugbank': 'DB:DB00046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D061268', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'MESH:D055504'}, {'key': 'positively regulates', 'source': 'MESH:D055504', 'target': 'GO:0046323'}, {'key': 'negatively correlated with', 'source': 'GO:0046323', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061268', 'label': 'Drug', 'name': 'insulin lispro'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0004714', 'label': 'MolecularActivity', 'name': 'transmembrane receptor protein tyrosine kinase activity'}, {'id': 'MESH:D055504', 'label': 'GeneFamily', 'name': 'Insulin Receptor Substrate Proteins'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'glucose import'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00046#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201538/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The disease is denoted Carcinoma of breast in the original file as per DrugCentral. The drug intercaltes with DNA and prevents DNA replication and downstream processes, some of them involving UniProt:P11388, which leads to cell/tumour death.', 'directed': True, 'graph': {'_id': 'DB00445_MESH_D001943_1', 'disease': 'Breast Neoplasms', 'disease_mesh': 'MESH:D001943', 'drug': 'epirubicin', 'drug_mesh': 'MESH:D015251', 'drugbank': 'DB:DB00445'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015251', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D001943'}, {'key': 'decreases abundance of', 'source': 'MESH:D015251', 'target': 'GO:0032993'}, {'key': 'has participant', 'source': 'GO:0032993', 'target': 'UniProt:P11388'}, {'key': 'positively correlated with', 'source': 'UniProt:P11388', 'target': 'GO:0006260'}, {'key': 'increases abundance of', 'source': 'MESH:D015251', 'target': 'MESH:D005609'}, {'key': 'positively correlated with', 'source': 'MESH:D005609', 'target': 'GO:0090734'}, {'key': 'positively correlated with', 'source': 'GO:0090734', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D001943'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'HP:0031377'}, {'key': 'manifestation of', 'source': 'HP:0031377', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015251', 'label': 'Drug', 'name': 'epirubicin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0032993', 'label': 'CellularComponent', 'name': 'protein-DNA complex'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'GO:0090734', 'label': 'CellularComponent', 'name': 'site of DNA damage'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'mitotic nuclear division'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Breast Neoplasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00445#mechanism-of-action', 'https://en.wikipedia.org/wiki/Epirubicin']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'CellularComponent', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The disease is also known as Deep venous thrombosis as per DrugCentral. Note that among the original MESH IDs for this drug one of them seems to have been deprecated (MESH:C438268) whereas the other (MESH:C049714) is for a compound where no evidence has been found to be related to fondaparinux.', 'directed': True, 'graph': {'_id': 'DB00569_MESH_D020246_1', 'disease': 'Venous Thrombosis', 'disease_mesh': 'MESH:D020246', 'drug': 'fondaparinux', 'drug_mesh': 'MESH:D000077425', 'drugbank': 'DB:DB00569'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000077425', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'positively correlated with', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'located in', 'source': 'GO:0007596', 'target': 'UBERON:0035552'}, {'key': 'location of', 'source': 'UBERON:0035552', 'target': 'MESH:D020246'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077425', 'label': 'Drug', 'name': 'fondaparinux'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'UBERON:0035552', 'label': 'GrossAnatomicalStructure', 'name': 'deep vein'}, {'id': 'MESH:D020246', 'label': 'Disease', 'name': 'Venous Thrombosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00569#BE0000280', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201202/', 'https://en.wikipedia.org/wiki/Fondaparinux#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", + "{'comment': 'The disease is also known as Pulmonary thromboembolism as per DrugCentral. Note that among the original MESH IDs for this drug one of them seems to have been deprecated (MESH:C438268) whereas the other (MESH:C049714) is for a compound where no evidence has been found to be related to fondaparinux.', 'directed': True, 'graph': {'_id': 'DB00569_MESH_D011655_1', 'disease': 'Pulmonary Embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'fondaparinux', 'drug_mesh': 'MESH:D000077425', 'drugbank': 'DB:DB00569'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000077425', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'positively correlated with', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'positively correlated with', 'source': 'GO:0007596', 'target': 'HP:0001907'}, {'key': 'positively correlated with', 'source': 'HP:0001907', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077425', 'label': 'Drug', 'name': 'fondaparinux'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'HP:0001907', 'label': 'PhenotypicFeature', 'name': 'Thromboembolism'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary Embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB00569#BE0000280', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201202/', 'https://en.wikipedia.org/wiki/Fondaparinux#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'strontium ranelate', 'drug_mesh': 'MESH:C081587', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C081587', 'target': 'MESH:D010006'}, {'key': 'increases abundance of', 'source': 'MESH:D010006', 'target': 'MESH:D053244'}, {'key': 'increases expression of', 'source': 'MESH:D010006', 'target': 'MESH:D053244'}, {'key': 'negatively correlated with', 'source': 'MESH:D053244', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D015663'}, {'key': 'positively regulates', 'source': 'MESH:C081587', 'target': 'UniProt:P41180'}, {'key': 'positively correlated with', 'source': 'UniProt:P41180', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'MESH:D010010'}, {'key': 'positively correlated with', 'source': 'MESH:D010010', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081587', 'label': 'Drug', 'name': 'strontium ranelate'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'MESH:D053244', 'label': 'Protein', 'name': 'Osteoprotegerin'}, {'id': 'MESH:D010006', 'label': 'Cell', 'name': 'Osteoblasts'}, {'id': 'MESH:D010010', 'label': 'Cell', 'name': 'Osteoclasts'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB09267#mechanism-of-action', 'https://en.wikipedia.org/wiki/Strontium_ranelate#Mechanism_of_action']}\n", + "['Drug', 'Cell', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'MESH:D002118', 'target': 'UniProt:P41180'}, {'key': 'negatively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0035898'}, {'key': 'positively correlated with', 'source': 'GO:0035898', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D010024'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'parathyroid hormone secretion'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D015663_2', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'MESH:D002118', 'target': 'UniProt:P41180'}, {'key': 'negatively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0035898'}, {'key': 'positively correlated with', 'source': 'GO:0035898', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'parathyroid hormone secretion'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:Q9Z9A3'}, {'key': 'participates in', 'source': 'UniProt:Q9Z9A3', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:Q9Z9A3', 'label': 'Protein', 'name': '50S ribosomal protein L1 (Chlamydia pneumoniae)'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D002602_1', 'disease': 'Chancroid', 'disease_mesh': 'MESH:D002602', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:730'}, {'key': 'causes', 'source': 'NCBITaxon:730', 'target': 'MESH:D002602'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:730', 'label': 'OrganismTaxon', 'name': 'Haemophilus ducreyi'}, {'id': 'MESH:D002602', 'label': 'Disease', 'name': 'Chancroid'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus sp.'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01319_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'fosamprenavir', 'drug_mesh': 'MESH:C426859', 'drugbank': 'DB:DB01319'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C426859', 'target': 'CHEBI:40050'}, {'key': 'decreases activity of', 'source': 'CHEBI:40050', 'target': 'UniProt:Q72874'}, {'key': 'increases activity of', 'source': 'UniProt:Q72874', 'target': 'UniProt:P04591'}, {'key': 'participates in', 'source': 'UniProt:P04591', 'target': 'GO:0019068'}, {'key': 'in taxon', 'source': 'GO:0019068', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C426859', 'label': 'Drug', 'name': 'fosamprenavir'}, {'id': 'CHEBI:40050', 'label': 'ChemicalSubstance', 'name': 'amprenavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'HIV-1 protease'}, {'id': 'UniProt:P04591', 'label': 'Protein', 'name': 'Gag polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'virion assembly'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01319#BE0004854']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01168_MESH_D006689_1', 'disease': \"Hodgkin's disease\", 'disease_mesh': 'MESH:D006689', 'drug': 'procarbazine', 'drug_mesh': 'MESH:D011344', 'drugbank': 'DB:DB01168'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011344', 'target': 'GO:0030488'}, {'key': 'participates in', 'source': 'GO:0030488', 'target': 'GO:0006412'}, {'key': 'positively correlated with', 'source': 'GO:0006412', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D006689'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011344', 'label': 'Drug', 'name': 'procarbazine'}, {'id': 'GO:0030488', 'label': 'BiologicalProcess', 'name': 'tRNA methylation'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D006689', 'label': 'Disease', 'name': \"Hodgkin's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01168', 'https://pubchem.ncbi.nlm.nih.gov/compound/Procarbazine']}\n", + "['Drug', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01272_MESH_D006009_1', 'disease': 'Lysosomal alpha-1,4-glucosidase deficiency - infantile onset', 'disease_mesh': 'MESH:D006009', 'drug': 'alglucosidase alfa', 'drug_mesh': 'MESH:C509951', 'drugbank': 'DB:DB01272'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C509951', 'target': 'UniProt:P20645'}, {'key': 'participates in', 'source': 'UniProt:P20645', 'target': 'GO:0007041'}, {'key': 'occurs in', 'source': 'GO:0007041', 'target': 'GO:0005764'}, {'key': 'participates in', 'source': 'GO:0005764', 'target': 'GO:0004558'}, {'key': 'decreases abundance of', 'source': 'GO:0004558', 'target': 'MESH:D006003'}, {'key': 'positively correlated with', 'source': 'MESH:D006003', 'target': 'MESH:D006009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C509951', 'label': 'Drug', 'name': 'alglucosidase alfa'}, {'id': 'UniProt:P20645', 'label': 'Protein', 'name': 'Cation-dependent mannose-6-phosphate receptor'}, {'id': 'GO:0007041', 'label': 'BiologicalProcess', 'name': 'lysosomal transport'}, {'id': 'GO:0005764', 'label': 'CellularComponent', 'name': 'lysosome'}, {'id': 'GO:0004558', 'label': 'MolecularActivity', 'name': 'alpha-1,4-glucosidase activity'}, {'id': 'MESH:D006003', 'label': 'ChemicalSubstance', 'name': 'glycogen'}, {'id': 'MESH:D006009', 'label': 'Disease', 'name': 'Lysosomal alpha-1,4-glucosidase deficiency - infantile onset'}], 'reference': ['https://go.drugbank.com/drugs/DB01272']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01243_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'chloroxine', 'drug_mesh': 'MESH:C004357', 'drugbank': 'DB:DB01243'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C004357', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'UBERON:0001003'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:55193'}, {'key': 'positively correlated with', 'source': 'UBERON:0001003', 'target': 'HP:0040189'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:55193', 'target': 'HP:0040189'}, {'key': 'positively correlated with', 'source': 'HP:0040189', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004357', 'label': 'Drug', 'name': 'chloroxine'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'mitosis'}, {'id': 'UBERON:0001003', 'label': 'GrossAnatomicalStructure', 'name': 'skin epidermis'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia sp.'}, {'id': 'HP:0040189', 'label': 'PhenotypicFeature', 'name': 'scaling skin'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01243', 'https://pubchem.ncbi.nlm.nih.gov/compound/Chloroxine']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB04815_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'clioquinol', 'drug_mesh': 'MESH:D007464', 'drugbank': 'DB:DB04815'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D007464', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007464', 'label': 'Drug', 'name': 'clioquinol'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB04815']}\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06202_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'lasofoxifene', 'drug_mesh': 'MESH:C111332', 'drugbank': 'DB:DB06202'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C111332', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C111332', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0046849'}, {'key': 'contributes to', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'contributes to', 'source': 'GO:0046849', 'target': 'MESH:D015663'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C111332', 'label': 'Drug', 'name': 'lasofoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06202', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2817938/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06372_MESH_D056587_1', 'disease': 'Cryopyrin associated periodic syndrome', 'disease_mesh': 'MESH:D056587', 'drug': 'rilonacept', 'drug_mesh': 'MESH:C531377', 'drugbank': 'DB:DB06372'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P01584'}, {'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P01583'}, {'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P18510'}, {'key': 'participates in', 'source': 'UniProt:P01584', 'target': 'GO:0070498'}, {'key': 'participates in', 'source': 'UniProt:P01583', 'target': 'GO:0070498'}, {'key': 'participates in', 'source': 'UniProt:P18510', 'target': 'GO:0070498'}, {'key': 'positively regulates', 'source': 'GO:0070498', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D056587'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C531377', 'label': 'Drug', 'name': 'rilonacept'}, {'id': 'UniProt:P01584', 'label': 'Protein', 'name': 'Interleukin-1 beta'}, {'id': 'UniProt:P01583', 'label': 'Protein', 'name': 'Interleukin-1 alpha'}, {'id': 'UniProt:P18510', 'label': 'Protein', 'name': 'Interleukin-1 receptor antagonist protein'}, {'id': 'GO:0070498', 'label': 'BiologicalProcess', 'name': 'interleukin-1-mediated signaling pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D056587', 'label': 'Disease', 'name': 'Cryopyrin associated periodic syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06372']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06761_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'beractant', 'drug_mesh': 'MESH:C072197', 'drugbank': 'DB:DB06761'}, 'links': [{'key': 'chemically similar to', 'source': 'MESH:C072197', 'target': 'UBERON:0008826'}, {'key': 'decreases activity of', 'source': 'UBERON:0008826', 'target': 'GO:0050828'}, {'key': 'located in', 'source': 'GO:0050828', 'target': 'UBERON:0002299'}, {'key': 'increases activity of', 'source': 'UBERON:0002299', 'target': 'GO:0043576'}, {'key': 'correlated with', 'source': 'GO:0043576', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072197', 'label': 'Drug', 'name': 'beractant'}, {'id': 'UBERON:0008826', 'label': 'GrossAnatomicalStructure', 'name': 'pulmonary surfactant'}, {'id': 'GO:0050828', 'label': 'BiologicalProcess', 'name': 'Surface tension at the air-liquid interface'}, {'id': 'UBERON:0002299', 'label': 'GrossAnatomicalStructure', 'name': 'Alveolus of lung'}, {'id': 'GO:0043576', 'label': 'BiologicalProcess', 'name': 'Respiratory gaseous exchange'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06761']}\n", + "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'ilaprazole mechanism of action was not provided in the drugbank DB. From the literature it was reported as same as Omeprazole.', 'directed': True, 'graph': {'_id': 'DB11964_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'ilaprazole', 'drug_mesh': 'MESH:C119615', 'drugbank': 'DB:DB11964'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C119615', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119615', 'label': 'Drug', 'name': 'ilaprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB11964', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4009550/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'ilaprazole mechanism of action was not provided in the drugbank DB. From the literature it was reported as same as Omeprazole.', 'directed': True, 'graph': {'_id': 'DB11964_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'ilaprazole', 'drug_mesh': 'MESH:C119615', 'drugbank': 'DB:DB11964'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C119615', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119615', 'label': 'Drug', 'name': 'ilaprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11964', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4009550/']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12267_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'brigatinib', 'drug_mesh': 'MESH:C000598580', 'drugbank': 'DB:DB12267'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000598580', 'target': 'UniProt:Q9UM73'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UM73', 'target': 'GO:0008283'}, {'key': 'decreases activity of', 'source': 'MESH:C000598580', 'target': 'UniProt:P00533'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000598580', 'label': 'Drug', 'name': 'brigatinib'}, {'id': 'UniProt:Q9UM73', 'label': 'Protein', 'name': 'anaplastic lymphoma kinase (ALK)'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'proliferation of cells'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB12267', 'https://www.sciencedirect.com/science/article/pii/S1319016418300902']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'comments': 'evogliptin mechanism of action was not provided in the drugbank DB. From the literature it was reported as a novel DPP-4 inhibitor, approved in South Korea.', 'directed': True, 'graph': {'_id': 'DB12625_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'evogliptin', 'drug_mesh': 'MESH:C557982', 'drugbank': 'DB:DB12625'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C557982', 'target': 'UniProt:P27487'}, {'key': 'negatively regulates', 'source': 'UniProt:P27487', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C557982', 'label': 'Drug', 'name': 'evogliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB12625', 'https://www.tandfonline.com/doi/abs/10.1080/14656566.2016.1183645']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Benzquinamide is a discontinued antiemetic drug used in post-operative care', 'directed': True, 'graph': {'_id': 'DB00767_MESH_D020250_1', 'disease': 'Postoperative nausea and vomiting', 'disease_mesh': 'MESH:D020250', 'drug': 'Benzquinamide', 'drug_mesh': 'MESH:C100234', 'drugbank': 'DB:DB00767'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100234', 'target': 'InterPro:IPR000995'}, {'key': 'decreases activity of', 'source': 'MESH:C100234', 'target': 'UniProt:P35367'}, {'key': 'ameliorates', 'source': 'UniProt:P35367', 'target': 'MESH:D020250'}, {'key': 'ameliorates', 'source': 'InterPro:IPR000995', 'target': 'MESH:D020250'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100234', 'label': 'Drug', 'name': 'Benzquinamide'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetycholine receptors'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptors'}, {'id': 'MESH:D020250', 'label': 'Disease', 'name': 'Postoperative nausea and vomiting'}], 'reference': ['https://go.drugbank.com/drugs/DB00767#mechanismofaction']}\n", + "['Drug', 'GeneFamily', 'Disease']\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q54906'}, {'key': 'negatively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q54906'}, {'key': 'negatively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:P02919'}, {'key': 'negatively regulates', 'source': 'UniProt:P02919', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:P02919', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01309_MESH_D003920_1', 'disease': 'Diabetes mellitus', 'disease_mesh': 'MESH:D003920', 'drug': 'Insulin glulisine', 'drug_mesh': 'MESH:C479079', 'drugbank': 'DB:DB01309'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C479079', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C479079', 'label': 'Drug', 'name': 'Insulin glulisine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003920', 'label': 'Disease', 'name': 'Diabetes mellitus'}], 'reference': ['https://go.drugbank.com/drugs/DB01309#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09080_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'Olodaterol', 'drug_mesh': 'MESH:C549647', 'drugbank': 'DB:DB09080'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C549647', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0044557'}, {'key': 'precedes', 'source': 'GO:0044557', 'target': 'GO:0097366'}, {'key': 'correlated with', 'source': 'GO:0097366', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C549647', 'label': 'Drug', 'name': 'Olodaterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic adenosine monophosphate (cAMP)'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'Bronchodilation'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09080#mechanismofaction']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13165_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Ripasudil', 'drug_mesh': 'MESH:C584679', 'drugbank': 'DB:DB13165'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C584679', 'target': 'UniProt:Q13464'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13464', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C584679', 'label': 'Drug', 'name': 'Ripasudil'}, {'id': 'UniProt:Q13464', 'label': 'Protein', 'name': 'Rho-associated coiled-coil containing protein kinase 1 (ROCK1)'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Intraocular pressure (IOP)'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB13165#mechanismofaction']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13165_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'Ripasudil', 'drug_mesh': 'MESH:C584679', 'drugbank': 'DB:DB13165'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C584679', 'target': 'UniProt:Q13464'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13464', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C584679', 'label': 'Drug', 'name': 'Ripasudil'}, {'id': 'UniProt:Q13464', 'label': 'Protein', 'name': 'Rho-associated coiled-coil containing protein kinase 1 (ROCK1)'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Intraocular pressure (IOP)'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB13165#mechanismofaction']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB05630_MESH_D007896_1', 'disease': 'Leishmaniasis', 'disease_mesh': 'MESH:D007896', 'drug': 'Sodium stibogluconate', 'drug_mesh': 'MESH:D000967', 'drugbank': 'DB:DB05630'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000967', 'target': 'UniProt:P11387'}, {'key': 'negatively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:5658'}, {'key': 'negatively 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'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 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the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory 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['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Contact_dermatitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 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"['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 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'name': 'Lichen simplex chronicus'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Lichen_simplex_chronicus']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 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'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003876'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Atopic_dermatitis']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D009230_1', 'disease': 'Myxedema', 'disease_mesh': 'MESH:D009230', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'increases abundance of', 'source': 'GO:0070460', 'target': 'CHEBI:18085'}, {'key': 'positively correlated with', 'source': 'CHEBI:18085', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D009230'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'CHEBI:18085', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D009230', 'label': 'Disease', 'name': 'Myxedema'}], 'reference': ['https://en.wikipedia.org/wiki/Myxedema', 'https://go.drugbank.com/drugs/DB00451']}\n", + "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D006042_1', 'disease': 'Goiter', 'disease_mesh': 'MESH:D006042', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006042'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006042', 'label': 'Disease', 'name': 'Goiter'}], 'reference': ['https://go.drugbank.com/drugs/DB00451']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D007037_1', 'disease': 'Hypothyroidism', 'disease_mesh': 'MESH:D007037', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0001659'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D007037'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D007037'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature homeostasis'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'MESH:D007037', 'label': 'Disease', 'name': 'Hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Hypothyroidism#Signs_and_symptoms']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D003409_1', 'disease': 'Congenital hypothyroidism', 'disease_mesh': 'MESH:D003409', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 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receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0001508', 'label': 'PhenotypicFeature', 'name': 'Failure to thrive'}, {'id': 'HP:0001252', 'label': 'PhenotypicFeature', 'name': 'Hypotonia'}, {'id': 'HP:0002045', 'label': 'PhenotypicFeature', 'name': 'Hypothermia'}, {'id': 'HP:0001249', 'label': 'PhenotypicFeature', 'name': 'Intellectual disability'}, {'id': 'MESH:D003409', 'label': 'Disease', 'name': 'Congenital hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Congenital_hypothyroidism#Signs_and_symptoms']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'increases activity of', 'source': 'GO:0002154', 'target': 'UniProt:P01130'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01130', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006949'}, {'key': 'increases activity of', 'source': 'GO:0002154', 'target': 'UniProt:Q6Q788'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q6Q788', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'UniProt:Q6Q788', 'label': 'Protein', 'name': 'Apolipoprotein A-V'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/LDL_receptor#Function', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6129606/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3109527/']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D050031_1', 'disease': 'Hashimoto thyroiditis', 'disease_mesh': 'MESH:D050031', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0004324'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D050031'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'positively correlated with', 'source': 'HP:0004324', 'target': 'MESH:D050031'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D050031'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D050031'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D050031'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0004324', 'label': 'PhenotypicFeature', 'name': 'Increased body weight'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D050031', 'label': 'Disease', 'name': 'Hashimoto thyroiditis'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Hashimoto%27s_thyroiditis']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'It seems that only low doses of naltrexone has been documented to enhance or produce an analgesic response. Low-dose naltrexone (LDN) describes the off-label use of naltrexone at low doses for diseases not related to chemical dependency or intoxication. The annotation is for Low Dose Naltrexone (LDN).', 'directed': True, 'graph': {'_id': 'DB00704_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Low Dose Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:O00206'}, {'key': 'increases activity of', 'source': 'UniProt:O00206', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Low Dose Naltrexone'}, {'id': 'UniProt:O00206', 'label': 'Protein', 'name': 'Toll-like receptor 4'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/32845365/', 'https://pubmed.ncbi.nlm.nih.gov/30248938/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00704_MESH_D000437_1', 'disease': 'Alcoholism', 'disease_mesh': 'MESH:D000437', 'drug': 'Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P41145', 'target': 'UniProt:P01213'}, {'key': 'positively correlated with', 'source': 'UniProt:P01213', 'target': 'HP:0030858'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'positively correlated with', 'source': 'UniProt:P41143', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'positively correlated with', 'source': 'UniProt:P35372', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'GO:0061527', 'target': 'HP:0030858'}, {'key': 'occurs in', 'source': 'HP:0030858', 'target': 'MESH:D000437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naltrexone'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P01213', 'label': 'Protein', 'name': 'Proenkephalin-B'}, {'id': 'HP:0030858', 'label': 'PhenotypicFeature', 'name': 'Addictive behavior'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D000437', 'label': 'Disease', 'name': 'Alcoholism'}], 'reference': ['https://go.drugbank.com/drugs/DB00704', 'https://en.wikipedia.org/wiki/Naltrexone#Pharmacology', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2565602/']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Naltrexone is associated with minimal weight loss as monotherapy, but has potential utility in the treatment of obesity when combined with Pro-opiomelanocortin activator - bupropion.', 'directed': True, 'graph': {'_id': 'DB00704_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'treats', 'source': 'MESH:D009270', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naltrexone'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00704', 'https://pubmed.ncbi.nlm.nih.gov/19537999/']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'This medication is reserved for tumors that express PD-L1 or have high mutation burden.', 'directed': True, 'graph': {'_id': 'DB11595_MESH_D002295_1', 'disease': 'Transitional cell carcinoma', 'disease_mesh': 'MESH:D002295', 'drug': 'atezolizumab', 'drug_mesh': 'MESH:C000594389', 'drugbank': 'DB:DB11595'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000594389', 'target': 'UniProt:Q9NZQ7'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0042098'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0042110'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002424'}, {'key': 'positively correlated with', 'source': 'GO:0042110', 'target': 'GO:0002424'}, {'key': 'negatively correlated with', 'source': 'GO:0002424', 'target': 'MESH:D002295'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000594389', 'label': 'Drug', 'name': 'Atezolizumab'}, {'id': 'UniProt:Q9NZQ7', 'label': 'Protein', 'name': 'Programmed cell death 1 ligand 1'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'GO:0042110', 'label': 'BiologicalProcess', 'name': 'T cell activation'}, {'id': 'GO:0002424', 'label': 'BiologicalProcess', 'name': 'T cell mediated immune response to tumor cell'}, {'id': 'MESH:D002295', 'label': 'Disease', 'name': 'Transitional cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB11595', 'https://en.wikipedia.org/wiki/Atezolizumab#Pharmacology', 'https://en.wikipedia.org/wiki/PD-1_and_PD-L1_inhibitors']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12478_MESH_D020734_1', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Piribedil', 'drug_mesh': 'MESH:D010891', 'drugbank': 'DB:DB12478'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010891', 'target': 'UniProt:P14416'}, {'key': 'increases activity of', 'source': 'MESH:D010891', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010891', 'label': 'Drug', 'name': 'Piribedil'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'D(3) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://en.wikipedia.org/wiki/Piribedil', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Levomefolic acid can be found in contraceptive pills as a source of folic acid to help to prevent spinal cord birth defects in an unborn baby. There has not been any evidence to support that levomefolic acid on its own is an indication for acne vulgaris. When combined with hormones such as progestin and estrogen (birth pill) it can be used to treat moderate acne as well as premenstrual dysphoric disorder (https://www.webmd.com/drugs/2/drug-154717/beyaz-oral/details), but not on its own.', 'directed': True, 'graph': {'_id': 'DB11256_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'levomefolic acid', 'drug_mesh': 'MESH:C569381', 'drugbank': 'DB:DB11256'}, 'links': [{'key': 'treats', 'source': 'MESH:C569381', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569381', 'label': 'Drug', 'name': 'levomefolic acid'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.accessdata.fda.gov/drugsatfda_docs/nda/2010/022532Orig1s000CrossR.pdf']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Levomefolic acid can be found in contraceptive pills as a source of folic acid to help to prevent spinal cord birth defects in an unborn baby. There has not been any evidence to support that levomefolic acid on its own is an indication for acne vulgaris. When combined with hormones such as progestin and estrogen (birth pill) it can be used to treat moderate acne as well as premenstrual dysphoric disorder (https://www.webmd.com/drugs/2/drug-154717/beyaz-oral/details), but not on its own.', 'directed': True, 'graph': {'_id': 'DB11256_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'levomefolic acid', 'drug_mesh': 'MESH:C569381', 'drugbank': 'DB:DB11256'}, 'links': [{'key': 'treats', 'source': 'MESH:C569381', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569381', 'label': 'Drug', 'name': 'levomefolic acid'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=58cd12d3-39b1-4375-b7e0-09ba2378a52b']}\n", + "['Drug', 'Disease']\n", + "{'comment': \"The drug stimulates the expression of several genes (e.g. HSP, SOD, etc) but it's not clear if the drug binds to these or other targets to modulate the known actions namely oxygen radical scavenging, anti-oxidation, anti-inflammation, and acceleration of gastrointestinal wound healing.\", 'directed': True, 'graph': {'_id': 'DB09221_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'polaprezinc', 'drug_mesh': 'MESH:C061957', 'drugbank': 'DB:DB09221'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C061957', 'target': 'CHEBI:26523'}, {'key': 'positively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0070254'}, {'key': 'negatively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0070254', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0042060'}, {'key': 'negatively correlated with', 'source': 'MESH:C061957', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0042060', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'CHEBI:26523', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061957', 'label': 'Drug', 'name': 'polaprezinc'}, {'id': 'CHEBI:26523', 'label': 'ChemicalSubstance', 'name': 'reactive oxygen species'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'GO:0042060', 'label': 'BiologicalProcess', 'name': 'Wound Healing'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'mucus secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://en.wikipedia.org/wiki/Zinc_L-carnosine#Mechanisms_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is also known as Juvenile rheumatoid arthritis as per DrugCentral. Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D001171_1', 'disease': 'Arthritis, Juvenile', 'disease_mesh': 'MESH:D001171', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001171'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Arthritis, Juvenile'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D006261_1', 'disease': 'Headache Disorders', 'disease_mesh': 'MESH:D006261', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D006261'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D006261', 'label': 'Disease', 'name': 'Headache Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08890_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'linaclotide', 'drug_mesh': 'MESH:C523483', 'drugbank': 'DB:DB08890'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C523483', 'target': 'UniProt:P25092'}, {'key': 'positively regulates', 'source': 'UniProt:P25092', 'target': 'GO:0006182'}, {'key': 'increases activity of', 'source': 'GO:0006182', 'target': 'UBERON:0025525'}, {'key': 'negatively correlated with', 'source': 'UBERON:0025525', 'target': 'HP:0030895'}, {'key': 'decreases activity of', 'source': 'GO:0006182', 'target': 'UBERON:0001800'}, {'key': 'positively correlated with', 'source': 'UBERON:0001800', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0030895', 'target': 'MESH:D043183'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D043183'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0015701'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0006833'}, {'key': 'positively correlated with', 'source': 'GO:0015701', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0006833', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0015701', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'GO:0006833', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D043183'}, {'key': 'negatively correlated with', 'source': 'MESH:D007419', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C523483', 'label': 'Drug', 'name': 'linaclotide'}, {'id': 'UniProt:P25092', 'label': 'Protein', 'name': 'Heat-stable enterotoxin receptor'}, {'id': 'GO:0006182', 'label': 'BiologicalProcess', 'name': 'cGMP biosynthetic process'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0006833', 'label': 'BiologicalProcess', 'name': 'water transport'}, {'id': 'MESH:D007419', 'label': 'ChemicalSubstance', 'name': 'Intestinal Secretions'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'UBERON:0001800', 'label': 'GrossAnatomicalStructure', 'name': 'sensory ganglion'}, {'id': 'UBERON:0025525', 'label': 'GrossAnatomicalStructure', 'name': 'motor system'}, {'id': 'HP:0030895', 'label': 'PhenotypicFeature', 'name': 'Abnormal gastrointestinal motility'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB08890#mechanism-of-action', 'https://en.wikipedia.org/wiki/Linaclotide#Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06480_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'prucalopride', 'drug_mesh': 'MESH:C406662', 'drugbank': 'DB:DB06480'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C406662', 'target': 'UniProt:Q13639'}, {'key': 'positively regulates', 'source': 'UniProt:Q13639', 'target': 'GO:0061526'}, {'key': 'positively correlated with', 'source': 'GO:0061526', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C406662', 'label': 'Drug', 'name': 'prucalopride'}, {'id': 'UniProt:Q13639', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 4'}, {'id': 'GO:0061526', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://go.drugbank.com/drugs/DB06480#mechanism-of-action', 'https://en.wikipedia.org/wiki/Prucalopride#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'The disease is denoted Menopausal flushing in the original file as per DrugCentral. The etiology of hot flashes has yet to be determined (https://pubmed.ncbi.nlm.nih.gov/15065632/).', 'directed': True, 'graph': {'_id': 'DB06401_MESH_D019584_1', 'disease': 'Hot Flashes', 'disease_mesh': 'MESH:D019584', 'drug': 'bazedoxifene', 'drug_mesh': 'MESH:C447119', 'drugbank': 'DB:DB06401'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:Q92731'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'regulates', 'source': 'UniProt:Q92731', 'target': 'GO:0097746'}, {'key': 'correlated with', 'source': 'GO:0097746', 'target': 'MESH:D014666'}, {'key': 'regulates', 'source': 'GO:0006874', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C447119', 'label': 'Drug', 'name': 'bazedoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0097746', 'label': 'BiologicalProcess', 'name': 'blood vessel diameter maintenance'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Hot Flashes'}], 'reference': ['https://go.drugbank.com/drugs/DB06401#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bazedoxifene#Pharmacology', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL46740/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The disease is denoted Postmenopausal osteoporosis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB06401_MESH_D015663_1', 'disease': 'Osteoporosis, Postmenopausal', 'disease_mesh': 'MESH:D015663', 'drug': 'bazedoxifene', 'drug_mesh': 'MESH:C447119', 'drugbank': 'DB:DB06401'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:Q92731'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'positively correlated with', 'source': 'GO:0006874', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'UniProt:Q92731', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C447119', 'label': 'Drug', 'name': 'bazedoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Osteoporosis, Postmenopausal'}], 'reference': ['https://go.drugbank.com/drugs/DB06401#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bazedoxifene#Pharmacology', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL46740/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'The drug enables ribosomes to bypass premature stop codons caused by nonsense mutations in the dystrophin gene. This restores the full-length and functional capability of dystrophin. Without the drug, the premature stop codon means that a truncated protein will be produced, which will be unabled to play its role in muscle strenght and proper function leading to the disease. The disease is denoted Duchenne muscular dystrophy in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB05016_MESH_D020388_1', 'disease': 'Muscular Dystrophy, Duchenne', 'disease_mesh': 'MESH:D020388', 'drug': 'ataluren', 'drug_mesh': 'MESH:C515878', 'drugbank': 'DB:DB05016'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:C515878', 'target': 'UniProt:P11532'}, {'key': 'disrupted by', 'source': 'UniProt:P11532', 'target': 'MESH:D018389'}, {'key': 'predisposes', 'source': 'MESH:D018389', 'target': 'MESH:D059365'}, {'key': 'positively correlated with', 'source': 'MESH:D059365', 'target': 'HP:0003323'}, {'key': 'manifestation of', 'source': 'HP:0003323', 'target': 'MESH:D020388'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C515878', 'label': 'Drug', 'name': 'ataluren'}, {'id': 'UniProt:P11532', 'label': 'Protein', 'name': 'Dystrophin'}, {'id': 'MESH:D018389', 'label': 'ChemicalSubstance', 'name': 'Codon, Nonsense'}, {'id': 'MESH:D059365', 'label': 'BiologicalProcess', 'name': 'Nonsense Mediated mRNA Decay'}, {'id': 'HP:0003323', 'label': 'PhenotypicFeature', 'name': 'Progressive muscle weakness'}, {'id': 'MESH:D020388', 'label': 'Disease', 'name': 'Muscular Dystrophy, Duchenne'}], 'reference': ['https://go.drugbank.com/drugs/DB05016#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ataluren#Pharmacology']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D004948_1', 'disease': 'Esotropia', 'disease_mesh': 'MESH:D004948', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'negatively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000549'}, {'key': 'manifestation of', 'source': 'HP:0000549', 'target': 'MESH:D004948'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000549', 'label': 'PhenotypicFeature', 'name': 'Abnormal conjugate eye movement'}, {'id': 'MESH:D004948', 'label': 'Disease', 'name': 'Esotropia'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The drug allows for the trabecular meshwork in the eye (UBERON:0005969) to open, increasing the outflow of the aqueous humor and having a positive impact on reducing intraocular pressure. Note that MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212). The disease is also known as Open-angle glaucoma as per in DrugCentral.', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D005902_1', 'disease': 'Glaucoma, Open-Angle', 'disease_mesh': 'MESH:D005902', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Glaucoma, Open-Angle'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The drug allows for the trabecular meshwork in the eye (UBERON:0005969) to open, increasing the outflow of the aqueous humor and having a positive impact on reducing intraocular pressure. Note that MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D000080362_1', 'disease': \"Stargardt's disease\", 'disease_mesh': 'MESH:D000080362', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007663'}, {'key': 'manifestation of', 'source': 'HP:0007663', 'target': 'MESH:D000080362'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007663', 'label': 'PhenotypicFeature', 'name': 'Reduced visual acuity'}, {'id': 'MESH:D000080362', 'label': 'Disease', 'name': \"Stargardt's disease\"}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180', 'https://patents.google.com/patent/US7915312B2/en']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00703_MESH_D015812_1', 'disease': 'Angle-closure glaucoma', 'disease_mesh': 'MESH:D015812', 'drug': 'methazolamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB00703'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P07451'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P07451', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D015812'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004005', 'label': 'Drug', 'name': 'methazolamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P07451', 'label': 'Protein', 'name': 'Carbonic anhydrase 3'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D015812', 'label': 'Disease', 'name': 'Angle-closure glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00703#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 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'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00703#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00653_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'magnesium sulfate', 'drug_mesh': 'MESH:D008278', 'drugbank': 'DB:DB00653'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D008278', 'target': 'Pfam:PF02898'}, {'key': 'positively correlated with', 'source': 'Pfam:PF02898', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'MESH:D008278', 'target': 'UniProt:P06307'}, {'key': 'positively regulates', 'source': 'UniProt:P06307', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003248'}, {'key': 'subclass of', 'source': 'MESH:D008278', 'target': 'MESH:D054368'}, {'key': 'positively correlated with', 'source': 'MESH:D054368', 'target': 'GO:0030421'}, {'key': 'negatively correlated with', 'source': 'GO:0030421', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008278', 'label': 'Drug', 'name': 'magnesium sulfate'}, {'id': 'Pfam:PF02898', 'label': 'GeneFamily', 'name': 'Nitric oxide synthase'}, {'id': 'UniProt:P06307', 'label': 'Protein', 'name': 'Cholecystokinin'}, {'id': 'MESH:D054368', 'label': 'ChemicalSubstance', 'name': 'Laxatives'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'GO:0030421', 'label': 'BiologicalProcess', 'name': 'defecation'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://en.wikipedia.org/wiki/Laxative#Saline_laxative_agents', 'https://pubmed.ncbi.nlm.nih.gov/8878010/', 'https://www.gastrojournal.org/article/S0016-5085(03)01919-X/fulltext', 'https://pubmed.ncbi.nlm.nih.gov/27528058/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00061_MESH_C531816_1', 'disease': 'Adenosine deaminase deficiency', 'disease_mesh': 'MESH:C531816', 'drug': 'pegademase', 'drug_mesh': 'MESH:C051409', 'drugbank': 'DB:DB00061'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C051409', 'target': 'CHEBI:17256'}, {'key': 'disrupts', 'source': 'CHEBI:17256', 'target': 'CL:0000084'}, {'key': 'positively correlated with', 'source': 'CL:0000084', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:C531816'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C051409', 'label': 'Drug', 'name': 'Pegademase'}, {'id': 'CHEBI:17256', 'label': 'ChemicalSubstance', 'name': \"2'-deoxyadenosine\"}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T cell'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'MESH:C531816', 'label': 'Disease', 'name': 'Adenosine deaminase deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00061', 'https://en.wikipedia.org/wiki/Adenosine_deaminase_deficiency']}\n", + "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'GO:0033280', 'target': 'GO:0035898'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively regulates', 'source': 'GO:0035898', 'target': 'CL:0000092'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D010024'}, {'key': 'capable of', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 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'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'GO:0033280', 'target': 'GO:0035898'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively regulates', 'source': 'GO:0035898', 'target': 'CL:0000092'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D015663'}, {'key': 'capable of', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'Parathyroid hormone secretion'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'Hypocalcemia'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257679/', 'https://go.drugbank.com/drugs/DB00169']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D007011_1', 'disease': 'Hypoparathyroidism', 'disease_mesh': 'MESH:D007011', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D007011'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'Hypocalcemia'}, {'id': 'MESH:D007011', 'label': 'Disease', 'name': 'Hypoparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Hypoparathyroidism#Treatment', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257679/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D014808_1', 'disease': 'Vitamin D deficiency', 'disease_mesh': 'MESH:D014808', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D014808'}, {'key': 'negatively correlated with', 'source': 'GO:0033280', 'target': 'HP:0001324'}, {'key': 'positively correlated with', 'source': 'HP:0001324', 'target': 'MESH:D014808'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'HP:0001324', 'label': 'PhenotypicFeature', 'name': 'Muscle weakness'}, {'id': 'MESH:D014808', 'label': 'Disease', 'name': 'Vitamin D deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Vitamin_D_deficiency#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D012279_1', 'disease': 'Rickets', 'disease_mesh': 'MESH:D012279', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D012279'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D012279', 'label': 'Disease', 'name': 'Rickets'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Rickets#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00169']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D014808_2', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D014808', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D014808'}, {'key': 'negatively correlated with', 'source': 'GO:0033280', 'target': 'HP:0001324'}, {'key': 'positively correlated with', 'source': 'HP:0001324', 'target': 'MESH:D014808'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'HP:0001324', 'label': 'PhenotypicFeature', 'name': 'Muscle weakness'}, {'id': 'MESH:D014808', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Vitamin_D_deficiency#Signs_and_symptoms']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D018633_1', 'disease': 'Congenital atresia of the pulmonary valve', 'disease_mesh': 'MESH:D018633', 'drug': 'Alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity 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'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D018633', 'label': 'Disease', 'name': 'Congenital atresia of the pulmonary valve'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D000071079_1', 'disease': 'Pulmonary artery stenosis', 'disease_mesh': 'MESH:D000071079', 'drug': 'Alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000071079'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000071079', 'label': 'Disease', 'name': 'Pulmonary artery stenosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1', 'https://en.wikipedia.org/wiki/Tricuspid_atresia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D018785_1', 'disease': 'Congenital atresia of tricuspid valve', 'disease_mesh': 'MESH:D018785', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'HP:0001643'}, {'key': 'negatively correlated with', 'source': 'HP:0001643', 'target': 'MESH:D018785'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'HP:0001643', 'label': 'PhenotypicFeature', 'name': 'Patent ductus arteriosus'}, {'id': 'MESH:D018785', 'label': 'Disease', 'name': 'Congenital atresia of tricuspid valve'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1', 'https://en.wikipedia.org/wiki/Tricuspid_atresia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D001017_1', 'disease': 'Coarctation of aorta', 'disease_mesh': 'MESH:D001017', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated 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'https://en.wikipedia.org/wiki/Coarctation_of_the_aorta']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 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'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'HP:0012418'}, {'key': 'occurs in', 'source': 'HP:0012418', 'target': 'MESH:D013771'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood 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'Bcl-xL'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T cell'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'GO:0042451', 'label': 'BiologicalProcess', 'name': 'Purine nucleoside biosynthetic process'}, {'id': 'CL:0000738', 'label': 'Cell', 'name': 'Leukocyte'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://en.wikipedia.org/wiki/Azathioprine', 'https://go.drugbank.com/drugs/DB00993']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Flupentixol is not approved for use in the United States. Flupentixol exists in two geometric isomers, the trans(E) and pharmacologically active cis(Z) forms.It is generally understood that positive symptoms of schizophrenia arise from a dysregulated striatal dopamine pathway, leading to hyperstimulation of D2 receptors.', 'directed': True, 'graph': {'_id': 'DB00875_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'flupentixol', 'drug_mesh': 'MESH:D005475', 'drugbank': 'DB:DB00875'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005475', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005475', 'label': 'Drug', 'name': 'Flupentixol'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine receptors'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00875']}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'comment': 'The link between guanfacine’s molecular mechanism and it’s effect on the treatment of ADHD has not been determined', 'directed': True, 'graph': {'_id': 'DB01018_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'guanfacine', 'drug_mesh': 'MESH:D016316', 'drugbank': 'DB:DB01018'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016316', 'target': 'UniProt:P08913'}, {'key': 'treats', 'source': 'UniProt:P08913', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016316', 'label': 'Drug', 'name': 'Guanfacine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01018']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01018_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'guanfacine', 'drug_mesh': 'MESH:D016316', 'drugbank': 'DB:DB01018'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016316', 'target': 'UniProt:P08913'}, {'key': 'positively correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0004938'}, {'key': 'negatively regulates', 'source': 'GO:0004938', 'target': 'GO:0061533'}, {'key': 'positively correlated with', 'source': 'GO:0061533', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016316', 'label': 'Drug', 'name': 'Guanfacine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'GO:0004938', 'label': 'BiologicalProcess', 'name': 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'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005419', 'label': 'Drug', 'name': 'Oxybutynin'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge incontinence of urine'}], 'reference': ['https://go.drugbank.com/drugs/DB01062#BE0000045']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01062_MESH_D001750_1', 'disease': 'Neurogenic bladder', 'disease_mesh': 'MESH:D001750', 'drug': 'oxybutynin', 'drug_mesh': 'MESH:C005419', 'drugbank': 'DB:DB01062'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively 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'disease_mesh': 'MESH:D002181', 'drug': 'candicidin', 'drug_mesh': 'MESH:D002174', 'drugbank': 'DB:DB01152'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002174', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002174', 'label': 'Drug', 'name': 'Candicidin'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'Ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'Yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis of vagina'}], 'reference': ['https://go.drugbank.com/drugs/DB01152']}\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06282_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0031417'}, {'key': 'manifestation of', 'source': 'HP:0031417', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C472067', 'label': 'Drug', 'name': 'Levocetirizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0031417', 'label': 'PhenotypicFeature', 'name': 'Rhinorrhea'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06282#BE0000442']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06282_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated 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'graph': {'_id': 'DB06282_MESH_D000080223_1', 'disease': 'Chronic idiopathic urticaria', 'disease_mesh': 'MESH:D000080223', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D000080223'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D000080223'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000080223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C472067', 'label': 'Drug', 'name': 'Levocetirizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D000080223', 'label': 'Disease', 'name': 'Chronic idiopathic urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06282#BE0000442']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Ivacaftor as monotherapy has failed to show a benefit for patients with delta-F508 mutations', 'directed': True, 'graph': {'_id': 'DB08820_MESH_D003550_1', 'disease': 'Cystic fibrosis of the lung', 'disease_mesh': 'MESH:D003550', 'drug': 'Ivacaftor', 'drug_mesh': 'MESH:C545203', 'drugbank': 'DB:DB08820'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C545203', 'target': 'UniProt:P13569'}, {'key': 'disrupted by', 'source': 'UniProt:P13569', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C545203', 'label': 'Drug', 'name': 'Ivacaftor'}, {'id': 'UniProt:P13569', 'label': 'Protein', 'name': 'Cystic fibrosis transmembrane conductance regulator'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis of the lung'}], 'reference': ['https://go.drugbank.com/drugs/DB08820']}\n", + "['Drug', 'Protein', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08841_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Tyramine', 'drug_mesh': 'MESH:D014439', 'drugbank': 'DB:DB08841'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'UniProt:P04035'}, {'key': 'ameliorates', 'source': 'UniProt:P04035', 'target': 'MESH:D002784'}, {'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'InterPro:IPR014371'}, {'key': 'ameliorates', 'source': 'InterPro:IPR014371', 'target': 'MESH:D002784'}, {'key': 'manifestation of', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014439', 'label': 'Drug', 'name': 'Tyramine'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'InterPro:IPR014371', 'label': 'GeneFamily', 'name': 'Acyl-CoA cholesterol acyltransferase'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Serum total cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08841#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08841_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Tyramine', 'drug_mesh': 'MESH:D014439', 'drugbank': 'DB:DB08841'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'UniProt:P04035'}, {'key': 'ameliorates', 'source': 'UniProt:P04035', 'target': 'MESH:D002784'}, {'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'InterPro:IPR014371'}, {'key': 'ameliorates', 'source': 'InterPro:IPR014371', 'target': 'MESH:D002784'}, {'key': 'correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014439', 'label': 'Drug', 'name': 'Tyramine'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'InterPro:IPR014371', 'label': 'GeneFamily', 'name': 'Acyl-CoA cholesterol acyltransferase'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Serum total cholesterol'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08841#mechanismofaction']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01586_MESH_D002769_1', 'disease': 'Calculus in biliary tract', 'disease_mesh': 'MESH:D002769', 'drug': 'Ursodiol', 'drug_mesh': 'MESH:D014580', 'drugbank': 'DB:DB01586'}, 'links': [{'key': 'prevents', 'source': 'MESH:D014580', 'target': 'REACT:R-HSA-191273'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-191273', 'target': 'HP:0011980'}, {'key': 'prevents', 'source': 'MESH:D014580', 'target': 'GO:0030299'}, {'key': 'disrupts', 'source': 'GO:0030299', 'target': 'HP:0011980'}, {'key': 'causes', 'source': 'HP:0011980', 'target': 'MESH:D002769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014580', 'label': 'Drug', 'name': 'Ursodiol'}, {'id': 'GO:0030299', 'label': 'BiologicalProcess', 'name': 'Intestinal cholesterol absorption'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'HP:0011980', 'label': 'PhenotypicFeature', 'name': 'Cholesterol gallstones'}, {'id': 'MESH:D002769', 'label': 'Disease', 'name': 'Calculus in biliary tract'}], 'reference': ['https://go.drugbank.com/drugs/DB01586#mechanismofaction']}\n", + "['Drug', 'Pathway', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01586_MESH_D008105_1', 'disease': 'Primary biliary cirrhosis', 'disease_mesh': 'MESH:D008105', 'drug': 'Ursodiol', 'drug_mesh': 'MESH:D014580', 'drugbank': 'DB:DB01586'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014580', 'target': 'GO:0032782'}, {'key': 'positively regulates', 'source': 'GO:0032782', 'target': 'GO:0015721'}, {'key': 'correlated 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'GO:0070527', 'target': 'GO:0042311'}, {'key': 'ameliorates', 'source': 'GO:0042311', 'target': 'HP:0002637'}, {'key': 'correlated with', 'source': 'HP:0002637', 'target': 'MESH:D020301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C034364', 'label': 'Drug', 'name': 'Ozagrel'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0002637', 'label': 'PhenotypicFeature', 'name': 'Cerebral ischemia'}, {'id': 'MESH:D020301', 'label': 'Disease', 'name': 'Spasm of cerebral arteries'}], 'reference': ['https://go.drugbank.com/drugs/DB12017#mechanismofaction', 'DOI:10.4103/0028-3886.271236']}\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB12017_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Ozagrel', 'drug_mesh': 'MESH:C034364', 'drugbank': 'DB:DB12017'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C034364', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0004225'}, {'key': 'positively correlated with', 'source': 'UBERON:0004225', 'target': 'HP:0032933'}, {'key': 'manifestation of', 'source': 'HP:0032933', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C034364', 'label': 'Drug', 'name': 'Ozagrel'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'UBERON:0004225', 'label': 'GrossAnatomicalStructure', 'name': 'Respiratory system smooth muscle'}, {'id': 'HP:0032933', 'label': 'PhenotypicFeature', 'name': 'Airway hyperresponsiveness'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB12017#mechanismofaction', 'https://doi.org/10.1517/13543784.11.2.275']}\n", + "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Benzoic acid is used in the salt form sodium benzoate', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D022124_1', 'disease': 'Hyperammonemia', 'disease_mesh': 'MESH:D022124', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019817', 'target': 'MESH:D005998'}, {'key': 'positively regulates', 'source': 'MESH:D005998', 'target': 'GO:0007588'}, {'key': 'decreases abundance of', 'source': 'GO:0007588', 'target': 'MESH:D000641'}, {'key': 'contributes to', 'source': 'MESH:D000641', 'target': 'MESH:D022124'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D005998', 'label': 'ChemicalSubstance', 'name': 'Glycine'}, {'id': 'GO:0007588', 'label': 'BiologicalProcess', 'name': 'Renal excretion'}, {'id': 'MESH:D000641', 'label': 'ChemicalSubstance', 'name': 'Ammonia'}, {'id': 'MESH:D022124', 'label': 'Disease', 'name': 'Hyperammonemia'}], 'reference': ['https://go.drugbank.com/drugs/DB03793#mechanismofaction', 'https://www.accessdata.fda.gov/drugsatfda_docs/label/2005/020645lbl.pdf', 'https://en.wikipedia.org/wiki/Hyperammonemia#Treatment']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Systemic sclerosis', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D012594_1', 'disease': 'Systemic sclerosis', 'disease_mesh': 'MESH:D012594', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D012594'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D012594', 'label': 'Disease', 'name': 'Systemic sclerosis'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.alliedacademies.org/articles/treatment-of-scleroderma-with-paraaminobenzoic-acid-effect-on-disease-morbidity-10183.html', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Dermatomyositis', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D003882_1', 'disease': 'Dermatomyositis', 'disease_mesh': 'MESH:D003882', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D003882'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D003882', 'label': 'Disease', 'name': 'Dermatomyositis'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Pemphigus', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D010392_1', 'disease': 'Pemphigus', 'disease_mesh': 'MESH:D010392', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D010392'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D010392', 'label': 'Disease', 'name': 'Pemphigus'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Induratio penis plastica', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D010411_1', 'disease': 'Induratio penis plastica', 'disease_mesh': 'MESH:D010411', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D010411'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D010411', 'label': 'Disease', 'name': 'Induratio penis plastica'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01058_MESH_D012552_1', 'disease': 'Infection by Schistosoma', 'disease_mesh': 'MESH:D012552', 'drug': 'Praziquantel', 'drug_mesh': 'MESH:D011223', 'drugbank': 'DB:DB01058'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D011223', 'target': 'UniProt:Q963L7'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q963L7', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'MESH:D011223', 'target': 'GO:0052200'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0002432'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0006909'}, {'key': 'in taxon', 'source': 'GO:0002432', 'target': 'NCBITaxon:6181'}, {'key': 'in taxon', 'source': 'GO:0006909', 'target': 'NCBITaxon:6181'}, {'key': 'in taxon', 'source': 'GO:0070509', 'target': 'NCBITaxon:6181'}, {'key': 'causes', 'source': 'NCBITaxon:6181', 'target': 'MESH:D012552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011223', 'label': 'Drug', 'name': 'Praziquantel'}, {'id': 'UniProt:Q963L7', 'label': 'Protein', 'name': 'Calcium ion channels'}, {'id': 'GO:0052200', 'label': 'BiologicalProcess', 'name': 'Host defense responses'}, {'id': 'GO:0002432', 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'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:263'}, {'key': 'causes', 'source': 'NCBITaxon:263', 'target': 'MESH:D014406'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:263', 'label': 'OrganismTaxon', 'name': 'Francisella tularensis'}, {'id': 'MESH:D014406', 'label': 'Disease', 'name': 'Tularemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D010930_1', 'disease': 'Plague', 'disease_mesh': 'MESH:D010930', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 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'DB01082_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", + "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D006100_1', 'disease': 'Granuloma inguinale', 'disease_mesh': 'MESH:D006100', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:39824'}, {'key': 'causes', 'source': 'NCBITaxon:39824', 'target': 'MESH:D006100'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:39824', 'label': 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'disease_mesh': 'MESH:D011537', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06766_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Alcaftadine', 'drug_mesh': 'MESH:C557708', 'drugbank': 'DB:DB06766'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C557708', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'decreases activity of', 'source': 'GO:0001821', 'target': 'GO:0006935'}, {'key': 'ameliorates', 'source': 'GO:0006935', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'GO:0001821', 'target': 'GO:0043307'}, {'key': 'ameliorates', 'source': 'GO:0043307', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C557708', 'label': 'Drug', 'name': 'Alcaftadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043307', 'label': 'BiologicalProcess', 'name': 'Eosinophil activation'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'GO:0006935', 'label': 'BiologicalProcess', 'name': 'Chemotaxis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06766#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Elosulfase alfa is a synthetic version of N-acetylgalactosamine-6-sulfatase, used in enzyme replacement therapy', 'directed': True, 'graph': {'_id': 'DB09051_MESH_D009085_1', 'disease': 'Mucopolysaccharidosis, MPS-IV-A', 'disease_mesh': 'MESH:D009085', 'drug': 'Elosulfase alfa', 'drug_mesh': 'MESH:C102295', 'drugbank': 'DB:DB09051'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C102295', 'target': 'InterPro:IPR000479'}, {'key': 'increases uptake of', 'source': 'InterPro:IPR000479', 'target': 'GO:0005764'}, {'key': 'increases degradation of', 'source': 'GO:0005764', 'target': 'MESH:D006025'}, {'key': 'manifestation of', 'source': 'MESH:D006025', 'target': 'MESH:D009085'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C102295', 'label': 'Drug', 'name': 'Elosulfase alfa'}, {'id': 'InterPro:IPR000479', 'label': 'GeneFamily', 'name': 'Mannose-6-phosphate receptor'}, {'id': 'GO:0005764', 'label': 'CellularComponent', 'name': 'Lysosome'}, {'id': 'MESH:D006025', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'MESH:D009085', 'label': 'Disease', 'name': 'Mucopolysaccharidosis, MPS-IV-A'}], 'reference': ['https://go.drugbank.com/drugs/DB09051#mechanismofaction', 'doi:10.2147/TACG.S69080', 'https://www.accessdata.fda.gov/drugsatfda_docs/label/2014/125460s000lbl.pdf']}\n", + "['Drug', 'GeneFamily', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", + "{'comment': 'Omarigliptin has been used in trials studying the treatment of Type 2 Diabetes Mellitus and Chronic Renal Insufficiency', 'directed': True, 'graph': {'_id': 'DB11992_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Omarigliptin', 'drug_mesh': 'MESH:C587539', 'drugbank': 'DB:DB11992'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C587539', 'target': 'UniProt:P27487'}, {'key': 'increases abundance of', 'source': 'UniProt:P27487', 'target': 'UniProt:P01275'}, {'key': 'negatively regulates', 'source': 'UniProt:P01275', 'target': 'GO:0070091'}, {'key': 'increases abundance of', 'source': 'UniProt:P27487', 'target': 'UniProt:P09681'}, {'key': 'negatively regulates', 'source': 'UniProt:P09681', 'target': 'GO:0070091'}, {'key': 'positively regulates', 'source': 'GO:0070091', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'negatively regulates', 'source': 'GO:0070091', 'target': 'GO:0035483'}, {'key': 'decreases abundance of', 'source': 'GO:0035483', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587539', 'label': 'Drug', 'name': 'Omarigliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase-4'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'Glucagon-like peptide-1'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'Glucagon release'}, {'id': 'UniProt:P09681', 'label': 'Protein', 'name': 'Gastric inhibitory polypeptide'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'Gastric emptying'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB11992#mechanismofaction', 'https://en.wikipedia.org/wiki/Omarigliptin']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB11783_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'imidapril', 'drug_mesh': 'MESH:C065166', 'drugbank': 'DB:DB11783'}, 'links': [{'key': 'produces', 'source': 'MESH:C065166', 'target': 'MESH:C078006'}, {'key': 'decreases activity of', 'source': 'MESH:C078006', 'target': 'UniProt:P12821'}, {'key': 'positively regulates', 'source': 'UniProt:P12821', 'target': 'GO:0002003'}, {'key': 'positively regulates', 'source': 'GO:0002003', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065166', 'label': 'Drug', 'name': 'imidapril'}, {'id': 'MESH:C078006', 'label': 'Drug', 'name': 'imidaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'GO:0002003', 'label': 'BiologicalProcess', 'name': 'angiotensin maturation'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL317094/', 'https://en.wikipedia.org/wiki/ACE_inhibitor#Effects']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The drug may also modulate other members of the Voltage-gated L-type calcium channel protein family (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1275868/) or T-type calcium channel protein family (https://en.wikipedia.org/wiki/Azelnidipine).', 'directed': True, 'graph': {'_id': 'DB09230_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'azelnidipine', 'drug_mesh': 'MESH:C061679', 'drugbank': 'DB:DB09230'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061679', 'target': 'UniProt:Q02641'}, {'key': 'positively regulates', 'source': 'UniProt:Q02641', 'target': 'GO:0061577'}, {'key': 'positively regulates', 'source': 'GO:0061577', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061679', 'label': 'Drug', 'name': 'azelnidipine'}, {'id': 'UniProt:Q02641', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-1'}, {'id': 'GO:0061577', 'label': 'BiologicalProcess', 'name': 'calcium ion transmembrane transport via high voltage-gated calcium channel'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09230#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The disease is denoted as Ulcerative cystitis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB01093_MESH_D018856_1', 'disease': 'Cystitis, Interstitial', 'disease_mesh': 'MESH:D018856', 'drug': 'dimethyl sulfoxide', 'drug_mesh': 'MESH:D004121', 'drugbank': 'DB:DB01093'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D004121', 'target': 'GO:0006954'}, {'key': 'negatively correlated with', 'source': 'MESH:D004121', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0100577'}, {'key': 'positively correlated with', 'source': 'HP:0012531', 'target': 'HP:0100577'}, {'key': 'manifestation of', 'source': 'HP:0100577', 'target': 'MESH:D018856'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004121', 'label': 'Drug', 'name': 'dimethyl sulfoxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'HP:0100577', 'label': 'PhenotypicFeature', 'name': 'Urinary bladder inflammation'}, {'id': 'MESH:D018856', 'label': 'Disease', 'name': 'Cystitis, Interstitial'}], 'reference': ['https://go.drugbank.com/drugs/DB01093']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00952_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Naratriptan', 'drug_mesh': 'MESH:C106783', 'drugbank': 'DB:DB00952'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P30939'}, {'key': 'negatively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0150076'}, {'key': 'negatively regulates', 'source': 'UniProt:P30939', 'target': 'GO:0150076'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D008881'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106783', 'label': 'Drug', 'name': 'Naratriptan'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P30939', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1F'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0150076', 'label': 'BiologicalProcess', 'name': 'neuroinflammatory response'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00952', 'https://pubmed.ncbi.nlm.nih.gov/31263254/', 'https://pubmed.ncbi.nlm.nih.gov/15911785/', 'https://pubmed.ncbi.nlm.nih.gov/15320857/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00801_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'halazepam', 'drug_mesh': 'MESH:C010175', 'drugbank': 'DB:DB00801'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C010175', 'target': 'MESH:D018079'}, {'key': 'positively regulates', 'source': 'MESH:D018079', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0060081'}, {'key': 'negatively correlated with', 'source': 'GO:0060081', 'target': 'MESH:D000071080'}, {'key': 'positively correlated with', 'source': 'MESH:D000071080', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010175', 'label': 'Drug', 'name': 'halazepam'}, {'id': 'MESH:D018079', 'label': 'GeneFamily', 'name': 'Receptors, GABA'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D000071080', 'label': 'BiologicalProcess', 'name': 'Cortical Excitability'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00801', 'https://pubchem.ncbi.nlm.nih.gov/compound/31640#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00683_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'midazolam', 'drug_mesh': 'MESH:D008874', 'drugbank': 'DB:DB00683'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008874', 'target': 'MESH:D018079'}, {'key': 'positively regulates', 'source': 'MESH:D018079', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0060081'}, {'key': 'negatively correlated with', 'source': 'GO:0060081', 'target': 'MESH:D000071080'}, {'key': 'positively correlated with', 'source': 'MESH:D000071080', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008874', 'label': 'Drug', 'name': 'midazolam'}, {'id': 'MESH:D018079', 'label': 'GeneFamily', 'name': 'Receptors, GABA'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D000071080', 'label': 'BiologicalProcess', 'name': 'Cortical Excitability'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00683']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'MESH:D002179 was denoted as Candidiasis of skin in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002179_1', 'disease': 'Candidiasis, Cutaneous', 'disease_mesh': 'MESH:D002179', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis, Cutaneous'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'MESH:D002179 was denoted as Candidiasis of mouth in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002180_1', 'disease': 'Candidiasis, Oral', 'disease_mesh': 'MESH:D002180', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002180', 'label': 'Disease', 'name': 'Candidiasis, Oral'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comments': 'MESH:D002179 was denoted as Candidiasis of mouth in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002181_1', 'disease': 'Candidiasis, Vulvovaginal', 'disease_mesh': 'MESH:D002181', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis, Vulvovaginal'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'At higher doses, bisoprolol antagonizes the B2 receptors, but is mainly selective for B1 receptors.', 'directed': True, 'graph': {'_id': 'DB00612_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'bisoprolol', 'drug_mesh': 'MESH:D017298', 'drugbank': 'DB:DB00612'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017298', 'target': 'UBERON:0034729'}, {'key': 'positively correlated with', 'source': 'UBERON:0034729', 'target': 'GO:0042310'}, {'key': 'decreases activity of', 'source': 'MESH:D017298', 'target': 'UniProt:P08588'}, {'key': 'positively correlated with', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'negatively correlated with', 'source': 'MESH:D017298', 'target': 'GO:0002001'}, {'key': 'positively correlated with', 'source': 'GO:0002001', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017298', 'label': 'Drug', 'name': 'bisoprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UBERON:0034729', 'label': 'GrossAnatomicalStructure', 'name': 'sympathetic nerve'}, {'id': 'GO:0002001', 'label': 'BiologicalProcess', 'name': 'renin secretion into blood stream'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00612', 'https://en.wikipedia.org/wiki/Bisoprolol#Mechanism_of_action']}\n", + "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00509_MESH_D006949_1', 'disease': 'Hyperlipidemias', 'disease_mesh': 'MESH:D006949', 'drug': 'dextrothyroxine', 'drug_mesh': 'MESH:D003918', 'drugbank': 'DB:DB00509'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003918', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D003918', 'target': 'UniProt:P10828'}, {'key': 'positively correlated with', 'source': 'UniProt:P10827', 'target': 'GO:0006707'}, {'key': 'increases activity of', 'source': 'UniProt:P10828', 'target': 'UniProt:P01130'}, {'key': 'positively correlated with', 'source': 'UniProt:P01130', 'target': 'GO:0043691'}, {'key': 'positively correlated with', 'source': 'UniProt:P01130', 'target': 'GO:0034381'}, {'key': 'negatively correlated with', 'source': 'GO:0006707', 'target': 'MESH:D006949'}, {'key': 'negatively correlated with', 'source': 'GO:0043691', 'target': 'MESH:D006949'}, {'key': 'negatively correlated with', 'source': 'GO:0034381', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003918', 'label': 'Drug', 'name': 'dextrothyroxine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0006707', 'label': 'BiologicalProcess', 'name': 'cholesterol catabolic process'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'GO:0043691', 'label': 'BiologicalProcess', 'name': 'reverse cholesterol transport'}, {'id': 'GO:0034381', 'label': 'BiologicalProcess', 'name': 'plasma lipoprotein particle clearance'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemias'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/9440092/', 'https://pubmed.ncbi.nlm.nih.gov/20935564/', 'https://go.drugbank.com/drugs/DB00509#mechanism-of-action', 'https://en.wikipedia.org/wiki/Triiodothyronine#Lipids']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00195_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00195_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:573'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:550'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:287'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:550', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:287', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'NCBITaxon:550', 'label': 'OrganismTaxon', 'name': 'Enterobacter cloacae'}, {'id': 'NCBITaxon:287', 'label': 'OrganismTaxon', 'name': 'Pseudomonas aeruginosa'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018410_2', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'L-type calcium channels are modulated by the adrenergic nervous system, hence betaxolol could indirectly modulate L calcium channels, decreasing heart rate and contraction, ultimately decreasing high blood pressure (https://en.wikipedia.org/wiki/L-type_calcium_channel#Inhibition_and_modulation).', 'directed': True, 'graph': {'_id': 'DB00195_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418555', 'target': 'InterPro:IPR005446'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR005446', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/CAMP-dependent_pathway#Importance']}\n", + "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'Pathway', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'This disease is also known as Herpes simplex keratitis as per DrugCentral. The drug needs to be converted to Vidarabine Phosphate first (monophosphate --> diphosphate --> triphosphate) to become active and exert its role as inhibitor (https://pubchem.ncbi.nlm.nih.gov/compound/21704#section=Mechanism-of-Action).', 'directed': True, 'graph': {'_id': 'DB00194_MESH_D016849_1', 'disease': 'Keratitis, Herpetic', 'disease_mesh': 'MESH:D016849', 'drug': 'vidarabine', 'drug_mesh': 'MESH:D014740', 'drugbank': 'DB:DB00194'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D014740', 'target': 'MESH:D001084'}, {'key': 'decreases activity of', 'source': 'MESH:D001084', 'target': 'UniProt:P04293'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0039686'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0090503'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0043631'}, {'key': 'in taxon', 'source': 'GO:0043631', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0039686', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0090503', 'target': 'NCBITaxon:10299'}, {'key': 'causes', 'source': 'NCBITaxon:10299', 'target': 'MESH:D016849'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014740', 'label': 'Drug', 'name': 'vidarabine'}, {'id': 'MESH:D001084', 'label': 'ChemicalSubstance', 'name': 'Vidarabine Phosphate'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit'}, {'id': 'GO:0039686', 'label': 'BiologicalProcess', 'name': 'bidirectional double-stranded viral DNA replication'}, {'id': 'GO:0090503', 'label': 'BiologicalProcess', 'name': 'RNA phosphodiester bond hydrolysis, exonucleolytic'}, {'id': 'GO:0043631', 'label': 'BiologicalProcess', 'name': 'RNA polyadenylation'}, {'id': 'NCBITaxon:10299', 'label': 'OrganismTaxon', 'name': 'Human alphaherpesvirus 1 strain 17'}, {'id': 'MESH:D016849', 'label': 'Disease', 'name': 'Keratitis, Herpetic'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1090/', 'https://en.wikipedia.org/wiki/Vidarabine#Mode_of_action', 'https://go.drugbank.com/drugs/DB00194']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This disease is denoted as Herpes simplex dendritic keratitis in the original file as per DrugCentral. The drug needs to be converted to Vidarabine Phosphate first (monophosphate --> diphosphate --> triphosphate) to become active and exert its role as inhibitor (https://pubchem.ncbi.nlm.nih.gov/compound/21704#section=Mechanism-of-Action).', 'directed': True, 'graph': {'_id': 'DB00194_MESH_D007635_1', 'disease': 'Keratitis, Dendritic', 'disease_mesh': 'MESH:D007635', 'drug': 'vidarabine', 'drug_mesh': 'MESH:D014740', 'drugbank': 'DB:DB00194'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D014740', 'target': 'MESH:D001084'}, {'key': 'decreases activity of', 'source': 'MESH:D001084', 'target': 'UniProt:P04293'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0039686'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0090503'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0043631'}, {'key': 'in taxon', 'source': 'GO:0043631', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0039686', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0090503', 'target': 'NCBITaxon:10299'}, {'key': 'causes', 'source': 'NCBITaxon:10299', 'target': 'MESH:D007635'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014740', 'label': 'Drug', 'name': 'vidarabine'}, {'id': 'MESH:D001084', 'label': 'ChemicalSubstance', 'name': 'Vidarabine Phosphate'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit'}, {'id': 'GO:0039686', 'label': 'BiologicalProcess', 'name': 'bidirectional double-stranded viral DNA replication'}, {'id': 'GO:0090503', 'label': 'BiologicalProcess', 'name': 'RNA phosphodiester bond hydrolysis, exonucleolytic'}, {'id': 'GO:0043631', 'label': 'BiologicalProcess', 'name': 'RNA polyadenylation'}, {'id': 'NCBITaxon:10299', 'label': 'OrganismTaxon', 'name': 'Human alphaherpesvirus 1 strain 17'}, {'id': 'MESH:D007635', 'label': 'Disease', 'name': 'Keratitis, Dendritic'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1090/', 'https://en.wikipedia.org/wiki/Vidarabine#Mode_of_action', 'https://go.drugbank.com/drugs/DB00194']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'This disease is denoted as Malignant neoplasm of liver in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB00322_MESH_D008113_1', 'disease': 'Liver Neoplasms', 'disease_mesh': 'MESH:D008113', 'drug': 'floxuridine', 'drug_mesh': 'MESH:D005467', 'drugbank': 'DB:DB00322'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D005467', 'target': 'CHEBI:46345'}, {'key': 'decreases activity of', 'source': 'CHEBI:46345', 'target': 'UniProt:P04818'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006231'}, {'key': 'positively correlated with', 'source': 'GO:0006231', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006235', 'target': 'GO:0006260'}, {'key': 'precedes', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D008113'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005467', 'label': 'Drug', 'name': 'floxuridine'}, {'id': 'CHEBI:46345', 'label': 'ChemicalSubstance', 'name': '5-fluorouracil'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0006235', 'label': 'BiologicalProcess', 'name': 'dTTP biosynthetic process'}, {'id': 'GO:0006231', 'label': 'BiologicalProcess', 'name': 'dTMP biosynthetic process'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D008113', 'label': 'Disease', 'name': 'Liver Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB00322#mechanism-of-action', 'https://en.wikipedia.org/wiki/Floxuridine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Fluorouracil#Mechanism_of_action']}\n", + "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The MESH disease term (MESH:D002289) is known as Carcinoma, Non-Small-Cell Lung on the MESH website.', 'directed': True, 'graph': {'_id': 'DB00361_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'vinorelbine', 'drug_mesh': 'MESH:C030852', 'drugbank': 'DB:DB00361'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C030852', 'target': 'InterPro:IPR000217'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000217', 'target': 'GO:0000086'}, {'key': 'positively correlated with', 'source': 'GO:0000086', 'target': 'GO:0051301'}, {'key': 'positively correlated with', 'source': 'GO:0051301', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C030852', 'label': 'Drug', 'name': 'vinorelbine'}, {'id': 'InterPro:IPR000217', 'label': 'GeneFamily', 'name': 'Tubulin'}, {'id': 'GO:0000086', 'label': 'BiologicalProcess', 'name': 'G2/M transition of mitotic cell cycle'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL553025/', 'https://go.drugbank.com/drugs/DB00361#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vinorelbine#Pharmacology']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'Term MESH:D011537 is also known as pruritus.', 'directed': True, 'graph': {'_id': 'DB03255_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'phenol', 'drug_mesh': 'MESH:D019800', 'drugbank': 'DB:DB03255'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D019800', 'target': 'MESH:D000982'}, {'key': 'subclass of', 'source': 'MESH:D019800', 'target': 'MESH:D000890'}, {'key': 'ameliorates', 'source': 'MESH:D000982', 'target': 'MESH:D011537'}, {'key': 'ameliorates', 'source': 'MESH:D000890', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019800', 'label': 'Drug', 'name': 'phenol'}, {'id': 'MESH:D000982', 'label': 'ChemicalSubstance', 'name': 'Antipruritics'}, {'id': 'MESH:D000890', 'label': 'ChemicalSubstance', 'name': 'Anti-Infective Agents'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB03255#indication', 'https://www.genome.jp/dbget-bin/www_bget?drug:D00033', 'https://pubchem.ncbi.nlm.nih.gov/compound/996#section=Pharmacology']}\n", + "['Drug', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00112_MESH_D005909_1', 'disease': 'Glioblastoma multiforme', 'disease_mesh': 'MESH:D005909', 'drug': 'Bevacizumab', 'drug_mesh': 'MESH:D000068258', 'drugbank': 'DB:DB00112'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068258', 'target': 'UniProt:P15692'}, {'key': 'participates in', 'source': 'UniProt:P15692', 'target': 'REACT:R-HSA-194138'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-194138', 'target': 'MESH:D005909'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068258', 'label': 'Drug', 'name': 'Bevacizumab'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor A'}, {'id': 'REACT:R-HSA-194138', 'label': 'Pathway', 'name': 'Signaling by Vascular Epithelial Growth Factors (VEGF)'}, {'id': 'MESH:D005909', 'label': 'Disease', 'name': 'Glioblastoma multiforme'}], 'reference': ['https://go.drugbank.com/drugs/DB00112', 'https://en.wikipedia.org/wiki/Glioblastoma']}\n", + "['Drug', 'Protein', 'Pathway', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'positively regulates', 'source': 'MESH:D005744', 'target': 'InterPro:IPR034162'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR034162', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin catalytic domain'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00424']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D053159_1', 'disease': 'Dysuria', 'disease_mesh': 'MESH:D053159', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'positively correlated with', 'source': 'UniProt:P20309', 'target': 'CHEBI:15355'}, {'key': 'positively regulates', 'source': 'CHEBI:15355', 'target': 'UBERON:0000381'}, {'key': 'positively regulates', 'source': 'UBERON:0000381', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053159'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'UBERON:0000381', 'label': 'GrossAnatomicalStructure', 'name': 'Urinary bladder detrusor smooth muscle'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Micturition'}, {'id': 'MESH:D053159', 'label': 'Disease', 'name': 'MESH:D053159'}], 'reference': ['https://en.wikipedia.org/wiki/Dysuria', 'https://go.drugbank.com/drugs/DB00424', 'https://en.wikipedia.org/wiki/Muscarinic_acetylcholine_receptor']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D012798_1', 'disease': 'Excessive salivation', 'disease_mesh': 'MESH:D012798', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'UBERON:0001044'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'UBERON:0001044'}, {'key': 'positively regulates', 'source': 'UBERON:0001044', 'target': 'GO:0046541'}, {'key': 'positively correlated with', 'source': 'GO:0046541', 'target': 'MESH:D012798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UBERON:0001044', 'label': 'GrossAnatomicalStructure', 'name': 'Saliva-secreting gland'}, {'id': 'GO:0046541', 'label': 'BiologicalProcess', 'name': 'Saliva secretion'}, {'id': 'MESH:D012798', 'label': 'Disease', 'name': 'Excessive salivation'}], 'reference': ['https://go.drugbank.com/drugs/DB00424', 'https://en.wikipedia.org/wiki/Muscarinic_acetylcholine_receptor#Receptor_isoforms']}\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00485_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Dicloxacillin', 'drug_mesh': 'MESH:D004009', 'drugbank': 'DB:DB00485'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004009', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004009', 'label': 'Drug', 'name': 'Dicloxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00485']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00485_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Dicloxacillin', 'drug_mesh': 'MESH:D004009', 'drugbank': 'DB:DB00485'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004009', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004009', 'label': 'Drug', 'name': 'Dicloxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00485']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00609_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Ethionamide', 'drug_mesh': 'MESH:D005000', 'drugbank': 'DB:DB00609'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005000', 'target': 'UniProt:P9WGR1'}, {'key': 'positively regulates', 'source': 'UniProt:P9WGR1', 'target': 'GO:0071768'}, {'key': 'positively correlated with', 'source': 'GO:0071768', 'target': 'GO:0042546'}, {'key': 'has output', 'source': 'GO:0042546', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005000', 'label': 'Drug', 'name': 'Ethionamide'}, {'id': 'UniProt:P9WGR1', 'label': 'Protein', 'name': 'Enoyl-[acyl-carrier-protein] reductase [NADH]'}, {'id': 'GO:0071768', 'label': 'BiologicalProcess', 'name': 'Mycolic acid biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00609']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Potentially toxic. No longer prescribed.', 'directed': True, 'graph': {'_id': 'DB00891_MESH_D003874_1', 'disease': 'Dermatitis herpetiformis', 'disease_mesh': 'MESH:D003874', 'drug': 'Sulfapyridine', 'drug_mesh': 'MESH:D013427', 'drugbank': 'DB:DB00891'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013427', 'target': 'GO:0002553'}, {'key': 'negatively regulates', 'source': 'MESH:D013427', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0002553', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003874'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013427', 'label': 'Drug', 'name': 'Sulfapyridine'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'Histamine secretion by mast cell'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003874', 'label': 'Disease', 'name': 'Dermatitis herpetiformis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/15842404/']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00920_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Ketotifen', 'drug_mesh': 'MESH:D007665', 'drugbank': 'DB:DB00920'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007665', 'target': 'UniProt:P35367'}, {'key': 'negatively regulates', 'source': 'MESH:D007665', 'target': 'GO:0043303'}, {'key': 'increases abundance of', 'source': 'GO:0043303', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007665', 'label': 'Drug', 'name': 'Ketotifen'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00920']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0010783'}, {'key': 'positively correlated with', 'source': 'HP:0010783', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0010783', 'label': 'PhenotypicFeature', 'name': 'Erythema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D012220'}, {'key': 'positively correlated with', 'source': 'MESH:D012220', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D012220', 'label': 'Disease', 'name': 'Rhinitis'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0097366'}, {'key': 'negatively correlated with', 'source': 'GO:0097366', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'Response to bronchodilator'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'HP:4000007'}, {'key': 'positively correlated with', 'source': 'HP:4000007', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:4000007', 'label': 'PhenotypicFeature', 'name': 'Bronchoconstriction'}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", + "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB09185_MESH_D009290_1', 'disease': 'Cataplexy and narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'Viloxazine', 'drug_mesh': 'MESH:D014745', 'drugbank': 'DB:DB09185'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014745', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'negatively regulates', 'source': 'MESH:D009638', 'target': 'GO:0030431'}, {'key': 'negatively regulates', 'source': 'MESH:D009638', 'target': 'HP:0002524'}, {'key': 'positively correlated with', 'source': 'GO:0030431', 'target': 'MESH:D009290'}, {'key': 'positively correlated with', 'source': 'HP:0002524', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014745', 'label': 'Drug', 'name': 'Viloxazine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0030431', 'label': 'BiologicalProcess', 'name': 'Sleep'}, {'id': 'HP:0002524', 'label': 'PhenotypicFeature', 'name': 'Cataplexy'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Cataplexy and narcolepsy'}], 'reference': ['https://en.wikipedia.org/wiki/Cataplexywithdrawn', 'https://go.drugbank.com/drugs/DB09185', 'https://pubmed.ncbi.nlm.nih.gov/3704453/']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}, {'key': 'decreases activity of', 'source': 'MESH:C084822', 'target': 'InterPro:IPR001320'}, {'key': 'molecularly interacts with', 'source': 'InterPro:IPR001320', 'target': 'MESH:D018698'}, {'key': 'positively correlated with', 'source': 'MESH:D018698', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'InterPro:IPR001320', 'label': 'GeneFamily', 'name': 'Ionotropic glutamate receptor'}, {'id': 'MESH:D018698', 'label': 'ChemicalSubstance', 'name': 'Glutamic Acid'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn. This annotation is for higher concentrations of metharbital which can inhibit the calcium-dependent release of neurotransmitters such as glutamate.', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004827_2', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C084822', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'GO:0005245', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'GO:0005245', 'label': 'BiologicalProcess', 'name': 'Voltage-gated calcium channel activity'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Generalized_tonic%E2%80%93clonic_seizure#Causes']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0031417'}, {'key': 'manifestation of', 'source': 'HP:0031417', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0031417', 'label': 'PhenotypicFeature', 'name': 'Rhinorrhea'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003876'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D014581'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D014581'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00557', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", + "['Drug', 'Protein', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00854_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'levorphanol', 'drug_mesh': 'MESH:D007981', 'drugbank': 'DB:DB00854'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007981', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-111885'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'GO:1990793'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'GO:0061535'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007981', 'label': 'Drug', 'name': 'levorphanol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'REACT:R-HSA-111885', 'label': 'Pathway', 'name': 'Opioid Signalling'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00854', 'https://en.wikipedia.org/wiki/Opioid_receptor']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D007710_1', 'disease': 'Pneumonia due to Klebsiella pneumoniae', 'disease_mesh': 'MESH:D007710', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D007710'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D007710', 'label': 'Disease', 'name': 'Pneumonia due to Klebsiella pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01060', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae subsp. rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB01060', 'https://en.wikipedia.org/wiki/Rhinoscleroma']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01241_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'gemfibrozil', 'drug_mesh': 'MESH:D015248', 'drugbank': 'DB:DB01241'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D015248', 'target': 'UniProt:Q07869'}, {'key': 'increases activity of', 'source': 'UniProt:Q07869', 'target': 'UniProt:P06858'}, {'key': 'positively regulates', 'source': 'UniProt:P06858', 'target': 'GO:0016042'}, {'key': 'decreases abundance of', 'source': 'GO:0016042', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015248', 'label': 'Drug', 'name': 'Gemfibrozil'}, {'id': 'UniProt:Q07869', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor alpha'}, {'id': 'UniProt:P06858', 'label': 'Protein', 'name': 'Lipoprotein lipase'}, {'id': 'GO:0016042', 'label': 'BiologicalProcess', 'name': 'Lipid catabolic process'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01241', 'https://en.wikipedia.org/wiki/Hypertriglyceridemia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08860_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Pitavastatin', 'drug_mesh': 'MESH:C108475', 'drugbank': 'DB:DB08860'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C108475', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C108475', 'label': 'Drug', 'name': 'Pitavastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08860', 'https://en.wikipedia.org/wiki/Hypercholesterolemia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB08860_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Pitavastatin', 'drug_mesh': 'MESH:C108475', 'drugbank': 'DB:DB08860'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C108475', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C108475', 'label': 'Drug', 'name': 'Pitavastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08860', 'https://en.wikipedia.org/wiki/Combined_hyperlipidemia']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00718_MESH_D019694_1', 'disease': 'Chronic type B viral hepatitis', 'disease_mesh': 'MESH:D019694', 'drug': 'Adefovir dipivoxil', 'drug_mesh': 'MESH:C106812', 'drugbank': 'DB:DB00718'}, 'links': [{'key': 'increases 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'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Carbenicillin is a semisynthetic penicillin', 'directed': True, 'graph': {'_id': 'DB00578_MESH_D011472_1', 'disease': 'Prostatitis', 'disease_mesh': 'MESH:D011472', 'drug': 'Carbenicillin', 'drug_mesh': 'MESH:D002228', 'drugbank': 'DB:DB00578'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002228', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D011472'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002228', 'label': 'Disease', 'name': 'Carbenicillin'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding 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'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002228', 'label': 'Disease', 'name': 'Carbenicillin'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00578#mechanismofaction']}\n", + "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D000788_1', 'disease': 'Prinzmetal angina', 'disease_mesh': 'MESH:D000788', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000746'}, {'key': 'prevents', 'source': 'CL:0000746', 'target': 'HP:0025497'}, {'key': 'negatively regulates', 'source': 'HP:0025497', 'target': 'HP:0000875'}, {'key': 'correlated with', 'source': 'HP:0000875', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000746', 'label': 'Cell', 'name': 'Cardiac muscle cells'}, {'id': 'HP:0025497', 'label': 'PhenotypicFeature', 'name': 'Coronary artery spasm'}, {'id': 'HP:0000875', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Prinzmetal angina'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Cell', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000359'}, {'key': 'negatively regulates', 'source': 'CL:0000359', 'target': 'GO:0070509'}, {'key': 'precedes', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000359', 'label': 'Cell', 'name': 'Vascular smooth muscle cell'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion influx'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000746'}, {'key': 'causes', 'source': 'CL:0000746', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0000875'}, {'key': 'correlated with', 'source': 'HP:0000875', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000746', 'label': 'Cell', 'name': 'Cardiac muscle cells'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0000875', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", + "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D017311', 'target': 'UniProt:P05305'}, {'key': 'prevents', 'source': 'UniProt:P05305', 'target': 'GO:0042310'}, {'key': 'increases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:P29474'}, {'key': 'decreases activity of', 'source': 'UniProt:P29474', 'target': 'UniProt:Q03135'}, {'key': 'causes', 'source': 'UniProt:Q03135', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0004421'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0004421'}, {'key': 'correlated with', 'source': 'HP:0004421', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:P05305', 'label': 'Protein', 'name': 'Endothelin 1'}, {'id': 'UniProt:P29474', 'label': 'Protein', 'name': 'Endothelial nitric oxide synthase'}, {'id': 'UniProt:Q03135', 'label': 'Protein', 'name': 'Caveolin 1'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0004421', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://doi.org/10.1161/HYPERTENSIONAHA.107.096610']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00979_MESH_D015878_1', 'disease': 'Dilated pupil', 'disease_mesh': 'MESH:D015878', 'drug': 'Cyclopentolate', 'drug_mesh': 'MESH:D003519', 'drugbank': 'DB:DB00979'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003519', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0090075'}, {'key': 'located in', 'source': 'GO:0090075', 'target': 'UBERON:0001607'}, {'key': 'causes', 'source': 'UBERON:0001607', 'target': 'MESH:D015878'}, {'key': 'located in', 'source': 'GO:0090075', 'target': 'UBERON:0001605'}, {'key': 'causes', 'source': 'UBERON:0001605', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003519', 'label': 'Drug', 'name': 'Cyclopentolate'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UBERON:0001605', 'label': 'OrganismTaxon', 'name': 'Ciliary muscle'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'UBERON:0001607', 'label': 'OrganismTaxon', 'name': 'Sphincter pupillae'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Dilated pupil'}], 'reference': ['https://go.drugbank.com/drugs/DB00979#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01195_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Flecainide', 'drug_mesh': 'MESH:D005424', 'drugbank': 'DB:DB01195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'UniProt:Q14524'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14524', 'target': 'GO:0086001'}, {'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'InterPro:IPR013521'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR013521', 'target': 'GO:0086001'}, {'key': 'negatively correlated with', 'source': 'GO:0086001', 'target': 'GO:0006936'}, {'key': 'located in', 'source': 'GO:0006936', 'target': 'UBERON:0004146'}, {'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'UniProt:Q92736'}, {'key': 'negatively regulates', 'source': 'UniProt:Q92736', 'target': 'GO:0015278'}, {'key': 'located in', 'source': 'GO:0015278', 'target': 'GO:0016529'}, {'key': 'decreases activity of', 'source': 'GO:0016529', 'target': 'GO:0051899'}, {'key': 'decreases activity of', 'source': 'UBERON:0004146', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005424', 'label': 'Drug', 'name': 'Flecainide'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Nav1.5 sodium channel'}, {'id': 'GO:0086001', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell action potential'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'Muscle contraction'}, {'id': 'InterPro:IPR013521', 'label': 'GeneFamily', 'name': 'Inward-rectifier potassium channel'}, {'id': 'UniProt:Q92736', 'label': 'Protein', 'name': 'Ryanodine receptor 2'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0016529', 'label': 'CellularComponent', 'name': 'Sarcoplasmic reticulum'}, {'id': 'UBERON:0004146', 'label': 'GrossAnatomicalStructure', 'name': 'His-Purkinje system'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB01195#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Flecainide#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00047_MESH_D003922_1', 'disease': 'Diabetes mellitus type 1', 'disease_mesh': 'MESH:D003922', 'drug': 'Insulin glargine', 'drug_mesh': 'MESH:D000069036', 'drugbank': 'DB:DB00047'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069036', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'causes', 'source': 'MESH:D001786', 'target': 'MESH:D003922'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069036', 'label': 'Drug', 'name': 'Insulin glargine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003922', 'label': 'Disease', 'name': 'Diabetes mellitus type 1'}], 'reference': ['https://go.drugbank.com/drugs/DB00047#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00047_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Insulin glargine', 'drug_mesh': 'MESH:D000069036', 'drugbank': 'DB:DB00047'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069036', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'causes', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069036', 'label': 'Drug', 'name': 'Insulin glargine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00047#mechanismofaction']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P28223'}, {'key': 'increases abundance of', 'source': 'UniProt:P28223', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A serotonin receptors'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D001714_1', 'disease': 'Bipolar Disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P28223'}, {'key': 'increases abundance of', 'source': 'UniProt:P28223', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A serotonin receptors'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar Disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D002312_1', 'disease': 'Hypertrophic cardiomyopathy', 'disease_mesh': 'MESH:D002312', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D002312'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D002312'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D002312', 'label': 'Disease', 'name': 'Hypertrophic cardiomyopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D000787'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D006973'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D006391_1', 'disease': 'Hemangioma', 'disease_mesh': 'MESH:D006391', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR027928'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR027928', 'target': 'GO:0002016'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR027928'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 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'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:P09038', 'label': 'Protein', 'name': 'Basic growth factor of fibroblasts (bFGF)'}, {'id': 'InterPro:IPR027928', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'GO:0002016', 'label': 'BiologicalProcess', 'name': 'Renin-angiotensin-aldosterone system'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptosis'}, {'id': 'MESH:D006391', 'label': 'Disease', 'name': 'Hemangioma'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P13945'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D013617_1', 'disease': 'Supraventricular tachycardia', 'disease_mesh': 'MESH:D013617', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P13945'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D013617'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D013617', 'label': 'Disease', 'name': 'Supraventricular tachycardia'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", + "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Quinfamide is a member of quinolines, has been used in trials studying the treatment of Amoebiasis and Helminthiasis. The details of the mechanism of action are not known, but the overall effect is intraluminal immobilization of the Entamoeba', 'directed': True, 'graph': {'_id': 'DB12780_MESH_D000562_1', 'disease': 'Amebic infection', 'disease_mesh': 'MESH:D000562', 'drug': 'Quinfamide', 'drug_mesh': 'MESH:C026546', 'drugbank': 'DB:DB12780'}, 'links': [{'key': 'treats', 'source': 'MESH:C026546', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026546', 'label': 'Drug', 'name': 'Quinfamide'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebic infection'}], 'reference': ['https://go.drugbank.com/drugs/DB12780#mechanismofaction', 'https://drugs.ncats.io/drug/O1ZB1046R1']}\n", + "['Drug', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D012594_1', 'disease': 'Systemic sclerosis', 'disease_mesh': 'MESH:D012594', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0000822'}, {'key': 'manifestation of', 'source': 'HP:0000822', 'target': 'MESH:D012594'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D012594', 'label': 'Disease', 'name': 'Systemic sclerosis'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D006976'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006976', 'label': 'Disease', 'name': 'Pulmonary hypertension'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007018_1', 'disease': 'Hypopituitarism', 'disease_mesh': 'MESH:D007018', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D013739', 'target': 'GO:0034699'}, {'key': 'positively correlated with', 'source': 'GO:0034699', 'target': 'MESH:D007986'}, {'key': 'negatively correlated with', 'source': 'MESH:D007986', 'target': 'MESH:D007018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0034699', 'label': 'BiologicalProcess', 'name': 'Response to luteinizing hormone'}, {'id': 'MESH:D007986', 'label': 'ChemicalSubstance', 'name': 'Luteinizing Hormone'}, {'id': 'MESH:D007018', 'label': 'Disease', 'name': 'Hypopituitarism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Hypopituitarism']}\n", + "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D011628_2', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0045136'}, {'key': 'negatively correlated with', 'source': 'GO:0045136', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0045136', 'label': 'BiologicalProcess', 'name': 'Development of secondary sexual characteristics'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Delayed puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Delayed_puberty']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007006_1', 'disease': 'Hypogonadotropic hypogonadism', 'disease_mesh': 'MESH:D007006', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D013739', 'target': 'GO:0034699'}, {'key': 'positively correlated with', 'source': 'GO:0034699', 'target': 'MESH:D007986'}, {'key': 'positively correlated with', 'source': 'MESH:D007986', 'target': 'GO:0005183'}, {'key': 'negatively correlated with', 'source': 'GO:0005183', 'target': 'MESH:D007006'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0034699', 'label': 'BiologicalProcess', 'name': 'Response to luteinizing hormone'}, {'id': 'MESH:D007986', 'label': 'ChemicalSubstance', 'name': 'Luteinizing Hormone'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'Gonadotropin hormone-releasing hormone activity'}, {'id': 'MESH:D007006', 'label': 'Disease', 'name': 'Hypogonadotropic hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Hypogonadotropic_hypogonadism']}\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13944_MESH_D005058_1', 'disease': 'Male hypogonadism', 'disease_mesh': 'MESH:D005058', 'drug': 'testosterone enantate', 'drug_mesh': 'MESH:C004648', 'drugbank': 'DB:DB13944'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004648', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060742'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0007283'}, {'key': 'negatively correlated with', 'source': 'GO:0060742', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0008584', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0019102', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0007283', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004648', 'label': 'Drug', 'name': 'Testosterone enantate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060742', 'label': 'BiologicalProcess', 'name': 'Epithelial cell differentiation involved in prostate gland development'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'Male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'Male somatic sex determination'}, {'id': 'GO:0007283', 'label': 'BiologicalProcess', 'name': 'Spermatogenesis'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB13944']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB13944_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone enantate', 'drug_mesh': 'MESH:C004648', 'drugbank': 'DB:DB13944'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004648', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0048808'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D007713'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004648', 'label': 'Drug', 'name': 'Testosterone enantate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://en.wikipedia.org/wiki/Klinefelter_syndrome', 'https://go.drugbank.com/drugs/DB13944']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D003456_2', 'disease': 'Undescended testicle', 'disease_mesh': 'MESH:D003456', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D003456'}, {'key': 'negatively correlated with', 'source': 'GO:0008584', 'target': 'MESH:D003456'}, {'key': 'negatively correlated with', 'source': 'GO:0019102', 'target': 'MESH:D003456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'Male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'Male somatic sex determination'}, {'id': 'MESH:D003456', 'label': 'Disease', 'name': 'Undescended testicle'}], 'reference': ['https://go.drugbank.com/drugs/DB13944']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'testosterone cypionate', 'drug_mesh': None, 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00624', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00624', 'label': 'Drug', 'name': 'Testosterone cypionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB13943']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00639_MESH_D002181_1', 'disease': 'Candidal vulvovaginitis', 'disease_mesh': 'MESH:D002181', 'drug': 'butoconazole', 'drug_mesh': 'MESH:C017125', 'drugbank': 'DB:DB00639'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017125', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017125', 'label': 'Drug', 'name': 'Butoconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Candida albicans)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidal vulvovaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00639', 'https://en.wikipedia.org/wiki/Vaginal_yeast_infection']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D008118_1', 'disease': 'Infection by Loa loa', 'disease_mesh': 'MESH:D008118', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:100942'}, {'key': 'causes', 'source': 'NCBITaxon:100942', 'target': 'MESH:D008118'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:100942', 'label': 'OrganismTaxon', 'name': 'Chrysops sp.'}, {'id': 'MESH:D008118', 'label': 'Disease', 'name': 'Infection by Loa loa'}], 'reference': ['https://go.drugbank.com/drugs/DB00711', 'https://en.wikipedia.org/wiki/Loa_loa_filariasis#Cause']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D011657_1', 'disease': 'Eosinophilic asthma', 'disease_mesh': 'MESH:D011657', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004049', 'target': 'UniProt:P09917'}, {'key': 'decreases activity 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'Inflammatory response'}, {'id': 'MESH:D011657', 'label': 'Disease', 'name': 'Eosinophilic asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", + "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D009855_1', 'disease': 'Infection by Onchocerca volvulus', 'disease_mesh': 'MESH:D009855', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Infection by Onchocerca volvulus'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D004604_1', 'disease': 'Lymphatic filariasis', 'disease_mesh': 'MESH:D004604', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:6293'}, {'key': 'causes', 'source': 'NCBITaxon:6293', 'target': 'MESH:D004604'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:6293', 'label': 'OrganismTaxon', 'name': 'Wuchereria bancrofti'}, {'id': 'MESH:D004604', 'label': 'Disease', 'name': 'Lymphatic filariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", + "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00943_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Zalcitabine', 'drug_mesh': 'MESH:D016047', 'drugbank': 'DB:DB00943'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D016047', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016047', 'label': 'Drug', 'name': 'Zalcitabine'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00943#BE0004136']}\n", + "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", + "{'comment': 'Illicit', 'directed': True, 'graph': {'_id': 'DB01545_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'ethyl loflazepate', 'drug_mesh': 'MESH:C040581,MESH:C029617', 'drugbank': 'DB:DB01545'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0007214'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'HP:0000739'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'HP:0000737'}, {'key': 'positively correlated with', 'source': 'HP:0000739', 'target': 'MESH:D003866'}, {'key': 'positively correlated with', 'source': 'HP:0000737', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01545', 'label': 'Drug', 'name': 'Ethyl loflazepate'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0007214', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid signaling pathway'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'HP:0000737', 'label': 'PhenotypicFeature', 'name': 'Irritability'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01545', 'https://en.wikipedia.org/wiki/Gamma-Aminobutyric_acid']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01545_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'ethyl loflazepate', 'drug_mesh': 'MESH:C040581,MESH:C029617', 'drugbank': 'DB:DB01545'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0007214'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01545', 'label': 'Drug', 'name': 'Ethyl loflazepate'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0007214', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid signaling pathway'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB01545', 'https://en.wikipedia.org/wiki/Gamma-Aminobutyric_acid']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Gluconolactone is used as a component of irrigation solution Renacidin for dissolution of bladder calculi of the struvite or apatite variety.', 'directed': True, 'graph': {'_id': 'DB04564_MESH_D001744_1', 'disease': 'Urinary bladder stone', 'disease_mesh': 'MESH:D001744', 'drug': 'gluconolactone', 'drug_mesh': None, 'drugbank': 'DB:DB04564'}, 'links': [{'key': 'treats', 'source': 'DB:DB04564', 'target': 'MESH:D001744'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB04564', 'label': 'Drug', 'name': 'Gluconolactone'}, {'id': 'MESH:D001744', 'label': 'Disease', 'name': 'Urinary bladder stone'}], 'reference': ['https://drugs.ncats.io/drug/WQ29KQ9POT']}\n", + "['Drug', 'Disease']\n", + "{'comment': 'Withdrawn. Glibornuride is a sulfonylurea-type anti-diabetic drug.', 'directed': True, 'graph': {'_id': 'DB08962_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'glibornuride', 'drug_mesh': 'MESH:C073323', 'drugbank': 'DB:DB08962'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073323', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073323', 'label': 'Drug', 'name': 'Glibornuride'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08962', 'https://en.wikipedia.org/wiki/Sulfonylurea']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Drospirenone seems to have much lower affinity to androgen receptor than to the progesterone counterpart (https://en.wikipedia.org/wiki/Drospirenone#Pharmacology).', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'negatively correlated with', 'source': 'UniProt:P06401', 'target': 'GO:0006702'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'UBERON:0001866'}, {'key': 'produced by', 'source': 'UBERON:0001866', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'UBERON:0001866', 'label': 'GrossAnatomicalStructure', 'name': 'sebum'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"The use of progesterone, progestin and similar compounds may not be superior to placebo in reducing premenstrual symptoms judging from the results of the majority of controlled trials (https://pubmed.ncbi.nlm.nih.gov/7791258/). Also note that it is generally agreed that neither a deficiency nor excess in progesterone/progestin levels is etiologically relevant to the disorder (https://pubmed.ncbi.nlm.nih.gov/16650465/). It's largelly accepted that SSRIs as better treatment and should be the first attempt for treatment of premenstrual dysphoric disorder.\", 'directed': True, 'graph': {'_id': 'DB01395_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'GO:0005890'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'InterPro:IPR001696'}, {'key': 'regulates', 'source': 'GO:0005890', 'target': 'GO:0070294'}, {'key': 'regulates', 'source': 'GO:0005890', 'target': 'GO:0036359'}, {'key': 'regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0070294'}, {'key': 'correlated with', 'source': 'GO:0036359', 'target': 'HP:0000969'}, {'key': 'correlated with', 'source': 'GO:0070294', 'target': 'HP:0000969'}, {'key': 'correlated with', 'source': 'GO:0036359', 'target': 'MESH:D059373'}, {'key': 'correlated with', 'source': 'GO:0070294', 'target': 'MESH:D059373'}, {'key': 'manifestation of', 'source': 'MESH:D059373', 'target': 'MESH:D065446'}, {'key': 'correlated with', 'source': 'HP:0000969', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0005890', 'label': 'CellularComponent', 'name': 'sodium:potassium-exchanging ATPase complex'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0036359', 'label': 'BiologicalProcess', 'name': 'renal potassium excretion'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D059373', 'label': 'PhenotypicFeature', 'name': 'Mastodynia'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antimineralocorticoid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/18472980/']}\n", + "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'The disease is denoted Menopausal flushing in the original file. Note that a combination therapy of estradiol and drospirenone would be more effective at reducing the frequency of hot flushes and other menopausal symptoms, than a mono-therapy relying on progestin only. Also, since many progestogens have off-target effects including estrogenic effects, the improvement in hot flashes maybe due to the drug binding to estrogen receptors instead. Note the term Vasomotor System (https://en.wikipedia.org/wiki/Vasomotor_center) does not seem to be represented in other ontologies.', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D019584_1', 'disease': 'Hot Flashes', 'disease_mesh': 'MESH:D019584', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'Pfam:PF00446'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00446', 'target': 'MESH:D019584'}, {'key': 'correlated with', 'source': 'UniProt:P06401', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'Pfam:PF00446', 'label': 'GeneFamily', 'name': 'Gonadotropin-releasing hormone'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Hot Flashes'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Progestogen_(medication)#Pharmacodynamics', 'https://www.tandfonline.com/doi/full/10.1080/13697137.2018.1472567', 'https://journals.lww.com/co-endocrinology/Abstract/2015/12000/Progesterone_or_progestin_as_menopausal_ovarian.13.aspx']}\n", + "['Drug', 'Protein', 'GeneFamily', 'Disease']\n", + "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': 'Note that the combination therapy of estradiol and drospirenone would be more effective at treating atrophic vaginitis, than a mono-therapy relying on progestin only. Also, since many progestogens have off-target effects including estrogenic effects, the improvement in hot flashes maybe due to the drug binding to estrogen receptors instead.', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'participates in', 'source': 'UniProt:P06401', 'target': 'REACT:R-HSA-9018519'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-9018519', 'target': 'HP:0031088'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-9018519', 'target': 'HP:0030683'}, {'key': 'manifestation of', 'source': 'HP:0030683', 'target': 'MESH:D059268'}, {'key': 'manifestation of', 'source': 'HP:0031088', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'REACT:R-HSA-9018519', 'label': 'Pathway', 'name': 'Estrogen-dependent gene expression'}, {'id': 'HP:0030683', 'label': 'PhenotypicFeature', 'name': 'Vaginitis'}, {'id': 'HP:0031088', 'label': 'PhenotypicFeature', 'name': 'Vaginal dryness'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antimineralocorticoid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/18472980/']}\n", + "['Drug', 'Protein', 'Pathway', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001418', 'target': 'CHEBI:16480'}, {'key': 'negatively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0120054'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0035483'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0030432'}, {'key': 'increases activity of', 'source': 'GO:0035483', 'target': 'GO:0120054'}, {'key': 'increases activity of', 'source': 'GO:0030432', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'HP:0002019'}, {'key': 'negatively correlated with', 'source': 'HP:0002019', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0030432', 'label': 'BiologicalProcess', 'name': 'peristalsis'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'gastric emptying'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'HP:0002019', 'label': 'PhenotypicFeature', 'name': 'Constipation'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'Diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids', 'https://en.wikipedia.org/wiki/Morphine#Constipation']}\n", + "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0019233'}, {'key': 'regulates', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0019233'}, {'key': 'regulates', 'source': 'GO:0019233', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids', 'https://en.wikipedia.org/wiki/Chronic_pain#Opioids']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'comments': 'Etidronate is a weak inhibitor of proton transport in animal models (https://pubmed.ncbi.nlm.nih.gov/8889850/).', 'directed': True, 'graph': {'_id': 'DB01077_MESH_C562390_1', 'disease': 'Humoral Hypercalcemia Of Malignancy', 'disease_mesh': 'MESH:C562390', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D012968', 'target': 'GO:0140603'}, {'key': 'increases activity of', 'source': 'GO:0140603', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'MESH:D012968', 'target': 'UniProt:P38606'}, {'key': 'positively regulates', 'source': 'UniProt:P38606', 'target': 'GO:1902600'}, {'key': 'positively correlated with', 'source': 'GO:1902600', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'MESH:D012968', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'positively regulates', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:C562390'}, {'key': 'molecularly interacts with', 'source': 'MESH:D012968', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:C562390'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:C562390'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0140603', 'label': 'MolecularActivity', 'name': 'ATP hydrolysis activity'}, {'id': 'UniProt:P38606', 'label': 'Protein', 'name': 'V-type proton ATPase catalytic subunit A'}, {'id': 'GO:1902600', 'label': 'BiologicalProcess', 'name': 'proton transmembrane transport'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'MESH:C562390', 'label': 'Disease', 'name': 'Humoral Hypercalcemia Of Malignancy'}], 'reference': ['https://go.drugbank.com/drugs/DB01077#mechanism-of-action', 'https://drugs.ncats.io/drug/M2F465ROXU', 'https://www.caymanchem.com/product/20769/etidronate-(sodium-salt)', 'https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", + "['Drug', 'MolecularActivity', 'Cell', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'comment': 'Etidronate is a weak inhibitor of proton transport in animal models (https://pubmed.ncbi.nlm.nih.gov/8889850/).', 'directed': True, 'graph': {'_id': 'DB01077_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D012968', 'target': 'GO:0140603'}, {'key': 'increases activity of', 'source': 'GO:0140603', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'MESH:D012968', 'target': 'UniProt:P38606'}, {'key': 'positively regulates', 'source': 'UniProt:P38606', 'target': 'GO:1902600'}, {'key': 'positively correlated with', 'source': 'GO:1902600', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'MESH:D012968', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'positively regulates', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D010001'}, {'key': 'molecularly interacts with', 'source': 'MESH:D012968', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D010001'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0140603', 'label': 'MolecularActivity', 'name': 'ATP hydrolysis activity'}, {'id': 'UniProt:P38606', 'label': 'Protein', 'name': 'V-type proton ATPase catalytic subunit A'}, {'id': 'GO:1902600', 'label': 'BiologicalProcess', 'name': 'proton transmembrane transport'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://go.drugbank.com/drugs/DB01077#mechanism-of-action', 'https://drugs.ncats.io/drug/M2F465ROXU', 'https://www.caymanchem.com/product/20769/etidronate-(sodium-salt)', 'https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", + "['Drug', 'MolecularActivity', 'Cell', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'BiologicalProcess', 'Disease']\n", + "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB01077_MESH_D009999_1', 'disease': 'Heterotopic ossification', 'disease_mesh': 'MESH:D009999', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'prevents', 'source': 'MESH:D012968', 'target': 'GO:0001503'}, {'key': 'correlated with', 'source': 'GO:0001503', 'target': 'HP:0011849'}, {'key': 'manifestation of', 'source': 'HP:0011849', 'target': 'MESH:D009999'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0011849', 'label': 'PhenotypicFeature', 'name': 'Abnormal bone ossification'}, {'id': 'MESH:D009999', 'label': 'Disease', 'name': 'Heterotopic ossification'}], 'reference': ['https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", + "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00384_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'triamterene', 'drug_mesh': 'MESH:D014223', 'drugbank': 'DB:DB00384'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014223', 'target': 'Pfam:PF00858'}, {'key': 'positively regulates', 'source': 'Pfam:PF00858', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014223', 'label': 'Drug', 'name': 'triamterene'}, {'id': 'Pfam:PF00858', 'label': 'GeneFamily', 'name': 'Amiloride-sensitive sodium channel'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://en.wikipedia.org/wiki/Triamterene#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00384']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00384_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'triamterene', 'drug_mesh': 'MESH:D014223', 'drugbank': 'DB:DB00384'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014223', 'target': 'Pfam:PF00858'}, {'key': 'positively regulates', 'source': 'Pfam:PF00858', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'HP:0011105'}, {'key': 'positively correlated with', 'source': 'HP:0011105', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014223', 'label': 'Drug', 'name': 'triamterene'}, {'id': 'Pfam:PF00858', 'label': 'GeneFamily', 'name': 'Amiloride-sensitive sodium channel'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'HP:0011105', 'label': 'PhenotypicFeature', 'name': 'Hypervolemia'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://en.wikipedia.org/wiki/Triamterene#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00384', 'https://pubmed.ncbi.nlm.nih.gov/25616035/', 'https://www.heighpubs.org/hjch/ach-aid1011.php']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'commments': 'Antagonism of beta-2-adrenergic receptors may lead to some of the side effects of labetalol (e.g. bronchospasms); however this may be slightly attenuated by alpha-1-adrenergic antagonism (https://pubmed.ncbi.nlm.nih.gov/6354658/).', 'directed': True, 'graph': {'_id': 'DB00598_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'labetalol', 'drug_mesh': 'MESH:D007741', 'drugbank': 'DB:DB00598'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P35368'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P25100'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'REACT:R-HSA-418555'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007741', 'label': 'Drug', 'name': 'labetalol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00598']}\n", + "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comment': \"Note that this drug is used as a support to the treatment of chronic alcoholism by producing an acute sensitivity to ethanol (as part of an avoidance therapy for alcohol abuse). It's been suggested that disulfiram itself is unlikely responsible for the enzyme inactivation in vivo; several active metabolites of the drug, especially diethylthiomethylcarbamate, inhibits the enzyme in vitro (https://pubchem.ncbi.nlm.nih.gov/compound/3117#section=Mechanism-of-Action).\", 'directed': True, 'graph': {'_id': 'DB00822_MESH_D000437_1', 'disease': 'Alcoholism', 'disease_mesh': 'MESH:D000437', 'drug': 'disulfiram', 'drug_mesh': 'MESH:D004221', 'drugbank': 'DB:DB00822'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004221', 'target': 'UniProt:P05091'}, {'key': 'positively regulates', 'source': 'UniProt:P05091', 'target': 'GO:0006069'}, {'key': 'decreases abundance of', 'source': 'GO:0006069', 'target': 'CHEBI:15343'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002017'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002098'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0001033'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002098'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002017'}, {'key': 'negatively correlated with', 'source': 'HP:0001033', 'target': 'MESH:D000437'}, {'key': 'negatively correlated with', 'source': 'HP:0002098', 'target': 'MESH:D000437'}, {'key': 'negatively correlated with', 'source': 'HP:0002017', 'target': 'MESH:D000437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004221', 'label': 'Drug', 'name': 'disulfiram'}, {'id': 'UniProt:P05091', 'label': 'Protein', 'name': 'Aldehyde dehydrogenase, mitochondrial'}, {'id': 'CHEBI:15343', 'label': 'ChemicalSubstance', 'name': 'acetaldehyde'}, {'id': 'GO:0006069', 'label': 'BiologicalProcess', 'name': 'ethanol oxidation'}, {'id': 'HP:0001033', 'label': 'PhenotypicFeature', 'name': 'Facial flushing after alcohol intake'}, {'id': 'HP:0002098', 'label': 'PhenotypicFeature', 'name': 'Respiratory distress'}, {'id': 'HP:0002017', 'label': 'PhenotypicFeature', 'name': 'Nausea and vomiting'}, {'id': 'MESH:D000437', 'label': 'Disease', 'name': 'Alcoholism'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL964/', 'https://en.wikipedia.org/wiki/Disulfiram', 'https://en.wikipedia.org/wiki/Acetaldehyde#Aggravating_factors']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB06637_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'fampridine', 'drug_mesh': 'MESH:D015761', 'drugbank': 'DB:DB06637'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015761', 'target': 'InterPro:IPR028325'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR028325', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0019226'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0019227'}, {'key': 'negatively correlated with', 'source': 'GO:0019227', 'target': 'HP:0002355'}, {'key': 'negatively correlated with', 'source': 'GO:0019226', 'target': 'HP:0002355'}, {'key': 'positively correlated with', 'source': 'HP:0002355', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'alt_name': ['Dalfampridine', '4-Aminopyridine', '4-AP'], 'id': 'MESH:D015761', 'label': 'Drug', 'name': 'fampridine'}, {'id': 'InterPro:IPR028325', 'label': 'GeneFamily', 'name': 'Voltage-gated potassium channel'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'neuronal action potential propagation'}, {'id': 'GO:0019226', 'label': 'BiologicalProcess', 'name': 'transmission of nerve impulse'}, {'id': 'HP:0002355', 'label': 'PhenotypicFeature', 'name': 'Difficulty walking'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06637', 'https://en.wikipedia.org/wiki/4-Aminopyridine#Multiple_sclerosis']}\n", + "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The disease is denoted as Malignant tumor of testis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB06810_MESH_D013736_1', 'disease': 'Testicular Neoplasms', 'disease_mesh': 'MESH:D013736', 'drug': 'plicamycin', 'drug_mesh': 'MESH:D008926', 'drugbank': 'DB:DB06810'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008926', 'target': 'GO:0000785'}, {'key': 'correlated with', 'source': 'GO:0000785', 'target': 'GO:0032774'}, {'key': 'positively correlated with', 'source': 'GO:0032774', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D013736'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C066851'], 'id': 'MESH:D008926', 'label': 'Drug', 'name': 'plicamycin'}, {'id': 'GO:0000785', 'label': 'CellularComponent', 'name': 'chromatin'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA biosynthetic process'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D013736', 'label': 'Disease', 'name': 'Testicular Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB06810', 'https://en.wikipedia.org/wiki/Plicamycin']}\n", + "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", + "{'comments': 'The disease is denoted as Pityriasis versicolor in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB00239_MESH_D014010_1', 'disease': 'Tinea Versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'oxiconazole', 'drug_mesh': 'MESH:C022155', 'drugbank': 'DB:DB00239'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C022155', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C022155', 'label': 'Drug', 'name': 'oxiconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Tinea Versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB00239', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacology']}\n", + "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", + "{'directed': True, 'graph': {'_id': 'DB00239_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'oxiconazole', 'drug_mesh': 'MESH:C022155', 'drugbank': 'DB:DB00239'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C022155', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C022155', 'label': 'Drug', 'name': 'oxiconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00239', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacology']}\n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "IOPub data rate exceeded.\n", + "The notebook server will temporarily stop sending output\n", + "to the client in order to avoid crashing it.\n", + "To change this limit, set the config variable\n", + "`--NotebookApp.iopub_data_rate_limit`.\n", + "\n", + "Current values:\n", + "NotebookApp.iopub_data_rate_limit=1000000.0 (bytes/sec)\n", + "NotebookApp.rate_limit_window=3.0 (secs)\n", + "\n" + ] + } + ], + "source": [ + "\n", + "all_metapath_nodes = defaultdict(list)\n", + "for i, p in enumerate(ind):\n", + " print(p)\n", + " _id = (p[\"graph\"][\"_id\"])\n", + " \n", + " drug_id, dis_id = path_to_tup(p)\n", + " paths = get_all_paths(p)\n", + " G = path_to_G(p)\n", + " \n", + " G = add_metaedges(G)\n", + " G = add_meanode_pairs(G)\n", + " \n", + " this_metaedges = [G.edges[e]['metaedge'] for e in G.edges]\n", + "\n", + " #lets construct a graph for each path\n", + " graph = nx.DiGraph()\n", + " for rel in this_metaedges:\n", + " rel = rel.split(\" - \")\n", + " graph.add_edge(rel[0], rel[2], weight =rel[1]) #Add nodes and edges \n", + " \n", + " edge_labels = nx.get_edge_attributes(graph,'weight') #Edge labels\n", + " \n", + " \n", + " #Extrtact meta-path (nodes)\n", + " #Drug->Disease\n", + " try:\n", + " st = 'Drug' #start node\n", + " end = 'Disease' #end node\n", + " for mp in nx.all_simple_paths(graph, st, end):\n", + " print (mp)\n", + " mp_str = (\" - \".join(mp))\n", + " all_metapath_nodes[_id].append(mp_str)\n", + "\n", + " #Some paths dont follow Drug->Disease. Ignore them fro now\n", + " except:\n", + " next " + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "3706" + ] + }, + "execution_count": 8, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "len(all_metapath_nodes)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Get metapaths (include edges)" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "metadata": {}, + "outputs": [], + "source": [ + "\n", + "all_metapath_edges = defaultdict(list)\n", + "for i, p in enumerate(ind):\n", + " _id = (p[\"graph\"][\"_id\"])\n", + " drug_id, dis_id = path_to_tup(p)\n", + " paths = get_all_paths(p)\n", + " G = path_to_G(p)\n", + " \n", + " G = add_metaedges(G)\n", + " G = add_meanode_pairs(G)\n", + " \n", + " this_metaedges = [G.edges[e]['metaedge'] for e in G.edges]\n", + " \n", + " \n", + " \n", + " #lets construct a graph for path\n", + " graph = nx.DiGraph()\n", + " for rel in this_metaedges:\n", + " rel = rel.split(\" - \")\n", + " graph.add_edge(rel[0], rel[2], weight =rel[1]) #Add nodes and edges \n", + " \n", + " edge_labels = nx.get_edge_attributes(graph,'weight') #set edge labels\n", + " \n", + " \n", + " #get paths (nodes) and #add the edges \n", + " try:\n", + " st = 'Drug' #start node\n", + " end = 'Disease' #end node\n", + " meta_path=[]\n", + " for mp in nx.all_simple_paths(graph, st, end):\n", + " \n", + " metaedge =[]\n", + "\n", + " #for value in mp \n", + " for n in range(len(mp)):\n", + " if n == (len(mp)-1):\n", + " continue\n", + "\n", + " else:\n", + " result = (mp[n] + \" - \" + edge_labels.get((mp[n], (mp[n+1])))+ \" - \")\n", + " metaedge.append(result)\n", + " \n", + " me = (\"\".join(metaedge)+ \"Disease\")\n", + " all_metapath_edges[_id].append(me)\n", + "\n", + " #Some paths dont follow Drug->Disease. Ignore them fro now\n", + " except:\n", + " next " + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "defaultdict(list,\n", + " {'DB00619_MESH_D015464_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", + " 'DB00619_MESH_D034721_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00316_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease',\n", + " 'Drug - negatively regulates - Pathway - affects risk for - Disease'],\n", + " 'DB00316_MESH_D005334_1': ['Drug - negatively regulates - Pathway - occurs in - GrossAnatomicalStructure - location of - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00945_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease'],\n", + " 'DB00945_MESH_D013927_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has output - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00788_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01059_MESH_D004405_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - MolecularActivity - precedes - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01380_MESH_D007634_1': ['Drug - decreases abundance of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - decreases abundance of - Protein - negatively regulates - BiologicalProcess - causes - Disease',\n", + " 'Drug - decreases abundance of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01610_MESH_D003586_1': ['Drug - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00916_MESH_D018805_1': ['Drug - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00618_MESH_D000073605_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01060_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB09335_MESH_D011023_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00479_MESH_D016920_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01234_MESH_D013717_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00438_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB06762_MESH_D006973_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", + " 'DB01263_MESH_D009181_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - located in - CellularComponent - correlated with - Disease'],\n", + " 'DB08799_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01137_MESH_D011704_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00814_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - increases activity of - GeneFamily - causes - Disease'],\n", + " 'DB00393_MESH_D013345_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00326_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", + " 'DB00588_MESH_D001991_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00623_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - manifestation of - Disease'],\n", + " 'DB00342_MESH_D017449_1': ['Drug - decreases activity of - Protein - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01048_MESH_D015658_1': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00717_MESH_D008595_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00246_MESH_D012559_1': ['Drug - decreases activity of - Protein - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00748_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00066_MESH_D016649_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01212_MESH_D006069_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB02703_MESH_D000881_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00682_MESH_D011655_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB09046_MESH_D008060_1': ['Drug - increases activity of - Protein - regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01332_MESH_D007710_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00455_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00935_MESH_D015508_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB01174_MESH_D004827_1': ['Drug - increases activity of - GeneFamily - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00281_MESH_D010146_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00476_MESH_D003865_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00366_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00650_MESH_D000749_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", + " 'DB01211_MESH_D015523_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00350_MESH_D000505_1': ['Drug - positively regulates - Pathway - contributes to - BiologicalProcess - located in - Cell - affected by - Disease',\n", + " 'Drug - positively regulates - Pathway - contributes to - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - produces - Cell - affected by - Disease',\n", + " 'Drug - positively regulates - Protein - participates in - BiologicalProcess - located in - Cell - affected by - Disease',\n", + " 'Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00350_MESH_D006973_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00203_MESH_D007172_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01155_MESH_D018410_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00443_MESH_D003424_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'MESH_C106301_MESH_D003233_1': ['Drug - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00620_MESH_D003424_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00996_MESH_D012148_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01598_MESH_D010538_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00860_MESH_D012507_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB09345_MESH_D010146_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00994_MESH_D007634_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00303_MESH_D018410_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB06786_MESH_D012871_1': ['Drug - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01100_MESH_D005879_1': ['Drug - decreases activity of - Protein - caused by - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01527_MESH_D000856_1': ['Drug - contraindicated for - Disease'],\n", + " 'DB00367_MESH_D008595_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB08908_MESH_D009103_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00638_MESH_D006943_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00344_MESH_D003865_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB13399_MESH_D006976_1': ['Drug - decreases activity of - Protein - positively correlated with - Disease'],\n", + " 'DB12770_MESH_D005764_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB04938_MESH_D004414_1': ['Drug - increases activity of - Protein - molecularly interacts with - ChemicalSubstance - prevents - Disease'],\n", + " 'DB00199_MESH_D008088_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB02362_MESH_D010392_1': ['Drug - treats - Disease'],\n", + " 'DB01067_MESH_D006943_1': ['Drug - decreases activity of - Protein - prevents - Disease'],\n", + " 'DB12212_MESH_D013610_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01106_MESH_D003233_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01418_MESH_D011655_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", + " 'DB14649_MESH_D009101_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB13676_MESH_D012559_1': ['Drug - decreases activity of - Protein - participates in - Pathway - affects risk for - Disease'],\n", + " 'DB00024_MESH_D013964_1': ['Drug - increases activity of - Protein - expressed in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB00524_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09142_MESH_D005705_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB12184_MESH_D003865_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00193_MESH_D010146_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00347_MESH_D004832_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB11901_MESH_D011471_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09105_MESH_D007014_1': ['Drug - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00357_MESH_D001943_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB06785_MESH_D010062_1': ['Drug - decreases activity of - Protein - expressed in - GrossAnatomicalStructure - produces - GeneFamily - causes - Disease'],\n", + " 'DB00130_MESH_D012778_1': ['Drug - produces - Cell - capable of - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01217_MESH_D001943_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - positively regulates - MolecularActivity - correlated with - Disease'],\n", + " 'DB03404_MESH_D017118_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has participant - ChemicalSubstance - manifestation of - Disease'],\n", + " 'DB09166_MESH_D001008_1': ['Drug - increases activity of - Protein - capable of - MolecularActivity - correlated with - Disease'],\n", + " 'DB07565_MESH_D014435_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB11100_MESH_D012628_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00016_MESH_D000740_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - has output - Cell - negatively correlated with - Disease'],\n", + " 'DB00795_MESH_D003093_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00529_MESH_D017726_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00878_MESH_D010518_1': ['Drug - disrupts - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00059_MESH_D054198_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01201_MESH_D014397_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB11152_MESH_D003218_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB12131_MESH_D003704_1': ['Drug - decreases activity of - Protein - part of - CellularComponent - correlated with - Disease'],\n", + " 'DB13142_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", + " 'DB01437_MESH_D007319_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01213_MESH_D000138_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has output - ChemicalSubstance - causes - Disease'],\n", + " 'DB04931_MESH_D046351_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB11693_MESH_D014605_1': ['Drug - decreases activity of - Protein - produces - Cell - causes - Disease'],\n", + " 'DB11254_MESH_D014010_1': ['Drug - treats - Disease'],\n", + " 'DB00602_MESH_D009855_1': ['Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB09065_MESH_D015658_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB11945_MESH_D015266_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00253_MESH_D014605_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", + " 'DB00253_MESH_D003320_1': ['Drug - treats - Disease'],\n", + " 'DB00253_MESH_D003233_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", + " 'DB00253_MESH_D012393_1': ['Drug - treats - Disease'],\n", + " 'DB00253_MESH_D007500_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", + " 'DB00253_MESH_D015863_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", + " 'DB00630_MESH_D015663_1': ['Drug - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00630_MESH_D010001_1': ['Drug - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00861_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00861_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00861_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00861_MESH_D059350_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01324_MESH_D006973_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", + " 'DB06691_MESH_D003139_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - caused by - OrganismTaxon - causes - Disease'],\n", + " 'DB06691_MESH_D003233_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - occurs in - Disease'],\n", + " 'DB06691_MESH_D006255_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB06691_MESH_D012912_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - increases activity of - Cell - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", + " 'DB06691_MESH_D065631_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB06691_MESH_D004412_1': ['Drug - negatively regulates - Protein - expressed in - Cell - contributes to - BiologicalProcess - occurs in - Disease'],\n", + " 'DB06691_MESH_D012223_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - participates in - Disease'],\n", + " 'DB06691_MESH_D014581_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - causes - BiologicalProcess - positively correlated with - PhenotypicFeature - occurs in - Disease'],\n", + " 'DB06691_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - Cell - contributes to - Disease'],\n", + " 'DB08822_MESH_D006973_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", + " 'DB08880_MESH_D009103_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB09310_MESH_C567691_1': ['Drug - chemically similar to - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00115_MESH_D014806_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - positively regulates - Protein - negatively regulates - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00115_MESH_D001361_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - positively regulates - Protein - negatively regulates - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00115_MESH_D000752_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00115_MESH_D018798_1': ['Drug - negatively correlated with - Disease'],\n", + " 'DB00856_MESH_D009128_1': ['Drug - causes - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00983_MESH_D011656_1': ['Drug - positively regulates - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB01200_MESH_D000172_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01200_MESH_D010301_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB01200_MESH_D010300_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB01200_MESH_D006966_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01211_MESH_D013203_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB01211_MESH_D013290_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB01211_MESH_D061387_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB01211_MESH_D011019_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB01211_MESH_D018410_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB01211_MESH_D011018_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", + " 'DB06799_MESH_D014552_1': ['Drug - produces - ChemicalSubstance - causes - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB09162_MESH_D054559_1': ['Drug - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB12498_MESH_D016411_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00413_MESH_D010300_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB00413_MESH_D012148_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00421_MESH_D006929_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB00421_MESH_D004487_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00421_MESH_D001201_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00421_MESH_D006973_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00601_MESH_D011018_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00601_MESH_D013290_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00601_MESH_D013203_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00601_MESH_D011023_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00760_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB00760_MESH_D016920_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00760_MESH_D016920_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00760_MESH_D018784_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB00760_MESH_D008585_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB00760_MESH_D008586_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB01351_MESH_D013226_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01351_MESH_D004827_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01550_MESH_D009765_1': ['Drug - has metabolite - ChemicalSubstance - positively regulates - MolecularActivity - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB06335_MESH_D003924_1': ['Drug - negatively regulates - Protein - negatively regulates - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB08867_MESH_D007889_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00008_MESH_D019698_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00008_MESH_D019698_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00216_MESH_D008881_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00216_MESH_D008881_2': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00216_MESH_D008881_3': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00216_MESH_D008881_4': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00607_MESH_D013203_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00607_MESH_D013203_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00607_MESH_D011023_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00607_MESH_D011023_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00871_MESH_D011656_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00871_MESH_D011656_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00871_MESH_D011537_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00871_MESH_D011537_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00871_MESH_D001249_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00871_MESH_D001249_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00871_MESH_D001991_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00871_MESH_D001991_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01141_MESH_D058387_1': ['Drug - negatively regulates - Protein - negatively correlated with - BiologicalProcess - disrupts - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB06708_MESH_D016778_1': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - decreases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", + " 'DB01601_MESH_D015658_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB05352_MESH_D000686_1': ['Drug - increases stability of - Protein - enables - MolecularActivity - causes - BiologicalProcess - causes - Disease'],\n", + " 'DB12459_MESH_D002289_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB12459_MESH_D010051_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00182_MESH_D009765_1': ['Drug - decreases uptake of - Protein - causes - ChemicalSubstance - located in - GrossAnatomicalStructure - decreases abundance of - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00182_MESH_D009765_2': ['Drug - decreases uptake of - Protein - causes - ChemicalSubstance - located in - GrossAnatomicalStructure - decreases abundance of - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00182_MESH_D009290_1': ['Drug - decreases uptake of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - treats - Disease'],\n", + " 'DB00182_MESH_D009290_2': ['Drug - decreases activity of - GeneFamily - located in - CellularComponent - increases abundance of - ChemicalSubstance - treats - Disease'],\n", + " 'DB00182_MESH_D001289_1': ['Drug - decreases uptake of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - negatively correlated with - Disease'],\n", + " 'DB00182_MESH_D001289_2': ['Drug - decreases activity of - Protein - located in - CellularComponent - increases abundance of - ChemicalSubstance - regulates - Disease'],\n", + " 'DB00182_MESH_D001289_3': ['Drug - contributes to - Protein - located in - CellularComponent - treats - Disease'],\n", + " 'DB00182_MESH_D001289_4': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - causes - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00182_MESH_D001289_5': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - causes - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00435_MESH_D010547_1': ['Drug - positively regulates - PhenotypicFeature - located in - GrossAnatomicalStructure - causes - Disease'],\n", + " 'DB00435_MESH_D006976_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00568_MESH_D009325_1': ['Drug - negatively regulates - GeneFamily - treats - Disease'],\n", + " 'DB00568_MESH_D014717_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - treats - Disease'],\n", + " 'DB00568_MESH_D014717_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - treats - Disease'],\n", + " 'DB00568_MESH_D009041_1': ['Drug - negatively regulates - GeneFamily - treats - Disease'],\n", + " 'DB00655_MESH_D000152_1': ['Drug - increases abundance of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", + " 'DB00655_MESH_D010024_1': ['Drug - regulates - ChemicalSubstance - treats - Disease'],\n", + " 'DB01294_MESH_D003967_1': ['Drug - increases uptake of - ChemicalSubstance - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB01294_MESH_D003967_2': ['Drug - produces - ChemicalSubstance - negatively regulates - Pathway - regulates - BiologicalProcess - located in - GrossAnatomicalStructure - treats - Disease'],\n", + " 'DB01294_MESH_D004415_1': ['Drug - molecularly interacts with - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB01105_MESH_D009765_1': ['Drug - decreases abundance of - ChemicalSubstance - regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB01105_MESH_D009765_2': ['Drug - decreases abundance of - ChemicalSubstance - regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB09010_MESH_D003110_1': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - correlated with - Disease'],\n", + " 'DB09010_MESH_D000086382_1': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB01685_MESH_D033461_1': ['Drug - decreases activity of - Protein - affects uptake of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB01685_MESH_D033461_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB01685_MESH_D006073_1': ['Drug - decreases activity of - Protein - affects uptake of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB01685_MESH_D006073_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB09357_MESH_D007418_1': ['Drug - produces - ChemicalSubstance - actively involved in - Pathway - located in - Cell - treats - Disease'],\n", + " 'DB09357_MESH_D018589_1': ['Drug - produces - ChemicalSubstance - actively involved in - Pathway - located in - Cell - treats - Disease'],\n", + " 'DB09357_MESH_D003963_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", + " 'DB09357_MESH_D004485_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", + " 'DB09357_MESH_D012871_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", + " 'DB00007_MESH_D004715_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00007_MESH_D011629_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00222_MESH_D003924_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00250_MESH_D003874_1': ['Drug - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00250_MESH_D000152_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00250_MESH_D007918_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00250_MESH_D007918_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00332_MESH_D011656_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00332_MESH_D029424_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00332_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00332_MESH_D001986_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00332_MESH_D001991_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00408_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00408_MESH_D001714_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01101_MESH_D013274_1': ['Drug - produces - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00991_MESH_D010003_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB00991_MESH_D001171_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB00991_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB01100_MESH_D005879_2': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01708_MESH_D004414_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", + " 'DB01708_MESH_D008180_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - CellularComponent - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - CellularComponent - positively correlated with - Disease'],\n", + " 'DB04865_MESH_D015464_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", + " 'DBDB08902_MESH_C571912_1': ['Drug - decreases activity of - Protein - produced by - OrganismTaxon - causes - Disease'],\n", + " 'DB12417_MESH_D003924_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00283_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00283_MESH_D011537_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00283_MESH_D012912_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00283_MESH_D012223_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00283_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00283_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00360_MESH_D010661_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB00626_MESH_D007634_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00994_MESH_D014552_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00994_MESH_D010032_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00994_MESH_D014605_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00994_MESH_D006501_1': ['Drug - decreases activity of - ChemicalSubstance - in taxon - OrganismTaxon - regulates - BiologicalProcess - prevents - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01307_MESH_D003920_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01606_MESH_D000077299_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01606_MESH_D018410_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01606_MESH_D013203_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01606_MESH_D001064_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01606_MESH_D018784_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB12319_MESH_D033461_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB12319_MESH_D006073_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01579_MESH_D009765_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - prevents - Disease'],\n", + " 'DB01579_MESH_D009765_2': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - prevents - Disease'],\n", + " 'DB01579_MESH_D009765_3': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - treats - Disease'],\n", + " 'DB01579_MESH_D009765_4': ['Drug - negatively regulates - Protein - increases abundance of - ChemicalSubstance - increases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01579_MESH_D009765_5': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - treats - Disease'],\n", + " 'DB00313_MESH_D004832_1': ['Drug - decreases activity of - Protein - disrupts - Pathway - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00313_MESH_D004832_2': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00313_MESH_D004832_3': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00313_MESH_D004832_4': ['Drug - decreases activity of - Protein - prevents - Disease'],\n", + " 'DB00313_MESH_D004832_5': ['Drug - decreases activity of - Protein - disrupts - Pathway - positively regulates - BiologicalProcess - treats - Disease'],\n", + " 'DB00313_MESH_D004832_6': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00313_MESH_D004832_7': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00313_MESH_D004832_8': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - treats - Disease'],\n", + " 'DB00313_MESH_D004832_9': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00313_MESH_D001714_1': ['Drug - decreases activity of - GeneFamily - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB00313_MESH_D001714_2': ['Drug - negatively regulates - Protein - located in - GrossAnatomicalStructure - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00313_MESH_D001714_3': ['Drug - negatively regulates - Protein - located in - GrossAnatomicalStructure - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00313_MESH_D004827_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00313_MESH_D004827_2': ['Drug - negatively regulates - Pathway - disrupts - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00313_MESH_D004827_3': ['Drug - negatively regulates - Pathway - disrupts - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00313_MESH_D004827_4': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00313_MESH_D008881_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - participates in - Pathway - treats - Disease'],\n", + " 'DB00495_MESH_D015658_1': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - expressed in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00495_MESH_D015658_2': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - in taxon - OrganismTaxon - expressed in - BiologicalProcess - causes - Disease'],\n", + " 'DB01227_MESH_D009293_1': ['Drug - increases activity of - Protein - causes - BiologicalProcess - causes - Disease'],\n", + " 'DB01227_MESH_D009293_2': ['Drug - increases activity of - Protein - produces - BiologicalProcess - causes - Disease'],\n", + " 'DB01210_MESH_D005902_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01210_MESH_D005902_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01210_MESH_D005902_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB01210_MESH_D005902_4': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB01210_MESH_D009798_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01210_MESH_D009798_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01210_MESH_D009798_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB01210_MESH_D009798_4': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB00027_MESH_D003234_1': ['Drug - directly interacts with - CellularComponent - increases activity of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00027_MESH_D003234_2': ['Drug - causes - BiologicalProcess - treats - Disease'],\n", + " 'DB00758_MESH_D054058_1': ['Drug - enabled by - Protein - located in - Cell - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00758_MESH_D054058_2': ['Drug - enabled by - Protein - located in - Cell - prevents - ChemicalSubstance - decreases activity of - MacromolecularComplex - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00758_MESH_D020766_1': ['Drug - enabled by - Protein - located in - Cell - prevents - BiologicalProcess - causes - Disease'],\n", + " 'DB00758_MESH_D020766_2': ['Drug - enabled by - Protein - located in - Cell - prevents - ChemicalSubstance - decreases activity of - MacromolecularComplex - prevents - BiologicalProcess - causes - Disease'],\n", + " 'DB08873_MESH_D019698_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB08873_MESH_D019698_2': ['Drug - decreases activity of - Protein - affects activity of - BiologicalProcess - located in - OrganismTaxon - treats - Disease'],\n", + " 'DB01282_MESH_D011218_1': ['Drug - treats - Disease'],\n", + " 'DB01282_MESH_D006473_1': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - increases activity of - BiologicalProcess - prevents - Disease'],\n", + " 'DB00671_MESH_D006069_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D006069_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D014069_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D014069_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D013290_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D013290_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D001991_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D001991_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D014552_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D014552_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D010612_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D010612_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00671_MESH_D012141_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00671_MESH_D012141_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", + " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", + " 'DB00835_MESH_D006255_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D006255_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D006255_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00835_MESH_D014581_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D014581_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D014581_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00835_MESH_D011537_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D011537_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D011537_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00835_MESH_D003233_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D003233_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D003233_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00835_MESH_D012223_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D012223_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D012223_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00835_MESH_D065631_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00835_MESH_D065631_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", + " 'DB00835_MESH_D065631_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", + " 'DB12459_MESH_D010051_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB12459_MESH_D002289_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00325_MESH_D006973_1': ['Drug - produces - ChemicalSubstance - positively regulates - BiologicalProcess - negatively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00813_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", + " 'DB00901_MESH_D001991_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00901_MESH_D001987_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00901_MESH_D001249_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00901_MESH_D011656_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01119_MESH_D007340_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB01119_MESH_D006946_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB01119_MESH_D046768_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB02659_MESH_D001660_1': ['Drug - produced by - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB02659_MESH_D002769_1': ['Drug - treats - Disease'],\n", + " 'DB02659_MESH_D003248_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB02659_MESH_D019294_1': ['Drug - produced by - Protein - negatively correlated with - Disease',\n", + " 'Drug - produced by - Protein - decreases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB08976_MESH_D059787_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB09076_MESH_D029424_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB09488_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - participates in - Disease'],\n", + " 'DB09488_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB09488_MESH_D006255_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB09488_MESH_D012912_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", + " 'DB09488_MESH_D003139_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - caused by - OrganismTaxon - causes - Disease'],\n", + " 'DB09488_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB09552_MESH_D010032_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB12159_MESH_D003876_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00051_MESH_D017497_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D001172_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D001171_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D015535_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D013167_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D003424_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00051_MESH_D003093_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00107_MESH_D006473_1': ['Drug - increases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00811_MESH_D019698_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00811_MESH_D018357_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01091_MESH_D014008_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01091_MESH_D014010_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01188_MESH_D014010_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01188_MESH_D002179_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01188_MESH_D014008_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01188_MESH_D014009_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01188_MESH_D012628_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01388_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01388_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB08792_MESH_D000562_1': ['Drug - treats - Disease'],\n", + " 'DB08896_MESH_D046152_1': ['Drug - decreases activity of - Protein - participates in - Pathway - contributes to - BiologicalProcess - causes - Disease'],\n", + " 'DB11362_MESH_D000081029_1': ['Drug - increases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB11943_MESH_D017192_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB12523_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB02329_MESH_D010437_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively regulates - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB12523_MESH_D012221_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_3': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_4': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00871_MESH_D015352_1': ['Drug - positively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_5': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB05812_MESH_D011471_6': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - produces - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB00198_MESH_D007251_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00285_MESH_D016584_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D016584_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D000072861_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D000072861_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D000072861_3': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D003865_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D003865_3': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00543_MESH_D003866_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00285_MESH_D003866_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00543_MESH_D003866_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB12248_MESH_D001249_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB12248_MESH_D011656_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB06817_MESH_D015658_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB11614_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB11614_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB08909_MESH_D056806_1': ['Drug - derives into - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB01436_MESH_D007011_1': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D007011_2': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D007011_3': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D012080_1': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D012080_2': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D012080_3': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", + " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB01436_MESH_D006961_1': ['Drug - increases activity of - Protein - decreases secretion of - ChemicalSubstance - treats - Disease'],\n", + " 'DB13158_MESH_D004485_1': ['Drug - increases activity of - Protein - decreases activity of - ChemicalSubstance - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB13158_MESH_D003876_1': ['Drug - increases activity of - Protein - decreases activity of - ChemicalSubstance - positively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB04932_MESH_D006504_1': ['Drug - increases activity of - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", + " 'DB04932_MESH_D006504_2': ['Drug - increases activity of - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", + " 'DB04932_MESH_D006504_3': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", + " 'DB04846_MESH_D006973_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - causes - Disease'],\n", + " 'DB04846_MESH_D000787_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - treats - Disease'],\n", + " 'DB00981_MESH_D005902_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - increases activity of - GeneFamily - treats - Disease'],\n", + " 'DB00981_MESH_D005902_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - increases activity of - GeneFamily - treats - Disease'],\n", + " 'DB13001_MESH_D010146_1': ['Drug - decreases activity of - Protein - decreases activity of - Pathway - treats - Disease'],\n", + " 'DB01080_MESH_D013036_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - treats - Disease'],\n", + " 'DB00447_MESH_D012141_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D011014_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D001991_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D013290_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00447_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB08882_MESH_D003924_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - treats - Disease'],\n", + " 'DB08882_MESH_D003924_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", + " 'DB08882_MESH_D003924_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - treats - Disease'],\n", + " 'DB08882_MESH_D003924_4': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", + " 'DB08882_MESH_D003924_5': ['Drug - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB00488_MESH_D010051_1': ['Drug - increases activity of - GeneFamily - produces - ChemicalSubstance - enabled by - MolecularActivity - disrupts - Cell - causes - Disease'],\n", + " 'DB00488_MESH_D010051_2': ['Drug - increases activity of - GeneFamily - produces - ChemicalSubstance - enabled by - MolecularActivity - disrupts - Cell - causes - Disease'],\n", + " 'DB00383_MESH_D010437_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB00550_MESH_D006980_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00550_MESH_D013958_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00564_MESH_D014277_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB00564_MESH_D004830_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00564_MESH_D020435_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB00564_MESH_D004828_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00564_MESH_D065768_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00564_MESH_D012640_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00564_MESH_D004827_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00611_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", + " 'DB00611_MESH_D048949_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", + " 'DB00647_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", + " 'DB01087_MESH_D016780_1': ['Drug - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01340_MESH_D006973_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease'],\n", + " 'DB06196_MESH_D054179_1': ['Drug - decreases activity of - Protein - molecularly interacts with - ChemicalSubstance - contributes to - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB06756_MESH_D006712_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB06756_MESH_D003556_1': ['Drug - contributes to - PhenotypicFeature - negatively correlated with - Disease'],\n", + " 'DB06770_MESH_D011537_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", + " 'DB09211_MESH_D013919_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00241_MESH_D018781_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00740_MESH_D000690_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - Disease',\n", + " 'Drug - decreases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - Disease'],\n", + " 'DB00999_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00999_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", + " 'DB01029_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", + " 'DB01029_MESH_D003928_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", + " 'DB04574_MESH_D059268_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB06616_MESH_D001752_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", + " 'DB07402_MESH_D013167_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB07402_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB07402_MESH_D006073_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB07402_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", + " 'DB09321_MESH_D005076_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09321_MESH_D014008_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", + " 'DB09321_MESH_D002179_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", + " 'DB09321_MESH_D011537_1': ['Drug - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB09321_MESH_D011538_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB09321_MESH_D006484_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09321_MESH_D003963_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09321_MESH_D011349_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09321_MESH_D014010_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - occurs in - Disease'],\n", + " 'DB00781_MESH_D014605_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00781_MESH_D003234_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00781_MESH_D014552_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00781_MESH_D010032_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00781_MESH_D007634_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00828_MESH_D014552_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00494_MESH_D010300_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00136_MESH_D017674_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00136_MESH_D006996_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00136_MESH_D007011_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00136_MESH_D012080_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00165_MESH_D026681_1': ['Drug - interacts with - Protein - positively regulates - MolecularActivity - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB09304_MESH_D003866_1': ['Drug - decreases activity of - Protein - correlated with - BiologicalProcess - correlated with - Disease'],\n", + " 'DB09304_MESH_D003866_2': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00411_MESH_D005902_1': ['Drug - increases activity of - GeneFamily - participates in - Pathway - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00411_MESH_D005902_2': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - located in - CellularComponent - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00799_MESH_D000152_1': ['Drug - increases activity of - Protein - negatively correlated with - Pathway - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00799_MESH_D011565_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB04930_MESH_D012532_1': ['Drug - disrupts - Protein - positively regulates - BiologicalProcess - occurs in - Cell - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00850_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB06237_MESH_D007172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - located in - GrossAnatomicalStructure - participates in - Disease'],\n", + " 'DB00878_MESH_D005891_1': ['Drug - disrupts - CellularComponent - causes - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00651_MESH_D000080445_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D000080445_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D029481_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D029481_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D001986_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D001986_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D011656_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D011656_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D001249_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00651_MESH_D001249_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11574_MESH_D019698_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB11574_MESH_D019698_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09078_MESH_D000077273_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D000077273_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D000077273_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D000077273_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D000077273_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D018263_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D018263_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D018263_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D018263_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D018263_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D002292_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D002292_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D002292_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D002292_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB09078_MESH_D002292_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", + " 'DB06655_MESH_D003924_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB11750_MESH_D003876_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D003876_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D003877_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D003877_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D012628_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D012628_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D012536_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB11750_MESH_D012536_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB08865_MESH_D002289_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB08865_MESH_D002289_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB08865_MESH_D002289_3': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00508_MESH_D011618_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00508_MESH_D011618_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00508_MESH_D011618_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00508_MESH_D011618_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00508_MESH_D011618_5': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00508_MESH_D014839_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00508_MESH_D014839_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00508_MESH_D014839_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00508_MESH_D014839_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00508_MESH_D009325_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00508_MESH_D009325_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00508_MESH_D009325_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00508_MESH_D009325_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00404_MESH_D001007_1': ['Drug - positively regulates - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - actively involved in - Disease'],\n", + " 'DB00404_MESH_D016584_1': ['Drug - positively regulates - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - actively involved in - Disease'],\n", + " 'DB00921_MESH_D059350_1': ['Drug - increases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - ameliorates - Disease'],\n", + " 'DB00921_MESH_D059350_2': ['Drug - decreases activity of - Protein - decreases response to - PhenotypicFeature - positively regulates - BiologicalProcess - ameliorates - Disease'],\n", + " 'DB00921_MESH_D009293_1': ['Drug - increases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - ameliorates - Disease'],\n", + " 'DB00921_MESH_D009293_2': ['Drug - decreases activity of - Protein - decreases response to - PhenotypicFeature - caused by - BiologicalProcess - ameliorates - Disease'],\n", + " 'DB08998_MESH_D003866_1': ['Drug - decreases activity of - BiologicalProcess - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01167_MESH_D006660_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01167_MESH_D001759_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01167_MESH_D055744_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01167_MESH_D060585_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01167_MESH_D058387_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01167_MESH_D001228_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB04861_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB04861_MESH_D006973_2': ['Drug - decreases activity of - ChemicalSubstance - regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB04861_MESH_D006973_3': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - prevents - Disease'],\n", + " 'DB01113_MESH_D016491_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB01132_MESH_D003924_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB01132_MESH_D003924_2': ['Drug - increases activity of - Protein - negatively regulates - Pathway - increases response to - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB01132_MESH_D003924_3': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB00489_MESH_D001281_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - negatively regulates - BiologicalProcess - caused by - Disease'],\n", + " 'DB00489_MESH_D001281_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - caused by - Disease'],\n", + " 'DB00708_MESH_D010149_1': ['Drug - increases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - disrupts - BiologicalProcess - ameliorates - Disease'],\n", + " 'DB00775_MESH_D054058_1': ['Drug - decreases activity of - MacromolecularComplex - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00385_MESH_D001749_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", + " 'DB00385_MESH_D001749_2': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", + " 'DB00313_MESH_D001714_4': ['Drug - negatively regulates - Protein - contributes to - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", + " 'DB00313_MESH_D001714_5': ['Drug - negatively regulates - Protein - contributes to - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", + " 'DB00313_MESH_D008881_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - participates in - Pathway - prevents - Disease'],\n", + " 'DB01282_MESH_D006473_2': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB00248_MESH_D006966_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00289_MESH_D001289_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - decreases activity of - MolecularActivity - participates in - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00400_MESH_D014008_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00400_MESH_D014006_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00400_MESH_D014009_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00783_MESH_D065446_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB00783_MESH_D019584_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", + " 'DB00783_MESH_D015663_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00783_MESH_D059268_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", + " 'DB00783_MESH_D000152_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB00829_MESH_D013742_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00829_MESH_D009128_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00829_MESH_D000430_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00829_MESH_D013226_1': ['Drug - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00829_MESH_D004827_1': ['Drug - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00842_MESH_D000430_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00842_MESH_D001007_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively regulates - Disease'],\n", + " 'DB09081_MESH_D029242_1': ['Drug - positively regulates - BiologicalProcess - has participant - CellularComponent - disrupted by - Disease'],\n", + " 'DB00331_MESH_D003924_1': ['Drug - decreases activity of - Protein - part of - BiologicalProcess - negatively regulates - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", + " 'Drug - decreases activity of - Protein - part of - BiologicalProcess - decreases abundance of - ChemicalSubstance - decreases activity of - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", + " 'Drug - decreases activity of - Protein - part of - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - negatively regulates - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - decreases activity of - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00515_MESH_D010051_1': ['Drug - negatively regulates - BiologicalProcess - part of - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - disrupts - ChemicalSubstance - participates in - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00643_MESH_D014257_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00643_MESH_D001196_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00643_MESH_D017229_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00848_MESH_D001196_1': ['Drug - increases activity of - Protein - positively regulates - PhenotypicFeature - negatively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00848_MESH_D000724_1': ['Drug - increases activity of - Protein - positively regulates - PhenotypicFeature - negatively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01130_MESH_D009450_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01130_MESH_D011538_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01130_MESH_D016410_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - occurs in - Disease'],\n", + " 'DB01130_MESH_D003877_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01130_MESH_D003876_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01130_MESH_D016460_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01130_MESH_D005076_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01130_MESH_D012628_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01130_MESH_D008179_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01233_MESH_D005764_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - GrossAnatomicalStructure - negatively regulates - Disease',\n", + " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01577_MESH_D009765_1': ['Drug - positively regulates - MolecularActivity - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB05266_MESH_D001249_1': ['Drug - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB06702_MESH_D053202_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09559_MESH_D002289_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00310_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", + " 'DB00310_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - PhenotypicFeature - contributes to - Disease'],\n", + " 'DB00553_MESH_D016410_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - PhenotypicFeature - causes - Disease'],\n", + " 'DB00553_MESH_D014820_1': ['Drug - positively regulates - Cell - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00622_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00622_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00747_MESH_D043183_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - Disease'],\n", + " 'DB00747_MESH_D015878_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00747_MESH_D015863_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00747_MESH_D014605_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00747_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", + " 'DB00747_MESH_D009041_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - PhenotypicFeature - occurs in - Disease'],\n", + " 'DB00747_MESH_D003139_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", + " 'DB00747_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", + " 'DB00747_MESH_D003371_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - Disease'],\n", + " 'DB00747_MESH_D010437_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB00865_MESH_D009765_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01263_MESH_D008271_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01263_MESH_D001228_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01263_MESH_D002862_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01263_MESH_D060585_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01263_MESH_D003047_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01263_MESH_D002177_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB05659_MESH_D017192_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB05659_MESH_D012141_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00026_MESH_D001172_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - Pathway - positively regulates - PhenotypicFeature - occurs in - Disease'],\n", + " 'DB00026_MESH_D056587_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00065_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00065_MESH_D003093_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00065_MESH_D003424_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00065_MESH_D013167_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00065_MESH_D015535_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00423_MESH_D009128_1': ['Drug - causes - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00496_MESH_D053202_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00547_MESH_D016410_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - occurs in - Disease'],\n", + " 'DB00547_MESH_D016460_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00547_MESH_D011538_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00547_MESH_D008179_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00547_MESH_D003876_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00547_MESH_D009450_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00547_MESH_D003877_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00547_MESH_D005076_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00547_MESH_D012628_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB00918_MESH_D008881_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - negatively regulates - Disease',\n", + " 'Drug - increases activity of - Protein - decreases activity of - GrossAnatomicalStructure - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09041_MESH_D014009_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01193_MESH_D018879_1': ['Drug - decreases activity of - Protein - negatively regulates - PhenotypicFeature - ameliorates - Disease'],\n", + " 'DB00414_MESH_D003924_1': ['Drug - increases activity of - Cell - increases secretion of - ChemicalSubstance - ameliorates - Disease'],\n", + " 'DB00964_MESH_D005902_1': ['Drug - increases activity of - Protein - decreases synthesis of - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - ameliorates - Disease',\n", + " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - ameliorates - Disease'],\n", + " 'DB05015_MESH_D016411_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - PhenotypicFeature - correlated with - Disease',\n", + " 'Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - correlated with - Disease'],\n", + " 'DB00468_MESH_D016778_1': ['Drug - decreases activity of - Protein - disrupts - GeneFamily - increases abundance of - ChemicalSubstance - enables - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00468_MESH_D016778_2': ['Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - Pathway - enables - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00700_MESH_D006973_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - decreases abundance of - PhenotypicFeature - prevents - Disease',\n", + " 'Drug - decreases activity of - Protein - decreases abundance of - PhenotypicFeature - prevents - Disease'],\n", + " 'DB04854_MESH_D033461_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB00053_MESH_D005776_1': ['Drug - increases degradation of - ChemicalSubstance - enables - Pathway - prevents - Disease'],\n", + " 'DB01131_MESH_D016778_1': ['Drug - decreases activity of - Protein - decreases synthesis of - Pathway - disrupts - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D004697_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D018784_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D059413_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D011018_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D018410_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB01597_MESH_D004716_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", + " 'DB00575_MESH_D006973_1': ['Drug - increases activity of - Protein - coexists with - GeneFamily - positively regulates - MolecularActivity - causes - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00575_MESH_D006973_2': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00575_MESH_D001289_1': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - prevents - BiologicalProcess - disrupts - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00575_MESH_D005902_1': ['Drug - increases activity of - Protein - decreases activity of - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB01164_MESH_D007008_1': ['Drug - treats - Disease'],\n", + " 'DB01164_MESH_D006947_1': ['Drug - regulates - BiologicalProcess - located in - GrossAnatomicalStructure - ameliorates - Disease'],\n", + " 'DB01164_MESH_D006323_1': ['Drug - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", + " 'DB01164_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - ameliorates - Disease'],\n", + " 'DB00302_MESH_D004715_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00302_MESH_D008595_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00347_MESH_D004827_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00668_MESH_D005902_1': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00668_MESH_D005902_2': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00668_MESH_D005902_3': ['Drug - decreases activity of - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - occurs in - Cell - disrupted by - Disease'],\n", + " 'DB00668_MESH_D000707_1': ['Drug - increases activity of - Protein - participates in - Pathway - negatively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - Pathway - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00668_MESH_D007022_1': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - negatively correlated with - Disease'],\n", + " 'DB06823_MESH_D003555_1': ['Drug - decreases abundance of - ChemicalSubstance - causes - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00930_MESH_D006937_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB05219_MESH_D003876_1': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09053_MESH_D008258_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB09053_MESH_D020522_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01037_MESH_D010300_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01037_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01261_MESH_D003924_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB05229_MESH_D000081029_1': ['Drug - increases activity of - Protein - decreases abundance of - ChemicalSubstance - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB08871_MESH_D008080_1': ['Drug - negatively regulates - MacromolecularComplex - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB11915_MESH_D000071057_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Pathway - positively correlated with - Disease'],\n", + " 'DB12323_MESH_D015464_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - GeneFamily - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_3': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_4': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_5': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_6': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_7': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01244_MESH_D000787_8': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB13761_MESH_D007787_1': ['Drug - increases degradation of - ChemicalSubstance - positively correlated with - BiologicalProcess - disrupted by - Disease'],\n", + " 'DB00977_MESH_D065446_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB00977_MESH_D019584_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", + " 'DB00977_MESH_D000152_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively regulates - Cell - positively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB00977_MESH_D059268_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", + " 'DB00977_MESH_D015663_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00067_MESH_D006467_1': ['Drug - increases abundance of - Protein - disrupted by - Disease'],\n", + " 'DB00067_MESH_D053206_1': ['Drug - negatively regulates - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00067_MESH_D014842_1': ['Drug - increases abundance of - Protein - disrupted by - Disease'],\n", + " 'DB00203_MESH_D007172_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00203_MESH_D000081029_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00491_MESH_D003924_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB00738_MESH_D014353_1': ['Drug - disrupts - ChemicalSubstance - occurs in - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB00995_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease',\n", + " 'Drug - negatively regulates - Cell - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01004_MESH_D007635_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01004_MESH_D017726_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01064_MESH_D006323_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01064_MESH_D054537_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01064_MESH_D002303_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01064_MESH_D003139_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - occurs in - Disease',\n", + " 'Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - occurs in - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - occurs in - Disease',\n", + " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - occurs in - Disease'],\n", + " 'DB01064_MESH_D012769_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB06692_MESH_D006470_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09036_MESH_D005871_1': ['Drug - decreases activity of - Protein - positively correlated with - Disease'],\n", + " 'DB11770_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00434_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively regulates - GrossAnatomicalStructure - positively regulates - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00434_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - Cell - contributes to - Disease'],\n", + " 'DB00434_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00434_MESH_D012912_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", + " 'DB00434_MESH_D065631_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - positively regulates - CellularComponent - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", + " 'DB00960_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00188_MESH_D020522_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - decreases activity of - CellularComponent - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00188_MESH_D009101_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - decreases activity of - CellularComponent - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01042_MESH_D010051_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01042_MESH_D009101_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01138_MESH_D033461_1': ['Drug - decreases activity of - Protein - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01397_MESH_D001416_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D002062_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D018771_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D013585_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D004412_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D005334_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - Disease'],\n", + " 'DB01397_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB01397_MESH_D020773_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB06794_MESH_D003233_1': ['Drug - negatively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB09449_MESH_D003248_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00434_MESH_D012912_2': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", + " 'DB00300_MESH_D015658_1': ['Drug - has metabolite - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00300_MESH_D019694_1': ['Drug - has metabolite - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01266_MESH_D003218_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB11817_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB09279_MESH_D006973_1': ['Drug - increases activity of - GeneFamily - positively regulates - BiologicalProcess - correlated with - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - Disease',\n", + " 'Drug - decreases secretion of - ChemicalSubstance - increases response to - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D003424_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D001249_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D065631_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D003424_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", + " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D001249_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", + " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01222_MESH_D065631_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", + " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", + " 'DB06724_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", + " 'DB06724_MESH_D004415_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - causes - Disease',\n", + " 'Drug - decreases activity of - BiologicalProcess - causes - Disease'],\n", + " 'DB01150_MESH_D001991_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01150_MESH_D012141_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01150_MESH_D013290_1': ['Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01150_MESH_D014069_1': ['Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01150_MESH_D013203_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00215_MESH_D003866_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - CellularComponent - correlated with - Disease'],\n", + " 'DB00215_MESH_D003865_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - CellularComponent - correlated with - Disease'],\n", + " 'DB00401_MESH_D006973_1': ['Drug - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB01267_MESH_D011618_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - correlated with - Disease'],\n", + " 'DB00110_MESH_D018357_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01603_MESH_D012852_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01603_MESH_D011023_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09060_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09060_MESH_D059413_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09060_MESH_D059413_3': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09060_MESH_D059413_4': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09060_MESH_D011704_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB12225_MESH_D019698_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09208_MESH_D006073_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB06684_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB06684_MESH_D003865_2': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01698_MESH_D001206_1': ['Drug - increases activity of - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB12865_MESH_D006962_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01166_MESH_D007383_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - increases activity of - GeneFamily - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01144_MESH_D005902_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - increases abundance of - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB08842_MESH_D000544_1': ['Drug - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - positively correlated with - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", + " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00903_MESH_D004487_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - negatively correlated with - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00038_MESH_D013921_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00038_MESH_D013921_2': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00464_MESH_D014648_1': ['Drug - part of - ChemicalSubstance - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB00797_MESH_D014652_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00797_MESH_D014652_2': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00797_MESH_D002561_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00797_MESH_D010547_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01144_MESH_D015812_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - increases abundance of - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00257_MESH_D002181_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D003963_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D002179_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D002180_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D014008_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D014010_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09274_MESH_D016778_1': ['Drug - negatively regulates - Protein - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09274_MESH_D016780_1': ['Drug - negatively regulates - GeneFamily - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09296_MESH_D019698_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively regulates - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB08949_MESH_D052456_1': ['Drug - positively regulates - Protein - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB08949_MESH_D006950_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB08949_MESH_D015228_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB08949_MESH_D006937_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB11581_MESH_D015451_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - Cell - location of - Disease'],\n", + " 'DB01191_MESH_D009765_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - affects risk for - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01191_MESH_D009765_2': ['Drug - positively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01009_MESH_D001172_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB01009_MESH_D001172_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", + " 'Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01009_MESH_D010146_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB01009_MESH_D004412_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01009_MESH_D010003_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB08949_MESH_D010383_1': ['Drug - increases abundance of - ChemicalSubstance - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00257_MESH_D000152_1': ['Drug - positively regulates - GeneFamily - negatively regulates - BiologicalProcess - increases abundance of - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00257_MESH_D000152_2': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - caused by - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB09256_MESH_D013274_1': ['Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - Cell - contributes to - Disease',\n", + " 'Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - located in - Cell - contributes to - Disease'],\n", + " 'DB01267_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - correlated with - Disease'],\n", + " 'DB12833_MESH_D002012_1': ['Drug - increases activity of - Protein - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB09079_MESH_D002289_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - Pathway - participates in - BiologicalProcess - contributes to - Disease',\n", + " 'Drug - decreases activity of - Protein - negatively regulates - Pathway - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB09079_MESH_D000080203_1': ['Drug - decreases activity of - Protein - negatively regulates - Pathway - prevents - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB05336_MESH_C571912_1': ['Drug - molecularly interacts with - GeneFamily - part of - ChemicalSubstance - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB13125_MESH_D013921_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB04897_MESH_D012127_1': ['Drug - chemically similar to - Protein - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", + " 'DB01106_MESH_D003233_2': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - decreases response to - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01106_MESH_D003233_3': ['Drug - increases activity of - Protein - decreases response to - PhenotypicFeature - correlated with - Disease'],\n", + " 'DB00593_MESH_D004832_1': ['Drug - positively regulates - Protein - increases transport of - ChemicalSubstance - decreases activity of - BiologicalProcess - located in - GrossAnatomicalStructure - prevents - Disease'],\n", + " 'DB00593_MESH_D004832_2': ['Drug - decreases activity of - MolecularActivity - increases transport of - ChemicalSubstance - positively regulates - BiologicalProcess - prevents - Disease'],\n", + " 'DB09038_MESH_D003924_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - has phenotype - PhenotypicFeature - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", + " 'DB00501_MESH_D004381_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00501_MESH_D013276_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00501_MESH_D015043_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - negatively regulates - GeneFamily - correlated with - Disease'],\n", + " 'DB00501_MESH_D009377_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - negatively regulates - GeneFamily - correlated with - Disease'],\n", + " 'DB00501_MESH_D004415_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00501_MESH_D005764_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00501_MESH_D006356_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00501_MESH_D034721_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", + " 'DB01183_MESH_D009293_1': ['Drug - decreases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - causes - Disease'],\n", + " 'DB01183_MESH_D010146_1': ['Drug - decreases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - caused by - Disease'],\n", + " 'DB00152_MESH_D013832_1': ['Drug - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00152_MESH_D014806_1': ['Drug - treats - Disease'],\n", + " 'DB00152_MESH_D020915_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00152_MESH_D001361_1': ['Drug - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00152_MESH_D000752_1': ['Drug - treats - Disease'],\n", + " 'DB00211_MESH_D007024_1': ['Drug - has metabolite - ChemicalSubstance - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - negatively correlated with - Disease'],\n", + " 'DB00245_MESH_D010301_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00245_MESH_D020734_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00245_MESH_D001480_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00245_MESH_D010300_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", + " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", + " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00458_MESH_D053206_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - ChemicalSubstance - positively regulates - GrossAnatomicalStructure - positively regulates - BiologicalProcess - manifestation of - Disease'],\n", + " 'DB00458_MESH_D003866_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00707_MESH_D002289_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00707_MESH_D004938_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00726_MESH_D003866_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - negatively regulates - BiologicalProcess - negatively correlated with - Disease',\n", + " 'Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01115_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01115_MESH_D000788_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB01115_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01178_MESH_D001007_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively regulates - Disease'],\n", + " 'DB09101_MESH_D015658_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01208_MESH_D011019_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01208_MESH_D011018_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01208_MESH_D061387_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01208_MESH_D011014_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", + " 'DB01219_MESH_D009128_1': ['Drug - negatively regulates - Protein - part of - CellularComponent - participates in - MolecularActivity - participates in - BiologicalProcess - regulates - Disease'],\n", + " 'DB01219_MESH_C535694_1': ['Drug - negatively regulates - Protein - part of - CellularComponent - participates in - MolecularActivity - participates in - BiologicalProcess - regulates - Disease'],\n", + " 'DB01246_MESH_D014581_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01246_MESH_D012912_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01246_MESH_D000799_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01246_MESH_D003233_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01246_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01246_MESH_D065631_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB01413_MESH_D013290_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01413_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB01413_MESH_D011018_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - positively correlated with - Disease'],\n", + " 'DB01413_MESH_D013203_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01413_MESH_D018410_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB04884_MESH_D061686_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", + " 'DB06788_MESH_D011629_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB09013_MESH_D005902_1': ['Drug - decreases activity of - Protein - regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB09013_MESH_D009798_1': ['Drug - decreases activity of - Protein - regulates - PhenotypicFeature - treats - Disease'],\n", + " 'DB00099_MESH_C537592_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00099_MESH_C536227_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00274_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00274_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00274_MESH_D011014_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00274_MESH_D059413_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00274_MESH_D011023_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00574_MESH_D009765_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", + " 'DB00808_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", + " 'DB00808_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", + " 'DB00939_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00939_MESH_D008595_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB00939_MESH_D004412_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00939_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00939_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", + " 'DB00953_MESH_D008881_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB01045_MESH_D014397_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09046_MESH_C562448_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - produced by - GrossAnatomicalStructure - negatively correlated with - Disease'],\n", + " 'DB09046_MESH_D052497_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - produced by - GrossAnatomicalStructure - negatively correlated with - Disease'],\n", + " 'DB09093_MESH_D014141_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB09352_MESH_D015878_1': ['Drug - positively regulates - BiologicalProcess - positively regulates - Protein - positively regulates - Disease'],\n", + " 'DB12975_MESH_D016780_1': ['Drug - negatively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", + " 'DB12975_MESH_D016780_2': ['Drug - molecularly interacts with - ChemicalSubstance - disrupts - Cell - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB12975_MESH_D016778_1': ['Drug - negatively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", + " 'DB12975_MESH_D016778_2': ['Drug - molecularly interacts with - ChemicalSubstance - disrupts - Cell - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D012628_1': ['Drug - disrupts - OrganismTaxon - causes - Disease',\n", + " 'Drug - negatively correlated with - Disease'],\n", + " 'DB00257_MESH_D005892_1': ['Drug - disrupts - OrganismTaxon - causes - Disease'],\n", + " 'DB00257_MESH_D000152_3': ['Drug - disrupts - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases abundance of - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00257_MESH_D013281_1': ['Drug - disrupts - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D018410_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D010612_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D013203_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D006069_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01416_MESH_D013290_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB06710_MESH_D019584_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB06710_MESH_D005058_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", + " 'DB06710_MESH_D011628_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00555_MESH_D012640_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D012640_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D004828_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D004828_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D065768_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D065768_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D004827_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00555_MESH_D004827_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00850_MESH_D012559_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB00233_MESH_D014397_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01061_MESH_D011015_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01061_MESH_D016868_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01061_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01147_MESH_D013203_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01147_MESH_D011023_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01147_MESH_D010612_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01147_MESH_D012852_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB01401_MESH_D005334_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB01401_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01401_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB01401_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", + " 'DB02383_MESH_D048909_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", + " 'DB05351_MESH_D010437_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB05351_MESH_D005764_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB05521_MESH_D019698_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", + " 'Drug - decreases activity of - Protein - capable of - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB06774_MESH_D051474_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB06774_MESH_D009437_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB06774_MESH_D001416_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", + " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", + " 'DB09040_MESH_D014009_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", + " 'DB11606_MESH_C536392_1': ['Drug - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB11607_MESH_D006467_1': ['Drug - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", + " 'DB00347_MESH_D004832_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", + " 'DB00668_MESH_D001987_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB00668_MESH_D001991_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB00668_MESH_D011656_1': ['Drug - positively regulates - Protein - negatively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB00668_MESH_D012135_1': ['Drug - positively regulates - Protein - negatively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " 'DB00668_MESH_D004417_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", + " ...})" + ] + }, + "execution_count": 10, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "all_metapath_edges" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Append all info together" + ] + }, { "cell_type": "code", - "execution_count": 6, + "execution_count": 11, "metadata": {}, "outputs": [], "source": [ @@ -181,6 +5410,7 @@ "id_to_label = {}\n", "\n", "for i, p in enumerate(ind):\n", + " _id = (p[\"graph\"][\"_id\"])\n", " drug_id, dis_id = path_to_tup(p)\n", " paths = get_all_paths(p)\n", " G = path_to_G(p)\n", @@ -197,11 +5427,12 @@ " basic_stats['n_paths'].append(len(paths))\n", " basic_stats['longest_path'].append(max([len(p) for p in paths]))\n", " basic_stats['shortest_path'].append(max([len(p) for p in paths]))\n", - " basic_stats['metapath'].append(\" - \".join([n[1]['label'] for n in G.nodes.data()]))\n", - " basic_stats['metapath_with_edges'].append(\"\".join([re.sub(\" - [^-]*$\",\" - \",e[2]['metaedge']) for e in G.edges.data()])+\"Disease\")\n", + " basic_stats['metapath'].append(all_metapath_nodes[_id])\n", + " basic_stats['metapath_with_edges'].append(all_metapath_edges[_id])\n", "\n", " \n", " this_metaedges = [G.edges[e]['metaedge'] for e in G.edges]\n", + " \n", " all_metaedges += this_metaedges\n", " unique_metaedges += list(set(this_metaedges))\n", " \n", @@ -218,7 +5449,7 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": 12, "metadata": {}, "outputs": [ { @@ -267,8 +5498,8 @@ " 1\n", " 3\n", " 3\n", - " Drug - Protein - Disease\n", - " Drug - decreases activity of - Protein - cause...\n", + " [Drug - Protein - Disease]\n", + " [Drug - decreases activity of - Protein - caus...\n", " \n", " \n", " 1\n", @@ -281,8 +5512,8 @@ " 2\n", " 4\n", " 4\n", - " Drug - Protein - Protein - BiologicalProcess -...\n", - " Drug - decreases activity of - Drug - decrease...\n", + " [Drug - Protein - BiologicalProcess - Disease]\n", + " [Drug - decreases activity of - Protein - posi...\n", " \n", " \n", " 2\n", @@ -295,8 +5526,8 @@ " 3\n", " 4\n", " 4\n", - " Drug - Protein - Protein - Pathway - ChemicalS...\n", - " Drug - decreases activity of - Drug - decrease...\n", + " [Drug - Protein - ChemicalSubstance - Disease,...\n", + " [Drug - decreases activity of - Protein - incr...\n", " \n", " \n", " 3\n", @@ -309,8 +5540,8 @@ " 1\n", " 5\n", " 5\n", - " Drug - Pathway - GrossAnatomicalStructure - Bi...\n", - " Drug - negatively regulates - Pathway - occurs...\n", + " [Drug - Pathway - GrossAnatomicalStructure - B...\n", + " [Drug - negatively regulates - Pathway - occur...\n", " \n", " \n", " 4\n", @@ -323,8 +5554,8 @@ " 2\n", " 4\n", " 4\n", - " Drug - Protein - Protein - ChemicalSubstance -...\n", - " Drug - decreases activity of - Drug - decrease...\n", + " [Drug - Protein - ChemicalSubstance - Disease]\n", + " [Drug - decreases activity of - Protein - incr...\n", " \n", " \n", " ...\n", @@ -341,78 +5572,78 @@ " ...\n", " \n", " \n", - " 3245\n", - " 3245\n", - " DB09104_MESH_D010437_1\n", - " DB:DB09104\n", - " MESH:D010437\n", - " 4\n", - " 3\n", - " 1\n", - " 4\n", - " 4\n", - " Drug - ChemicalSubstance - ChemicalSubstance -...\n", - " Drug - subclass of - ChemicalSubstance - negat...\n", + " 3733\n", + " 3733\n", + " DB00618_MESH_D013203_1\n", + " DB:DB00618\n", + " MESH:D013203\n", + " 7\n", + " 7\n", + " 2\n", + " 6\n", + " 6\n", + " [Drug - CellularComponent - BiologicalProcess ...\n", + " [Drug - decreases activity of - CellularCompon...\n", " \n", " \n", - " 3246\n", - " 3246\n", - " DB09104_MESH_D004415_1\n", - " DB:DB09104\n", - " MESH:D004415\n", - " 5\n", - " 4\n", - " 1\n", - " 5\n", - " 5\n", - " Drug - ChemicalSubstance - ChemicalSubstance -...\n", - " Drug - subclass of - ChemicalSubstance - negat...\n", + " 3734\n", + " 3734\n", + " DB00618_MESH_D013587_1\n", + " DB:DB00618\n", + " MESH:D013587\n", + " 7\n", + " 7\n", + " 2\n", + " 6\n", + " 6\n", + " [Drug - CellularComponent - BiologicalProcess ...\n", + " [Drug - decreases activity of - CellularCompon...\n", " \n", " \n", - " 3247\n", - " 3247\n", - " DB09104_MESH_D005764_1\n", - " DB:DB09104\n", - " MESH:D005764\n", - " 4\n", - " 3\n", - " 1\n", - " 4\n", - " 4\n", - " Drug - ChemicalSubstance - ChemicalSubstance -...\n", - " Drug - subclass of - ChemicalSubstance - negat...\n", + " 3735\n", + " 3735\n", + " DB00618_MESH_D014141_1\n", + " DB:DB00618\n", + " MESH:D014141\n", + " 7\n", + " 7\n", + " 2\n", + " 6\n", + " 6\n", + " [Drug - CellularComponent - BiologicalProcess ...\n", + " [Drug - decreases activity of - CellularCompon...\n", " \n", " \n", - " 3248\n", - " 3248\n", - " DB09104_MESH_D006356_1\n", - " DB:DB09104\n", - " MESH:D006356\n", - " 4\n", - " 3\n", - " 1\n", - " 4\n", - " 4\n", - " Drug - ChemicalSubstance - ChemicalSubstance -...\n", - " Drug - subclass of - ChemicalSubstance - negat...\n", + " 3736\n", + " 3736\n", + " DB00618_MESH_D014552_1\n", + " DB:DB00618\n", + " MESH:D014552\n", + " 7\n", + " 7\n", + " 2\n", + " 6\n", + " 6\n", + " [Drug - CellularComponent - BiologicalProcess ...\n", + " [Drug - decreases activity of - CellularCompon...\n", " \n", " \n", - " 3249\n", - " 3249\n", - " DB00962_MESH_D007319_1\n", - " DB:DB00962\n", - " MESH:D007319\n", - " 5\n", - " 4\n", - " 1\n", - " 5\n", - " 5\n", - " Drug - Protein - MolecularActivity - Phenotypi...\n", - " Drug - positively regulates - Protein - positi...\n", + " 3737\n", + " 3737\n", + " DB00618_MESH_D015001_1\n", + " DB:DB00618\n", + " MESH:D015001\n", + " 7\n", + " 7\n", + " 2\n", + " 6\n", + " 6\n", + " [Drug - CellularComponent - BiologicalProcess ...\n", + " [Drug - decreases activity of - CellularCompon...\n", " \n", " \n", "\n", - "

3250 rows × 11 columns

\n", + "

3738 rows × 11 columns

\n", "" ], "text/plain": [ @@ -423,11 +5654,11 @@ "3 3 DB00316_MESH_D005334_1 DB:DB00316 MESH:D005334 5 \n", "4 4 DB00945_MESH_D010146_1 DB:DB00945 MESH:D010146 5 \n", "... ... ... ... ... ... \n", - "3245 3245 DB09104_MESH_D010437_1 DB:DB09104 MESH:D010437 4 \n", - "3246 3246 DB09104_MESH_D004415_1 DB:DB09104 MESH:D004415 5 \n", - "3247 3247 DB09104_MESH_D005764_1 DB:DB09104 MESH:D005764 4 \n", - "3248 3248 DB09104_MESH_D006356_1 DB:DB09104 MESH:D006356 4 \n", - "3249 3249 DB00962_MESH_D007319_1 DB:DB00962 MESH:D007319 5 \n", + "3733 3733 DB00618_MESH_D013203_1 DB:DB00618 MESH:D013203 7 \n", + "3734 3734 DB00618_MESH_D013587_1 DB:DB00618 MESH:D013587 7 \n", + "3735 3735 DB00618_MESH_D014141_1 DB:DB00618 MESH:D014141 7 \n", + "3736 3736 DB00618_MESH_D014552_1 DB:DB00618 MESH:D014552 7 \n", + "3737 3737 DB00618_MESH_D015001_1 DB:DB00618 MESH:D015001 7 \n", "\n", " n_edges n_paths longest_path shortest_path \\\n", "0 2 1 3 3 \n", @@ -436,42 +5667,42 @@ "3 4 1 5 5 \n", "4 5 2 4 4 \n", "... ... ... ... ... \n", - "3245 3 1 4 4 \n", - "3246 4 1 5 5 \n", - "3247 3 1 4 4 \n", - "3248 3 1 4 4 \n", - "3249 4 1 5 5 \n", + "3733 7 2 6 6 \n", + "3734 7 2 6 6 \n", + "3735 7 2 6 6 \n", + "3736 7 2 6 6 \n", + "3737 7 2 6 6 \n", "\n", " metapath \\\n", - "0 Drug - Protein - Disease \n", - "1 Drug - Protein - Protein - BiologicalProcess -... \n", - "2 Drug - Protein - Protein - Pathway - ChemicalS... \n", - "3 Drug - Pathway - GrossAnatomicalStructure - Bi... \n", - "4 Drug - Protein - Protein - ChemicalSubstance -... \n", + "0 [Drug - Protein - Disease] \n", + "1 [Drug - Protein - BiologicalProcess - Disease] \n", + "2 [Drug - Protein - ChemicalSubstance - Disease,... \n", + "3 [Drug - Pathway - GrossAnatomicalStructure - B... \n", + "4 [Drug - Protein - ChemicalSubstance - Disease] \n", "... ... \n", - "3245 Drug - ChemicalSubstance - ChemicalSubstance -... \n", - "3246 Drug - ChemicalSubstance - ChemicalSubstance -... \n", - "3247 Drug - ChemicalSubstance - ChemicalSubstance -... \n", - "3248 Drug - ChemicalSubstance - ChemicalSubstance -... \n", - "3249 Drug - Protein - MolecularActivity - Phenotypi... \n", + "3733 [Drug - CellularComponent - BiologicalProcess ... \n", + "3734 [Drug - CellularComponent - BiologicalProcess ... \n", + "3735 [Drug - CellularComponent - BiologicalProcess ... \n", + "3736 [Drug - CellularComponent - BiologicalProcess ... \n", + "3737 [Drug - CellularComponent - BiologicalProcess ... \n", "\n", " metapath_with_edges \n", - "0 Drug - decreases activity of - Protein - cause... \n", - "1 Drug - decreases activity of - Drug - decrease... \n", - "2 Drug - decreases activity of - Drug - decrease... \n", - "3 Drug - negatively regulates - Pathway - occurs... \n", - "4 Drug - decreases activity of - Drug - decrease... \n", + "0 [Drug - decreases activity of - Protein - caus... \n", + "1 [Drug - decreases activity of - Protein - posi... \n", + "2 [Drug - decreases activity of - Protein - incr... \n", + "3 [Drug - negatively regulates - Pathway - occur... \n", + "4 [Drug - decreases activity of - Protein - incr... \n", "... ... \n", - "3245 Drug - subclass of - ChemicalSubstance - negat... \n", - "3246 Drug - subclass of - ChemicalSubstance - negat... \n", - "3247 Drug - subclass of - ChemicalSubstance - negat... \n", - "3248 Drug - subclass of - ChemicalSubstance - negat... \n", - "3249 Drug - positively regulates - Protein - positi... \n", + "3733 [Drug - decreases activity of - CellularCompon... \n", + "3734 [Drug - decreases activity of - CellularCompon... \n", + "3735 [Drug - decreases activity of - CellularCompon... \n", + "3736 [Drug - decreases activity of - CellularCompon... \n", + "3737 [Drug - decreases activity of - CellularCompon... \n", "\n", - "[3250 rows x 11 columns]" + "[3738 rows x 11 columns]" ] }, - "execution_count": 7, + "execution_count": 12, "metadata": {}, "output_type": "execute_result" } @@ -482,16 +5713,16 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": 13, "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ - "Number of unique drugs: 1351\n", - "Number of unique diseases: 643\n", - "Number of unique drug-disease combinations: 2995\n" + "Number of unique drugs: 1525\n", + "Number of unique diseases: 677\n", + "Number of unique drug-disease combinations: 3467\n" ] } ], @@ -503,12 +5734,12 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 14, "metadata": {}, "outputs": [ { "data": { - "image/png": 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RZa4++iJwmaSfkT1JbRFwbEOjMjOzlihz9dETwK6SNkjjrzY8KjMza4ky3VwMlzQDuDIiXpW0XXoWgpmZ9TNlzilcClwPbJbG/wZ8pUHxmJlZC5VJCsMi4grSZakRsYLsslQzM+tnyiSF1yRtSnaSmcrzkxsalZmZtUSZq49OAWYDW0n6T6ANcNfZZmb9UJmrj+6WtCewDSDgMWCXRgdmZmbNV7P5SNIgSUdJOg3YJiIeAsYCtwEXlF1BquceSdem8S0k3SlpvqTLJa2Tyt+Vxuen6WO788HMzKzr6p1TmAF8HtgU+KmkXwM/BH4QETt2YR0nA48Uxs8FfhwRWwMvApXLW6cAL6byH6f5zMysieolhfHAJyLi68ABwEHA7hHx+7KVSxoFHAhcnMYFfJx3nto2EzgkDU9M46Tpe6f5zcysSeolhbcionIZ6hvAgoh4vov1/wvwNd7pZXVT4KV0WStkXWaMTMMjgYVpfSvIrnDatGOFkqZKmidpXnt7exfDMTOzeuolhW0l3Z9eDxTGH5B0f2cVSzoIWBYRf+2xaIGImB4R4yNifFtbW09WbWY24NW7+uj93az7o8DBkg4A1gU2An4CDJE0OB0NjAIWp/kXA6OBRZIGAxuTPQ/azMyapOaRQkQ8Ve/VWcUR8fWIGBURY4EjgZsj4mjgFt65z2EScE0anp3GSdNvjohYw89lZmZroMwdzT3tdOAUSfPJzhnMSOUzgE1T+SnAtBbEZmY2oJW5o7nbIuJW4NY0vIAqN7+lk9mHNSMe68XWGkx3LzrbbNRoFi98uocCMhtYaiYFSXMiYm9J50bE6c0MygawlSs44qLbu1XF5cfv1kPBmA089Y4URkjajexk8W/JurjIRcTdDY3MzMyarl5S+CZwFtkVQj/qMC3IbkIzM7N+pGZSiIirgKsknRUR325iTGZm1iJlekn9tqSDgT1S0a0RcW1jwzIzs1Yo84zm75N1avdwep0s6XuNDszMzJqvzCWpBwI7VPpBkjQTuAf4RiMDMzOz5it789qQwvDGDYjDzMx6gTJHCt8H7pF0C9llqXvgu43NzPqlMieafyPpVmDnVHR6RDzb0KjMzKwlSnVzERFLyDqsMzOzfqwVHeKZmVkv5aRgZma5uklB0iBJjzYrGDMza626SSEi3gYekzSmSfGYmVkLlTnRPBR4SNJc4LVKYUQc3LCozMysJcokhbMaHoWZmfUKZe5TuE3S5sC4iLhJ0nrAoMaHZmZmzVamQ7wvAFcBF6WikcDvGxiTmZm1SJlLUk8APgq8DBARjwPvaWRQZmbWGmWSwpsR8VZlRNJgsievmZlZP1MmKdwm6RvAuyV9ArgS+ENnC0laV9JcSfdJekjS/03lW0i6U9J8SZdLWieVvyuNz0/Tx3bjc5mZ2RookxSmAe3AA8DxwHXAmSWWexP4eERsD+wA7CdpV+Bc4McRsTXwIjAlzT8FeDGV/zjNZ2ZmTVTm6qOV6cE6d5I1Gz0WEZ02H6V5Xk2ja6dXAB8HPpPKZwJnAxcCE9MwZCe2L5CkMusyM7OeUebqowOBJ4DzgQuA+ZL2L1N56ibjXmAZcGOq56WIWJFmWUR2NRPpfSFAmr4c2LRKnVMlzZM0r729vUwYZmZWUpnmo/OAvSJiQkTsCexF1rzTqYh4OyJ2AEYBuwDbrmmghTqnR8T4iBjf1tbW3erMzKygTFJ4JSLmF8YXAK90ZSUR8RJwC/ARYEi6ggmyZLE4DS8GRkN+hdPGwPNdWY+ZmXVPzaQg6VBJhwLzJF0n6ThJk8iuPLqrs4oltUkakobfDXwCeIQsOXw6zTYJuCYNz07jpOk3+3yCmVlz1TvR/KnC8FJgzzTcDry7RN0jgJmSBpElnysi4lpJDwO/lfQd4B5gRpp/BvArSfOBF4Ajy38MMzPrCTWTQkRM7k7FEXE/sGOV8gVk5xc6lr8BHNaddZqZWfd0ekmqpC2Ak4CxxfnddbaZWf9Tpuvs35M17fwBWNnQaAagkaPH8Myiha0Ow8wMKJcU3oiI8xseyQD1zKKFHHHR7d2q4/Ljd+uhaMxsoCuTFH4i6VvADWRdVwAQEXc3LCozM2uJMknhg8AxZN1TVJqPKt1VmJlZP1ImKRwGbFnsPtvMzPqnMnc0PwgMaXAcZmbWC5Q5UhgCPCrpLlY9p+BLUs3M+pkySeFbDY/CzMx6hTLPU7itGYGYmVnrlbmj+RXeeSbzOmQPy3ktIjZqZGBmZtZ8ZY4UNqwMSxLZE9J2bWRQZmbWGmWuPspF5vfAJxsTjpmZtVKZ5qNDC6NrAeOBNxoWkZmZtUyZq4+Kz1VYATxJ1oRkZmb9TJlzCt16roKZmfUdNZOCpG/WWS4i4tsNiMfMzFqo3pHCa1XK1gemAJsCTgpmZv1MvcdxnlcZlrQhcDIwGfgtcF6t5czMrO+qe05B0ibAKcDRwExgp4h4sRmBmZlZ89W8T0HSD4G7gFeAD0bE2V1JCJJGS7pF0sOSHpJ0cirfRNKNkh5P70NTuSSdL2m+pPsl7dTNz2ZmZl1U7+a1U4HNgDOBZyS9nF6vSHq5RN0rgFMjYjuyO6BPkLQdMA2YExHjgDlpHGB/YFx6TQUuXKNPZGZma6zeOYUu3e1cZfklwJI0/IqkR4CRZPc4TEizzQRuBU5P5bMiIoA7JA2RNCLVY2ZmTdCtH/6yJI0FdgTuBIYXfuifBYan4ZHAwsJii1JZx7qmSponaV57e3vjgjYzG4AanhQkbQD8O/CViFil2SkdFUTVBWuIiOkRMT4ixre1tfVgpGZm1tCkIGltsoRwWUT8LhUvlTQiTR8BLEvli4HRhcVHpTIzM2uShiWF1M32DOCRiPhRYdJsYFIangRcUyg/Nl2FtCuw3OcTzMyaq0yHeGvqo8AxwAOS7k1l3wDOAa6QNAV4Cjg8TbsOOACYD7xOdqOcmZk1UcOSQkT8BVCNyXtXmT+AExoVj5mZda4pVx+ZmVnf4KRgZmY5JwUzM8s5KZiZWc5JwczMck4KZmaWc1IwM7Ock4KZmeWcFMzMLOekYP3PWoOR1K3XyNFjWv0pzFqikX0fmbXGyhUccdHt3ari8uN366FgzPoWHymYmVnOScHMzHJOCmZmlnNSMDOznJOCmZnlnBTMzCznpGBmZjknBTMzyzkpmJlZrmFJQdIlkpZJerBQtomkGyU9nt6HpnJJOl/SfEn3S9qpUXGZldLNrjLcTYb1VY3s5uJS4AJgVqFsGjAnIs6RNC2Nnw7sD4xLrw8DF6b3Xm3k6DE8s2hhq8OwRuhmVxnuJsP6qoYlhYj4s6SxHYonAhPS8EzgVrKkMBGYFREB3CFpiKQREbGkUfH1hGcWLXQfO2bWrzT7nMLwwg/9s8DwNDwSKP7LvSiVrUbSVEnzJM1rb29vXKRmZgNQy040p6OCWIPlpkfE+IgY39bW1oDIzMwGrmYnhaWSRgCk92WpfDEwujDfqFRmZmZN1OykMBuYlIYnAdcUyo9NVyHtCizv7ecTzMz6o4adaJb0G7KTysMkLQK+BZwDXCFpCvAUcHia/TrgAGA+8DowuVFxmZlZbY28+uioGpP2rjJvACc0KhYzMyvHdzSbmVnOScHMzHJOCmZmlnNSMDOznJOCWSN0s0M9d6pnrdLIDvHMBq5udqgH7hfLWmPAHimMHD2m2//JmZn1NwP2SME9nJqZrW7AHimYmdnqnBTMzCznpGBmZjknBTMzyzkpmPVWvtfBWmDAXn1k1uv5XgdrAR8pmJlZzknBzMxyTgpmZpZzUjAzs5yTgll/5iuYrIt89ZFZf+YrmKyLfKRgZvX5aGNA6VVHCpL2A34CDAIujohzWhySmfXE0caX9uh2d/ObjRrN4oVPd6sO61yvSQqSBgE/Az4BLALukjQ7Ih5ubWRm1m1OLKsYOXoMzyxa2K06GvVZek1SAHYB5kfEAgBJvwUmAk4KZtavEktvfp6LIqIhFXeVpE8D+0XE59P4McCHI+LEDvNNBaam0W2AxxoY1jDguQbW31McZ8/rK7E6zp7VV+KE7sW6eUS0VZvQm44USomI6cD0ZqxL0ryIGN+MdXWH4+x5fSVWx9mz+kqc0LhYe9PVR4uB0YXxUanMzMyapDclhbuAcZK2kLQOcCQwu8UxmZkNKL2m+SgiVkg6Ebie7JLUSyLioRaH1ZRmqh7gOHteX4nVcfasvhInNCjWXnOi2czMWq83NR+ZmVmLOSmYmVluQCcFSaMl3SLpYUkPSTq5yjwTJC2XdG96fbMVsaZYnpT0QIpjXpXpknS+pPmS7pe0Uwti3Kawre6V9LKkr3SYp2XbVNIlkpZJerBQtomkGyU9nt6H1lh2UprncUmTWhDnDyU9mr7bqyUNqbFs3f2kCXGeLWlx4fs9oMay+0l6LO2v01oQ5+WFGJ+UdG+NZZu5Pav+JjV1H42IAfsCRgA7peENgb8B23WYZwJwbatjTbE8CQyrM/0A4I+AgF2BO1sc7yDgWbIbZXrFNgX2AHYCHiyU/QCYloanAedWWW4TYEF6H5qGhzY5zn2BwWn43GpxltlPmhDn2cBpJfaNJ4AtgXWA+zr+7TU6zg7TzwO+2Qu2Z9XfpGbuowP6SCEilkTE3Wn4FeARYGRro+qWicCsyNwBDJE0ooXx7A08ERFPtTCGVUTEn4EXOhRPBGam4ZnAIVUW/SRwY0S8EBEvAjcC+zUzzoi4ISJWpNE7yO7laaka27OMvFubiHgLqHRr0xD14lTW78XhwG8atf6y6vwmNW0fHdBJoUjSWGBH4M4qkz8i6T5Jf5T0geZGtooAbpD019TdR0cjgWIvW4tobZI7ktp/aL1lmwIMj4glafhZYHiVeXrbtv0c2VFhNZ3tJ81wYmrmuqRGU0dv2p4fA5ZGxOM1prdke3b4TWraPuqkAEjaAPh34CsR8XKHyXeTNX9sD/wU+H2TwyvaPSJ2AvYHTpC0RwtjqSvdgHgwcGWVyb1pm64isuPwXn2dtqQzgBXAZTVmafV+ciGwFbADsISsaaY3O4r6RwlN3571fpMavY8O+KQgaW2yjX9ZRPyu4/SIeDkiXk3D1wFrSxrW5DArsSxO78uAq8kOwYt6U1ch+wN3R8TSjhN60zZNllaa2dL7sirz9IptK+k44CDg6PTjsJoS+0lDRcTSiHg7IlYCv6ix/t6yPQcDhwKX15qn2duzxm9S0/bRAZ0UUlviDOCRiPhRjXnem+ZD0i5k2+z55kWZx7G+pA0rw2QnHR/sMNts4FhldgWWFw45m63mf1+9ZZsWzAYqV2pMAq6pMs/1wL6ShqbmkH1TWdMoewjV14CDI+L1GvOU2U8aqsN5rP9TY/29pVubfYBHI2JRtYnN3p51fpOat48244x6b30Bu5Mdht0P3JteBwBfBL6Y5jkReIjs6og7gN1aFOuWKYb7UjxnpPJirCJ7UNETwAPA+BbFuj7Zj/zGhbJesU3JEtUS4O9kba5TgE2BOcDjwE3AJmne8WRPAKws+zlgfnpNbkGc88najCv76s/TvJsB19XbT5oc56/S/nc/2Y/ZiI5xpvEDyK6ueaIVcabySyv7ZWHeVm7PWr9JTdtH3c2FmZnlBnTzkZmZrcpJwczMck4KZmaWc1IwM7Ock4KZmeWcFKxPkRSSziuMnybp7B6q+1JJn+6JujpZz2GSHpF0S4fysenznVQouyDdsFa27rHFnkDNuspJwfqaN4FDW3wH9GrSnbFlTQG+EBF7VZm2DDg53dBl1nROCtbXrCB7Nu0/dpzQ8T99Sa+m9wmSbpN0jaQFks6RdLSkuamf/K0K1ewjaZ6kv0k6KC0/SNmzDO5KnbwdX6j3PyTNBh6uEs9Rqf4HJZ2byr5JdoPSDEk/rPL52sluUlqtL3xJO0i6Q+88T2FoKv9Q6lzwPuCEwvy14h4h6c/Kng/woKSP1d/kNpA4KVhf9DPgaEkbd2GZ7cnuqn4/cAzwvojYBbgYOKkw31iyvm0OBH4uaV2y/+yXR8TOwM7AFyRtkebfCTg5It5XXJmkzcieefBxso7hdpZ0SET8EzCPrO+ir9aI9VzgNEmDOpTPAk6PiP9Ndsfwt1L5L4GTIutgsKhW3J8Bro+IHdJ2ubdGHDYAOSlYnxNZr5GzgC93YbG7Iuur/k2ybhVuSOUPkCWCiisiYmVk3SgvALYl60PmWGVP5rqTrMuBcWn+uRHxX1XWtzNwa0S0R/YMhMvIHvRS5vMtSOv5TKUsJcAhEXFbKpoJ7KHs6WtDInteAGRdTFTUivsuYHI6F/PByPrtNwOgK+2gZr3Jv5B1wf3LQtkK0j86ktYie6JXxZuF4ZWF8ZWs+nfQsd+XIOtT6qSIWKVzMUkTgNfWJPgSvgdcBdzW2Yx1VI0bQFn3zwcCl0r6UUTM6sZ6rB/xkYL1SRHxAnAFWRNJxZPAh9LwwcDaa1D1YZLWSucZtgQeI+tp8kupS2MkvS/1mFnPXGBPScNSM9BRdOEHPiIeJTtP8ak0vhx4sdD+fwxwW0S8BLwkafdUfnShmqpxS9qc7KEyvyBrPmv6s7yt9/KRgvVl55H1uFrxC+CadML1T6zZf/FPk/2gb0TWe+Ybki4ma2K6O3Vt3E71xyHmImKJsofR30L2H/v/i4hq3R3X813gnsL4JLLzHOuRNW1NTuWTgUskBe80i0H2g18t7gnAVyX9HXgVOLaLcVk/5l5Szcws5+YjMzPLOSmYmVnOScHMzHJOCmZmlnNSMDOznJOCmZnlnBTMzCz3PxRJNgdUmBwgAAAAAElFTkSuQmCC\n", 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\n", 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" ] @@ -520,20 +5751,21 @@ } ], "source": [ - "sns.histplot(basic_stats['n_nodes'],binwidth=1)\n", - "plt.title('Distribution of nodes per record')\n", + "sns.histplot(basic_stats['n_nodes'],bins=20)\n", + "plt.xlim(2, 20)\n", + "plt.title('Distribution of nodes per indications')\n", "plt.xlabel('Number of Nodes')\n", - "plt.ylabel('Number of Records');" + "plt.ylabel('Number of indications');" ] }, { "cell_type": "code", - "execution_count": 10, + "execution_count": 15, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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\n", 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" ] @@ -546,19 +5778,41 @@ ], "source": [ "sns.histplot(basic_stats['n_edges'],binwidth=1)\n", - "plt.title('Distribution of edges per record')\n", + "plt.title('Distribution of edges per indication')\n", "plt.xlabel('Number of Edges')\n", - "plt.ylabel('Number of Records');" + "plt.ylabel('Number of indications');" ] }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 16, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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\n", 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" ] @@ -570,653 +5824,145 @@ } ], "source": [ - "sns.histplot(basic_stats['n_paths'],binwidth=1)\n", - "plt.title('Distribution of paths per record')\n", + "g = sns.histplot(basic_stats['n_paths'],bins=10)\n", + "g.set_yscale('log')\n", + "plt.title('Distribution of paths per indication')\n", "plt.xlabel('Number of Paths')\n", + "plt.ylabel('Number of indications');" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": { + "needs_background": "light" + }, + "output_type": "display_data" + } + ], + "source": [ + "sns.histplot(basic_stats['longest_path'],binwidth=1)\n", + "plt.title('Distribution of longest path per record')\n", + "plt.xlabel('Length of longest path')\n", "plt.ylabel('Number of Records');" ] }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "#### Metanode parings" + ] + }, { "cell_type": "code", - "execution_count": 12, + "execution_count": 19, "metadata": {}, "outputs": [ { "data": { - "text/html": [ - "
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idxiddrugdiseasen_nodesn_edgesn_pathslongest_pathshortest_pathmetapathmetapath_with_edges
724724DB05219_MESH_D003876_1DB:DB05219MESH:D00387614254066Drug - Protein - Protein - Protein - Protein -...Drug - negatively regulates - Drug - negativel...
24422442DB00806_MESH_D016491_1DB:DB00806MESH:D01649119262499Drug - Protein - ChemicalSubstance - Biologica...Drug - decreases activity of - Drug - decrease...
\n", - "
" - ], "text/plain": [ - " idx id drug disease n_nodes \\\n", - "724 724 DB05219_MESH_D003876_1 DB:DB05219 MESH:D003876 14 \n", - "2442 2442 DB00806_MESH_D016491_1 DB:DB00806 MESH:D016491 19 \n", - "\n", - " n_edges n_paths longest_path shortest_path \\\n", - "724 25 40 6 6 \n", - "2442 26 24 9 9 \n", - "\n", - " metapath \\\n", - "724 Drug - Protein - Protein - Protein - Protein -... \n", - "2442 Drug - Protein - ChemicalSubstance - Biologica... \n", - "\n", - " metapath_with_edges \n", - "724 Drug - negatively regulates - Drug - negativel... \n", - "2442 Drug - decreases activity of - Drug - decrease... " + "Drug - Protein 3650\n", + "Protein - BiologicalProcess 2548\n", + "BiologicalProcess - Disease 1862\n", + "BiologicalProcess - BiologicalProcess 1805\n", + "PhenotypicFeature - Disease 960\n", + " ... \n", + "Cell - OrganismTaxon 1\n", + "Disease - GeneFamily 1\n", + "PhenotypicFeature - Protein 1\n", + "OrganismTaxon - ChemicalSubstance 1\n", + "MacromolecularComplex - GeneFamily 1\n", + "Length: 140, dtype: int64" ] }, - "execution_count": 12, + "execution_count": 19, "metadata": {}, "output_type": "execute_result" } ], "source": [ - "basic_stats.query('n_paths > 20')" + "pair_counts = pd.Series(all_parings).value_counts()\n", + "pair_counts" ] }, { "cell_type": "code", - "execution_count": 13, + "execution_count": 20, "metadata": {}, "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "/home/asu/env/DMDB_analysis/lib/python3.8/site-packages/IPython/core/pylabtools.py:134: UserWarning: This figure includes Axes that are not compatible with tight_layout, so results might be incorrect.\n", - " fig.canvas.print_figure(bytes_io, **kw)\n" - ] - }, { "data": { - "image/png": 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" ] }, - "metadata": {}, + "metadata": { + "needs_background": "light" + }, "output_type": "display_data" } ], "source": [ - "f = plot_path(ind[724])\n", - "f.set_size_inches(40, 30)" + "pair_counts = pd.Series(all_parings).value_counts()\n", + "count_plot_h(pair_counts.head(10))\n", + "plt.title('Most common Metanode Pairings in DrugMechDB')\n", + "plt.xlabel('Number of times metanode pairing appears');" ] }, { "cell_type": "code", - "execution_count": 14, - "metadata": {}, + "execution_count": 21, + "metadata": { + "scrolled": true + }, "outputs": [ { "data": { - "text/html": [ - "
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idxiddrugdiseasen_nodesn_edgesn_pathslongest_pathshortest_pathmetapathmetapath_with_edges
397397DB08896_MESH_D006528_1DB:DB08896MESH:D00652811161255Disease - Protein - Protein - Protein - Protei...Disease - decreases activity of - Disease - de...
517517DB00799_MESH_D000152_1DB:DB00799MESH:D00015213312055Drug - Protein - Protein - Protein - Protein -...Drug - increases activity of - Drug - increase...
518518DB00799_MESH_D011565_1DB:DB00799MESH:D01156510201255Drug - Protein - Protein - Protein - Protein -...Drug - increases activity of - Drug - increase...
724724DB05219_MESH_D003876_1DB:DB05219MESH:D00387614254066Drug - Protein - Protein - Protein - Protein -...Drug - negatively regulates - Drug - negativel...
733733DB12323_MESH_D015464_1DB:DB12323MESH:D01546410171255Drug - Protein - Protein - GeneFamily - Molecu...Drug - decreases activity of - Drug - decrease...
12041204DB11348_MESH_D010024_1DB:DB11348MESH:D0100241723141111Drug - ChemicalSubstance - GeneFamily - Protei...Drug - derives into - Drug - derives into - Ch...
12051205DB11348_MESH_D006996_1DB:DB11348MESH:D0069961723141111Drug - ChemicalSubstance - GeneFamily - Protei...Drug - derives into - Drug - derives into - Ch...
12061206DB11348_MESH_D015663_1DB:DB11348MESH:D0156631723141111Drug - ChemicalSubstance - GeneFamily - Protei...Drug - derives into - Drug - derives into - Ch...
12531253DB00484_MESH_D012393_1DB:DB00484MESH:D01239311161277Drug - Protein - Protein - Protein - Pathway -...Drug - increases activity of - Drug - increase...
12721272DB00484_MESH_D005902_2DB:DB00484MESH:D00590212171288Drug - Protein - Protein - Protein - Pathway -...Drug - increases activity of - Drug - increase...
12741274DB00484_MESH_D009798_2DB:DB00484MESH:D00979811161277Drug - Protein - Protein - Protein - Pathway -...Drug - increases activity of - Drug - increase...
13551355DB08922_MESH_D012559_1DB:DB08922MESH:D01255918251477Drug - Protein - Protein - Protein - Biologica...Drug - increases activity of - Drug - decrease...
14061406DB01014_MESH_D003093_1DB:DB01014MESH:D00309316211277Drug - ChemicalSubstance - Protein - Protein -...Drug - has metabolite - ChemicalSubstance - de...
14071407DB01224_MESH_D012559_1DB:DB01224MESH:D01255914191277Drug - Protein - Protein - BiologicalProcess -...Drug - decreases activity of - Drug - decrease...
17421742DB01545_MESH_D003866_1DB:DB01545MESH:D00386611161255Drug - Protein - Protein - Protein - Protein -...Drug - positively regulates - Drug - positivel...
18641864DB05676_MESH_D015535_1DB:DB05676MESH:D01553513181677Drug - Protein - Protein - Protein - Protein -...Drug - negatively regulates - Drug - negativel...
20062006DB02546_MESH_D016410_1DB:DB02546MESH:D01641010141255Drug - Protein - Protein - Protein - Protein -...Drug - decreases activity of - Drug - decrease...
21562156DB00240_MESH_D008179_1DB:DB00240MESH:D00817914191588Drug - GeneFamily - ChemicalSubstance - Protei...Drug - positively regulates - Drug - negativel...
21622162DB00398_MESH_D002292_1DB:DB00398MESH:D00229216252066Drug - GeneFamily - Protein - Protein - Protei...Drug - decreases activity of - GeneFamily - po...
21632163DB00398_MESH_D006528_1DB:DB00398MESH:D00652816252066Drug - GeneFamily - Protein - Protein - Protei...Drug - decreases activity of - GeneFamily - po...
23432343DB01268_MESH_D046152_2DB:DB01268MESH:D04615213271655Drug - Protein - Protein - Protein - Protein -...Drug - decreases activity of - Drug - decrease...
23442344DB01268_MESH_D002292_2DB:DB01268MESH:D00229213271655Drug - Protein - Protein - Protein - Protein -...Drug - decreases activity of - Drug - decrease...
24422442DB00806_MESH_D016491_1DB:DB00806MESH:D01649119262499Drug - Protein - ChemicalSubstance - Biologica...Drug - decreases activity of - Drug - decrease...
30163016DB00370_MESH_D003865_1DB:DB00370MESH:D00386510141255Drug - Protein - Protein - Protein - Protein -...Drug - decreases activity of - Drug - decrease...
\n", - "
" - ], "text/plain": [ - " idx id drug disease n_nodes \\\n", - "397 397 DB08896_MESH_D006528_1 DB:DB08896 MESH:D006528 11 \n", - "517 517 DB00799_MESH_D000152_1 DB:DB00799 MESH:D000152 13 \n", - "518 518 DB00799_MESH_D011565_1 DB:DB00799 MESH:D011565 10 \n", - "724 724 DB05219_MESH_D003876_1 DB:DB05219 MESH:D003876 14 \n", - "733 733 DB12323_MESH_D015464_1 DB:DB12323 MESH:D015464 10 \n", - "1204 1204 DB11348_MESH_D010024_1 DB:DB11348 MESH:D010024 17 \n", - "1205 1205 DB11348_MESH_D006996_1 DB:DB11348 MESH:D006996 17 \n", - "1206 1206 DB11348_MESH_D015663_1 DB:DB11348 MESH:D015663 17 \n", - "1253 1253 DB00484_MESH_D012393_1 DB:DB00484 MESH:D012393 11 \n", - "1272 1272 DB00484_MESH_D005902_2 DB:DB00484 MESH:D005902 12 \n", - "1274 1274 DB00484_MESH_D009798_2 DB:DB00484 MESH:D009798 11 \n", - "1355 1355 DB08922_MESH_D012559_1 DB:DB08922 MESH:D012559 18 \n", - "1406 1406 DB01014_MESH_D003093_1 DB:DB01014 MESH:D003093 16 \n", - "1407 1407 DB01224_MESH_D012559_1 DB:DB01224 MESH:D012559 14 \n", - "1742 1742 DB01545_MESH_D003866_1 DB:DB01545 MESH:D003866 11 \n", - "1864 1864 DB05676_MESH_D015535_1 DB:DB05676 MESH:D015535 13 \n", - "2006 2006 DB02546_MESH_D016410_1 DB:DB02546 MESH:D016410 10 \n", - "2156 2156 DB00240_MESH_D008179_1 DB:DB00240 MESH:D008179 14 \n", - "2162 2162 DB00398_MESH_D002292_1 DB:DB00398 MESH:D002292 16 \n", - "2163 2163 DB00398_MESH_D006528_1 DB:DB00398 MESH:D006528 16 \n", - "2343 2343 DB01268_MESH_D046152_2 DB:DB01268 MESH:D046152 13 \n", - "2344 2344 DB01268_MESH_D002292_2 DB:DB01268 MESH:D002292 13 \n", - "2442 2442 DB00806_MESH_D016491_1 DB:DB00806 MESH:D016491 19 \n", - "3016 3016 DB00370_MESH_D003865_1 DB:DB00370 MESH:D003865 10 \n", - "\n", - " n_edges n_paths longest_path shortest_path \\\n", - "397 16 12 5 5 \n", - "517 31 20 5 5 \n", - "518 20 12 5 5 \n", - "724 25 40 6 6 \n", - "733 17 12 5 5 \n", - "1204 23 14 11 11 \n", - "1205 23 14 11 11 \n", - "1206 23 14 11 11 \n", - "1253 16 12 7 7 \n", - "1272 17 12 8 8 \n", - "1274 16 12 7 7 \n", - "1355 25 14 7 7 \n", - "1406 21 12 7 7 \n", - "1407 19 12 7 7 \n", - "1742 16 12 5 5 \n", - "1864 18 16 7 7 \n", - "2006 14 12 5 5 \n", - "2156 19 15 8 8 \n", - "2162 25 20 6 6 \n", - "2163 25 20 6 6 \n", - "2343 27 16 5 5 \n", - "2344 27 16 5 5 \n", - "2442 26 24 9 9 \n", - "3016 14 12 5 5 \n", - "\n", - " metapath \\\n", - "397 Disease - Protein - Protein - Protein - Protei... \n", - "517 Drug - Protein - Protein - Protein - Protein -... \n", - "518 Drug - Protein - Protein - Protein - Protein -... \n", - "724 Drug - Protein - Protein - Protein - Protein -... \n", - "733 Drug - Protein - Protein - GeneFamily - Molecu... \n", - "1204 Drug - ChemicalSubstance - GeneFamily - Protei... \n", - "1205 Drug - ChemicalSubstance - GeneFamily - Protei... \n", - "1206 Drug - ChemicalSubstance - GeneFamily - Protei... \n", - "1253 Drug - Protein - Protein - Protein - Pathway -... \n", - "1272 Drug - Protein - Protein - Protein - Pathway -... \n", - "1274 Drug - Protein - Protein - Protein - Pathway -... \n", - "1355 Drug - Protein - Protein - Protein - Biologica... \n", - "1406 Drug - ChemicalSubstance - Protein - Protein -... \n", - "1407 Drug - Protein - Protein - BiologicalProcess -... \n", - "1742 Drug - Protein - Protein - Protein - Protein -... \n", - "1864 Drug - Protein - Protein - Protein - Protein -... \n", - "2006 Drug - Protein - Protein - Protein - Protein -... \n", - "2156 Drug - GeneFamily - ChemicalSubstance - Protei... \n", - "2162 Drug - GeneFamily - Protein - Protein - Protei... \n", - "2163 Drug - GeneFamily - Protein - Protein - Protei... \n", - "2343 Drug - Protein - Protein - Protein - Protein -... \n", - "2344 Drug - Protein - Protein - Protein - Protein -... \n", - "2442 Drug - Protein - ChemicalSubstance - Biologica... \n", - "3016 Drug - Protein - Protein - Protein - Protein -... \n", - "\n", - " metapath_with_edges \n", - "397 Disease - decreases activity of - Disease - de... \n", - "517 Drug - increases activity of - Drug - increase... \n", - "518 Drug - increases activity of - Drug - increase... \n", - "724 Drug - negatively regulates - Drug - negativel... \n", - "733 Drug - decreases activity of - Drug - decrease... \n", - "1204 Drug - derives into - Drug - derives into - Ch... \n", - "1205 Drug - derives into - Drug - derives into - Ch... \n", - "1206 Drug - derives into - Drug - derives into - Ch... \n", - "1253 Drug - increases activity of - Drug - increase... \n", - "1272 Drug - increases activity of - Drug - increase... \n", - "1274 Drug - increases activity of - Drug - increase... \n", - "1355 Drug - increases activity of - Drug - decrease... \n", - "1406 Drug - has metabolite - ChemicalSubstance - de... \n", - "1407 Drug - decreases activity of - Drug - decrease... \n", - "1742 Drug - positively regulates - Drug - positivel... \n", - "1864 Drug - negatively regulates - Drug - negativel... \n", - "2006 Drug - decreases activity of - Drug - decrease... \n", - "2156 Drug - positively regulates - Drug - negativel... \n", - "2162 Drug - decreases activity of - GeneFamily - po... \n", - "2163 Drug - decreases activity of - GeneFamily - po... \n", - "2343 Drug - decreases activity of - Drug - decrease... \n", - "2344 Drug - decreases activity of - Drug - decrease... \n", - "2442 Drug - decreases activity of - Drug - decrease... \n", - "3016 Drug - decreases activity of - Drug - decrease... " + "Drug - Protein 3650\n", + "Protein - BiologicalProcess 2548\n", + "BiologicalProcess - Disease 1862\n", + "BiologicalProcess - BiologicalProcess 1805\n", + "PhenotypicFeature - Disease 960\n", + " ... \n", + "Cell - OrganismTaxon 1\n", + "Disease - GeneFamily 1\n", + "PhenotypicFeature - Protein 1\n", + "OrganismTaxon - ChemicalSubstance 1\n", + "MacromolecularComplex - GeneFamily 1\n", + "Length: 140, dtype: int64" ] }, - "execution_count": 14, + "execution_count": 21, "metadata": {}, "output_type": "execute_result" } ], "source": [ - "basic_stats.query('n_paths > 10')" + "pd.Series(all_parings).value_counts()" ] }, { "cell_type": "code", - "execution_count": 15, + "execution_count": 29, "metadata": {}, "outputs": [ - { - "name": "stderr", - "output_type": "stream", - "text": [ - "/home/asu/env/DMDB_analysis/lib/python3.8/site-packages/IPython/core/pylabtools.py:134: UserWarning: This figure includes Axes that are not compatible with tight_layout, so results might be incorrect.\n", - " fig.canvas.print_figure(bytes_io, **kw)\n" - ] - }, { "data": { - "image/png": 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Bxo8f71vnxIkTfPjhh4wendvt3GazXbXzEpELMwyDWQdnMXTLUNxG7nctVpOVN+u8SdtKbfXzQURERERERERE5C+ocFpERESumPiseJ5c8CTJzmQAKkdXZnKzyYTYQvycTEREJC/DMHDvO4Vz0W8452zBcyoJU6ANw5ENbu/lP2CANXf/The26qUJerw+QU1vx1Ii/+U/lohc92IzY3nop4d8FyOOuW8M95S4x8+p5FqSnp6OyWRi9erVtG7dmjfffJN58+bx008/MWLECOrVq8czzzwDgNPpJCgoKM/2WVlZPPjggwwYMIAHHngAgJ07d9KzZ0+qVKnCF198kafQWkT879f4X+m9prfvOxeAx295nLfrvk2AJcCPyURERERERERERK5tKpwWERGRK8LhdvDc4ufYn7wfgKjAKGa0nEGxsGJ+TiYiIvJf7sNxZE1cjnPeVnDmYLjd4PJc/SDBAeD1YikcSfBTDQl+thGWghFXP4eIXLOGbB7C9APTAagSXYUZLWdgNpn9nEquNX379qVKlSp07NiRH374gb59+3L33XfTr18/SpYsyc6dOzly5AjNmzcnKioKAK/Xi9lsZuvWrUyaNIlPP/2UtWvX8vbbb/P444/z9ttv07lzZ6pWrcprr73m5zMUkT+Kz4qnx8oevu9eIPfOBMMbD6dgSEE/JhMREREREREREbl26bcrIiIictkZhsGADQN8v7izmqwMbzxcRdMiInJNMHLcOOf/StKD75P0wEAc363BSM7EsGf7p2gawOGCbDeek0lkjlpIYu3XSXluFK7Nh9D1ziIC0KV6F4IsuV2C9yfvZ/mJ5X5OJNeiKlWqMHz4cDZu3IjL5aJ69erUrFmTChUq8O677/LUU09hMpkwmUy+bcxmM16vlzvvvJOPP/6YOXPm8Oqrr9KzZ0/efvttUlJSCAgIoFmzZnmOpZ9PIv5XJLQIU5pP4aFyD/nmdiTu4KkFT7E7cbcfk4mIiIiIiIiIiFy7VDgtIiIil92kPZNYfGyxb/xW3beoXaS2HxOJiIiAYc8mc8QCEm7rSdprk3DvPA7OHHB7/R0tL2cOZLvJXraTlHafkVSnL47ZmzC811hOEbmqCgQXoF2Vdr7xmB1j8Hj9dLGHXLM6duxIz549+fjjjxk5ciT33Xcfr776KrNmzeLkyZMEBgZy6NAhIiMj82xnNud+TZwvXz48Hg8jR47k2WefxTAMOnToAEDlypUBSEhIAMhTfC0i/hNkDeLDhh/Sp3Yf350IEhwJdFzSkblH5vo5nYiIiIiIiIiIyLXHZKg1iIiIiFxGv5z+hW4rumGQ+xajTcU29K/f38+pRETkZmbkuLFPW0vmkB/B5cZwuPwd6R8zhQRiLhRB+AdPE3BvNRWridykUp2pNJvdjKycLACGNBzCw+Uf9nMquRaNGzcOm81Gp06dGDFiBL/99hsdOnQgX758fPXVV3z22WeEhob6CqYv5rvvvmPfvn289957xMXF8f333/Pdd98xffp0XyG1iFw7NsRu4PU1r5PuSvfNta/Snt61e2Mz2/yYTERERERERERE5NqhwmkRERG5bGLSYmi/sD2ZOZkA1CpUiwlNJ2Cz6JdzIiJy9RmGQfaCbaT3m4aR4cCwZ/s70qULCcR6SxHCP3yWgFrl/J1GRPzgix1fMHbnWABKhJVg3qPzVAwnF7Vo0SIWLlzII488wh133EH+/PlJT08nKCgIl8tFWFgYHo8Hi8Vywe2feuopwsPDOXHiBGXKlCEnJ4fu3btTo0YNX9G11+v9ywJsEbl6TqWfoseqHhxJPeKbq1OkDp80+oSooCg/JhMREREREREREbk26BttERERuSzSXem8uvJVX9F00dCiDG88XEXTIiLiF564FJIf/5i0VyfiPZt6YxRNA9izce88kXtub35745yXiPxtHap2ICIwAoDTmaf56fBPfk4k17L169fjdDpp2rQp+fPnZ/v27dx77718+umnPProoyQlJWGxWPB6vedtaxgGhw8f5sCBAzzxxBOMGDGCSZMmERcXx/jx4xkwYACxsbGYzWY8Ho8fzk5ELqRkeEmmtpjK/aXu981tid9Cu4XtOJh80I/JRERERERERERErg3qOC0iIiKXzOP18MrKV1h/Zj0AQZYgvm3xLZWjdetmERG5ugzDwDFrPRlvT8XIdoP7Bi7kCrJhjgglcnxXAupW9HcaEbmKJu2ZxGfbPgOgUEghFj22iEBLoJ9TybXo4MGDtGvXjvXr17Nq1So6deqE3W5n7dq17N69m4kTJ7Jy5crztvu9C7XT6cRutxMdHQ1A586dWbRoER07dqRixYp8+eWXrFq1isBA/fkTudZ4DS/jd41nzI4xvrkgSxCD7hpEs7LN/JhMRERERERERETEv9RxWkRERC7ZyO0jfUXTAIMaDlLRtIiIXHWehDSSH/+Y9LemYmRl39hF0wDOHLxnU0l+8tPc7tPZOf5OJCJXyVOVniJ/UH4AEuwJzDo4y8+J5FpVqVIlFi9ejNVq5euvv+aLL77gl19+oUuXLtx9993UqlWLtLS087azWCwABAUF+YqmFy9ejMPh4JtvvmHJkiU899xzPPzww8ydO9e3ncPhuDonJiJ/yWwy07VGV0Y1GUWoLRQAp8fJ67+8zohtI/B4b/D3yiIiIiIiIiIiIhehwmkRERG5JAtiFvD1nq99487VOtOsjDoXiYjI1ZWz8zhJjd4lZ8thsGf7O87V5czBMWM955oPwpNwfvGbiNx4QmwhdK7e2TeesHsC9hy7HxPJtaxw4cIYhoHVaqVkyZLUqFGD9u3bU7t2bbZt20ZAQECe9b1e7wX3k5KSQoECBXjggQd4+eWXqV27NlOnTqVAgQIAxMTEMGTIEHbs2HGlT0lE/oEmpZowrcU0SoeX9s1N3DORbiu7ke5K92MyERERERERERER/1DhtIiIiPxre5P2MnDDQN+4cYnGdKvZzX+BRETkpuT4aRPnWg/FSMkE94WLvW54ThfuQ3G5xeM7j/s7jYhcBW0qtqFoaFEAkp3JTDswzc+J5FoWEBBAjRo16NevHwDdu3dnzJgxzJkzh61bt7JkyRKWLVsGgNl84a+MAwMD+e233wB48cUX6dChA02bNuXee+/lwIEDjB49mt27dxMREXF1TkpE/rZykeWY9tA0GhZv6Jtbd2YdTy98mpjUGD8mExERERERERERufpMhmEY/g4hIiIi158kRxJPLniSBHsCAOUiyjG1xVTCAsL8nExERG4WhtdLxvuzsE9eDQ6Xv+NcO4IDiBjekeBH6/k7iYhcYbMPz2bAhgEA5AvIx5LHlxAeEO7nVHIt69y5MzabjQ8//JCIiAg6d+7M+vXreeyxx/jmm2+YPn06d999N8OGDePVV189rxt1z5492bdvH2PHjqV8+fKkpqZy8OBBRo8eTYkSJRgwYADBwcG43W6sVqufzlJELsbj9TB6+2gm7pnomwu1hfJhww9pUqqJH5OJiIiIiIiIiIhcPSqcFhERkX/M5XHxwtIX2Jm4E8gt0pj+0PQ8t30VERG5kgy3h9QuY8letUdF0xcSHEDY648Q9p/m/k4iIldQjjeH1nNaczLjJABdqnehe83ufk4l17pNmzZRr149XnrpJQ4fPszKlSsB2LBhA8uXL+e3337jl19+4ejRo0RFRQHg9Xp9nag/+OADOnbsSMGCBVm1ahUTJ07ktttuo3///nTq1IkePXpQo0YNv52fiPy1JceX0H99fxxuh2/uldtfoUv1LphNulGpiIiIiIiIiIjc2PQNmIiIiPwjhmHwweYPfEXTZpOZT+75REXTIiJy1RguNynPjVLR9J9xuMgcNpfMT+f5O4mIXEE2s43/3P4f3/i7fd+R7Ez2YyK5HtSrl3tHAsMwmDjxv11nk5KS+OSTT/B6vSQnJxMVFYXX6wXAbDbj8XgAeOeddyhevDjffvst48aNo2HDhvTv35/Dhw/jdDqpUqXK1T8pEflHmpVpxrfNv6VYaDHf3JgdY+i9ujf2HLsfk4mIiIiIiIiIiFx5KpwWERGRf2TagWnMPjzbN+51Ry8aFG/gx0QiInIzMdweUp7/HNf6A5etaPqoO425zhgOu1MvaT+p3mwWOI+zwRXH1bi502F3KnOdMRx1p523zGN4WZN6jJkffU7c0FlXPIuI+E/zss2pEFkBALvbzqTdk/ycSK4H6enpbNy4kV27dgFw+PBhunXrRocOHZg3L/eiG7fb7esyDWCxWHyPHQ4Hq1atom3btvTo0QOA4cOHU6lSpTzrAb7iaxG5tlSKrsSMljOoU6SOb275yeW0X9SeU+mn/JhMRERERERERETkyjIZV+O3uSIiInJD2BS3ia4/d8Vj5HYaa1W+FYPvGozJZPJzMhERuRkYXi+pncfS94cvmZK+zzcfZQ6kmjU/r4XVoKat4J/uY7PrLN86DhJtDuTNsFoEYKHGuZnc/3grlv+0gB1RbbD9y9uTv5S6iowGZTl8+DCjs6pRL6DIv9rP3+EyPNye8j0PPPowK36cz878bbH8Ifdi5wkG5z9O0aJFKb8rhS8++YzQLk2vWB4R8a8VJ1fQc1VPAAItgSx6bBGFQgr5N5Rc81avXs28efM4duwYq1evplevXrz77rsA5OTkYLPZfOsahuH73OfxeLBYLGRmZhIWFgbA1KlTWbJkCZMnT+bUqVNs376dBQsWMGHChKt/YiLyj+R4cxj+63C+2/+dby48IJxhjYbRoJgulBcRERERERERkRuPOk6LiIjI33Iq4xR91vTxFU1XK1CN/vX7q2haRESumoyhP5G9ajdLMo+x88BeUh2ZpDoy2XL8AE+NHcizOWvZm5P8p/sYnrWDqq8/za5q+fglOxY3XrKsBjNnziQ7wITr/3/O/RuJXif9+/enbt26JHmd/3o/f4fL8JITaGHmzJlkWDy4yXtNdJLXyX333UevXr1IdGWSMWQ22ct3XdFMIuI/95a8l1vz3wpAtieb8bvG+zmRXA8aN27MI488wty5c5k0aZKvaNrj8fiKpg8cOACQ53Pf7x2lXa7/3vlh06ZNlCpVinbt2jFw4EDmzJlDnTr/7WIrItcum9lG3zp9GXTXIALMAQCku9J5efnLTN47+arcSUVERERERERERORqsvo7gIiIiFz7snKy6LGyB2nZaQAUDC7IiCYjCLQE+jmZiIjcLBzzt2L/6mdw5BZpBQQE0K5dO+bOnUvZsmWZM2cObw14l0n9vuST8Lv43nmU7xwHOeJOo7gllMeDylM/oAi/uGJ5/7772L9/P+//upQJ9n1k52QTGBiIy+VijTWWcfY9bM1JoJQljCyvm/LWCN4Iq8ldAUVxG16+cRxghuMwsZ4syljy8VxIZdoGVSDDcNG0aVM8Hg8vRrYgzZvNV/Z9zHMe46zXQTFLCM0DS9MztAYBJovv3Da44plo38fOnCTshpsK1gheDKnKw4FlMJlMxLjT+NK+lxXZp8kycqhgjeCZ4EpkZmb6cgdg5pfsWIZn7eCgO4VUw0Vnbv3vE+h0kdplLPmXvIu1YrGr/fKJyBVmMpnoXrM7XZd3BeDHQz/S8daOlMhXws/J5FrXqFEjYmNjKVKkiK848vci6TNnzjBu3Di6dOlC1apV82yXnZ1Nv379qFKlCqdOnWLKlCk8/PDDVKtWjR49egAQHh5+dU9GRC5J6wqtKR9Rnp6repLgSMBrePnk1084kHyAAfUHEGQN8ndEERERERERERGRy0Idp0VERORPeQ0v76x7hyOpR4DcTkQjmozQrb9FROSqydlzkrQeE31F078zDIOvwhtTO9bMnDlzqFWrFsc8GbybsZlvKzoYOOdr9sedYPwvC1h9RwjNkufTrVs3atWqxZAhQ5i2bhl3vNyWgIAA1qxZQ3BwMOPse+gw/F06derEhMWz2RN7jL4zvqAzmzngTqFv+gZW3RnK2JVzOHj2FEMXTuW7ik4+ydpBhCmAESNG0KhRIw65U3kkeRHn2tzO9M0rOHL2NN9tWs6K8gbrXfF5zqN9yjJajXyLXw7vYs/pGN6fN5nhReKY5jjMAXcKLbOWUv7Np1l9cAcH4k7y4aJpvO3+jZCQENasWYPNZmO56zSvBu2kz7TPORB3kp9//plSpUrlfb4cLpLbfII3NeuKv2YicvU1KNaAWoVqAeA23IzbOc7PieR68XvR9O8F02Zz7lfGX3/9NS6Xi7Jly+JwOADwer0ABAYG0rZtW86cOYPFYmHnzp1MmjSJfv36ER4erqJpketUtYLVmNFyBjUK1vDNLYhZQIfFHYjLjPNjMhERERERERERkctHhdMiIiLyp8btHMeKkyt84wH1B1C9YHU/JhIRkZuJNymd5Cc/Pa9o+nd90tezyBrPfffdx969e3EabhZGpLBkyRImTpxIyZIl6du3L7NmzaJYsWJ89dVX7Nq1i8GDB9O0aVO+/PJLTCYT9erVw2w24za8VKlShddff53evXtTuXJlQkNDef311+mbvpFVUZnMmTOHkSNHUrJkSebNm8f8+fOZyFFivVlUrVqV6OhoJjsOUqttcwYPHky3bt0oUqQI7dq1Iy0tDSumPOcQaQ5k7ty5VK9enbJly7Jo0SKmT5/Op1nbGZr5G4M//ZgmTZrwwAMPUKxYMfr374/X68VsNlOvXj1MJhODM37lyy+/JDU1lbJly9K3b186d+6c98kyDLwpGaQ8OxLD471SL5mI+MnvXad/Nz9mPjFpMX5MJNeT34umf///iBEjWLBgAR9//DFr1qyhS5cuHDlyxFdUDdC4cWOGDh3Khx9+SJkyZbDZbAC+ztUicn0qGFKQSQ9O4vFbHvfN7U/ez1MLn2Lb2W1+TCYiIiIiIiIiInJ5qHBaRERELurnEz8zdudY3/jZqs/ySIVH/JhIRERuJoZhkNpjIka6/YLLJ06cyJ5TMZw7dw6n08lbb71FCUsYbdq0YcuWLaxdu5aoqCgOHjzIxo0badasGdnZ2bjdbux2O4NNNdgR/vgF9z1u3DjqHvXQx1uZ7777jpo1a7Il5yyPPfYYmzdvZt/clWzO15ofxk4iJSWF+x58gGOeDN/2v+Uk0qlTJz766CMq7UzleIFnGXGuEr1SSlE/oEieY90fWIJly5ZRq1YtHnvsMdLS0qhevTpZYVZWGfE8++yzvPrqq/RKLsmxAs/wn/2hjAism2cfcSEeWrVqxZtvvsm84AcosTeZqVOnnn9iLg85e0+SNW7pP3w1ROR6ULtIbRoUawDk3jnmix1f+DmRXI927tzJ8uXLefHFF/n222/p3Lkzq1at4vjx47513G53nm3+2LH69/+LyPUrwBLAgPoD6Fe3H1aTFYBkZzIvLn2RmQdm6gIJERERERERERG5rqlwWkRERC7oYPJB3ln3jm9cv2h9et3Ry4+JRETkZuOcuxXXpoOQ47ng8l69enHHHXfQpk0batasSbVq1ViWfYoKFSpQvXp1vv/+e2bNmsWsWbOIjIw8r8gr2GQlyGS54L7j4+OpZS1IUXMIWVlZhISEAFC8eHGOHTvG7dYCFLaEUMUazbFjxyhevPh5+yhbtiyHDx/mvsAS2ExmatkK0ja4AlbTfz+Kn/JkMs8Wz/bt2+nVqxdVq1alRIkSeL1eoqOjyZ8/P/ny5ePw4cM0DSxJgMnC/YEluS+gZJ5jFStWjKysLLLOpXKbLT932ArlKXDLw+4ic9gc3Ed0u3WRG9Efu04vPb6UA8kH/JhGrjeGYTBq1CgWLVpEYmIiJ0+e5Omnn2bhwoXcf//97NmzBwCr1ZpnOxVLi9x4TCYTT1Z+kq+afkV0UDQAbsPN4M2DeW/je7g8F74jjIiIiIiIiIiIyLVOhdMiIiJynhRnCq+uehWH2wFAyXwlGdZoGFaz9S+2FBERuTw8iemk9/kG7BcvyEhLS+M1ezm8S3cxbNgwRo4cSTYejh8/zs6dO2ncuDEv3/8or97/BI0bN2bKlCkUNAfj9Xoxm82c9GSS5HVecN+5nTPPnz9z5gxlypRhpzuJBI+dA+4UypQpw5kzZ85b99ixY1SoUIFV2adxG1525CTyveMIbsPrW2eL6yzNmzcnKSmJ9o+1YfngcYwfPx6bzQbAuXPnyMjIoEKFCizPPk2O4WVF9mlWuU7nOVZsbCyhoaGE5o9kX04yv+UkUrp06Ys/wS43qV3GYXi8F19HRK5LtxW4jXtL3usbj9k+xo9p5HpjMpno2rUrmzZt4q233uKhhx6iQYMGrFmzhtdee40BAwawfPlyAN566y3fYxG5cdUuUpuZLWdSJbqKb+7Hwz/SaWknEu2JfkwmIiIiIiIiIiLy76hwWkRERPLI8ebQZ00fzmTmFoCFWEMYfe9oIgIj/JxMRERuFoZhkPbqRIzsnL9ct5A5mIH57uSLUZ9TtmxZWrZsyfTp07nrrrvo1KkTx6wO9pvTuffeeylTpgzBJgsnT57knnvuYWrBczT1/P2Cr3wmG7Nnz6ZevXpUergxd6b/ROsuHYiOjmbF0p8pa8nnW7emtQATJ06kb9++7K0WTqnEKXSPPsCnUSfZ6Ir3rRdkspCenk7ZsmXJVyg/2wMz+Oyzz/B6cwuay3tD+fbbbxk5ciQfRx6nTNK3fF45gx7Zm/JkK2I3M3/+fD788EMesi/lRJUInnnmmYufjNfAffwsWeOW/u3zF5Hrxys1X8FE7tUfq0+vZmfiTj8nkuvJnXfeSZ06ddi8eTOdOnWiT58+zJgxg/vuu49JkyZRo0YNvv32W9566y3uu+8+f8cVkaugSGgRpjSfwkPlHvLN7UjcwVMLnmJ34m4/JhMREREREREREfnnVDgtIiIieQzbOowt8VsAMGFi6N1DKR9Z3s+pRETkZuJatYecTQchx3PB5WaTiR07dpCSkoIZE8UtYbT2Fufdd9+lefPmxMfHc9999/HQQw9x8uRJYmJi6NmzJ16vlzZBFXj//feJjIzku+++49lnn8UwDDZt2oTX68VqMrN//37OnTuHGRNmTKSkpLBv3z5us+ancUoYjz76KL179+bMmTM8/vjjtGrVihcoRzFzKPv27SM5OZmOIZXZNmsx7733HuPHjychIYEZM2YQERGBG8N3Lo0CirNr2VrmzJnDtm3b2LJlCz///DOrV68mOzubt8Pu4J3eb7Bu3TrWrFlDbGwsgwYNwmw24/V62bRpE4Zh0C9fbV566SXy58/PiRMn+OSTT/jggw84dOgQZi7QOhvA7iJz2Bw88SlX4mUUET+qGFWRZmWb+cajt4/2Yxq5Xu3atYuIiAg6derEmjVraNmyJQcOHKBhw4YcPnyYgIAATCYTy5cvx+Fw+DuuiFxhQdYgPmz4IX1q98Fsyv3VUoIjgY5LOjL3yFw/pxMREREREREREfn7TIZhGH+9moiIiNwMfjz0IwM3DvSNu9fsTpfqXfwXSEREbjqG10tSg7fxHE+46DpT7AeY6TxCIXMwI8PvJtwcQILHTs/0dSR6HbQMKkMJcxjTHIfY407GhpmqtigeDSrHU0G3sCT7JD84j5LgtROIhUCThVTDRX1bYWrbCvGFfQ9RpkA+i2iIGRM909eR7HXyUsitNA0sxdf2/cxwHuaMJ4uylnA6hFSiXdAtLM4+yTj7HqLNQYwIbwjAOPse5jmPcdbroKQ5jBZBpekZWoMAk8V3PkfdaQzK3MpWVwJBJguxXjsVLZHUCSjEx/kacNSTztis3ax0nSHLyKGSNZJngytx0J3KppyzNAwoylthd7A6+wzDs3ZwwJ1CoMlCktdJHVtheoXWoFFg8Qs/mTYLQY/WJXLUi5f1dRQR/zuRfoJH5jyCx8i9CGVi04nUKVrHz6nkenPy5ElKlSoFwOTJkxk4cCBvv/02nTt3plOnTuzatYt77rmHDz74gKCgID+nFZGrZUPsBl5f8zrprnTfXPsq7elduzc2s82PyURERERERERERP6aCqdFREQEgO0J23lh6Qu4vW4AmpZuyieNPsFkukiXShERkSvA8dMm0ntPxrBn+zvKzSPQRoFV72MtV9jfSUTkMhuwYQCzD88G4PaCtzOl+RS9v5d/pW/fvsyfP58RI0bQtGlTTp06xWOPPcahQ4dYt24d1apVw+l0qnha5CZyKv0UPVb14EjqEd9cnSJ1+KTRJ0QFRfkxmYiIiIiIiIiIyJ8z+zuAiIiI+F98Vjw9V/X0FU1Xjq7MoLsGqahCRESuKsPlJqP/DBVNX21uDxkDZvg7hYhcAS9Vfwmr2QrAjsQdrD2z1s+J5Hrkdrs5fPgw3333HU2bNmXZsmU8+uijtGvXjlmzZvHFF18QFxfHvHnzGDNmjL/jishVUjK8JFNbTOX+Uvf75rbEb6HdwnYcTD7ox2QiIiIiIiIiIiJ/ToXTIiIiNzmH20GPlT1IdiYDEBUYxcgmIwmxhfg5mYiI3GzsU9dgZKlo+qrzeMleu4+c3Sf8nURELrNiYcVoU7GNb/z59s/xGl4/JpLrkdVq5ccff6RWrVosWLCArl270rVrV3r16sWDDz7ISy+9xJYtW/j222+x2Wz+jisiV1GILYRPG3/KK7e/4ps7k3mGZxY9w5JjS/yYTERERERERERE5OJUOC0iInITMwyDARsGsD95PwBWk5XhjYdTLKyYn5OJiMjNxjAMskYuVLdpf3G5yRy9yN8pROQK6FK9C0GWIAD2J+9n+Ynlfk4k1yuHw8GkSZPo2bMnL774Ih6Ph9OnT/P999/z1ltvUbRoUbp06QKAx+Pxc1oRuVrMJjNda3RlVJNRhNpCAXB6nLz+y+uM2DYCj1f/HoiIiIiIiIiIyLXFZBiG4e8QIiIi4h8Td09kxG8jfON3671L20pt/RdIRERuWtlr95HacfQ13XE62evkk8ztZBo5dA65lWq2/Je8zxXZp+iW9gsOI7egJNhkobQlnA4hlWgXdAvfO4/wVsYm7IabQfnq8mJIVZyGm3Ypy9iUc5bSlnwUNoewMycJABOQ3xzEnbZC9A6rSQVrxN8PE2il0PbhmKPDLvm8ROTaMnzbcL7e8zUA5SLKMbvVbCxmi59TyfVo5syZTJ06lSlTpnDu3DmmTJnC2rVr6dy5M5s3bwZgxIgR/g0pIn4TkxpDj1U9OJH+3zuZNCzekI/u+YjwgHA/JhMREREREREREfkvdZwWERG5Sf1y+hdG/jbSN25TsY2KpkVExG+yxiy+poumARY7T3LqrhIU7fIQY+17Lss+f3HF8dbQQaQ6Mkl1ZHIkMZbhS2fyXXk7Y+y7SfI6uf/hFsTExDDMtJ/9Ocl8mrmDYg/fxeHDh0kOgS05Z33bJ9szWHd0Dw0/eIXH0pcS77H//TBmM/Zpv1yW8xKRa8sLt77g6wIakxbDomPqMC//zpNPPsnrr7/Orl27+Oyzzzh+/DiTJ0+mXbt29O7dm19++YUTJ0789Y5E5IZULrIc0x6aRsPiDX1z686s4+mFTxOTGuPHZCIiIiIiIiIiIv+ljtMiIiI3oZi0GNovbE9mTiYAtQrVYkLTCdgsNj8nExGRm5EnNpnE+m9Ctvui6/RL38SGnHj2u1MoZQkj05tDt9BqOAwPPzljSPY6qWSN4pXQ27gvsCQAS50n+cZxgJ05SQSaLNSyFaRP6O2UsIQx3r6Xn5zHSPE6qWKN4pXQ6jQJLM77GVtZ7TrDfncKxc2h5ODlgcCS9AytwZ1J3/Pyyy/TpEkTujz5DOWsETwRVJ7q1vx8bt/NVlcCQSYLzYNK0z2kGl6gT/p6drqTyPK6CTPbCDNZmRhxL1Vs0QAMyNhCpUEvUKBAAZ577jnCw8MZOnQoDz74ILUrVOW3gm2599wchk6bQEZGBh+89BqZ0UHs2bOHDh06UH1dAsOytmMYBjVr1mTXrl3ceuutLF26lCFDhhD69QZ6htX426+FuWA4BXcOx2TWddYiN5ovdnzB2J1jASgRVoJ5j87DZtb7f/l3pk2bxuLFixk/fjzBwcEcOXKEoUOHEhERwaeffppnXY/Xow7nIjcZj9fD6O2jmbhnom8u1BbKhw0/pEmpJn5MJiIiIiIiIiIioo7TIiIiN510VzqvrnzVVzRdNLQowxsPV9G0iIj4jX3qn3c5TvY6+TEwjklrF9G2bVuW7N7CN3O/5/3MXzndqjIzNq9g9+kY3pg1lrfDD/Gj4yhfZO1mSOFTdPlmGPtij7MpZh+1Xn+WfhmbeSxlMWcfq8asLSvZdeoovWaM4Y2wfUx3HGIyMUxau4j27duzfO+v/Hr8IMW6PcKdSd9TpUoV3njjDe677z4Wb1jDwB8n8nbGJjqYNvLoqHfYfSaGFfu2EdalKa1SFrEw+zihzWrx1rAP+GD4x+w4dYQHO7dnjSv2vHM0DIMngsrzmak2EyZMoFy5cnjyBZJteBgT0YhXXnmFli1bUumBu/jiiy+YN28ecSt+pUdo9Tz7WBj5EPkOJLJixQpq1qzJcU/6P3otDIcL17r9/2gbEbk+dKjagYjACABOZ55mzpE5/g0k17Wnn36ab7/9luDgYH777TdGjRpF0aJF6dixo28dr+HFnmOn1+peHE096r+wInLVWcwWet7Rk2GNhhFsDQYgKyeLHqt6MG7nOLyG188JRURERERERETkZmb1dwARERG5ejxeD2/88gbH048DEGQJYtS9o8gfnN+/wURE5KbmnL3pT7tNewGr1Uq9evV45JFHuPfee8nOzqZly5YMGTKE1q1bs3//fl555RV+/PFH7q5TH1OglcMrjzB+/Hi6dOkCQLVq1diYE8+jjz7KgAEDePTRRzl48CCvvvoq33//PU0b3IMlLIh69epx5swZ6tSpQ5EiRfj55585cuQIc+fOZfTo0dx999106NCB32/gNGbMGGw2G5UrV6Z48eIsXryY+Ph4vvp+IfcXvI3u3bvTo0cPqlSpAsAnlloXPM8FzuPMdx7n7Uf6c+rUKch0ki8ogJq2gjyVUZT//Oc/zJw5k7S0NG677TbmRtyL1ZT3euinU5ZhLRBOgwYNGDNmDMUsof/otTDs2TjnbCHwnlv/0XYicu0LCwjjhdte4LNtnwHw5c4vaVW+FYGWQD8nk+vZ+vXrGTNmDNWrV+fBBx+kWrVqQO7FPBmuDF5Y+gKHUg4RkxbDtIemkS8gn58Ti8jV1KxMM8qGl6XHyh7EZuVePDhmxxgOJh/kg4YfEGIL8XNCERERERERERG5GanjtIiIyE1k5PaRrD+z3jce1HAQlaMr+zGRiIjc7DyxyXhik//2+u+88w6fOasTme6mU6dOjB8/ntjYWCIjI5k2bRrlypWjSOkSNGvenIyMDL4Y/DFrglqwKfhhnthrprg5lE6dOjFu3Dji4+OJjIxkypQpVK1alfBihXzHGThwIGMtdWl0xsbnn3/OM888g9frxeFwkJOTQwNXFOuDHiIwMJC2bdvy+uuvM8nSgLtOmBgxYgQdO3bkhCcDgH379jFn/BR+CWjOEtsDPBxU9rzzatOmDYdPHSchLZmXX36Zli1b8nhgOcwmEwBlLOEcP36csLAwNm7cSMEsE+UtEXn2sWzZMvacjiE2NpaNGzcyatQosgw3Rc9+7fuvcsJUduYkXfwJ9ho4F2/3FYWLyI3lqUpPkT8o96LJs/azzDo4y8+J5HpXtWpVGjVqROvWralZs6Zv3mQykWhP5GT6SQCOpx+n37p+6jIrchOqFF2JGS1nUKdIHd/c8pPLab+oPafST/kxmYiIiIiIiIiI3KxUOC0iInKTWBCzgK/3fO0bd67WmWZlmvkxkYiICGQv2wnmv//R9MSJE9wdUBQbFm655Rbat2/P999/z6xZs5g5cya7d+8mLCyMsmXLcvToUapZ81PMEkp+cxBPB1ck0JS7XYcOHfJst337dvLly5fnOLVthahtK8iJEycoVqxYnhw2zNgNN0WLFsVsNnPixAnq2gpTz1aYY8eOUbx4cd+6J0+e5DZrNIUtIZS1hl/wvObPn0+tWrW4++67OXnyJG3atOGkJxOAM55MPnDt4JtvvuH999+ncePG3PJAfcZk7c6zj6eeeoo77riDLl260KJFC0qVKsV4+17mz59PVlYWWVlZtHvpBX7NSfiLFyUH9z4VsYjciEJsIXSu3tk3nrB7AvYcux8TyfUuKiqKF154gcqVz78gt0JUBQY2GOgbrzy1kkl7Jl3FdCJyrYgKimLcA+N4psozvrkjqUd4auFTbIjd4MdkIiIiIiIiIiJyM7L6O4CIiIhceXuT9jJww0DfuHGJxnSr2c1/gURERP6fY/ZGcLj+9vqGYWAxmSloDuLYsWOsWrWK4cOHc4etIGleF0c8aQDccsstlC9fnt3uc8R5sgg0WViWfQqH4ebYsWMsXLiQ0aNHU9tWkBRvNkc96QC+4unSpUuz7XQi23ISKVWqNrGxubcW93q9mM1mkrwOXHiJi4vD6/VSunRptqQmsCUngTJlqnPmzBlfZq/Xi+X/O0dfjNPp5La0AFo4w+jYsSNbt25l0qRJbE49y4isnfR6903OnTvHoPffZ+/evXz11VfceuutNHeX8u0jOTmZj5y38vl3C/mhfn2GDh1K27ZteeLh1rjJ7fAZZQ5kWmTTP3+Oc9w4F/2G7dZSf7qeiFyf2lRsw+S9k4nLiiPZmcy0A9N4sdqL/o4l1zGbzXbRZQ+Ve4g9SXv4bv93AIz6bRRVo6vSoHiDqxVPRK4RNrONvnX6Uim6EoM2DsLldZHuSufl5S/T645edKjaAdNfvGcWERERERERERG5HNRxWkRE5AaX5Eiix6oeZHuyASgXUY4P7/4Qs0lvA0RExL+M7Bxyth/7V9u2DCrDl19+yRtvvMHdd9/NDm8yiWHw9NNPA/Dz4iWEh4fT9e0+NLQvoI59HjOruonz2vnyyy956623aNCgAb95znEun5l27dph5r+FGgMGDOAl90ZWFs2mW7duTJ06lfq2Ipw6dYrbbruNtArRPB20hezsbGbNmsVHH31ER/c61pR007NnTyZPnkwpS9g/OqcC5iDaB1ck6OBZfvrpJ9555x1apywio1oRunfvTqdOnfgyvDE7fvqZTZs28cknn/BMyvI8+yhmDmVgvjoMHjyYVq1aUa1aNSZENuF04Y6cLtyR3QXbUc2W/8+D5Hhwzv/1H2UXketHgCWArjW6+saT9kwi3ZXux0Ryo+tVuxd3FL4DAAODN9a+wZnMM3+xlYjcqFpXaM03zb6hUHAhALyGl09+/YS3172N0+30czoREREREREREbkZqGJKRETkBubyuOi5qicJ9gQA8gXkY9S9owgL+GeFXCIiIleCe/9pTIEX71L5OzPgdrvZtGmTr7T5yeBbOL1kE6+++ipDhw4lPj6ebdu20aRJEwBetVblvvvuo3r16hw/fpy9e/dy//33U99WhMPz19CnTx8+/fRTzp49y9atW2nUqBFeDN8x58+fz6+//srq1asZN24cv839mS8jGrN12Wpmz57NF198wdixYwF45ZVXSEtL4/Dhw8yfP5/Ro0ezftZ8uoTcSmJiIocOHcLEhbvnmYETJ05w9OhRzJgwmUz0Dq3JoEGDqFSpElFRUXTt2pXevXtTO9ZMy6AyfBbekFdeeYWKFSsSektxADZt2oTdbseMiVq2gpSP9/DRRx/RqlUrJtn3/+PXxnPsLIbb84+3E5Hrw8PlH6ZUvtyu8hmuDCbvneznRHIjs5ltfNLoE1+RZFp2Gq+tek0FkiI3sWoFqzGj5QxqFKzhm1sQs4AOizsQlxnnx2QiIiIiIiIiInIzMBmGYfz1aiIiInK9MQyDgRsHMvvwbADMJjNj7xurWyKLiMg1wz55FekDZ4LD9Zfrvpuxmd9yEmkSUJw+YTVztzdymGDfz1xnDCc8GUSaAqlpK8gLIVWoH1CERc4TfO3Yz66ccwSZLNS2FaJP6O2UtORjgn0fc7NjOOXJJMoURC1bAdoGV+Blz2bS09MJDAwkLCe32LlZYCn6hNWkqCWUGHcaX9j3EONOJxsPbYLKc6s1mjH23WxxJRBsstA8sDTdQ6tjAH3S15Nh5NAztAZNAoufd167c87xXsYWPBj0DatFvYAiuT/DM7ey3hXHXncyRcwh1LQV4LPwhkSYAwGYaN/H1/YDFLeEUsgcTIwnnbKWcEaGN8RiMnPInUqf9PV4MHgmuCLtgiv+o9fGFBpE9Py3sFUt+Y+2E5Hrx8KYhby59k0AQqwhLH58MdFB0X5OJTeyHQk7eH7p87i9bgBalW/F4LsGYzJd+OIiEbnxuTwuhmwewo+Hf/TNRQdFM7zxcF+nehERERERERERkctNhdMiIiI3qKn7pzJ0y1DfuE/tPjx363N+TCQiIpJX6ivjcf64yd8xfDK8Lu5wzvMVTh+KfIpAk8XfsfzCFBJIvg+eJqTd3f6OIiJXiNfw8vi8xzmSegSA56o+R587+/g5ldzoZh2cxaBNg3zjd+q+w1OVn/JjIhHxN8MwmHVwFkO3DMVt5F5YYTVZebPOm7St1FYXV4iIiIiIiIiIyGVn9ncAERERufw2xW1i2NZhvnGr8q3oULWDHxOJiIicL+fXo/6OkEeQyUqAw03Tpk2J8FiwcvMWaRj2bHK2HvF3DBG5gswmM91qdvONZxycQYI9wY+J5GbQpmIbHin/iG/80daP2JGww3+BRMTvTCYTT1Z+kq+afuW784HbcDN482De2/geLs9f351GRERERERERETkn1DhtIiIyA3mVMYp+qzpg8fwAFCtQDX61++vDj0iInJNMTxePKfP+TtGHjaTmZ8jH+aFrSZ+jmqFxXRzf2R2/Rbj7wgicoXdW/Jebs1/KwDZnmzG7xrv50RyozOZTPSr148q0VUAcHvd9FrdiyRHkp+TiYi/1S5Sm5ktZ/r+fQD48fCPdFraiUR7oh+TiYiIiIiIiIjIjebm/i2wiIjIDSYrJ4seK3uQlp0GQMHggoxoMoJAS6Cfk4mIiOTlTUoHm8XfMc5T1BJK48DiJHodzHXGcMqT6e9IfuNNSPN3BBG5wkwmE91rdveNfzz0I6czTvsxkdwMgqxBjGgygsjASAASHYn0Xt2bHG+Of4OJiN8VCS3ClOZTeKjcQ765HYk7eGrBU+xO3O3HZCIiIiIiIiIiciNR4bSIiMgNwmt4eWfdOxxJPQKAzWxjRJMRFAop5OdkIiIi5/OeTcNks/o7xgWd8zp51LWSpfdG0y5l6T/efkzWbv6TtoYfHEevQLqrx0izYxiGv2OIyBXWoFgDahWqBYDbcDNu5zg/J5KbQbGwYnx0z0eY///uDr8l/Manv37q51Qici0IsgbxYcMP6VO7j+/fiARHAh2XdGTukbl+TiciIiIiIiIiIjcCFU6LiIjcIMbtHMeKkyt84wH1B1C9YHU/JhIREbk4T3yKvyNcVJo3myJFijBp0iQSvc5/tO1Zj51xQcdpNfZd3snYdIUSXiUWM0Zqlr9TiMgV9r9dp+fHzCcmLcaPieRm0aBYgzx/9qbun8qCmAV+TCQi1wqTycRztz7H2PvHEh4QDoDL66Lf+n4M3TJUHepFREREREREROSSqHBaRETkBvDziZ8Zu3Osb/xs1Wd5pMIjfkwkIiLy57wJaRhuj79j/KV0w0XNxJnUSpxJ/4zNpHizAUjyOhmcsZV6ST9QPXEG7VKWsdV1ljH23YSEhNC2bVsyDBcPJS/g5dTVjM7axcPJC6iSMJW6Sd/zn7Q1nPRk+Pns/pwpwIonPtXfMUTkKqhdpDYNijUAcu9k88WOL/ycSG4WnW7rxH2l7vON39vwHgeTD/oxkYhcSxoUa8CMh2ZQIbKCb27q/ql0/bkrKc5r90JMERERERERERG5tqlwWkRE5Dp3MPkg76x7xzeuX7Q+ve7o5cdEIiIif81zNhWc136nuC5durDu0C7WHd4N7e+iXcoykrxOHkqej9HxHhbs2MC24wfpNHEoz5s385V9H19//TVBQUFs2LiRMb/MY09JC/PLuvhoyQz2nTnO8v2/UXdgFx5KW8y5f9jR+qoym/Ampvk7hYhcJX/s/Lv0+FIOJB/wYxq5WZhMJgbfNZiyEWUBcHqc9FzVk7Rs/fwRkVwlw0sytcVU7i91v29uS/wW2i1spwstRERERERERETkX1HhtIiIyHUsxZnCq6texeF2AFAyX0mGNRqG1Wz1czIREZE/Z9hdYBj+jvGnwsPDqVOnDtWqVePxxx9nyJAhhNWtRKvkBTR/sT2dO3fm0UcfpWLFisTFxTFx4kQAunfvTnZ2Nk2bNqVp06bExMTgcDh47bXXKF68OI0aNaJu3bq0ebED39j3+/ks/4QBxnVQ3C4il8dtBW7j3pL3+sZjto/xYxq5mYQFhDGi8QhCrCEAnM48zZtr38RreP2cTESuFSG2ED5t/Cmv3P6Kb+5M5hmeWfQMS44t8WMyERERERERERG5HqlwWkRE5DqV482hz5o+nMk8A0CINYTR944mIjDCz8lERET+hhy3vxP8JbPZzNtvv81PwfdTZn8a33zzDe3bt+eYJ4MXX3yRESNGkJaWRnh4OGPGjOGhhx4iMDCQzMxMDMMgJ8POtqBW7M/fjiNHjhAfH0+LFi247777OHLkCI0aNWK/+1q+xbgBbo+/Q4jIVfRKzVcwYQJg9enV7Ezc6edEcrMoF1mODxp+4BuvO7OOsTvH+jGRiFxrzCYzXWt0ZVSTUYTaQoHcLvWv//I6I7aNwOPV+1YREREREREREfl7VDgtIiJynRq2dRhb4rcAYMLE0LuHUj6yvJ9TiYiI/D2G59ruNg3gdDpJTUiihq0AdwQU4vjx4xQrVgyAW265hR49evD9998za9YsJk+ezPr164mMjMyzj3zmACbY9/HII4+wbds2mjdvTtmyZYmIiCB//vykGy4/nNnfZADXweskIpdPxaiKNCvbzDcevX20H9PIzeb+0vfzwm0v+Mbjdo5j9anVfssjItemJqWaMK3FNEqHl/bNTdwzkW4ru5HuSvdjMhERERERERERuV6ocFpEROQ69OOhH5l+YLpv3K1mN5qUauLHRCIiIv+MyWbxd4S/FBQURETB/OzOOcdvOYmULl2a2NhYAI4dO8ZHH31E48aNef2BtnS4ryWNGzcmI+EcXq8Xs9mMEw+nPBksyz5F9+7deeONN/jmtfcYNGgQO3bs8O/J/R0mE1wHr5OIXF6v3P4KFlPu3/3NcZvZErfFz4nkZtK9ZnfqFa3nG7+99m1OpJ/wYyIRuRaViyzHtIem0bB4Q9/cujPreHrh08SkxvgxmYiIiIiIiIiIXA9UOC0iInKd2Z6wncGbB/vGTUs3pXO1zn5MJCIi8s+ZAqz+jvCXvF4vQ4YMoZV9GUcrhvH8888zbdo0SlnC+PLLLxk8eDC33347v7oTcUQH06ZNG6JNQSQmJGAymbj//vtpE7qVfaY00tPTqVOnDtu9ydSsWZOuXbv6+/T+Hou+NhC52ZQOL80jFR7xjUdvH41hqPu8XB1Ws5WP7/mYoqFFAcjIyaDnqp7Yc+x+TiYi15rwgHA+v/dzOt3WyTd3Iv0ETy96mlUnV/kxmYiIiIiIiIiIXOv0G1AREZHrSHxWPD1X9cTtdQNQOboyg+4ahMlk8nMyERGRf8YcGQrWa7ObsRkTTqeTlStXsm3bNvbu3cucOXPo168f6Zv2szC6JUu+msqnn37KpEmTSEhIYO3atdSqVQuA+01F6dChA71792bGjBmULl2avn37UqtWLU6fPs3HH3/MoEGD2L9/Pyau7Z/h5shQf0cQET94qfpLWM25F7jsSNzB2jNr/ZxIbiZRQVF81uQzAswBABxJPcKADQNUwC8i57GYLfS8oyfDGg0j2BoMQFZOFj1W9WDcznF4Da+fE4qIiIiIiIiIyLXIZOgbZxERkeuCw+3gucXPsT95PwBRgVHMaDmDYmHF/JxMRETkn3PM3kT6G5MxMrP9HeU8hmHQJ309m3POctSTTgFzEGZMPBxYhl5htxNtDiLZ62S8fS8LnCeI82ZR0BzMnbZCdAm5lXKWcMba9/BrTgIZRg7lLOHcFVCUCfZ9nPBkEG0O5KQnkztthXglpBoPBpXy9ylfkBFsw7S4JwUrVsRivjaL3EXkyhmyeQjTD0wHoEp0FWa0nIHZpB4McvX8dPgn+m/o7xv3qd2H5259zo+JRORadjD5ID1W9iA2K9Y3d3+p+/mg4QeE2EL8mExERERERERERK41KpwWERG5DhiGQd+1fVl8bDEAVpOVr5p+Re0itf2cTERE5N/JXref1Oc/x8hw+DuKXITHZPDwoG0YARYKhRSiSGgRioQWoWhoUYqGFvWNi4QWITwgXHfAELnBJDmSaP5jc5weJwDDGw/ngdIP+DmV3GwGbRzErEOzALCYLHzV9CvuLHKnn1OJyLUqxZlCnzV92BK/xTdXIbICo5qMomR4ST8mExERERERERGRa4kKp0VERK4DE3dPZMRvI3zjd+u9S9tKbf0XSERE5BK5j8Rx7sH3MbKuvY7Tkstp8/Dw4N/+1roh1hBfUfUfC6r/OA60BF7hxCJyuQ3fNpyv93wNQLmIcsxuNVsd6OWqcnlcPL/0eXYl7gIgOiiamS1nUiS0iJ+Tici1Ksebw/Bfh/Pd/u98c+EB4QxrNIwGxRr4MZmIiIiIiIiIiFwrVDgtIiJyjfvl9C90W9ENg9wf2W0qtqF//f5/sZWIiMi1zZvpIKFyd3B7/R1FLiIlyuClAUdJyU65LPuLDorOU0xdNLQohUML545DilAguIAKMkWuManOVJrNbkZWThYAQxoO4eHyD/s5ldxszmadpe2CtiQ7kwGoVqAa3zT7hgBLgJ+Tici1bM6ROQzaOAiX1wWA2WSm1x296FC1g+6UIiIiIiIiIiJyk1PhtIiIyDUsJi2G9gvbk5mTCUCtQrWY0HQCNovNz8lEREQu3dny/8HIcl72/RqGwcaceJK92TQMKEqk+drrdJzudeEw3BQ0B2O+QOGGw3CT7nVRwByExWT+R/t2G14SvQ6izIEEmax5lnkMLwleB+GmAELNf/5+wtagEvln98XhdnA26yzx9njiMuOIz4r/72N7PPFZ8Tjcjn+U8UKsJiuFQgrl6Vb9vx2swwPCVegicpV9seMLxu4cC0CJsBLMe3Qetr/490Pkctsav5XOyzrjMTyALigWkb9nd+Jueq7qSYIjwTfXslxLBtQfQJA1yI/JRERERERERETEn1Q4LSIico1Kd6XTfmF7jqcfB6BoaFGmPzSd/MH5/RtMRETkMjnX8gNyfj163vzHmb8xNmsPUeZAZkU1o4I1glhPFq2TF5HgdfBsSCUG5at70f1ucMXRM2wv5cuXJ2rTSUzAQucJ3/IC5iDqBBTm9dCalLWG/6PMMxyH+cUVSw1rAV4KvfW85Q7DzUPJC4hxpwNgxkQxSwgPBJbk1dAaTHccYrrjMHHBHkJCQshISKZ9SEXeCqtFiMnGvpxk+mVsZpspmcjISM4lJtEhqCL98tXmo8ztTLYfOO+YZkz0CbudriG38ZV9HyMcuwguFEVSUhLP2yrSN6wW8Z4shmb+xqqcM4QVyk9aWhplcoJ4N+xOmgQWP/9ELWZCe7Yk3+ut//I5MQyDdFc6cVm5RdX/+//4rHgS7Am+YrdLEWINydO1+o9F1r8/DrRce4XyItezTFcmzWY3Iy07DYD+9fvTpmIbP6eSm9G3+77l460f+8bvNXiPx255zI+JROR6kGhP5LXVr7Ezcadvrkp0FUY2GUnRsKJ+TCYiIiIiIiIiIv6iwmkREZFrkMfr4ZWVr7D+zHoAgixBfNviWypHV/ZzMhERkcsn44MfyBqzGLx5P5bed24O32xYyqhRo6g97zhPBt/CEucJfrw7hE8//ZR7q9Ti14JtL7rfuc4YVj5YmC5dujCwxbP86kogNjmR4OBgDMMgPj6e77//nk/6vc/yiJYUsoT87cxlzk5h4neTeeWVV9gQ0IJoc95Odftyknm12FG2bt0KgNvt5uTJkwwfPpwfJn1LWLGCzJ49m1tvvZXMzNw7SvTo0QPH3C0MDa/PvSnzeH/McNq2bUtCQgIRERF0794dY/5vbMk5y9I9WylTpkyeYy5btoxhbbpyX0AJFlWByZMnY7VaCQ4OplevXrjnbyMAM4U6N6d///54PB7y5cvHmjVreOaZZ5hs1Kd2QKE8+zTlCyZy7EsE3l/9bz83f8bj9ZDoSPQVUl+ouDolO+WyHCs6KDpPMXXR0KIUDi2cOw4pQoHgAljMlstyLJGbxaQ9k/hs22cAFA4pzMLHFuoiBbnqDMOg7y99WXx8MQAB5gCmNJ/CrQXOv5BJROSPXB4XQzYP4cfDP/rmooOiGd54OHcUvsOPyURERERERERExB+sf72KiIiIXG0jt4/0FU0DDGo4SEXTIiJyw7HVLIspNAgjw3HesoCAACyWvMWtZrOZwMDcQr3hmTtYmn2SXe5zlLOEk2XkUMtWkPfy1aG4OYwffviBn376iVuNCAACAwO599572bx5M9WqVWPx4sWcPn2aGqNHc5s1mj3uZMpa8pHqdfFMcCUMDOZnHyfD6+J2WwH+E1qNRK+DbDy0a9eO3r178+S5pRS3hNEpuAqHPKmUMIdRwhKGyWQiKCgIs9mM1WqlefPm/Pjjj+zevZvY2FiGDh3KwgULCHKbaPp4K6ZOnUqJEiWY6jhEw0ea8fDDD1O+fHmsqQ4atHqQqVOnkj8yiodsJalRo4bv+TCZTOzevZu5c+fSMKAoY+17WPXNr4wZM4aJY8ZRq0Fdli1bRsmSJamSGYjz5Enq1q1LyrEz5ITamDdvHkOGDGFSz4/PK5w2XDlYa5S+bK+1xWzxdYS+GIfbwdmss8Tb44nL/P+C6t8f23OLqx3u8/+s/K9kZzLJzmT2ndt3weVWk5VCIYXydKv+3w7W4QHhmEymf32+Ijeapyo9xZS9UzjnPMdZ+1lmHZzFs1Wf9XcsucmYTCYGNhjI4dTDHEk9gsvroufqnsxsOZPooGh/xxORa1iAJYAB9QdQJboKQ7cMxW24SXYm8+LSF3mzzpu0rdRW7/1ERERERERERG4iKpwWERG5xiyIWcDXe772jTtX60yzMs38mEhEROTKsFUvg5Hj/lfbfpa1gzXr1/HZZ5/Rr18/oqOjmTFjBo+9+T59w2rRpEkTWrduzfe9P/RtYxgGP0Y8yBf797BgwQLq1avH2LFj+WrtQkaOHMnbb79NcnIyjRs3pnPnzizoMY2CBQuydOlSur/5JnFxcUyYMAGz2cyiRYtwuVz07duXtr8spVu3bnwxezZvZ1bIc7wDUU9y14LZHDhwgDp16jBlzHjqpMUxLPJJTCYo/8N3TJkyhYoVK7L311gK57+DY8eOEZDq5IWQqkz59VdCQkIIDAnm/YA6fGq6C4Bl2SeZfFsORYsW5cdZ3/OJpTYla1aldOnSTJ4wid8KPkmrzQvZs2cPTzzxBJnfriZk2SFGB1elZsF7GJ61g59++omnnnqK8Z6M855fU1AAloIR/+q1+beCrcGUiShDmYgyF1xuGAbprvTzulX/sWt1gj0Bj+H50+O4DTexWbHEZsVedJ0Qa0iertV/LLL+/bG67crNJMQWQufqnRm6ZSgAE3ZP4PFbHifE9vc79otcDiG2EEY2GclTC54iIyeD+Kx43vjlDcbdPw6rWV91i8jFmUwmnqz8JOUjy9N7TW+Sncm4DTeDNw9mf/J+3q77NgGWAH/HFBERERERERGRq0DfJouIiFxD9ibtZeCGgb5x4xKN6Vazm/8CiYiIXEHm4tGYggMwnDn/eFsvULduXdq3b8+DDz5IaGgov/zyC8uXL2fJmoPkz1+XKlWq4MXIs917GVs5TAZDatZkxYoVmEwm6tWrx9mzZ2nRogV2u50HH3yQwYMH06xZMw4fPsyoUaP45ptvePDBB+nRowedOnXiySef5OzZs+Q4nACMHj2anTt3krYjO8/xnklZjrdAGKVKleL06dN8HF6fR4LKATA0cxvNmjXD6XSyd9dupoQ0pMOsWbz00kt0e/9t9u7dy4TnPuDjjz+mSKaJ6AJBvv3+6DxKp07vMXPmTOrlROG2eClXrhzHjh2jmDuQKHMgNWwFOHDgAGXLluWMeSP98t0JQKLHwXTnEaa0/pTVq1dT2RJ53vNru7PCeXP+ZjKZiAiMICIw4qJ34vB4PSQ6En2F1Bcqrk7JTvnLY9nddmLSYohJi7noOtFB0XmKqYuGFqVwaOHccUgRCgQXwGK2XHR7ketNm4ptmLx3MnFZcSQ7k5l2YBovVnvR37HkJlQqvBRD7xnKKyteAWBz3GZGbR9Frzt6+TmZiFwPahepzcyWM+mxsgf7k/cD8OPhHzmaepThjYdTMKSgnxOKiIiIiIiIiMiVpsJpERGRa0SSI4keq3qQ7cktuCoXUY4P7/4Qs8ns52QiIiJXhslkIqh5LRwz1oHX+OsNLuC9995jsLMqc1OPsXjxYmrWrMn8lVu57QLrDh8+nLS0NKpUqUJ6ejrDhw/3LRswYAD9Myowzr6XDh06MG7cOG7Zn8FHIffyZO/eJCcnU7RoUeLi4vB6vWRkZLAk4AFKBIfRJmUpkZGR2Ow5dAu9G7ADsGjRIqxWK3fccQfLly9nw8KfGRL5CAAT7ftYUCSL9d98w0svvcRj7uIUCAgm257Nr7/+SosWLahYsSIlS5Zk+vTpOHBjGAYmk4mzHjubbKn82LYtTZs25aXgW4jz2ImKiiIzM5NQU+5H/TCTjczMTKKjo9lruABI9jp5KnUpXQf2pVChQgwbMpQFoQ/kfV1Cgwh+rN6/ej38zWK2+DpCX4zD7eBs1lni7fHEZf5/QfXvj+25xdUOt+Mvj5XsTCbZmcy+c/suuNxqslIopFCebtX/28E6PCBct4WX60aAJYCuNboyYMMAACbtmUTbSm0JDwj3czK5Gd1T4h5ervEyY3eOBeDrPV9zW/7baFqmqZ+Ticj1oEhoEaY0n8LAjQNZGLMQgB2JO3hqwVOMaDKCagWr+TmhiIiIiIiIiIhcSSqcFhERuQa4PC56rupJgj0BgHwB+Rh17yjCAsL8nExEROTKCmp1J875WzEynL45Eya8Xi8BAQFkGx4AXOSOvV4vJv5baHr27Flq2yqxyRVPVlYWoaGhOP9/m/81ffp09u7dS1xcHImHT/BmcE3eYgsAJ0+e5K6Aqkyw76d48eIsX76cOrbCVLPlx52QSWpqKsWKFSMuLs63vzCTjQCThZ+impNhuAgOtHLEneZbPnz4cHJycjhx4gTWUylMCG9ElDmQb+z7+So6njUr1jBw4EBOzfmFaVFNGZa5nV69elGxYkXuuOMOmtiKcbiwmUOHDlF9wwZ2nTtHDVsBvnce4Ykn23Lq1CmObNrOvQXasiT7JJsTE4mMjCTt/4uk07zZREZGEhMTQwFzECnebJ5MWUrLXp1p27YtjRo1Yqi1FuWtEXmeJyPHTeC9N26xSLA1mDIRZSgTUeaCyw3DIN2Vfl636j92rU6wJ+C5yJ+z37kNN7FZscRmxV50nRBrSJ6u1X8ssv79caAl8FJOV+Syerj8w0zcPZGTGSfJcGUwee9kutfs7u9YcpPqWqMre5L2sPbMWgDeXf8u5SPLUz6yvJ+Ticj1IMgaxIcNP6RKdBWGbxuO1/CS4Eig45KO9K/fn0cqPOLviCIiIiIiIiIicoWocFpERMTPDMPgg80fsDNxJwBmk5lP7vmE0uGl/ZxMRETkyguoXwnDlbcAtaA5mBMnTlCuXDnWun6mZVAZ1mSfoXz5upw4cYJClmBivVlA7s/Rv9uvd+vWrbTca9AwoBJlou/EBLzlzC2c9nq9WDBRxBzMmTNnKFOmDFtz1nJ7TgEsEaFERkYSGxvrW9dsNnPclUGQycoMx2HWuM5QwhLG08EVfcdbvnw5P0Q1o5j5Dkrnz4fZZOI7+0G+iDzDmlVr+Oyzz/hy3DhmRD5IktdBgtdB3VtuYefOnbQIKMXH4Q2ofep7UlNTKVeuHEmJDgzDYIbjMN92Gs2kSZNoG1QBq8lMSUsY+/bty10vFPbknGNTzlk+qFmThQsXUtEUSLuUZTTt0ZGXXnqJe+65h6ZpEZQKzofTcBNk+u/XA9ZKxTBHhv77F/U6ZzKZiAiMICIwgsrRlS+4jsfrIdGR6CukvlBxdUp2yl8ey+62E5MWQ0xazEXXiQ6KzlNMXTS0KIVDC+eOQ4pQILgAFrPlX5+vyD9hM9v4z+3/4c21bwLw3b7vaF+lPdFB0X5OJjcjs8nMh3d/SLuF7TiVcQq7207PVT2Z9tA08gXk83c8EbkOmEwmnrv1OW6JuoXX17xOuisdl9dFv/X92J+8n961e2Mz2/wdU0RERERERERELjMVTouIiPjZtAPTmH14tm/c645eNCjewI+JRERErh5ToI2AuyrjWrnbN3d/YAmmTZvGF198wbJly6j36wKq1arGR9268d5773F/QAl25CT9q+PVsBagkjUKANcFOgbfFVCUKVOmMHnyZB6cPZtWh39m1KhRLFu2jJCELAqbgzl58iTNmjWjx8qVJCQk4HA4WLhwIX379qXqiby5GtiKYDLllnaf8mTwcdBhNq7ayJYtW9i4cSN31qnDp6Rw+PAWGhmRrF27lvfee4+vv/6aOw7+xHMvdSIsLIzt27czyNqILTkJBFQszp133smjjz7KD8F3AVDdmh/3kTg2bdrEoEGDaPnGG7Tv2J6CBQuy8Ke5OClCvU6PM2jQIDp27Ejx4sU5UBzedJ4k+sB2pkc1zQ0caCPo8Xr/6rm9mVjMFl9H6ItxuB2czTpLvD2euMz/L6j+/bE9t7ja4Xb85bGSnckkO5PZd27fBZdbTVYKhRTK0636fztYhweE+/4cilyq5mWbM2H3BI6kHsHutjNp9yT63NnH37HkJhURGMFnjT/jmUXP4PQ4OZ5+nH7r+vFZk88wm8z+jici14kGxRow46EZ9FjVgyOpRwCYun8qh1MO80mjT4gKivJzQhERERERERERuZxUOC0iIuJHm+I2MWzrMN+4VflWdKjawY+JRERErr6Q9veQs/kwRpYTgCeDbuGb2fN5J+odPv74Y8qXL8/JkycZNmwYS7+eyZLolgzP2sHmzZvJycnBbDJhNpk4ceIEWVlZWDFz7tw59u/fj5ncZVu3biUzMxOzqYDvuCZMGIbBpk2b8Hg8mDHxVPAtTF4xn/79+zN9+nQKFCjA0qVL6dixIx/nq8MGVzwvvvgir732Gl26dKFv37788ssvREdHY7VaMQF2u51Nmzad1wk71mOneOniJCYmUrp0aUaOHOlb1rdvX5rs8PLxNzMpXLgw06dPJ3/+/Bw6dIhWrVpxf3oEJSPCGG/fy1133cXYsWMpnQwVoiNyz8Vkom9YLZ555hk+/fRTTp8+zd69e2nRogUdzOU55E7llltuYdeuXfTq1ct33FOnTvFWu85/SGkQ/HCdy/0S35SCrcGUiShDmYgyF1xuGAbprvTzulX/sWt1gj0BzwUK/P/IbbiJzYolNiv2ouuEWEPydK3+Y5H1748DLYGXcrpyEzGbzHSr2Y2eq3oCMOPgDDrc2oFCIYX8G0xuWpWiKzGwwUBfJ/SVp1Yyac8kXqz2op+Ticj1pGR4Saa2mMo7695h+cnlAGyJ30K7he0Y2WQklaIr+TmhiIiIiIiIiIhcLibDMAx/hxAREbkZnco4RbuF7UjLTgOgWoFqfN3saxWtiIjIDel42nG2nt1KqDWUyMBIIoMiiQqMyu3Y6/GScOurGGl23/op3my+tO9hkfMEZ70OCpiDaBZYiq4ht1HQEszwzB2scJ3mdmsBBueryy73Od7P2IrFZKJX6O2Ms+8h2ZvNf0Ju47AnjSXZJyllDmNkxN0EmCy+43yYuY11rjjq2AoxIF8d37E/z9rFPOdxMgwXNW0F+U/IbdwdWIwcw8sk+37WumJJMbIpZA6mlCUfv+YkUMIcymcRd9M3fQMxnnQaBxTn9bCavmM5DTevpq3ltDfrvOenkDmYkeF3k2nkMDxrB5tc8SR7sylpCeOJ4PJ0DK6CzWRmVfYZRmTtxMDgnbDa1A0onGc/v2THMjxrBwfdKRS1hPJSyK20CarAKtcZRmbtxEPerwBMwNPBFXk6uCIAAfdUJXqWOsdeKzxeD4mORF8h9YWKq1OyUy7LsaKDovMUUxcNLUrh0MK545AiFAgugMVs+esdyU3BMAzaLWzH3nN7AXiy0pP0q9fPz6nkZvfRlo/4bv93QO7FUePuH6e7OYnIP+Y1vIzfNZ4xO8b45oIsQQy6axDNyjbzYzIREREREREREblcVDgtIiLiB1k5WTyz6Bnf7T8LBhdkRssZ6tImIiI3pLTsNJrPbk6GK+O8ZaG2UFY8sQLviGVkjVkM2W4/JBQAU2ggkZO6EdjoVn9HkX/A4XZwNuss8fZ44jL/v6D698f23OJqh9txycexmqwUCimUp1v1/3awDg8Ix2T6317rcqNaf2Y9XZd3BXL/fMx/dD4l8pXwcyq5meV4c+i8rDPbzm4DICIwgpktZ1I8rLifk4nI9WjVyVW8te4tsnL+e9Fjp9s60b1md11MJiIiIiIiIiJynVPhtIiIyFXmNbz0Wt2LFSdXAGAz2/im2TdUL1jdz8lERESujHOOczSe1fiiy8ffP546lsok1u2rwmk/MheOoOD2TzGZzf6OIpeRYRiku9LP61b9x67VCfYEPIbnko8VYg3J07X6j0XWvz/W3VVuHIZh0HFJR35L+A2AR8o/wuCGg/2cSm52SY4knpz/JAmOBACqRFdhSvMpBFmD/JxMRK5HMakx9FjVgxPpJ3xzDYs35KN7PiI8INyPyURERERERERE5FKocFpEROQq+2LHF4zdOdY3HnzXYB6p8IgfE4mIiFwZhmGwNX4rMw/O5OcTP2Nw/sfPQsGFWPbEMixmC8ntP8O1cg/oY+rVFxxA2ButCXtZtx+/GXm8HhIdib5C6gsVV6dkp1yWY0UHRecppi4aWpTCoYVzxyFFKBBcQF0cryO/xv/K80ufB8BsMvPTIz9RLqKcn1PJzW5Hwg6eX/o8bm/uxVityrdi8F2D1RFfRP6VdFc6fX/py7oz63xzpcNLM6rJKMpF6meeiIiIiIiIiMj1SIXTIiIiV9HPJ36m1+pevvGzVZ/ljTvf8GMiERGRyy8tO415R+cx6+Asjqcfv+h6JcJKMKPlDCICIwDI2XOScy0/AGfOVUrqH17DYENOHKleF/cEFCPcHODvSJjyBVNwx6eYQ9WRUy7M4XZwNuss8fZ44jL/v6D698f23OJqh9txycexmqwUCimUp1v1/3awDg8IVwHkNeSln19iQ+wGAB4s8yCfNPrEz4lEYNbBWQzaNMg3fqfuOzxV+Sk/JhKR65nH62H09tFM3DPRNxdqC+XDhh/SpFQTPyYTEREREREREZF/Q4XTIiIiV8nB5IM8u/hZX0FJ/aL1+eL+L7CarX5OJiIicukMw2BP0h5mHZrFkmNLcHqc561jNVt93R+jg6KZ2mIqJfKVyLNOyvOjyf55J7i9VzTvrpwknkldTrrXBUCgyUIpSxhPB1ekQ3AlLCbz397XWY+dT7N24DI8vBx6G5WsUX+6/prsM/SNOEjp0qUpvOUMoyLuuaRzuWQhgeR7+3FCX7zfvznkumYYBumu9PO6Vf+xa3WCPQGP4bnkY4VYQ/J0rf5jkfXvjwMtgZfhrOTv2JO0h3YL2/nG3z/8PZWjK/sxkUjuv0nvrn+XuUfnArnvQb5+8GtuL3S7f4OJyHVtyfEl9F/fP8/FYq/c/gpdqnfB/A8+P4iIiIiIiIiIiH+pcFpEROQqSHGm0G5hO85kngGgZL6STH9ouq/DpoiIyPXKnmNn8bHFzDw4k/3J+89bHmoLpWW5lrSt1JbtZ7czePNg8gXkY/wD47mtwG3nre8+nkBS43eveNfpr+x7OdvhTj75JLczqsPhYO/evbz55pvU2J7Gu/nu/Nv7+jJrL9uaFKZYsWJkTVnFsPC7/nT9HxxH2fRwSZ555hk+euRFpkc1vaRzuVQZ4QYJy57nrjJ+LuCWG57H6yHRkegrpL5QcXVKdsplOVZ0UHSeYuqioUUpHFo4dxxShALBBbCYLZflWAKvrnyVladWAtC4RGNG3zfaz4lEwOl20mFxB9/7k4LBBZn18CwKBBfwczIRuZ4dTD5Ij5U9iM2K9c3dX+p+Pmj4ASG2ED8mExERERERERGRv0uF0yIiIldYjjeHrj93ZUv8FiC3Q960h6ZRPrK8n5OJiIj8e0dTjzLr4CzmH51PRk7GecsrR1embaW2tCjbglBbqG/+eNpxooKi/vTiobReX+P4YQO4Lr0z7cV8Zd9L0vP1eOyxx2jcuDGhoaG8/fbbvPTSS5QoUYJbPfk46E7FigkLZgpagngp5DbmOo+xMyeJCHMArYLK0im4CjWSZvLGG29QuXJl+nR6mbLWcNoHV6SGtQBj7LtZ54ojEAt1AgrzTtgdHPNk0CZtKRaLhVpEU8NWgA2uOPa4kyllCcNteKkbUISBYXdSyHJliy/sAR5GPnaclTWTaVSiEX1q96FMRJkrekyRP+NwOzibdZZ4ezxxmf9fUP37Y3tucfUfuzz+W1aTlUIhhfJ0q/7fDtbhAeGYTKbLcFY3vkMph3hi3hMY5H7N+F2L76hRsIafU4lAbGYsTy54ktTsVABqFarFhAcnYDPb/BtMRK5rKc4U+qzp4/uuD6BCZAVGNRlFyfCSfkwmIiIiIiIiIiJ/hwqnRURErrAhm4cw/cB0AEyYGNlkJE1KNfFzKhERkX/O5XGx4uQKZh6cybaz285bHmAOoFnZZrSt1JbqBar/64JDT0IaSfXexLBnX2rki/q9cPrRRx/lraZPMThfPZ40rSMpKYlq1apRt25dSpQoQalSpXjooYfo2rUrW7du5aOPPuL+++8nISGBzz77jK+//ppatWoxZ84cgoKCOHr0KMePH6ddu3aEhYXx3nvv8cQTT+B0Opk+fTqff/AxPYJuY32DKJo1a8a0Nz7kQJCDZcuW8fHHHzN48GBCQ0MZP348cz4ey7LoVliu0G2/vRicKZhNp167Mf7/EFazlWeqPEOX6l3IF5DvihxX5FIYhkG6K/28btV/7FqdYE/AY1z6hRch1pA8Xav/WGT9++NAS+BlOKsbwxu/vMHiY4sBqFu0LhOaTvBzIpFcG2I38PLyl/EaXgDaV2nPm3Xe9HMqEbne5XhzGP7rcL7b/51vLjwgnGGNhtGgWAM/JhMRERERERERkb9i9XcAERGRG9mPh370FU0DdKvZTUXTIiJy3TmdcZofDv3AT0d+ItmZfN7y0uGlaVOxDa0rtP7TTtJ/l6VQBPkGtyO93zSwuy55f3/lgDuFbulrqPNAfbxeL7GxsRQvXpy+ffvSoUMHevbsCcD8+fPZv38/5cuXp2rVqixevJhjx46xdu1aJkyYQMWKFXn55ZfxenMLsyZOnEh2djY1atTAZrMxc+ZMUlJSGDX6Sx4s8DiVK1fGbXixWCzUq1ePVq1acffdd1O0aFHWrVvHkiVL2HTsLHcFFL0i551jNXi//RHCgvKR4crtGu72uvlm7zfMOzqPHjV70LpCayxmyxU5vsi/YTKZiAiMICIwgsrRlS+4jsfrIdGR6CukvlBxdUp2yl8ey+62E5MWQ0xazEXXiQ6KzlNMXTS0KIVDC+eOQ4pQILjATfN36JXbX2HZ8WV4DA+b4zazJW4LdYrW8XcsERoUa0D3mt0Z+dtIAKbun8ptBW6jZbmWfk4mItczm9lG3zp9qRRdiUEbB+Hyukh3pfPy8pfpdUcvOlTtoDtXiIiIiIiIiIhco1Q4LSIicoVsT9jO4M2DfeOmpZvSuVpnPyYSERH5+zxeD2vPrGXmwZmsP7Meg7w3K7KYLNxb6l7aVGxD3aJ1MV/mrsjB7e7G8f1GcrYeAfeld469mOrVqzN1wU+EhoZSu3Zt3nzzTZKTc4vDV69ezf45K5me7x7+k283d911Fy1btmRB0AOM3LWTiRMn0rFjR1avXo3T6cTlcnF/TkH6hN5Oy4BVtG7dmmrVqhEQEADAV199xX/+8x9Gjhx5wSz9+vXjK6Munx7azpo1a6hZsybHDu+/IoXTOYEmZjaM43hRB7hy74qRPzg/SY4kAJKdyQzcOJCZB2fSt05f7ih8x2XPIHKlWMwWX0foi3G4HZzNOku8PZ64zP8vqP79sT23uNrhdvzlsZKdySQ7k9l3bt8Fl1tNVgqFFMrTrfp/O1iHB4TfEIVVpcNL80iFR5h9eDYAo7ePZkqRKTfEucn1r9NtndiTtIcVJ1cA8N6G97gl8hYqRVfyczIRud61rtCa8hHl6bmqJwmOBLyGl09+/YQDyQcYUH8AQdYgf0cUEREREREREZH/ocJpERGRKyA+K56eq3ri9roBqBxdmUF3DVLRgIiIXPOSHEnMPjybHw79QFxW3HnLC4UU4omKT/D4LY9TKKTQFcthMpmI/KILSQ3fxriChdOnTp1i+PDhOBwODh06RLX0QDoE5xZRnTx5ktttBXBjULx4cc6dO0dAVg6VQ6OoG1CYY8eOUbNmzTz7C8BMppFDmTJlsFgsjB8/Ps/y06dPXzTL2bNnuTO6EIUtIWRlZRESEoKTK3DuJggqUYhSb91LyM5R2N12DAySHElEBERgMplIzU4FYH/yfjou6ciDZR6k1x29KBZW7PLnEfGDYGswZSLKUCaizAWXG4ZBuiv9vG7Vf+xanWBPwGP8+d9Rt+EmNiuW2KzYi64TYg3J07X6j0XWvz8OtAReyuleNS9Vf4l5R+fh9rrZkbiDtWfWck+Je/wdSwSTycTguwYTkxbDsbRjOD1Oeq7qyYyWMy7L3TJE5OZWrWA1ZrScwWurX2Nn4k4AFsQs4GjqUUY2GUnRsCtzBxkREREREREREfl3VDgtIiJymTncDnqs7EGyM7dbZVRgFCObjCTEFuLnZCIiIhdmGAZb47cy8+BMVp5cidtwn7fOXcXuom2lttxT4h6s5qvzUdJSNIp8HzxNxttTMeyuK3KMlJQU4tb8xpB89SltuY8iUSF8mrkdAK/XiwUTRcwhnDmzh/z58+MKtXHQncqWnATqlilDbGysb12z2UyC10G24eHUqVMYhkHbtm1JSEigjq0w+9zJZBo5FDeHXjCLYRhclUusAgOInPAKT1UpQaMy9zJo0yDWnlkLQJorDYBbIm/hZPpJsr3ZACw9vpTVp1bz/G3P8/ytz+t9jdzwTCYTEYERRARGUDm68gXX8Xg9JDoSfYXUFyquTslO+ctj2d12YtJiiEmLueg60UHReYqpi4YWpXBo4dxxSBEKBBfAYrb86/O9XIqFFaNNxTZMPzAdgM+3f07D4g0v+10JRP6NsIAwRjQeQbuF7bC77ZzOPM2ba99kzH1j9GdURC5ZwZCCTHpwEkM2D+HHwz8CuRchPrXwKYY3Hq47uIiIiIiIiIiIXENUOC0iInIZGYbBgA0D2J+8H8i9NffwxsPVnVFERK5JadlpzDs6j1kHZ3E8/fh5y6MCo2h9S2va3NKGkuElr35AIPjJhrjWH8S54FdwXJni6QhTIHUDCl90eQlLKJxJZv369QwdOpTmr79O1Vur8tWLL9KmTRsa2Ipw8uRJ2rdvT2zZMLpm7CApNonZs2fz1Vdf0bVrV7bExXHLLbdQunRpNq5YfUXO428JDiD8g6exVSkBQNGwooy5bwyLjy1m6JahviLPw6mHCQ8Ip1J4JXYl7QIg25PNuJ3jmH14Nr3u6EWLsi10Nw25qVnMFl9H6ItxuB2czTqbp5g63h5PXGYc8fbcscPt+MtjJTuTSXYms+/cvgsut5qsFAoplKdb9f92sA4PCL8qf2e7VO/CT4d/wulxsj95PytOruCB0g9c8eOK/B3lIsvxQcMPeG31awCsO7OOsTvH8srtr/g5mYjcCAIsAQyoP4Aq0VUYumUobsNNsjOZF5e+yJt13qRtpbZ6/ywiIiIiIiIicg1Q4bSIiMhlNGnPJBYfW+wbv1X3LWoXqe3HRCIiInkZhsGepD3MOjSLJceW4PQ4z1unVqFatKnUhqalmxJgCfBDyv8ymUxEfNoR98EzuPefhhzPZdmvGRPx8fHs27eP/+0xacLEmTNncDgcmDFhMZkZEFaHZ555ho8++ogTJ06QkJDAG2+8wbm1u/g28n4az5lPnTp1+PLLL4mLi6Ndu3Z0euEF3u3fn/Xr1xMWFsbx48f57LPPCMBCUlISBw4cwGoy4/F42LRp0x+OD0eOHCE+Pp6Ll2P+C8EBBD95FyFP35P3fE0mWpRrQf1i9Rm2dRjzY+YDkO5KZ1fSLqoVqIbD7eBI6hEAEuwJvLn2TWYcmEHfOn25rcBtlzOlyA0l2BpMmYgylIkoc8HlhmGQ7ko/r1v1HwutE+wJeIw//7fPbbiJzYolNiv2ouuEWEPydK3+Y5H1748DLYGXcroAFAguQLsq7fh6z9dAbtfpe0vee010xBYBuL/0/XS6rRMT90wEYNzOcdya/1Yal2zs32AickMwmUw8WflJykeWp/ea3iQ7k3EbbgZvHsz+5P28Xfdtv3/GEhERERERERG52ZkMwzD8HUJERORG8MvpX+i2ohsGuT9a21RsQ//6/f2cSkREJJc9x87iY4uZeXCm784IfxRqC6VluZa0rdSWilEV/ZDwz3kS00lq/C7GuYzLsr9Tngz6pm8k08iha8httAgq7Vt2yJ3KuxmbcRte3slXm1q2ggCszj7DWPseduYkEWEOoFVgWbqFViPCHMhBdwpfZu0lxpOOGy/PBFfidlsBvsrayyrXGdINF6Ut+bg7oBjtgm/hg4xtpBrZdA+tznpXHFtzErgnoBh9w2qxwRXHx5nbCTFZ+Si8ASUtYZd+wgFWbDXKEP1TX0zWPy9eXHdmHYM2DspTgBlsDaZxicZsjttMcnZynvUfKf8Ir9Z6lYIhBS89p4icx+P1kOhI9BVSX6i4+vdu8ZcqOig6TzF10dCiFA4tnDsOKUKB4AJ/qwA61ZlKs9nNyMrJAmBIwyE8XP7hy5JR5HLweD10Xd6VTXG5Fy7ls+VjesvplA4v/Rdbioj8ffFZ8fRY2SPP56/bC97O8MbD9d5ZRERERERERMSPVDgtIiJyGcSkxdB+YXsyczKB3E6dE5pOwGax+TmZiIjc7I6mHmXWwVnMPzqfjJzzi44rR1embaW2tCjbglBbqB8S/n05e06S3OpDDHu2v6NcXyxmzAXDKbB6EObIv/ca23PsjN4+mqn7p/ouCgO4Nf+tVIyqyIKYBeR4c3zzIdYQulTvwrNVn1UHPRE/cLgdnM06m6eYOt4eT1xmHPH23LHD7bjk41hNVgqFFMrTrfp/O1iHB4RjMpn4YscXjN05FoASYSWY9+g8bGZ9PpJrR4ozhScXPElcVhwAFSIrMLXFVEJsIX5OJiI3EqfbycCNA1kYs9A3Vyi4ECOajKBawWp+TCYiIiIiIiIicvNS4bSIiMglSnel035he46nHwegaGhRpj80nfzB+f0bTEREblouj4sVJ1cw8+BMtp3ddt7yAHMAzco2o22ltlQvUB2TyeSHlP9O9rr9pDw7Ehwuf0e5PphNmKLCKLDkXSwlC/zjzXcm7mTghoEcST3im7OarbSp2IbYzFjWnF6TZ/0SYSXoc2cf7i1573X150rkRmcYBumu9PO6Vf+x0DrBnoDH8FzysUKsIRQJLULB4IL8lvCb7yKLZ6s+y5OVnqRIaBECLYGXfByRy2Hvub10WNQBlzf3fUWzMs34+J6P9TNMRC4rwzCYsm8Kw7cNx2t4gdzPZP3r9+eRCo/4OZ2IiIiIiIiIyM1HhdMiIiKXwOP18MrKV1h/Zj0AQZYgvm3xLZWjK/s5mYiI3IxOZ5zmh0M/8NORn0h2Jp+3vHR4adpUbEPrCq2JCIzwQ8LLI3vlblI6jVHx9F8xmzBFhJB/8btYyxT617vJ8eQwcc9Exu8an6fLdLmIcrSp2IYfD/+Yp7AaoG6RurxR5w0qRlX818cVkavL4/WQ6Ej0FVJfqLg6JTvlshwrOija17H69/8XDi2cOw4pQoHgAljMlstyrOud15tbYGcYBiaTCbPZ7OdEN56fDv9E/w39feM+tfvw3K3P+TGRiNyoNsRu4PU1r5PuSvfNta/Snt61e+uuDCIiIiIiIiIiV5EKp0VERC7B8G3D+XrP177xsEbDaFammR8TiYjIzcbj9bD2zFpmHpzJ+jPrMcj7Ec9isnBvqXtpU7ENdYvWxWy6MQquslfvIeX5z1U8fTEWM6bIUPIvfOeSiqb/6GjqUQZuGMiOxB2+ORMm2lZqS4l8JZiwewJp2Wm+ZWaTmTYV29Dt9m5EBkVelgwi4l8Ot4OzWWfzFFPH2+OJy4wj3p47drgdl3wcq8lKoZBCFAkt4ius/r3I+vf/wgPC1RX4An4vtDabzb5ia/lrgzYOYtahWUDue6evmn7FnUXu9HMqEbkRnUo/RY9VPfJceFinSB0+afQJUUFRfkwmIiIiIiIiInLzUOG0iIjIv7QgZgFvrX3LN+5crTM9avXwYyIREbmZJDmSmH14Nj8c+oG4rLjzlhcKKcQTFZ/g8Vsep1DI5Smcvda4Nhwk5dkRGHYX6KPtfwVaMRcIJ/+cN7GULHBZd+01vMw8OJMR20Zgd9t984VDCtO7dm92JOxg5sGZeAyPb1l4QDj/uf0/tK3UVp30RG5whmGQ7krP06165cmVbIrbBIAZMyaTKc+/Ef9WiDUkT9fqPxZZ//440BJ4ycfxp71799KvXz/q1q3LqVOneOCBB2jdujWGYXDmzBkKFChAUFDQ39qXYRi+/yyW3G7ebrebjIwMoqJUqOfyuHh+6fPsStwF5HZFn9lyJkVCi/g5mYjciLJysnhn3TusOLnCN1c8rDgjm4ykUnQlPyYTEREREREREbk5qHBaRETkX9ibtJfnljxHticbgMYlGjPy3pE3TBdPERG5NhmGwdb4rcw8OJOVJ1fiNtznrXNXsbtoW6kt95S4B6vZ6oeUV5f7aDzJbYbhTcoA1/nPx83GFByAtWZZor7pjjk85IodJy4zjkGbBrH2zNo8883LNufJik/y5a4v2Ri3Mc+ychHleOPON7ir+F1XLJeIXHtcHhctf2rpu8ine83utCrfytex+o9F1r/PpWSnXJZjRwdF5ymmLhpalMKhhXPHIUUoEFwAi9lyWY51JcyZM4d27doxf/581q5dy6+//sqECRNYu3Yt33zzDQkJCZQtW5YpU6YQHBxMYmIiX331FSVLlqRu3bqYzWYqVKhw0f2fO3eO4cOH88EHHwBw/Phx+vfvz5QpU/B4PL4C65vF2ayztF3QlmRnMgDVClTjm2bfEGAJ8HMyEbkReQ0v43eNZ8yOMb65IEsQg+4aRLOyupudiIiIiIiIiMiVpMJpERGRfyjJkcSTC54kwZ4A5BYBTW0xlbCAMD8nExGRG1Vadhrzjs5j1sFZHE8/ft7yqMAoWt/Smja3tKFkeMmrH9DPvOl2Up4bhXvHcQyHy99x/Cc4gJBnG5FvwJOYLFf+Yi7DMFh8bDFDtwzNU+QYGRjJ67VfJ8wWxqfbPuVkxsk82zUq0Yg+tftQJqLMFc8oIteG2YdnM2DDAADyBeRjyeNLCA8Iv+j6DreDs1ln8xRTx9vjicuMI96eO3a4HZecy2qyUiikUJ5u1f/bwTo8IByTyXTJx/o3xo8fz+zZs1myZAkJCQkMHToUq9XK5s2b+eGHH8ifPz8TJ04kNjaWXr168fbbb5OSkkKpUqXYu3cv27dv5+TJk+zatYuXXnqJwMBAqlSpwrBhw7BYLIwYMYLJkyfz22+/YbPZsNlsZGVlERoa+qe5LtS9+uzZs2RkZPxpofb1YGv8Vjov6+zrit6mYhv61+/v51QiciNbdXIVb617i6ycLN9cp9s60b1m92v64h4RERERERERkeuZCqdFRET+AZfHxQtLX2Bn4k4g95f+0x+aTunw0n5OJiIiNxrDMNiTtIdZh2ax5NgSnB7neevUKlSLNpXa0LR005u+G6Lh8ZIxcAb2736Bm6142myCQBvhHz9LSJur3805xZnCsK3DmB8zP8/8XcXu4s06b7Lq1Cq+3PVlnmIQq9nKM1WeoUv1LuQLyHe1I4vIVZbjzaH1nNa+Cym6VO9C95rd//X+DMMg3ZV+XrfqPxZaJ9gTfMWvlyLEGpKna/Ufi6x/fxxoCbzk41zIoEGDSEpKYuTIkWzfvp2lS5eybt06fv31V6pUqUJGRganT5+mY8eONGvWjIEDB7J69WoAunTpQmxsLAsWLCAjI4OsrCwCAwP55ptvyMnJ4bXXXqNVq1Zs27aNWrVq0b59ewoVKsSKFSvo3bs3EyZM4J133gHA4XCQkpJCsWLFLpjT4/EwadIkFixYwNy5cy+4/HrqXv3tvm/5eOvHvvF7Dd7jsVse82MiEbnRxaTG0GNVD06kn/DNNSzekI/u+ehPLzQSEREREREREZF/58a/b7OIiMhlYhgGH2z+wFc0bTaZ+eSeT1Q0LSIil5U9x87iY4uZeXAm+5P3n7c81BZKy3ItaVupLRWjKvoh4bXJZDETPuhpAh+oQerL4zEynZCd4+9YV15IANYyhYgc/zLWCkX9EiEqKIohdw+hRbkWDNo4iNisWADWx66n7YK29KjZg7mPzOWLnV/w0+GfMDBwe918s/cb5h2dR4+aPWhdobU66oncwGxmG/+5/T+8ufZNAL7b9x3tq7QnOij6X+3PZDIRERhBRGAElaMrX3Adj9dDoiPRV0h9oeLqP3bLvxi7205MWgwxaTEXXSc6KDpPMXXR0KI0KtHokjvrnz17ltKlcz9vZmZmYhgG8fHx9OzZkzffzH0uU1JSiIqK4r333qNSpUq+bUuUKEFmZiYAu3bt4vPPP8fr9bJ//35uueUWbDYbzZs3p3Llynz22WcAfPrpp6SlpeH1evntt9/Yt28fVatWZdGiRYwdO5a5c+cSExPDgAEDOHfuHHfffTfvvvsuZrOZ7OxsKlbMfV+Sk5ODzWbzZbmeiqYBnqnyDLuTdrP42GIAPtj0AZWiKnFrgVv9nExEblTlIssx7aFp9P2lL+vOrANg3Zl1PL3waUY1GUW5yHJ+TigiIiIiIiIicmNR4bSIiMjfNO3ANGYfnu0b97qjFw2KN/BjIhERuZEcTT3KrIOzmH90Phk5GectrxxdmbaV2tKibAtCbaF+SHh9CLznVgpuGkr621NxLvj1xu0+bTZBgJWwXq0IfbkZJovZ34loWLwhPz3yE6O3j2bq/qkYGDjcDj7a+hGLjy1mYIOBtK3Ulo+2fMT2hO0AJDuTGbhxIDMPzqRvnb7cUfgOP5+FiFwpzcs2Z8LuCRxJPYLdbWfS7kn0ubPPFTuexWzxdYS+GIfbwdmss3mKqePt8cRlxhFvzx073I6/PFby/7F353FR1fsfx1+zMMCwI7KIKKACmvu+5VauYWoF5i0rW8yy1MzUbmX6s8Ut00wtW25pLpBpuURa7ruI4h4oouyb7MM6M+f3BzU3Llmp6Lh8no9HDzjf71k+Z0hmmHmfzynLJbcslzOXz1jGGjo3vO7gdEJCAm3atAEgJyeHjIwM+vTpQ3JyMkeOHKF9+/ZUVFQ9zxmNRvR6vWXbgwcP0qNHD/Lz8/n000/p2LEjjz32GC+88AINGjSw7N/V1dWyTWZmJt7e3vj4+BAYGMiuXbto1qwZhw4dom/fvmRnZ7N8+XKmTJlC8+bNmT9/PitWrODZZ58lPT2dwMBAS8h648aquxDs3buX6OhoXnnllet6LG4mlUrF9C7TOZ9/nnN556gwVzBh5wQiQiOuOewvhBB/x1nnzMd9PmbRsUV8ceoLAC4VXuJfP/6L97u/T+8Gva1coRBCCCGEEEIIIcSdQ4LTQgghxD9wMP0gc6PnWpYfbPQgTzR7wooVCSGEuBNUmCrYlrSNiLgIYjJjaszr1DoGBAwgPDiclh4tUalUVqjy9qN2ssd10bOUh3WhYOxnmA3lUFJu7bJqjUpvi6aRF65Ln7dal+kr0dvomdJxCgMCBjB9f1XoDOBEzgnCN4XzbItn+azvZ+xI3sEHMR+QYcgA4GzuWZ766Sn6+/dnYruJ1HOsZ83TEELcAGqVmpfavMSEHRMAWBO3hifueQJPvafVarLX2uPv4n/FgLOiKBRWFNboVv3HoHVWSRYmxVRj278KbP9T33zzDba2tgA0b94ck8lEv379WLFiBWPHjiU/P5/27dsze/ZsnnvuOV577TUmTJhA69atOXLkCM8//zzp6ekoisJDDz2Ep6cnRUVFODk5AZCamkr79u0tx8vMzKRjx44AGAwG1Go1O3bsoLi4mPHjx7N161ZWrVrF/v37adq0KVu2bGHAgAE89dRTFBYW4uDgQKtWrfD39+f06dPcc889fP/99xiNRsvjebu8ltHb6FnQawGPbnqUosoiMgwZTN49mU/u/wStWt5SF0LcGBq1hgntJhBSJ4Rp+6ZRaizFUGlg3I5xjG09ltEtR6NWWf+CSSGEEEIIIYQQQojbnbzLK4QQQvyN5KJkJu2aZPkwvIVHC6Z1mXbbfOArhBDi1pNSlMLa+LWsP7+e3LLcGvMNnRsSFhTG0MZDcbF1sUKFdwbbHvdQN2YeJct3Ujx7HYrRBKWV1i7r2ultUbs74vzeY9j2bXVLvxZpVbcVkaGRfHHqC5adWEaluRKj2cgnxz9h68WtzOg6gw1DN/DVqa/48tSXlJnKANhycQs7k3cyqvkoRt0zCr2N/q8PJIS4rfTx68M9de7h9OXTlJvKWXZiGW92ftPaZV2RSqXCxdYFF1sXQtxD/nQdk9lEdmm2JUj9e6i6nsP1XwBSp04dy/dNmjShSZMmAIwdO5axY8cCVQFne3t71Go1U6dOZd++fRiNRlxdXfHy8qJp06ao1Wr69evH/fffz+7du3nooYcAKC8vJzc3F7PZDFR1tQ4ICACgadOmmEwm5s6dS2hoKL6+vsTExDBu3DieeOIJ4uPj6d+/PyEhIeTk5GAwGHBycsLX15e8vDwSExPJyMjAaDTy3HPPWR7P20kD5wbM6jGLsduqHutD6Yf46NhHTGw30cqVCSHudAP8BxDgHMC47eNIM6QBsDh2MXG5cbzb/d079jWyoihUFpdQnl9IeV4B5fmFVBQZUEwmFJMZVCpUajVqGy06Z0ds3VywdXXGzs0Zrb2dtcsXQgghhBBCCCHEbUSlKIpi7SKEEEKIW5Wh0sDjPz5u6ZZY174ua0LXWLUrmhBCiNuTyWxiT+oeIuIi2Je6D4Xqf4ppVBr6NOhDWFAYnXw6SSexWmYuLsWw+CcMn2wBRYGy2ydArdLbgp0NTm+HY/9IV1Sa2+v/jYT8BKbvn05sdqxlTIWK4cHDmdBuAkUVRcyPmU9UYlS17Tz1nkxsN5FBAYNuu7CdEOLK9qXuY8wvYwDQqrRsHLaR+k71rVzVzWMyVV2Qq1arr+p32+9v4apUKsxmMyqVqtr2Z8+e5YcffqBBgwZcuHCB9PR0Zs6cibu7OxUVFaSlpVFaWkpSUhLNmjXDz8+PiIgIPvnkE/z9/Xn33XcZMmQIn3zyCe3atSMzM5P+/fuTn5/P1q1bCQoKYvny5fzyyy989tlnlk7YAMnJybz22muMGzeOrl278vLLL9O7d29WrFjBkCFDeOqpp2rnwbOSJbFLWHp8qWV5fq/59G3Y14oVCSHuFnlleUzaNYnDGYctY41dG/NR74/wc/azYmXXz1RRQdGlNAoSU8j7NYGChCTKLueDWo1aq0GlVqGYzJiNpqrnQKXqIh9UalRqFWqttmods4K5shKVWo29Zx3cggJwDQrAJaA+Dr5eqDUaq56nEEIIIYQQQgghbk0SnBZCCCGuwKyYmbhzItuStgFgo7bhqwFf0bJuSytXJoQQ4naSU5rDunPrWBu/lnRDeo15T70njwQ9wsNNHpYLc24C8+UiSlbsxLDsZyivRDGUW7ukP6dWobKzQV3PHYexA7Ef1hmVnY21q7pmZsVMRFwEC2IWUGIssYx76b2Y1mUaPer34GjmUWZHz+bM5TPVtm1dtzVTOk6huUfzm122EOIGUBSFp356iqNZRwEY0mgI73R/x8pV3Xp+7wINVSHrv3P58mUiIyO5dOkSRqORN954Azc3t6s6ZkFBAY6Ojmh+C5lNmzaNoKAghg8fjo1N1XPQ1KlT2blzJ25ubtjb2/PFF1+QlZXFmDFj+OKLLwgMDOTQoUOMGzcOFxcXvvzyS+rXr4+iKLftRTBmxcxL215iT+oeAPRaPaseWEUj10ZWrkwIcTeoNFcy/8h8vjn7jWXMWefM3J5z6VqvqxUruzqKomBIyyLzyEnS98VgSM9Co9NhNpkwV9TuRa0aWx2oVJiNRlwbN6Ret3bUbXsPdm5yNychhBBCCCGEEEJUkeC0EEIIcQX/21XqnW7vMKTxECtWJIQQ4nahKArRGdFExEWwPWk7RsVYY51u9boRHhxOj/o90Kq1Vqjy7qaYzJRvO4FhcRSVsRdBxa3RhdrBFoxm7Aa0wWFMf2zaBFi7olqVXpzOzIMzLeGz3w0MGMjUjlNxtXXlh/M/sPDoQi6XXa62zpBGQxjfdjx19XVvZslCiBvgSMYRRm0ZBYBapWb9kPUEugRauaoby2Aw8M033/Djjz8SEhJCaGgo9957L6WlpeTl5VG3bl1sbGyuKmD8e/dqlUqFWq3GbDZTXFyMk5PTFfdhNpstQezfw9n/JJj9u8rKSpKTk0lJSaGgoIBBgwaRlpbGsmXLeP3119Hr9QDUrVuXzz77jKFDh/7jfd/KCsoLGLF5BMlFyQD4O/uz6oFVOOmcrFyZEOJu8f3575l5YCYV5gqg6vlzYruJPNHsiVv6wpTCi6mk7DxIxqHjGEvLQFEwV9b8+/hG0tjqUExm7Oq6Ua9bO3x7dsS+ztVdXCSEEEIIIYQQQog7iwSnhRBCiD/x86WfmbhzomV5ZLORTO4w2YoVCSGEuB0UlBewIWEDkXGRXCy8WGPezdaNoU2GEtYk7La/tfKdxJiUQ/lPRyn97iDGsymobDQ3rxO1SoXKwRal0oSuSzD2D3XCtm8r1G6ON+f4VqAoClGJUcw6PIu88jzLuKutK5M7TCY0MBRDpYHPTn7GijMrqDT/N9Cu1+oZ3XI0I5uNRKfRWaN8IUQtef7n59mfth+A/v79mddznpUrurHeeecdTpw4wahRo/j1119p27YtXbt2Zf78+axatQqTyURYWBhvv/02Z86cYe/evbi6umIymWjRogXe3t44ODhgb29/xWNcvHiR999/n/vvv5+wsDBLsBqqwtEqlQqTyURFRcVf7ud3RqMRjUZzVYG80tJS4uLieOaZZzh06BBa7Z1zcVhcbhyP//g4ZaYyAPr49eHD3h+iVv3z4LkQQlyPk9knmbBjAlmlWZax0MBQ3u7yNnZaOytWVp2popLMw8e5sGEbJVmXMRuNYL41PopUa7WgArfgQAIG96HOPU1QXcUFREIIIYQQQgghhLgzSHBaCCGE+B9xuXGMjBpJqbEUgC4+XVhy/xLpBiqEEOJPKYrCqZxTRMZH8lPiT5YwzR+19WxLWHAY/Rr2k7DnLc5cUEL5jpOU/RBN5dEEzJeLUdnrUMoroaIWOqPZ61Bp1ChllWh83dF1C8FucAd0XYNR2dpc//5vI3llecyNnsvGCxurjXer1423uryFr6MvSYVJzDsyjx3JO6qtU9+xPpM6TKKPX59busOeEOLKTuWcYsTmEZblbwd/S4h7iBUrunHS0tJ47733GDRoEIMGDbKMz507l9jYWL744gsKCwt55ZVXePbZZ7G1teXFF1+kVatWtGjRguzsbM6dO4fRaKSgoIA333wTvV7Pxx9/jLe3N0OGDKFXr16cOnWKL774goEDB9KvX78/rSU5OZmdO3fSv39/PD09LeO/h6x/D1hfye8dsX9/S/n371UqFRUVFUybNo3169fz5Zdf0q1bt9p4+G4pmy9sZuqeqZbl8W3H82yLZ61YkRDibpNdks0rO1/hePZxy1hT96Ys7L0QH0cfK1YGFYXFXNiwjeTtBwAwld2ki1GvkcbOFq2dLQGD++B3X1c0urvr7zEhhBBCCCGEEOJuJsFpIYQQ4g/yyvIYsXkEqcWpAPg5+bH6gdW42LpYuTIhhBC3mpLKEqISo4iIi+Bs7tka8w42DoQGhhIeHE6QW5AVKhS1wVxUivFkEpXHE6k4dA5TUg7mnELMeQZQFFS2WlCrgD+GzBQwKShllWCrRe3mgNrTBW0jb3SdgrBp2RBt0/p3XVD6Svam7mXmgZmkGdIsY/Zae8a1GceIkBFo1BoOpB1gTvQczuefr7ZtJ+9OTO44Wf6NCXGbGr99PNuTtwPQq34vFt23yMoV3Rhnzpzhyy+/5NlnnyUkJISSkhL0ej0PP/wwvXv35qWXXgJg+PDhDBw4ED8/P5YsWcL06dNp0aIFGzduZNasWUyePJkhQ4bw0UcfUV5eTq9evThz5gzx8fGMHz+exMREVqxYwbPPPou3tzfvvvsu8fHxBAcHM3r0aJo3b86XX37J5s2beeONN2jbtq0l9Hwlv89/++23HDlyhNmzZ//tNmazGXUtdO/8u+NYy+zDs/nm7DcAqFDxyf2f0NW3q5WrEkLcTSpMFbx36D2+O/edZczdzp35vebTzqvdTa/HWFrGhU3bufTjLhSzGXNlLVxwehNpbHWodTYEjxiMb48O0oFaCCGEEEIIIYS4C0jrTCGEEOI3leZKJu2aZAlN67V6FvVZJKFpIYQQ1STkJxAZF8nGhI0UVRbVmA9xDyE8OJxBAYNwsHGwQoWiNqmd7NF1DUbXNRiHFwZUmzMXl2LOLEAprQCjCcVsRqXRgFaNytEejZcrKjsJR/+d7r7dWT9kPYuOLWLl2ZUoKJQaS5kdPZuoxCimd51Ol3pd+Hbwt3wb/y2LYxdTUF4AwKGMQ4RtDCMsKIyXWr+Eq52rdU9GCHFVxrYZy47kHSgo7EzZyfHs47Sq28raZdU6f39/9u7dS3h4OAB6vR6A4uJiXF1dLeulpaVRv359kpKSaNmyJV5eXgDEx8fTp08fOnToAMDBgwfZv38/2dnZeHl5sXr1atq2bYufnx9qtRo7Ozvq1KnDK6+8glarZcWKFezYsYOAgACio6PZvXs3MTExvPTSS0yaNIk1a9awefNmvLy8ePzxx2ndujUA5eXlqFQqdDodx44d49KlS0BVd2qttubbyr/351Cr1ZhMJjQaDcnJyRiNRgICAq76cSszlfHclufQqDV4O3jj4+CDj4MP3g7elv+cdc43PVw9sf1EzuaeJSYzBgWFyXsmExEaga+j702tQwhx99JpdLzd5W2aujdl1uFZGBUjuWW5PLvlWaZ2nEp4cPhN+d1oNhpJ+mUf57/9CbPJhLmi8oYf80YwlVdgKq/g7NfrOL9uC01HDsOzffNb8uIdIYQQQgghhBBC1A4JTgshhBC/mRs9l8MZh4GqrlGz7p1FI9dGVq5KCCHEraDCVMG2pG1ExEUQkxlTY16n1jEgYADhweG09GgpH7DeJdSO9qgd7a1dxh1Bb6NnSscpDAgYwPT90y2dpU/knCB8UzjPNH+G0S1HMyJkBIMCBrEkdgkRcRGYFBNmxUxEXARRiVG82PpFwoPDsVFLYF2I20GQWxADAgYQlRgFwKJji/i83+dWrqr26fV6XnjhBd544w18fHxo3Lgx//73v3nooYc4cuQIffr04ezZs9jY2NC8eXOOHDmCs7Mz9vZVzzGFhYW4uLjg6OgIwLlz55gyZQp+fn6cOnWKhx56iG7dunHw4EG0Wi0uLi6UlZXx9ddfk5GRQWZmJiqViieffJLOnTvToEEDxo4di7OzM7NmzcLZ2ZmXX36Z2NhYvv/+e/z8/NBoNPzf//0fERERjBw5km3btjFixIhq55Wfn4+iKLi5uQFUe/2j0WgAOH78OGlpaYwePZotW7bg5ORE165dKS4uZuvWrfj5+dGhQ4c/7VKt0+g4ffk0RuXKnUv1Wr0lVP3HQPUfl201ttf/Q/wDG7UN83rOY/jG4WSVZlFQXsArO15h+cDl2GntavVYQghxJSqViuEhw2nk2ohXd71KblkuRsXIO4fe4WzuWf7d6d/oNLobdvz885eI/ehrKosMmMorbthxbqbfA9QnlnyDk78vrV4aiX0dN2uXJYQQQgghhBBCiBtAgtNCCCEE8F38d6z+dbVl+aU2L9G7QW8rViSEEOJWkFKUwtr4taw/v57cstwa8w2dGxIWFMbQxkPlDgVC1IJWdVsRGRrJF6e+YNmJZVSaKzGajXx64lO2XtrKjK4zaOPZhtc7vU5YUBhzoudwIP0AAIUVhcw6PIvIuEgmd5hMN99uVj4bIcQ/Mbb1WLZe3IpJMXEo/RCH0w/T0aejtcuqdY899hhNmzYlMTERo9GIoig8//zzvPDCCzz44IPY2trywQcf4O3tzZkzZ2jfvj06XVXgLT09HW9vb8uynZ0dDRo04IEHHiA0NNRyjPT0dGxtbfHx8eHBBx+kS5cuDB48mIMHD3Lq1CkAkpOTsbGxwWw2A/Djjz9SUFBASkoK7u7uLFmyhPDwcL744gt0Oh3nz5/n0KFDfPrppzRqVP3C4gMHDhAVFcVbb73F0aNHWbx4MTNmzKBVq1asW7eOnj170q5dO/r27YvRaOSbb75h4MCBdO3alYqKCtasWUNYWBgdOnSoEZoGKKks+cvQNECJsYQLBRe4UHDhiuu427lXC1P7OPjg5eBVtaz3xsPeA41a8w9+iv/lYe/BB70+YNSWURjNRs7mnmXmwZm80+0duYBOCHFTtfduT0RoBOO2j+Ns7lkAvjv3HQn5CczvNZ+6+rq1ejxTRSXxEZtJ3rb/tu0w/XdM5RUUnLvE3kmzCBk5lPq9O8vvdiGEEEIIIYQQ4g6jUn6/h6IQQghxlzqWdYyntzyN0Vz1gWy/hv2Y13OevCEuhBB3KZPZxJ7UPUTERbAvdR8K1f9k0qg09GnQh7CgMDr5dEKtqhn0EUJcv4T8BKbvn05sdqxlTIWK4cHDmdBuAg42DiiKws7kncw7Mo+koqRq2/es35NJ7Sfh7+J/U+sWQly9t/e/zbpz6wBoXbc1ywcuv6v/Hjt16hR6vZ7AwEAAZs2axT333MPgwYMBiI2N5Y033sDDwwNvb28CAgIYM2YM77//PuXl5UyfPh1PT0+OHz+Oj48Pc+fO5ciRI6xatYrXXnuNZs2a8eSTT2JjY0OjRo2YM2cOJpOJhIQELl++zLx582jWrBkrV66kTZs2ANSvX5/169fToUMHFEVBpVJRWlrK448/zuLFi1m0aBGLFy/m0KFDXL58mUWLFrFs2TL69+/P+PHjMRgMTJo0CRcXF0JDQwkPDycyMhIfHx9atWqFr68vLVu2rBagNitmkgqTyCjJIL04nQxDxn+/L8kgw5BBqbH0uh9vrUqLp96zRrfqP3atdtY5/+n/k5Fxkcw8ONOy/EanN3g05NHrrkkIIa5WmbGM6Qems/nCZsuYp70nC3ovoEXdFrVyjPzzl4hd+DUVRcV3bGj6f2lsdTg19KXVy9J9WgghhBBCCCGEuJNIx2khhBB3tQxDBhN2TLCEpkPcQ5jZbeZd/SG9EELcrXJKc1h3bh1r49eSbkivMe+p9+SRoEd4uMnDeOo9rVChEHeXRq6N+Hrg10TERbAgZgElxhIUFNbErWFH8g6mdZlGj/o96N2gN918u7Hy7Eo+PfEphkoDALtSdrEvbR+PN32c0S1H46RzsvIZCSGu5PmWz7MhYQNGs5HY7Fj2pO6hR/0e1i7Lapo3b15teerUqdWWW7duzbvvvsvZs2e5dOkSPj4+ALi4uFj+lp04cSKhoaEEBweTnZ2NXq9Ho9Hg7u5OTk4OlZWV2NjY4OjoSGBgoCUg/bvi4mI8Pf/7eqesrAxfX18AVCoViqJgb29PXFwcpaWlpKam0qtXL8xmM6tWrWLQoEE4OVX93vX29qZnz558+umnzJ49m+DgYPLy8ti/fz8dOnQgOTmZAwcOsGrVKpo1a2Y5plqlxt/F/4oXwCiKQmFFIemGqlD1/37NMGSQVZKFSTH95eNtVIykGdJIM6RdcR29Vl8jTO3t4E0Dpwbc53cf25K3ATA7ejYh7iG09mz9l8cUQojaZqe14/3u79PUvSnzY+ZjVsxklWbx1E9PMa3LNIY0HnJd+0/atp9fV3x/1wSmf2cqr6Dg/CX2TZ5D20nP4t600d9vJIQQQgghhBBCiFuedJwWQghx1yo1lvJk1JOW21i62bqxJnQN9RzrWbkyIYQQN4uiKERnRBMRF8H2pO1/ejv4bvW6ER4cTo/6PdCq5dpTIawhvTidmQdnsid1T7XxgQEDmdpxKu527kDVBRCLji1i/bn11brFu9u5M67NOIY2HopGrbmptQsh/pn3Dr3H6l9XA9DUvSlrQtfIXR2uQ3l5OSdPniQvLw9nZ2dSU1N56KGHOHHiBM888ww6nY7IyEguXLjAzJkz8fPzw9PTk6ZNm/LEE0/wwgsv0KpVK8aMGcM333zDyy+/TG5ubo2LjIcNG0a3bt3Iz8+ncePG6HQ63n77bbZt20aDBg0ICgpi06ZNeHl50aNHD3bv3o2LiwsnTpzg0Ucf5ZdffqFevXqEhYUxZMgQHnvssVq9kNlkNpFdmm0JUv9ZuDqvPK/WjgegU+sIbRRKoEsgXg5eVWFrvTce9h7yHCSEuCn2p+3ntV2vUVhRaBl7rOljvNr+VWzUNlwuvYyrres/+p1kNpo485+1pO2LuetC0/9LrbMh5LEhNOjbzdqlCCGEEEIIIYQQ4jpJcFoIIcRdSVEUpuyZQlRiFFB1a97P+n1Ge+/2Vq5MCCHEzVBQXsCGhA1ExkVysfBijXk3WzeGNhlKWJMw/Jz9bn6BQogaFEUhKjGKWYdnVQu5udq6MrnDZEIDQy1hu9OXTzP78GyOZR2rto+m7k2Z0nEK7bza3dTahRB/L6c0h4HfDaTMVAbA/F7z6duwr5WruvMpikJ0dDS//voraWlptGnThv79+3Pp0iXCwsLQarW0adOGTz/9FKPRiKIolt+1ZrOZ6dOn8/XXX7NixQp8fX159NFH0ev17Nq1C5PJRHBwMEeOHKGgoIDBgwdz7NgxVCoV+/btY968eaxbtw6NRsOrr75K8+bNeeqpp276HaBKjaVkGjLJKMkgvfi3QPXv35dUhatLjaXXfRytSoun3tPSrfr37tV/7GLtrHOWO2AJIWpFcmEy43aM43z+ectYB68O+Dn5se78Otp6tuXz/p9jo7a54j4qigzEzFlGUXL6XR+a/p1GZ4N317bc83QYaq1cDCOEEEIIIYQQQtyuJDgthBDirvTFyS9YcHSBZfmtzm8RHhxuvYKEEELccIqicCrnFJHxkfyU+JMlmPVHbT3bEhYcRr+G/dBpdFaoUgjxd/LK8pgbPZeNFzZWG+9WrxtvdXkLX0dfoOrf/JaLW/gg5gMyDBnV1u3v35+J7SbKnUaEuMXMj5nPf079B4BAl0DWPbhOOvRawf+Gow0GAykpKTRt2rTGuqtWreK1114jNTWVCxcu0LhxY2bNmsXkyZNJSkqiY8eOZGRk8OuvvzJkyBDi4uIA2LRpEytWrCAiIoKysjImTpxIz549GT58+E09139CURQKKwprdKtON6STacgk3ZBOVkkWJsV03cfSa/U1wtT/u2yrsa2FsxJC3A0MlQbe2PsG25K2/en8e93fY3CjwX86V5qTx8G3F1BRZEAxXv/vtzuJWmeDs399Orw+Bo2tvG8ghBBCCCGEEELcjiQ4LYQQ4q6zO2U3L217yXL79rCgMKZ1mWblqoQQQtwoJZUlRCVGEREXwdncszXmHWwcCA0MJTw4nCC3ICtUKIS4FntT9zLzwEzSDGmWMXutPePajGNEyAhL2LLUWMpXp77iy1NfVrtgwlZjy6jmoxh1zyj0NvqbXr8Qoqb8snwGrBuAodIA/HWgS9x6ysvLOX78OH5+fvj4+HDhwgVmz57Np59+Snp6OsOHD0elUjFy5Ei0Wi3r1q1jw4YNpKWlMXXqVMLCwhg8+Pb8eZvMJrJLs1l2Yhnfxn9rGW9WpxmKopBhyKh2t4Tr4W7nXhWi1nvj4+iDj4MPXg5eVeFqvTce9h5ywYEQwsKsmFl2YhmLYxfXmAtyC2Lt4LU1Ot2XZOZw8O2FVBQbwCwfIf4ZtY0WRz8fOr45Fq2dXNAihBBCCCGEEELcbiQ4LYQQ4q5yoeACj21+jOLKYqCqs+jn/T7HRnPl21IKIYS4PSXkJxAZF8nGhI0UVRbVmA9xDyE8OJxBAYNwsHGwQoVCiOtVUlnComOLWHl2peWiOICWHi2Z3nU6TdyaWMYyDBnMj5lPVGJUtX146j2Z2G4igwIG1QiNCCFuviWxS1h6fCkA9R3rs2HYBmzU8vfa7eaPXat/ZzQayczMRKPRUFFRQUJCAr179yYlJYWvvvqK++67jy5dulip4tqhKAqv7HzF0t3VTmPHN4O+Idg9mFJjKZmGTDJKMkgvrupabfm+JIMMQwalxtLrrkGr0uKp96zRrfqPXauddc7ynCfEXSS/LJ/+3/WnxFhSY27pfUvpXr+7ZbkkO5cDb86nsrgE5OPDv6Sy0eLk603HaS9JeFoIIYQQQgghhLjNSHBaCCHEXaOwopDHNj/GxcKLAPg4+LD6gdXUsa9j3cKEEELUmgpTBduSthERF0FMZkyNeZ1ax4CAAYQHh9PSo6UERoS4QxzPPs70/dM5n3/eMqZVa3mm+TOMbjkanea/t9A+mnmU2dGzOXP5TLV9tK7bmikdp9Dco/lNq1sIUVNxRTED1g2goLwAgGldphEWFGblqsSN8mcB69tdcUUx//rxXyQWJAJVFwCsCV2Di63LX26nKAqFFYWkG6pC1X/8mmnIJN2QTlZJFibFdN016rX6GmHq/1221UgIUIg7xe6U3YzdNvZP53wcfNj6yFYAyi7ns//N+VQUFkto+h9S22hxauhLxzfHotHJhV5CCCGEEEIIIcTtQoLTQggh7goms4mx28eyL3UfUNX1acWgFYS4h1i5MiGEELUhpSiFtfFrWX9+PblluTXmGzo3JCwojKGNh/5taEUIcXuqNFXyxakvWHZiGZXmSst4gEsAM7rOoI1nG8uYWTHzw/kfWHh0IZfLLlfbz5BGQxjfdjx19XVvWu1CiOq+PPUlH8Z8CICX3ovND22WEKe4rVzIv8CIzSMs3V27+3Zn8X2LUavU17Vfk9lEdml2Vbfq/wlX/z6WV55XG6eAu517VYha742Pow/eem+8HX8LV+u98bD3QKPW1MqxhBA3VkllCa/uepW9qXtrzKlVao4/cRxjWTn7X59LaXYeitlshSpvX2obLR6tm9Jmwqg77mIgIYQQQgghhBDiTiXBaSGEEHeF+Ufm85/T/7Esz+05lwH+A6xYkRBCiOtlMpvYk7qHiLgI9qXuQ6H6nzYalYY+DfoQFhRGJ59O1x1UEULcHhLyE5i+fzqx2bGWMRUqhgcPZ0K7CTjYOFjGiyuK+ezkZ6w4s6Ja2Fqv1TO65WhGNhtZrVu1EOLmKKksYdC6QZYLGyZ3mMzIZiOtXJUQV+eXS7/wys5XLMtjWo1hbOs/7/ham0qNpWQaMskoySC9OJ2Mkt9C1n/4vtRYet3H0aq0eOo9a3Sr/mPXameds4QIhbiFFFYUcir7FLHZsfyY+COZhkwGNxrMW53eJGbe5+SePoe50mjtMm9LGlsdgUPup9HQvtYuRQghhBBCCCGEEP+ABKeFEELc8TZd2MTre163LD/X4jnGtR1nxYqEEEJcj5zSHNadW8fa+LWkG9JrzHvqPXkk6BEebvIwnnpPK1QohLA2s2ImIi6CBTELLN0+oapz7bQu0+hRv0e19ZMKk5h3ZB47kndUG6/vWJ9JHSbRx6+PBL+EuMlWnl3JrMOzgKrOt1EPRaG30Vu5KiGuzoKYBXxx6gvL8qI+i+jl18t6BQGKolBYUVijW3W6IZ1MQybphnSySrIwKabrPpZeq68Rpv7fZekmL4T1xUds5tJPuzGVV1i7lNuaWmdD6/FP4tnmHmuXIoQQQgghhBBCiL8hwWkhhBB3tNM5p3nypycpN5UD0Kt+Lxb2WShdR4UQ4jajKArRGdFExEWwPWk7RqVmF6xu9boRHhxOj/o90Kq1VqhSCHGrSS9OZ+bBmexJ3VNtfGDAQKZ2nIq7nXu18QNpB5gTPYfz+eerjXfy7sTkjpMJcgu64TULIapUmCoIXR9quUhqfNvxPNviWStXJcTVMZlNjPllDAfTDwLgZOPE6tDVNHRuaOXK/prJbCK7NJsMQ0aNcPXvY3nlebVyLHc796oQtd4bH0cfvPXeeDv+Fq7We+Nh74FGramVYwkhaso4fIITS77BXFH59yuLv6Wx1dHlnYk4+npZuxQhhBBCCCGEEEL8BQlOCyGEuGPllOYwfNNwskqyAAh0CWTloJU46hytXJkQQoh/qqC8gA0JG4iMi+Ri4cUa8262bgxtMpSwJmH4Ofvd/AKFELc8RVGISoxi1uFZ1UJerrauTO4wmdDA0GrdpI1mI9/Gf8vi2MUUlBdYxtUqNWFBYbzU+iVc7Vxv5ikIcddad24db+9/GwAnnRM/PfwTzjpnK1clxNXJK8tj+KbhlosAGrs2ZuWglbd9B/VSYymZhkwySjJIL04noySjRtC61Fh63cfRqrR46j1rdKv+Y9dqZ52z3BlCiGtQejmPvZNmSafpWqb38qD73CmotXJBtxBCCCGEEEIIcauS4LQQQog7UoWpgqe3PM3x7ONA1Yfsqx+49bs6CSGEqAo5nso5RWR8JD8l/kSZqazGOm092xIWHEa/hv3QaXRWqFIIcbvJK8tjbvRcNl7YWG28W71uvNXlLXwdfauNF5QXsCR2CRFxEZgUk2XcWefMi61fJDw4HBu1zU2pXYi7VaW5kqHfDyWpKAmA0S1H83Kbl61clRBX7/Tl0zzx4xNUmKvCiQP8BzCnx5w7OuyrKAqFFYU1ulWnG9LJNGSSbkgnqySr2nPstbLX2v9poPqP39tqbGvhrIS4cyiKwuH/W0T++UsoJrO1y7mjqHU2+A/sSdDwB6xdihBCCCGEEEIIIa5AgtNCCCHuOIqiMP3AdNadWwdUdQdcet9Suvp2tXJlQggh/kpJZQlRiVFExEVwNvdsjXkHGwdCA0MJDw4nyC3IChUKIe4Ee1P3MvPATNIMaZYxe60949qMY0TICDRqTbX1z+edZ070HA6kH6g2HugSyOQOk+nm2+2m1C3E3Wrzhc1M3TMVAL1WT9TDUbjbuVu5KiGu3vpz65m2f5pleVL7STx5z5NWrMj6TGYT2aXZNTpV//41w5BR7W4R18Pdzr0qRK33xsfRB2+9N96Ov4Wr9d542HvUeA0gxJ0seccBfl3+/Z92m76Ql83aszHYarU80aILbvYON62uszlpbIg/jqPOlqdadsNBd3te9KDW2dB5+nic/X3/fmUhhBBCCCGEEELcdBKcFkIIccdZeXYlsw7PsizLh5FCCHFrS8hPIDIuko0JGymqLKoxH+IeQnhwOIMCBuFgc/M+sBVC3LlKKktYdGwRK8+uROG/b4u09GjJ9K7TaeLWpNr6iqKwM3kn847Ms3S+/V3P+j2Z1H4S/i7+N6FyIe4+ZsXMwxse5nz+eQCebPYkkzpMsnJVQlybmQdmEhkfCYBGpeGzfp/RwbuDlau6tZUaS8k0ZJJRkkF6cToZJRk1gtalxtLrPo5WpcVT71mjW/Ufu1Y765zv6C7h4u5RejmPvZNm/WloGmD+wa0EP9CHxMREGmaUMDio1Q2p41xuJtN2/kC5qZIX2vWmb2AzZuzeQK+R4ezfv58uRgd6NQy+Ice+ku/OxrDi5AGcbe2Zc98jeDu6XPO+9F4edJ87BbVWW4sVCiGEEEIIIYQQojZIcFoIIcQd5WD6Qcb8PMZyq9cHGz3IO93ekQ+2hBDiFlNhqmBb0jYi4iKIyYypMa9T6xgQMIDw4HBaerSU3+NCiBviePZxpu+fbglkAmjVWp5p/gyjW45Gp9FVW7/CVMHKsyv59MSnGCoN1bZ5vOnjjG45Gied002rX4i7xbakbUzYMQEAW40tPz70I556T+sWJcQ1qDBVMGrLKE5knwCquiBHhEbg7eBt5cpuX4qiUFhRWKNbdbohnUxDJumGdLJKsizvE10Pe639nwaq//i9reb27I4r7i7R7y8l98x5FJP5T+fn7P+Jp995g5iYGEp2HWVYSFsMleWUVFbgZqdHq9aQW2ogpSgPD3tHfBxdUKlUKIpCXlkJtlotxRXlZBYX4OfsjrOtPcmFuRSWl+Khd7KsH3H6MA73tqFTp04seX06L7bvzcfR2xn43BPs2bOH9qU6OtTzp9JkQqfVkpifg7POHj9nt2rvERSVl3GxIAe9jY4A17qo/zCnKApJhbnkl5VQx94RXydXCsqrLrZwtdNb1iuuKKPMaOStnev5NHIVy5Ytw/tSLvc2CMLF1h6A/LISkgtzcbd3wMfRtdpx/oxaZ0OjIffTaFi/a/5ZCSGEEEIIIYQQ4saQ4LQQQog7RnJRMiM2j6CgvACAFh4t+M+A/8iHVkIIcQtJKUphbfxa1p9fT25Zbo35hs4NCQsKY2jjobjYXntnJyGE+KcqTZV8ceoLlp1YRqW50jIe4BLAjK4zaOPZpsY2OaU5LDq2iPXn1lfrWO1u5864NuMY2ngoGrXmptQvxN1AURRGbB7B6cunARgePJw3O79p5aqEuDaZhkzCN4VbXgu38GjBVwO+qnGxjqg9JrOJ7NJsS6fq34PVv4esMwwZ5JXn1cqx3O3cq0LUem98HH3w1nvj7fjbsoMPHvYe8hpBWFVe/EWi31uCuaLyiuv8b3Bao1az/NdoXF1dMeTk0ayuD6eLcmjRogUXL17EvqSSqV0HsvncCXZfTsJgMODk5ERISAgHDhygsrKSoKAgvL29SUxMxM5Qzug2PXljzw9MnTqVtm3bMnbsWEwmExkZGdSpU4fS0lKGBLRg06XT2Oh0FBcX065dOzIyMtAVljLt3sE46ez47NhufkmJp127dmRnZ1OclsXLHfrQysuP2IxklsbsQFPHhYYNG3LhwgWSkpJwdXVFURSeCGrHoMYtOZmVwvQDP+Lg4EBFRQVRUVEsX76cjRs3UlxczIjGbfg1J50jl1Np3bo1KSkpkFfElK4D8Xf1+MvHW2Oro+eiaegc5e5ZQgghhBBCCCHErUSC00IIIe4IhkoDj//4uKVbYF37uqwJXSNdyIQQ4hZgMpvYk7qHiLgI9qXuqxYyhKrblPdp0IewoDA6+XRCrVJbqVIhxN0sIT+B6funE5sdaxlToWJ48HAmtJuAg03NsMPpy6eZfXg2x7KOVRtv6t6UKR2n0M6r3Y0uW4i7xr7UfYz5ZQwAWpWWjcM2Ut+pvpWrEuLaRGdE89zW5yxdkMOCwpjWZZqVq7q7lRpLyTRkklGSQXpxOhkl1UPWGYYMSo2l130crUqLp96zRrfqP3atdtY5yx13xA2hKAoH3phP4cWUv1zvj8HpyM+/wsXPhx9++IGZM2eyYsUKXn31VcaPH8/Ro0dp3rw5mzZtYt5bM3C2tefjyG+4fPky99xzD2lpaYwYMYK5c+cSEBBAVlYWHTt2ZP369UyYMIGmTZuyfv16XF1dOXHiBBkZGTzxxBNs3ryZNWvWcPjHrdw3/GFGjBiBVqslPz+fDh068P7773Pk2434Ortx2deVr7/+mmPHjhEQEEBiYiLhDz3M650HMDvmF9ZERNCkSRNiY2MJDg7mlVdewcvLi5deeomH+w7k89Anmbl3E6OmTSE3N5fz588zZ84cUlJSyMjI4LvvvuPTTz/l+eef58033+To0aMEBwezf/9+Xhs7js9Dn8ROa3PFx1Jto8Xvvq40fWJYbf84hRBCCCGEEEIIcR0kOC2EEOK2Z1bMTNw5kW1J2wCwUdvw1YCvaFm3pZUrE0KIu1tOaQ7rzq1jbfxa0g3pNeY99Z48EvQIDzd5WC50EULcEsyKmYi4CBbELKDEWGIZ99J7Ma3LNHrU71FjG0VR2HJxCx/EfECGIaPaXH///kxsN5F6jvVueO1C3OkUReGpn57iaNZRAIY0GsI73d+xclVCXLsVZ1YwJ3qOZXlG1xk81OQhK1Yk/oqiKBRWFFpC1H/8mmnIJN2QTlZJliUMfz3stfZ/Gqj+4/dydzVxLbJjzxK78CtM5RV/ud4fg9NHjx5l+fLlPPvss0Tv2YdvowB27txJy5YtycjIwM7OjmPHjjFmzBh27drF9u3bMZvNDBgwgGA3T05np2Fvb09padWFB3q9nri4OPr378+ZM2cYN24cnTt35sVRzxLg6sGxzKQawel3332XZs2aYVdaSd2gQLZu3Yq7mxv2OlvOxMfx+uuvs3fTT2SXl7B77x6++eYbFi5cyDvvvEOnTp0YEjqYVh71+PVyBgazEZVKRUpKCvfddx/9Herxyal9pKam0qZNGxISEti+fTtLly4leut2yk1GtG7OnDhxgjZt2nDx4kW0Wi0HDhxg5syZNM4spW/gPX/5eKp1NvT44N/Y1XGtrR+lEEIIIYQQQgghrpPW2gUIIYQQ1+uT459YQtMAb3d5W0LTQghhJYqiEJ0RTURcBNuTtmNUjDXW6VavG+HB4fSo3wOtWv4kEULcOtQqNSNCRtCrfi9mHpzJntQ9AGSWZDJ221gGBgxkSocp1LGvY9lGpVIxIGAAPf168tWpr/jy1JeUmcoA2HJxCzuTdzKq+ShG3TMKvY3eGqclxB1BpVLxcpuXGbVlFAAbL2zk6RZPE+gSaOXKhLg2jzd9nJM5J4lKjALg3YPvEuwWzD0efx3AE9ahUqlwsXXBxdaFEPeQP13HZDaRXZpt6VT9e7D695B1hiGDvPK8vz1WqbGUCwUXuFBw4YrruNu5V4Wo9d74OPrgrffG2/G3ZQcfPOw90Kg113y+4s6jmM2c+fq7vw1N/1FoaCgvv/wyDz74IA1LVTzQpCUNQnuTkpLC0KFDLZ3Rc3Jy6Ny5M7t27QIgMjKSZ1p2Y2hwGzbEx7Ih4xzPP/88TZo0wc7ODltbW5o1awZZ//330MqrPlO7DeKtnd/XqGPfvn14m22Y0e8Rhn23BBcXF5xdXKhbty5eXl58GxFJ5EPPs+7Xo6xatYpevXqxcOFChgwZwv/93/8xulV3+jdqjslsptRYwbKju/nyyy8ZPXo0r46fwFPPPsPBgwdRLhfQwtPXctwRzTuRW2pA3akZmZmZDBgwwHLOeXl5dOnShZiv1/79Y28yE7dmE63GPv6PH3shhBBCCCGEEELcWJJSEEIIcVv7+dLPLD2+1LI8stlIhjQeYsWKhBDi7lRQXsCGhA1ExkVysfBijXk3WzeGNhlKWJMw/Jz9bn6BQghxFXwcfVh832KiEqOYdXiWJeQUlRjF/rT9TOkwhdDAUEtwAqq6Q77Q+gWGNRnG/Jj5liBcuamcT45/wrpz65jYbiKDAgZV204I8c+1925P13pd2Z+2H7NiZknsEub1nGftsoS4JiqViuldpnM+/zzn8s5RYa5gws4JRIRG4G7nbu3yxDXQqDWWjtBXUmosJdOQSUZJBunF6WSUVA9ZZxgyKDWW/u2xcstyyS3L5czlM386r1Vp8dR71uhW/ceu1c46Z3lNche5fCqeioLiq9pGURTs7OzQaDRo1FBhMuLi4kJlZSU2NjaW9SIjI4mJibEs5+fnE2Cnp8JkZPmpg5w8e4YvvviCDz74gOLiYr7++mvs7OyoNP+zDu0GgwFHnS02Gg0mU9U2Go0GR0dHSktL0apU2Gq0OOnsKCkpwcnJCQBHR0eKi4txsau6eFGjVuOos+OBJi356NNPOXLkCJMnT+b555/nvffeY2DjFuxJOlft2GXGSnxcXKioqKh2zhs3buTkyZN4qdV//ziaTGQeOk7540OwdXH6R+cshBBCCCGEEEKIG0uC00IIIW5bcblxvLH3DctyF58uTGw30YoVCSHE3UVRFE7lnCIyPpKfEn+ydFj9o7aebQkLDqNfw37oNDorVCmEENdGpVIxKHAQXep1YW70XDZe2AhUXSjy773/ZvOFzbzV5S18HX2rbeft4M2cHnN4NPhRZkfPtgSaskqymLpnKmt+XcOUjlNo7tH8pp+TEHeCl9u8zP60/UBVV/fnWjxHsHuwlasS4trobfQs6LWARzc9SlFlERmGDCbvnswn938id2a5Q9lr7fF38cffxf9P5xVFobCi0BKi/uPXTEMm6YZ0skqyMCl/HTg1KkbSDGmkGdL+spY/C1T/8Xtbje31nK64hSRu3I6prPyqttm8eTMffvghmzdvZtiwYZyIOUr5/no89NBDfPLJJ/jYO2GntSE+NxMAT4f/hoJVQJahCC/fenh4ePDuu+9yn39TzmQlERhYdbcIrVpDeXk5Op2Os5fT+e5sDEkFl/9xfefPn8fe3p6GjRux/OQBDqde4K2XnuD06dMA7N+/n549e/LV3AVUmIycy80ktSifVzr1RZNv4ODBg8yZM4d69erx06bNfBX6FPtTEiw1bUs8gllRSNy/n5deeonPP/8cd60tTjo7fr2cAcCSAY/9s2JVKpK3H6DxsH7/+PyEEEIIIYQQQghx48i7r0IIIW5LeWV5jN8x3tKFx8/Jj7k958oHi0IIcROUVJYQlRhFRFwEZ3PP1ph3sHEgNDCU8OBwgtyCrFChEELUHjc7N9679z0GBQ5i5oGZlgDSvrR9DPthGOPajGNEyAg0ak217dp6tWX1A6v54fwPLDy6kMtlVSGQ2OxYRmwewZBGQxjfdjx19XVv+jkJcTtr7tGcPn592J68HYCPj33MovsWWbkqIa5dA+cGzOoxi7HbxgJwKP0QHx37SC4Mv0upVCpcbF1wsXUhxD3kT9cxmU1kl2ZbOlX/Hqz+PWSdYciw3C3jr5QaS7lQcIELBReuuI67nXtViFrvjY+jD956b7wdf1t28MHD3qPGayBx6ynNySMvPvGatt27bQePP/4433//PcOHDycqKorXXnuNTZs2sXz5coxGIy93786aNWvYt29ftW099I5kpqVTVFTE7NmzOXLkCGtHfUBFRQUA9RxdOXLkCO+99x7PT5xAeno6WbF7/nFtvjoHFixYwLfffsucOXN4esSDDB06lNatWzMkqDVz585l+/aq1wuHDx8m6N6+JG3fztmcdB5o3JKlS5eyYcMG3n//fbr7NsLBxhZfp6qaxo0bx9p69Th8+DC7d+/mxIkTbNmyhc8++4zy8nKe69SJLVu2kFyUR4Db37+eN1dWcumn3TQacj+qf9ClWgghhBBCCCGEEDeWSlEUxdpFCCGEEFej0lzJmJ/HcDjjMAB6rZ5VD6yikWsjK1cmhBB3toT8BCLjItmYsJGiyqIa8yHuIYQHhzMoYBAONg5WqFAIIW6sksoSFh1bxMqzK1H479spLT1aMr3rdJq4NfnT7Yorivns5GesOLOCSnOlZVyv1TO65WhGNhspXfmFuArxefE8suERy7/DbwZ9Q6u6raxclRDXZ0nsEpYeX2pZnt9rPn0b9rViReJ2VmosJdOQSUZJBunF6WSUVA9ZZxgyLM0IrodWpcVT71mjW/Ufu1Y765xRqVS1cFbiWsWt2sjFn3ahGP+6U/nvFh/ZjrlJfTIzM+mucePXnHRy6+hp3749n332GWq1mmHDhtG7d28qKio4duwY3377Le5qHZ0H3M/x48cZ6dOUdj7+RJ6JZndxBqNHj8bOzo6IiAi8vb359ddfeaROI36Ij0XXwJuOHTtSUVHBZ599xkMPPcSvv/5KnaJKiuo44OfnR+WZRMZ3vJ+H1y7hhXEv89knnzKrx1De3v0D3frex4ABA8jKyuLLL7+kta0bo9v0YPGRHZysyOepp57Cz8+P8+fP8/nnn/N/HQag02iZvH8D2dnZNGnShAlNOhNUx4vUojxe2/4dPfvdT0BAAMeOHaPo10QSCnPo3b8fffv2xWw2c/z4cSIjI3mn8wM0dvf8R4+rxs6WVmMfx7Od3HlGCCGEEEIIIYSwNglOCyGEuO28d+g9Vv+6GgAVKhb2XkjvBr2tXJUQQtyZKkwVbEvaRkRcBDGZMTXmdWodAwIGEB4cTkuPlvKBuBDirnA8+zjT90/nfP55y5hWreWZ5s8wuuXoK4agkwqTmHdkHjuSd1Qbr+9Yn0kdJtHHr4/8HhXiH5q8ezJRiVEAdPLpxOf9PrdyRUJcH7Ni5qVtL7EntarbqlwkLm4kRVEorCis0a063ZBOpiGTdEM6WSVZmJR/FrT9K/Za+2qBai8HL3wcfKqFq201trVwVuLPmE0mto9+E2Np2T/eJr+shF1J8dhqtPRuGIKNRsO+5HOkFuXj71KHe+r6sjspnoS8LDRqNQ2c69C5fiBmRWF/8nmcbe3p1TAYzW+dlY9lJBGdlojRbMbTwRm1SoWTzo7e/sGoUHEsI4nU4nwqTSYCXOuQVJCLo86O7n6N2Z10jjJjBfc2CMLd3oGzOWmczk6nsZsnrb39KK2sYFdSPHGXM3CwseXeBk0IruNtOZfzuVnsToqnsLyUunonutRvxMpTB9mfksC0adNo164dk0aN5qP+IyzbFFWUEZN2kdyyEnQaDb0aBqNSqdibdJ743AxUqPBzdqOTbyDeji5X9fNwCwmk07SXr2obIYQQQgghhBBC1D4JTgshhLitfBf/HdMPTLcsv9zmZUa3HG29goQQ4g6VUpTC2vi1rD+/ntyy3BrzDZ0bEhYUxtDGQ3GxvboPCoUQ4k5Qaarki1NfsOzEsmpdpANcApjRdQZtPNtccdsDaQeYEz2nWvAaoJN3JyZ3nEyQW9ANq1uIO8WlwksM+X6IJdT3Rb8v6OjT0cpVCXF9CsoLGLF5BMlFyQD4O/uz6oFVOOmcrFyZuBuZzCayS7Mtnar/2K3696955Xm1cix3O/eqELXeGx9HH7z13ng7/rbs4IOHvQcataZWjnW3yT2bQMzczzCVlVu7lFuCyWxmyNrFpKWlkZaWRlhYGI/Va0Zn38CbcnyVVsN9n7yDVm93U44nhBBCCCGEEEKIPyfBaSGEELeNY1nHeHrL0xjNRgD6NezHvJ7zpCufEELUEpPZxJ7UPUTERbAvdR8K1f9U0Kg09GnQh7CgMDr5dEKtUlupUiGEuHUk5Ccwff90YrNjLWMqVAwPHs6EdhNwsHH40+2MZiPfxn/L4tjFFJQXWMbVKjVhQWG81PolXO1cb3D1Qtze3t7/NuvOrQOgdd3WLB+4XP4+FLe9uNw4Hv/xccpMVd1h+/j14cPeH8prb3FLKjOWVYWqSzJIL04no6RmyLrUWHrdx9GqtHjqPS0dqv/Ywfr3MWedszwH/IkzX60j6ee9IB8FWryzZxMHUhPwcnDmoZC2hDZpddOOrbGzpcXoR/Hu3PqmHVMIIYQQQgghhBA1SXBaCCHEbSHDkMHwTcMtXU9D3EP4esDX6G30Vq5MCCFufzmlOaw7t4618WtJN6TXmPfUe/JI0CM83ORhPPWeVqhQCCFubWbFTERcBAtiFlBiLLGMe+m9mNZlGj3q97jitgXlBSyJXUJEXISlcy6As86ZF1u/SHhwODZqmxtavxC3q7TiNB5Y/4Dl4trF9y3+y39vQtwuNl/YzNQ9Uy3L49uO59kWz1qxIiGujaIoFFYUWoLUf+xYnWnIJN2QTlZJVrXXQNfKXmtfLVDt5eCFj4NPtXC1rca2Fs7q9qEoCjtefJuKgiJrlyL+wLNDC9q+8rS1yxBCCCGEEEIIIe5qEpwWQghxyys1lvJk1JOczT0LgJutG2tC11DPsZ6VKxNCiNuXoihEZ0QTERfB9qTtGBVjjXW61etGeHA4Per3QKvWWqFKIYS4vaQXpzPz4Ez2pO6pNj4wYCBTOkyhjn2dK257Pu88c6LncCD9QLXxQJdAJneYTDffbjekZiFud+8deo/Vv64GoKl7U9aErpHOvOKOMPvwbL45+w1QdSeDT+7/hK6+Xa1clRC1z2Q2kV2abelU/cdu1b9/zSvPq5Vjudu5V4Wo9d74OPrgrffG2/G3ZQcfPOw90Kg1tXKsW0Fxaib73/gAc0WltUsh8kw053OzaOfjj7ejMz+eP4mbnZ5RrbqjUsHWC6eJu5xBudFIj4ZBdPdrcsNqOZyayLaLZ6ird2ZUq25o1Df3dYPGVsd9n7+HWnPn/L8mhBBCCCGEEELcbiQ4LYQQ4pamKApT9kwhKjEKqLo152f9PqO9d3srVyaEELengvICNiRsIDIukouFF2vMu9m6MbTJUMKahOHn7HfzCxRCiNucoihEJUYx6/CsaiEfF1sXpnSYQmhg6BVvI68oCjuTdzLvyDySipKqzfWs35NJ7Sfh7+J/A6sX4vaTU5rDwO8GUmYqA2B+r/n0bdjXylUJcf0qzZU8t/U5YjJjgKrnkYjQCHwdfa1cmRA3X5mxrCpUXZJBenE6GSU1Q9alxtLrPo5WpcVT72npUP3HDta/jznrnK/4Wu5Wk7hpB+cif8RsrHmh9M2UX1bCizu/ZfHixTz9xJM0cfck7KXn2bBhAw86+PLj+ZO4twrh4Ycfpry8nP+b/Dr/GTyqVo59ODWRuQd+AhW83nUQbX0a8mLUN7w87d989tlnPFe/JU09fGrlWP+Uxt6W9q+Nxi0k8KYeVwghhBBCCCGEEP8lbeOEEELc0r489aUlNA3weqfXJTQthBDX4FTOKSLiIvgp8SdLsOiP2ni2ITw4nH4N+6HT6KxQoRBC3BlUKhWDAgfRpV4X5kbPZeOFjUDVhSv/3vtvNl/YzFtd3vrT4JtKpaJ3g9508+3GyrMr+fTEpxgqDQDsStnFvrR9PN70cUa3HI2TzummnpcQtyoPew9GNB3Bf079B4CPj31MH78+d1THUHF3slHbMK/nPIZvHE5WaRYF5QW8suMVlg9cjp3WztrlCXFT2Wnt8Hfxv+IFZIqiUFhRWKNbdbohnUxDJumGdLJKsjAppr88jlExkmZII82QdsV17LX21QLVXg5eNQLWthrb6zndWpNzKv6aQ9OKopBbasDeRkd+WQk5pcU0cHbH1U4PQIXJSEF5KS629lzMv0yF2UjTOj4oKCTkZVNpNtHItS72NjpMZjN2dnY8/PDDPPH44ygK2NnZodFoSMzP4ZK5lJ9WreLJJ58kLS0NdzsHADKKC8gqKcLHwYW6Dk6WunJKi3HS2ZFTUkxuaTGBbnWx1dhwqeAyJcaKauvvSznP2++9Q1lZGQeWf4u/q4fl+Gq1mt97S1WaTJzPy8KsKDR288RWW/XxaZmxkqKKMlxs7bmQl41WraGhSx1srqNbtLnSSH7CJQlOCyGEEEIIIYQQViQdp4UQQtyydqfs5qVtL6FQ9VQVFhTGtC7TrFyVEELcPkoqS4hKjCIyPpIzl8/UmHewcSA0MJTw4HCC3IKsUKEQQtz59qbuZeaBmdUCOPZae8a1GceIkBF/Ge7MKc1h0bFFrD+33vKaGKpuMz+uzTiGNh4q4VAhgPyyfAasG2C50OC97u8xuNFgK1clRO2IzYpl1JZRGM1V4ccHGz3IO93euW063gpxqzCZTWSXZls6Vf9vyDrDkFHtbiHXw93OvapDtd4bH0cfvPXeeDv+tuzgg4e9x015Dbd9zFtUFBZf07ZLY3ZyIC+VoqIi3N3dadSoETExMQz2v4fwZh0YHbUCWxcn0tLSaNmyJSaTibSERAAaBDfB3t6emCNHGNG0A30D72Hy4c1cvHgRB3t7vBycqbCzoaioCIAHHniA9957jz59+mAwGOjm0YCUojzSlXKCgoKIj4/HT23Pq537sThmBwmVxeTm5uLl5UXDhg3Zu3cvarWaZs2a4erqyrlz56iHLQ83bcu7h7bw0UcfUV5ezvvvv095eTk5OTl4eXmRl5fHZwMe51hGMl8c30NQ83vQaDScPBbLyOaduT+gGc/9tAJ7ZycyMzNp3bo1JpOJ9IRE3uj2AMF1vK/5Z1O37T20m/TsNW8vhBBCCCGEEEKI6yPBaSGEELekCwUXeGzzYxRXVr2539azLZ/3+xwbjY2VKxNCiFtfQn4CkXGRbEzYSFFlUY35EPcQwoPDGRQwCAcbBytUKIQQd5eSyhIWHVvEyrMrqwWgW3q0ZHrX6TRxa/KX25++fJrZh2dzLOtYtfGm7k2Z0nEK7bza3ZC6hbidLIldwtLjSwGo71ifDcM2YKOWvx/FnSEyLpKZB2dalt/o9AaPhjxqxYqEuDOVGcuqQtUlGaQXp5NRUjNkXWosve7jaFVaPPWeVeHqP3Sq/v2rt4M3zjrnv7xAIjYrlrnRcwl0DWR82/F42HtUm68oNrDjxbdRjH/dZftKXv05kk/XR5CVlYW/vz/Z2dm0bt2a0NBQAgwQayzgyJEjbN++HXd3dw4cOMC8efP46aefUKlU5Ofn06RJEwYPHkxbHPkp64IlOB3k7sWy779lzpw5ZGRksGTJEoKDgzlw4AA//vgjCxYsYP78+QwbNozY2FjatWvHwoUL+eWbSDKKC9h/4hiHDh3innvuITMzk379+vHLL79UdR4vLKRLly588MEHfPDBB/Tu3ZuvvvoKs9nMuXPnOH78OK+99hqnT59mzJgxBBaY+OXyJbZs2YLBYKC8vBxfX18GDhxIOxs34mwr2bRpE4cPH0av19O4cWOOHDnChKdHs+yBJ9Co1df0+Nq6OtN7yYxr2lYIIYQQQgghhBDXT4LTQgghbjmFFYU8tvkxLhZeBMDHwYfVD6ymjn0d6xYmhBC3sApTBduSthERF0FMZkyNeZ1ax4CAAd5MXo8AAQAASURBVIQHh9PSo6V0qBNCCCs4nn2c6funcz7/vGVMq9byTPNnGN1yNDqN7orbKorClotb+CDmAzIMGdXm+vv3Z2K7idRzrHfDahfiVldcUcyAdQMoKC8AYFqXaYQFhVm5KiFqh6IovLXvLX5I+AGoeu74T///0NqztXULE+IuoygKhRWFNbpVpxvSyTRkkm5IJ6skC5NybWHlP7LX2lcLVHs5eFVbnr5/OkcyjwDgrHNmcofJPNjoQcvf+jkn44hd8BXG0rJrOv7vwenKykruv/9+vPXOjHj+GYYOHUqPe++lcZMmxMfH869//YtdG6NIK85n4cKF+Pr68vRjI7HX2vD8qxPo27cv/Xr3wbWux58Gpzds2EDv3r1ZuHAhHdu2o8xYycCBA/nwww9p164dBoOBOnXqcPr0abp160ZCQgIJCQns2bOHp556iqYePpzNScfe3p7S0qpQu5eXF3Fxcfj7+5Ofn8/8+fMpKytjwbvv4+fkTkzGJUtw+siBgyz9/DMURWHiC2PRqNW8PnMGwcHBPDh4MK3btCEmJobevXuTeOwkueYKkpOT6dy5My/7tyPQre41Pb4qjYb7Pn0Hrd7umrYXQgghhBBCCCHE9dFauwAhhBDij0xmE5N3T7aEpu00dnzU5yMJTQshxBWkFKWwNn4t68+vJ7cst8Z8Q+eGhAWFMbTxUFxsXaxQoRBCiN+1qtuKyNBIPj/1OctOLMNoNmI0G/n0xKdsvbSVGV1n0MazzZ9uq1KpGBAwgJ5+Pfnq1Fd8eepLykxVQZgtF7ewM3kno5qPYtQ9o9Db6G/iWQlxa3DUOfJ086f5MOZDAD49/ikPNnoQW42tlSsT4vqpVCre7Pwm8XnxnM09i9FsZOLOiUQOjqzRZVYIceOoVCpcbF1wsXUh2D34T9cxmU1kl2ZbOlX/b8g6syTzT/92/1+lxlIuFFzgQsGFv123sKKQN/e9yZenvmRh74X4u/hTdDEVU0XlVZ/j/1q9ejXPtb6XTr6B/HvlSubMmYPWpuqODkajkbXffkvksOcZv2U1vXv35s033+SFtj0JdPPk3a++4u2338akvvKF20OCWlP42/feDs40cfdiyJAhJCcnM3LkSEsQPDc3l/bt25OQkADAqlWrmHbvYLrUb8SnR3dxRjHw7LPP4u/vj42NDVqtlsaNG1NyMdVyrF4NghnVujujNy+3jJUaK+nVqxdPPfUUEzr1xUlnx5f/+Q8HDx7E/FvfqcuXL3N4334iHxrD+K2rOXfuHP7+/lwuLb7m4LRGZ0PhpVTcmza6pu2FEEIIIYQQQghxfSQ4LYQQ4pay8OhC9qXusyzP7D6TEPcQK1YkhBC3HpPZxJ7UPUTERbAvdR8K1W8io1Fp6NOgD2FBYXTy6YRadW23jhVCCFH7bDQ2vNDqBfo17Mf0/dOJzY4FILEgkSejnmR48HAmtJuAg43Dn25vr7XnhdYvMKzJMObHzCcqMQqAclM5nxz/hHXn1jGx3UQGBQySuwuIu86jwY+y/PRyLpddJrMkk8i4SEY2G2ntsoSoFXZaOxb0XsDwTcPJL88nuzSbV3e+yuf9P8dGbWPt8oQQv9GoNXg7eOPt4H3FdcqMZWSWVHWoTi9OJ6OkZsi61Fh61ce+UHCBf23+F/v/tR9DRjaK6fo7X5eUlOBlY4ujzhaDwYBarcbe3h6AoqIidCo1dlobyk1GHBwcMBgMONk64fQn6/8T5aZKXFxcMBqN2Nj893fb0qVLOX36tGU5Pz8fV5cAsg1F7MlJ4vTp08yYMYPVq1dTWlpKhw4dsLOzo8D894+BpW5XL5xt7SgpKcHOzg6ttuojVIPBgIONLRq1Gq1ag9FoRKPRWILV10JRFMou513z9kIIIYQQQgghhLg+EpwWQghxy9h0YRP/Of0fy/JzLZ5jgP8AK1YkhBC3lpzSHNadW8fa+LWkG9JrzHvqPXkk6BEebvIwnnpPK1QohBDin2rk2oivB35NRFwEC2IWUGIsQUFhTdwadiTvYFqXafSo3+OK23s7eDOnxxweDX6U2dGzOXP5DABZJVlM3TOVNb+uYUrHKTT3aH6zTkkIq9Pb6Hmu5XPMOjwLgM9Pfs7DTR6WLuzijlHPsR6ze8zmhV9ewKyYOZp1lA+OfMDUjlOtXZoQ4irYae1o6NyQhs4N/3ReURQKKwprdKtON6STacgkuSiZ7NLsP9220lzVZbo0+++7Wv8THTt25OOodzmXm0mnTp1ITU2lsLAQLy8vAFRUXajn4+jCmTNn6Ny5M999sQIvB2e6dOlCamoqBQUF6PX/7Lm4oYsH+/fvZ9iwYSxatIjGbp6YFYUL+VXn62r73/2ogOTCXFq1akVWVhZLly6lR4MmZFQWW+rTqjWUl5ej0+mIybiE6696sgyF1Y75e93frtuMnVZH526diY+Px2g0Xu/Dd0XmykrK8gpu2P6FEEIIIYQQQgjx1yQ4LYQQ4pZwOuc00/dPtyz3qt+Ll9q8ZL2ChBDiFqEoCtEZ0UTERbA9aTtGpeYHd93qdSM8OJwe9XugVctLfCGEuF2oVWpGhIygV/1ezDw4kz2pewDILMlk7LaxDAwYyJQOU6hjX+eK+2jr1ZbVD6zmh/M/sPDoQi6XXQYgNjuWEZtHMKTREMa3HU9d/bXdRlyI201YUBhfn/6adEM6uWW5rPp1Fc+2eNbaZQlRa7rW68rLbV5m4dGFAKw8u5LmHs0JDQy1cmVCiNqiUqlwsXXBxdaFYPfgGvPxefE8vOHhamNalZZGro14vdPrALUWyh08eDAZGRmkpKSwcMYMZs2aRTvvhhT+z3p9/Jvy3nvvERUVRXl5OXl5ecyYMYMZM2Zwr18TzhuL/9Hx7vMPYfzy5YwdO5bVq1fz/fffo9Vqeev++/m///s/EhMTq63v7ejCmSMHaNiwIZMnTyY5OZn/e/55CgurKqzn6Ep0dDTz588nJyeHhIQEyo/9932Vbn6Neeedd4iIiGC6SkV5eTkzZ87k5ZdfpkM9f66/Z/efU0xmSrOl47QQQgghhBBCCGEtcs9uIYQQVpdTmsO4HeMoN5UDEOgSyPv3vo9aJU9TQoi7V0F5ASvOrODB7x/kma3PsPXS1mqhaTdbN0Y1H8WPw37kk76f0KdBHwlNCyHEbcrH0YfF9y1m9r2zcbN1s4xHJUYx5IchbEzYiPIXtwJXq9QMazKMTcM28XTzp7FR//e25j8k/EDo+lA+P/m55fW2EHcynUbHmFZjLMtfnvqSwor/jXcJcXt7pvkz3NfgPsvyjP0ziMuNs2JFQoibKcAlgDaebVChopNPJ97p9g57R+xl7YNraefVDoCKgn8WVP47//73vykrK6Nbt2688sorrP96Jc+0uZecnBymTZuGg84WgD7+IZCcRffu3fH09KRNmzaMHDmSX75dzzOtu1NUWMjUqVNxsLFFb2PL4sWLOX36NJ4Ozpw/f54PPvgAB50tXo4ujG7amfbt2/PLL79w33330b59e3766SdSUlLwdnTh/fffJykpCUedLfWcXGnrWJfevXvj4+ND27Zteemll5g0aRKJiYk80KQlMdt2MWrUKAwGAypVVYfsuXPnkpiYyPBmHcg5Gcf9999Pw4YNadasGUOHDiX2l1081bIbqampvPvuuzjYVJ2ng42ORYsWcfbsWcu5X6vS7MvX98MRQgghhBBCCCHENVMpf/XJmxBCCHGDVZgqeHrL0xzPPg6Ak86J1Q+svuKtKoUQ4k53KucUEXER/JT4E2WmshrzbTzbEB4cTr+G/dBpdFaoUAghxI2UV5bH3Oi5bLywsdp4t3rdeKvLW/g6+v7tPpIKk5h3ZB47kndUG6/vWJ9JHSbRx6+PJTQixJ2o0lzJ0O+HklSUBMDolqN5uc3LVq5KiNpVXFHMv378F4kFVd1X6zvWZ03oGlxsXaxcmRDiZlAU5Yqv5xRFYevISShm8zXv/9WfI/l0fQQffPABJ3buJaiON43dPLk/oBm2Wi2HUxNJKsyltZcfjd09LceNzUzmUOoFKs0mWnrWp2v9xthoNBxNv8SF/BxaePriYmvP/pQEXO309GwQxN7kc+SUFNPJN5D6zlUXEV4uKWZXUjzJhbnoNFoCXT3oXL8R+WUlRKddxMfRhW5+jS3H3Z+SwImsFFSAp4MziqLg6eBEd78mVJpNHEm/SJahCEVRaOBSh4v5OZZ5BYhJv0h02kXMikIb7wZ09g1Eo1azP+U8aUUFtPdpiL+rB+nFBRxIScDNTk/PhsGor+M1taOfD91nT77m7YUQQgghhBBCCHHtJDgthBDCahRFYfqB6aw7tw6o6pS39L6ldPXtauXKhBDi5iqpLCEqMYrI+EjOXD5TY97BxoHQwFDCg8MJcguyQoVCCCFutr2pe5l5YCZphjTLmL3WnnFtxjEiZAQateZv93Eg7QBzoudwPv98tfFO3p2Y3HGyPKeIO9rmC5uZumcqAHqtnqiHo3C3c7dyVULUrgsFFxixaQQlxhIAuvt2Z/F9i+UOXkLc5cwmE1ufeA2u4+O/V3+OZMGqr/joo49onY8lpCxqj71nHXoueNPaZQghhBBCCCGEEHclCU4LIYSwmpVnVzLr8CzL8qT2k3jynietWJEQQtxcCfkJRMZFsjFhI0WVRTXmQ9xDCA8OZ1DAIBxsHKxQoRBCCGsqqSxh0bFFrDy7EoX/vn3T0qMl07tOp4lbk7/dh9Fs5Nv4b1kcu5iC8gLLuFqlJiwojJdav4SrneuNKF8IqzIrZh7e8LDlwoEnmz3JpA6TrFyVELXvl0u/8MrOVyzLY1qNYWzrsVasSAhhbaaKCn55+vXr6jj93dkYVp0+hKutntn3PYKH3rEWKxQAdh5u9PpomrXLEEIIIYQQQggh7koSnBZCCGEVB9MPMubnMZgUEwAPNnqQd7q9I7cMF0Lc8SpMFWxL2kZEXAQxmTE15nVqHQMCBhAeHE5Lj5bye1EIIQTHs48zff/0ap2jtWotzzR/htEtR6PT6P52HwXlBSyJXUJEXITlNTiAs86ZF1u/SHhwODZqmxtSvxDWsi1pGxN2TADAVmPLjw/9iKfe07pFCXEDLIhZwBenvrAsL+qziF5+vaxXkBDCqoxl5Wx77t8opmsPTosbz87dhV4fT7d2GUIIIYQQQgghxF1JgtNCCCFuuuSiZEZsHmHpeNfCowX/GfAfbDW2Vq5MCCFunJSiFNbGr2X9+fXkluXWmG/o3JCwoDCGNh6Ki62LFSoUQghxK6s0VfL5qc9ZdmIZRrPRMh7gEsCMrjNo49nmH+3nfN555kTP4UD6gWrjgS6BTO4wmW6+3Wq1biGsSVEURmwewenLpwEYHjycNzu/aeWqhKh9JrOJMb+M4WD6QQCcbJxYHbqahs4NrVyZEMIaTBWV/PL01OvqOP27pIJcTmWnUm6spI7ekeZ1fXG3r35HrCxDIUczkig3VlLf2Z3WXn5o1Oor7lNRFGIzk7lUcBkPvSOdfQPRqjWWeUNlOQdSEjBUVnCPRz0au9e86MlQUc7pnDQAmtf1RW+jo8xYya85GaQU5WJSFOo5utDaqwE2Gk21Y5/JSed8biY2Gi3BdbwIdK2LSqXCrCikF+eTWpSPTq2lhadvjfNILy7gWMYlKs1mGji707yub7X9Xw3pOC2EEEIIIYQQQliPBKeFEELcVIZKA4//+LilW15d+7qsCV0jXb+EEHckk9nEntQ9RMRFsC91HwrVX3prVBr6NOhDWFAYnXw6oVZd+YNFIYQQAiAhP4Hp+6cTmx1rGVOhYnjwcCa0m4CDjcOVN/6NoijsTN7JvCPzSCpKqjbXs35PJrWfhL+Lf+0WLoSV7Evdx5hfxgCgVWnZOGwj9Z3qW7kqIWpfXlkewzcNJ92QDkBj18asHLQSvY3eypUJIW42s8nE1ideg+v4+O9SwWUWHv6FAp2KAQMG4OjoSFJSEtu3b6eDuy8vd7gPo2Lio8PbOF6QyYMPPoiLiwuHDh0i+UwcL7bvTYd6ATX2W1Beyv/t3oja253evXtz8uRJfj1yjGn3DibA1YPotETmHdxKn4H9qVevHhs2bKCRWs+rnftbAsoms5nXtn1L3WZNMBqNaJKzmdi5H89s/pqmbVpxzz33oNVqOXHiBOePneDtHg/i7+pBpqGQ2fujMLk70bdvX0pLS9m+fTv3ufrhYmvHp0d34VHPh6ZNm3Lp0iW62XrwcNN2AFSYjCw+soPovDSGDRuGvb090dHRVF7K4L0+D13TY2zvWYeeC+SCLiGEEEIIIYQQwhokmSGEEOKmMStm3tj7hiU0baO2YUHvBRKaFkLccXJKc1h2YhkD1w3k5e0vszd1b7XQtKfekxdbv8jWR7Yyv9d8utTrIqFpIYQQ/0gj10Z8PfBr/t3p3+i1VWE4BYU1cWsY8v0Qdqfs/tt9qFQqejfozfoh65nYbmK1sPWulF0M2zCMD458QFFF0Q07DyFulq71utLWsy0ARsXIJ8c/sXJFQtwYbnZufNj7Q3RqHQDn88/z9v63kb4pQtx9VGo1KrXqmrfPNhTx713rmTT7HU6dOkXPnj2pX78+o0aNIjExkQIPB05mpTBzzyaaDuzNxYsXGThwIA0aNGD16tWs3vQDH57YzdnfOkL/0WdHd9Pv8XC2bt2Kj48PixYt4v1FC5i9P4riijLmHf6ZqO2/MH78eBo1akRsbCwOzRuzPu6oZR8b4mPxah7M1q1bmT17NpdLDeSVleDs6cGCBQto27YtzZs3Z/Xq1cxesoj39/1IhcnIWzu/5+kpE9m+fTutW7eme/fuvPDCC1zMz2HnpTi+iYzg5MmTrFq1imeeeYbcUoPlmJ8e3YW+ZRPOnTtHv379aNq0KTNnziQuN+OaH2etndx9UQghhBBCCCGEsBbpOC2EEOKmWRK7hKXHl1qW3+n2DkMaD7FiRUIIUXsURSE6I5qIuAi2J23HqBhrrNOtXjfCg8PpUb8HWrXWClUKIYS4k6QXpzPz4Ez2pO6pNj4wYCBTOkyhjn2df7SfnNIcFh1bxPpz66td6ONu5864NuMY2ngoGvW13YJciFvBkYwjjNoyCgC1Ss36IesJdAm0clVC3Bjrz61n2v5pluVJ7Sfx5D1PWrEiIYQ1bB/zFhWFxde07ScxOwkZ1p+nnnqK7t27E2Tvio+jC+dyMzE42mJjY0MLlSPn7UxER0fTs2dPis5foqFLHXYkxbMx6kdSUlL4cPKb9PEP4ecLZ3CytWNkiy5M3rWeSynJ9O/fH3VqDmeKckhLS6NTp07UKarAu3Mbpk+fTqc27Qh0qUObQffz8ssvM7BHL/4z+Gkyigt4eXskBw8eZMuWLXTu3Jnnhw1nzn2PMHX7dxRVlBFSx5uSygoy7CA+Ph5PT0+G1W/KhTo6Vq1aRfPmzSnMzaOBszvZJUU83bo78ZczOVyYQXZ2Np9//jm5ubns/2wVz7XtQX5ZCaN/WU1KSgqPPPIIP//8M03cvSgqL6WFZ30mdu53TY9z3dbNaDf5uWvaVgghhBBCCCGEENdH2toJIYS4KX6+9HO10PTIZiMlNC2EuCMUlBew4swKHvz+QZ7Z+gxbL22tFpp2s3VjVPNR/DjsRz7p+wl9GvSR0LQQQoha4ePow+L7FjP73tm42bpZxqMSoxjywxA2Jmz8R51GPew9mNF1BqtDV9PGs41lPLcsl+kHpjNi8whiMmNuyDkIcTO0925P13pdgao7IS2JXWLlioS4cYY1GUZ4ULhl+cOYD4nOiLZiRUIIa9A5O17TdmZFYU/yOZ5++mkWLFjAA/WCmHbvYMKatmdS5/48UMefQKMNeWUljBw5kqioKHJ+TWB2n0cY274P49r34e233+bhhx/mfHEunx/bw2sfvI9z8yasOX2YDp07UVZWxpnY47zZPZQAexd27drFAw88wO6kczzwwANs2rSJXg2CmNRlABs2bKBt27aonRy4XFrMh4d+5p133mHFihUkJCRY6tao1cy9P4zwpu3JLTOQVpyPq6srxcXFlJaUEJuZzCOPPMLy5ctxd3end9/7MdhrCanjTWffQJ5v25NZHQfRq0FQjcckOu0i/fr14+LFi8TGxvLAAw+g8/HARqNhaHCbGuv/U/ae7te8rRBCCCGEEEIIIa6PBKeFEELccHG5cbyx9w3LchefLkxsN9GKFQkhxPU7lXOKt/a9xf3f3s+c6DlcLLxYbb6NZxvev/d9fgn7hYntJuLn7GedQoUQQtzRVCoVgwIH8cPQHxgcONgyXlBewL/3/psXfnmB1OLUf7Sve+rcw9cDvmZuj7l4O3hbxs/mnuWpn55i0q5JpBXXvOW6ELeDl9u8bPl+y8UtxOXGWbEaIW6sKR2n0LJuSwBMiolJuyaRYciwclVCiJvJzt3lmrYrLC9F7WBPUFAQe/fupUO9AH48f5IXd37Lm8d+5vuMcxzISWbbxbN07dqVmJgY2vn4o1KpAGjn05CjR4+i1+tp2aoVBeWlmEwmzGYzeaUGfH19SUtLw1PvjEatxtvBmdTUVHx8fACoV68eqampeDu6UMfegcL8fMrLy6lXrx7fnDyIU+MG3HvvvcyfP/9P619+8gBj35vO5+siWb9+PUOHDsVOUZFTUkyHDh3o1asXkZGRjBo1ipMnTxLSryefHt1VVYujCxpVzY9Nkwou06FDB2xtbTlw4AAjR47kxx9/5P8Wzmfm3k2UG2vecezvqDQa7OtKcFoIIYQQQgghhLAWCU4LIYS4ofLK8hi/YzylxlIA/Jz8mNtzrnRbFULclkoqS/gu/juGbxrOiM0j+P7895SZyizzDjYODA8ezncPfsfygcsJDQxFp9FZsWIhhBB3Czc7N9679z2W3r+Ueg71LOP70vYx7IdhfHPmG0xm09/uR6VSMSBgABuGbuDFVi9ip7GzzG25uIUHv3+QxbGLKaksuSHnIcSN0tyjOX38+liWPz72sRWrEeLG0ml0zO85H3e7qlBeblkuE3dOpMJUYeXKhBA3i901hnLNioJGowHAaDRio9GQmJ/N+PHj2bZtG2fOnGHSa68BoNVqqaysRKNWWbbXqNQYfwsSa7VaBjRqzsIp0yg9m0gb7wZotVrMZrNlG7VKhclkwsbGxrKN2WxGrVKhUqks81qtll2p51m2bBmjR48G83/vqnImJ42dl6ouiHKz0/P555+zcOFCDhw4wLvvvku5Yia/vAStVoudnR1t27Zl2gvj+Ne//sVHH33E/oyLlBkrr/iYmBQzWq2WRo0a0b9/f94f/xpt27Zl2LBhNO3QlmOZSVf9OKtttNi6Ol/1dkIIIYQQQgghhKgdEpwWQghxw1SaK5m0a5Klw51eq2dRn0W42F5bxxMhhLCWhPwE3j/0Pvd/ez/TD0znzOUz1eZD3EOY1mUa28K28WbnNwlyq3lrVyGEEOJm6O7bnfVD1vN408dRURVIKTWWMjt6Nk9EPcG5vHP/aD/2WnteaP0CG4dtZGDAQMt4uamcT45/wuDvB7P5wmYURfmLvQhxaxnbZqzl38XOlJ0czz5u5YqEuHG8HLyY13MeGlVVAPJkzklmHZ5l5aqEEDeLo48nau3VN65wsbXHkF9AWloa7dq142RWCvf6NeGrDz+mZbN72Lhxo2Xd48eP06xZM37NSbeM/ZqTQUhICEajkdOnT/Ovezrxdo8HmdxlAAGudau6TXt6klNSjKIoXC414OnpSVpa1V1N0tPT8fT05HJJMUXlZdjY2aHX60lLS2PIkCG4uroyevRoPl6ymH/96180btyYpUuX8uHhXzCZzbzTaxiDbDwJzizjsRH/omHDhtzbuxe5pQaSkpLYs2cPfRoE836fh9m+fTuOjo40aNiQTEPhFR8Td3tHkpKSuHTpEoXpWczq8zCeKh3Hjx+nefPmpBflX/XjrFKppOO0EEIIIYQQQghhRRKcFkIIccPMjZ7L4YzDAKhQMeveWTRybWTlqoQQ4p+pMFUQlRjFUz89xdAfhrLq11UUVRZZ5nVqHQ82epBvBn1DZGgkYUFhONg4WLFiIYQQooreRs+UjlNYMWgFjV0bW8ZP5JwgfGM4Hx/7+B93HfV28GZOjzl8PeBrmtVpZhnPKsli6p6pPBH1BKdyTtX6OQhxIwS5BTEgYIBledGxRVasRogbr4N3B15t/6pl+dv4b1l3bp0VKxJC3CzOAfVR21x9cFqjVtO5XgCrV6/mhRde4JszhzmWmcxDIW0xms2W9XydXFm9ejWPPPIIl+3UfBy9nY3xx/nw8FZee+01fv75Z+ooGlafPsTwDZ8x4vvPMKNw+PBhPD09qVO/Hv85vo9Tl9Pp2bMnu3fvJqSON7t37+b+++9nV1I8X8Tu4b777uPChQukpqYSExPD9OnTOXLkCEeOHOHSpUsUFxdz5MgRKk1Gntn0FYuit5FalEdacQFaGy22traUl5cT5O7Frl27CAwM5ERWCpFnogkMDAQgIyMDgBUnDxCfm2k5x5PZKaw8dZAGzu7s2rULLy8vSlRmvjsbQ0pRPg0bNiQtLQ13+6t/L8hUUYFTg3p/v6IQQgghhBBCCCFuCJUirYGEEELcAN/Ff8f0A9Mtyy+3eZnRLUdbryAhhPiHUopSWBu/lvXn15NblltjvqFzQ8KCwhjaeKh00BdCCHHLqzRV8vmpz1l2YhlGs9EyHuASwIyuM2jj2eYf78usmPnh/A8sPLqQy2WXq80NaTSE8W3HU1dft9ZqF+JGuFR4iSHfD8GkmAD4ot8XdPTpaOWqhLhxFEVhyp4pRCVGAVUXgC4fuJx7PO6xcmVCiBvJWFLGtuffQDGZ/37l/3EhL5s3D2xmc9SPODs7s2LFClJTU/H39+eFF17gnXfeIWdnNAdTE5g0czrh4eF8/PHHpKamEh4eTvPmzenVqxf/qteM/xzfy/Yjh5g1axYup1PYmxzPyKkTuffee/nggw8IDw/H3d2dof0GMr9vOC/t+JbTp0+zadMmjhw5wvTp06uOt+sIzT19KSgvBeBEZgrBA3vx2GOPce+99xLapCUObZvSs2dPjh8/jl6vZ8SIEahUKu6/tyczew5hxpGtxMbGEhkZyfHjx5kwYQIHDhxgyfR3aeFZH0OgF/feey8DBw6krKyMHTt2sGXLFvwvl7P5/Ek+XbkcnU7HypUrGTRoEC1atODezl1Y0ncEblcZnrar40qvRW9f9c9GCCGEEEIIIYQQtUOC00IIIWrdsaxjPL3laUswo1/DfszrOQ+VSmXlyoQQ4s+ZzCb2pO4hIi6Cfan7UKj+Elmj0tCnQR/CgsLo5NMJtUpu3CKEEOL2kpCfwPT904nNjrWMqVAxPHg4E9pNuKq7JhRXFPPZyc9YcWYFleZKy7heq+e5ls8xstlIbDW2tVm+ELXq7f1vW7rutq7bmuUDl8vfq+KOVlJZwuNRj3Mu7xxQdTeBiNAI3O3crVyZEOJG2vHi25TnF17TtofTEpl/aCttu3QmNDQUR0dHkpKS2LhxI4bkdN7oHooKmLF7I64B9RkxYgQuLi4cOnSINWvWMDKkA8NC2jJuy2ruHfoAhw8fZqirPw1d6jB1x3fcFzqIPn36cOrUKb784gumduxHh3oBbIiPJSLxBC+++CL16tUjMjKSpNjTzLrvYZx0dv89t4u/sqUknaZNm3Jh9yGGBLXm47iDDB8+nJCQEAwGA8eOHeP7td8xscP9dKnfiPW/HmXtpVOMGTMGHx8f9u/fz88/bOK93sPYfSmeFA872rVrV+1x2LdvH20q7Wji7snbezby0PBwOnfuzLlz51i2bBljW95Lr4bBV/342rcKoPtrY9GoNdf08xFCCCGEEEIIIcT1keC0EEKIWpVhyGD4puGWLq0h7iF8PeBr9DZ6K1cmhBA15ZTmsO7cOtbGryXdkF5j3lPvySNBj/Bwk4fx1HtaoUIhhBCi9pgVMxFxESyIWUCJscQy7qX3YlqXafSo3+Oq9pdUmMS8I/PYkbyj2nh9x/pM6jCJPn59JIwqbklpxWk8sP4By8W+i+9bfNX//wtxu0kqTOLRTY9SVFkEQCefTnxy/ydo1VorVyaEuFFi5n1O9tHT17x9hcnIodRETmenUm4y4m7vQCvP+jT3rI/6t9d4ZkXhWEYSR9IvUmasxM/ZnfsCmuJiaw9AUkEu0WmJONva0athCDYaDWXGSrYknOJiwWU89I4MbNQC9z90bE4pzGXLhdOUVFbQzKMevRoGo1Gra9S242IchspyutZvhLejC+dzsziacYn04gJsNVp8ndzo1TAYJ1u7P+w7j58vnMZQWUFDlzr08Q/BQWdLcUUZOy/FUWY0VjuO3kZH74bB2NvoKK4o46eEU6QV5ePp4My9DZrg6+R21Y9rpdrE5qDznGicTzuvdrT3bk8H7w4EuwVLkFoIIYQQQgghhLhJJDgthBCi1pQaS3ky6knO5p4FwM3WjTWha6jnWM/KlQkhxH8pikJ0RjQRcRFsT9qOUTHWWKdbvW6EB4fTo34PCRIIIYS446QXpzPz4Ez2pO6pNj4wYCBTOkyhjn2dq9rfgbQDzImew/n889XGO3l3YnLHyQS5BV13zULUtvcOvcfqX1cD0NS9KWtC18hdRcQdb3fKbsZuG2tZHtV8FBPbTbRiRUKIG+nSlt3Erd6EuaLy71cWN02Zxsiy9kdJdq3eDdzJxkmC1EIIIYQQQgghxE0iwWkhhBC1QlEUpuyZQlRiFABalZbP+n1Ge+/2Vq5MCCGqFJQXsCFhA5FxkVwsvFhj3s3WjaFNhhLWJAw/Z7+bX6AQQghxEymKQlRiFLMOzyKvPM8y7mLrwpQOUwgNDL2qbtFGs5Fv479lcexiCsoLLONqlZqwoDBeav0SrnautXkKQlyXnNIcBn43kDJTGQDze82nb8O+Vq5KiBtvSewSlh5falmW//eFuHOVZOawd/IczJUSnL6VGHUwf+Bxssuy/3I9CVILIYQQQgghhBA3jgSnhRBC1IovTn7BgqMLLMtvdX6L8OBw6xUkhBC/OZVzioi4CH5K/MkSjPmjNp5tCA8Op1/Dfug0OitUKIQQQlhPXlkec6PnsvHCxmrj3ep1460ub+Hr6HtV+ysoL2BJ7BIi4iIwKSbLuLPOmRdbv0h4cDg2aptaqV2I6zU/Zj7/OfUfAAJdAln34DoJJIk7nlkx89K2lyx3HdBr9ax6YBWNXBtZuTIhxI2wc9z/UZaT9/cripvGp1s7Wr74GJcKLxGdGU10RjRHMo6QXSpBaiGEEEIIIYQQ4maR4LQQQojrtjtlNy9tewmFqqeUsKAwpnWZZuWqhBB3s5LKEqISo4iMj+TM5TM15h1sHAgNDCU8OJwgtyArVCiEEELcWvam7mXmgZmkGdIsY/Zae8a1GceIkBFXHco4n3eeOdFzOJB+oNp4oEsgkztMpptvt1qpW4jrkV+Wz4B1AzBUGgB4r/t7DG402MpVCXHjFZQXMGLzCJKLkgHwd/Zn1QOrcNI5WbkyIURtqqio4Ju3Z5Fy8BiK2YxGpcZD70gDlzqoVSryy0pYfmI/ZUYjDzdtSyM3zyvu60RWCj+eO4GzrT1Pt+6OnfbaLoTLLTWw4uQBKkxGwpq2x9/V46r3oSgKK04eIKUwj3sbNKGtd0NO56Tx+8edTjo7/FzccdLZXVONN5LG3pZWLz6OZ7vm1cYVRZEgtRBCCCGEEEIIcRNJcFoIIcR1uVBwgcc2P0ZxZTEAbT3b8nm/z7HRSBc5IcTNl5CfQGRcJBsTNlJUWVRjPsQ9hPDgcAYFDMLBxsEKFQohhBC3rpLKEhYdW8TKsystF0UCtPRoyfSu02ni1uSq9qcoCjuTdzLvyDySipKqzfWs35NJ7Sfh7+JfC5ULce2WxC5h6fGlANR3rM+GYRukK7q4K8TlxvH4j49b7srTx68PH/b+ELVKbeXKhBC15c0332Tjxo34+fkBUFlZyYULF6jIymVK14GcyUnjQl07mjRpwpmNP/Nq5/5X3Nfr279j6AvPEBUVxQBbLzr7Bl5TTet/PUqGnyv16tUj6Zd9vNzhvqveR3JhLjNP7ODNN9/krVcmEeBWF5uAeri4uACQk5PDqZMnCfW/hydbdkWlUl1TrTeCWqvlvs/eRWP713c8kyC1EEIIIYQQQghxY0lwWgghxDUrrCjksc2PcbHwIgA+Dj6sfmA1dezrWLcwIcRdpcJUwbakbUTERRCTGVNjXqfWMSBgAOHB4bT0aHlLfWAmhBBC3IqOZx9n+v7pnM8/bxnTqrQ80+IZRrccjU7z10GP/1VhqmDl2ZV8euJTnHROPH3P09xb/17stHacuXyGNp5tpMupsJriimIGrBtAQXkBANO6TCMsKMzKVQlxc2y+sJmpe6Zalse3Hc+zLZ61YkVCiNr09NNP0717d3r27ElsbCy2trZ06tSJqKgoprz4MkND2pJaz4ng4GCOrd3MpC5Vwem0onxySorwdnTB08EZgNd++ZaPv13JRx99RNOscrr7NcFkNnM+L4tKk4lAt7robf77GlFRFBLysikzVRLoWpfSygrsbXT8lHCKywEe+Pn5EbdpG+M73g/A5ZJiUovysNPqCHD1wEajQVEUsgyFZBoKcba1x9fJDRuNhsT8HJYkx7J161buCWyMh96RVVs2o1aruXjxIv7+/tSrV4/Q0FC6a9xo7+OPo86WnJJickuLCXCri5POjuTCXPJKDdRzcsND71jtsSszVpKQl42iKDR0qYOT7X+7V2cUF5D92+NTV//f17CVJhNJhZcpKi/HzV5PfSc3NGo1iqKQWpTP5dJifJoGETb3Lezt7a/qZylBaiGEEEIIIYQQonZJcFoIIcQ1MZlNjN0+ln2p+wCw09ixYtAKQtxDrFyZEOJukVKUwtr4taw/v57cstwa8w2dGxIWFMbQxkNxsXWxQoVCCCHE7avSVMnnpz5n2YllGM1Gy3iASwAzus6gjWebq95nTmkOapUaF52LJbRRWllKqamUuMtxdPTpKGEOYRVfnvqSD2M+BMBL78XmhzZjq7G1clVC3ByzD8/mm7PfAKBCxSf3f0JX365WrkoIURt+D04XFRUx+8238XZwIdvGTHJyMsHBwbSzcWXjpTPodDqaO9bhqVbdmX9wK7k2Co0bN+b06dM0snXmlU59eXfv5mrBaUWBT4/uxLdJIxwcHDgSHU14SDsea96ZpMJc5uz/Ca2nG+7u7sTExODq6kqZoYS+DYLZmhKPjY0NHdzq8USLLnwUvY34kjxatmxJQUEBZ06dZlTLrmw8dxyVswONGzcmKyuLrEvJjO94P3X1Tn8anF66dCm71m/kcomBhcuWUqdOHUJDQ/Hy8iIvLw9PT08CAgLYs2cPwXW8KNHrCAgI4MSJEzR3qsv4jvdhr9Wx4uQB1sUfo03btmi1Wk6cOEH/+sEMatyCjw7/QjoVBAUFER8fj5/anlc79+NCfg5zD/yEX5NGeHh4kJqaSnZSKlO6DuTL43spd7QlICCAgoICTp06RWRkJMOGDbvmn60EqYUQQgghhBBCiOujtXYBQgghbk8Ljy60hKYBZnafKaFpIcQNZzKb2JO6h4i4CPal7kOh+jWAGpWGPg36EBYURiefTnKbaSGEEOIa2WhseKHVC/Rr2I/p+6cTmx0LQGJBIk9GPcnw4OFMaDcBBxuHf7xPD3uPGmP2NvbY29jTyrMV5/LPYTQbae7RvLZOQ4h/5NHgR1l+ejmXyy6TWZJJZFwkI5uNtHZZQtwUE9tP5GzuWWIyY1BQmLxnMhGhEfg6+lq7NCFELVIAs2JGpVJhNpspKyujWCln1KhRdO7cmU9fn87MPRt58Y0pjBgxgmPHjtG+fXvmzZvHB6vWVtvXpYLLbE6J46ed29HpdFy+fJng4GCGDh1KVMJJvo87xptzZzFgwACOHTuGp6cnTk5OvPXWW5zZc5AXXniBkJAQVs2cx5s7v+fJCWP5YcwYoqOjcXR05OjRo0yaNIkxY8YwZswY4uPjadKkCQaDgb59+/J6x35XPM8BjZqTWpRPbGwsI0dWPZfv2bOHI0eO0Lx5c7Kysrj//vt55d0ZDBo0iOPHj9OhQwemTZvGop+2U8/JlUxPBy5sSSQhIYH8/Hz8/f1p3bo1+5LPMeWdGQwdOpTY2FjatWvHwoULmfHVStJKCtm4JQo7OzsSExNp3Lgxc+fO5fXISN5//33CwsKIjo7Gw8OD06dP8+OPP15XcFqlUuHv4o+/iz9hQWH/KEhdVPn/7N13YI33//7x5zmZQsQmVszEXjGqWrPV2FqSlBY1q0VbqqKDL6U1ihqtrfaIGiUh1Cw1aq8gVuwZIQlZJ+ec3x9+TptPuis5Cdfjv/t9n3PfV06Vk3Ou+3XHsf3qdrZf3Q6oSC0iIiIiIiLPNhWnRUTkHwu9EMrc8Lm27Z6Ve+JXws+OiUTkaReVEMWqs6tYcWYFNx7eSLO/gFsB2nu3p13ZdhRwK2CHhCIiIk+n0rlKM7/ZfIIjgpl4cCLxKfFYsbIsYhnbrmxjaN2h1C9a/z+fx83JjbK5ymKymNh5dSdlcpXBM4fnE/gJRP6am5MbPav0ZPS+0QDMPj6bdmXb4ebkZudkIunPyejEuAbjCAwJ5HbCbWKSYui/rT8Lmi3A1dHV3vFE5Alo1aoVXl5euLi4UK1aNfr378/ly5dpVqOk7TH7rl+keq2a9OjRg3LlypHTBI4FH02LrrhqFTev3LY9dsWpg4wY9SW3bt3ijfYBZHd24a2+7zB16lTq1KnDCy+8QNu2bfHx8aGggysuRQpw+PDhNLkO37pM2SqV6N+/P1WqVCFPkpW45ESuPIyhYv7CzJ8/n+nTp9se/8MPP9ClSxd2btwB2dNeKO/s7Mx34XspUaIEw996i507d9r2mc1mqlSpAsArr7xCmzZtqFChAnlwJE+ZEmzbto0ya8vw86lzXN54mU8//ZQtq9ZSILs7p+49+tlrNHgBPz8/KlWqxMOHD8mbNy/h4eGsXr2acqWK4enpiY+PDwA5nFwwYQHgvffeo2zZsly/fp28efNy//59Jk6c+B/+i6alIrWIiIiIiIjIP6PitIiI/CPhUeEM2z3Mtt2waEP6Vu9rv0Ai8tSyWq3sv7mf4Ihgtl7eSoo1Jc1j6hWuR4BPAPWL1sfRqLe2IiIi6cFoMNKhXAcaFm3IiL0j2HntUQnlVvwt+mzpQ7OSzQiqFUTebHn/03kcjA44GB2oVagWyeZkNl3aRL3C9VRelQzh7+3P/PD53Hh4g+jEaJacXkKPyj3sHUskQ+TLlo/xDcfTdWNXUiwpnIo+xYi9IxhZbyQGg8He8UTkPzp27BjTpk3DycmJmjVrMnDgQH744QdORd2gKo/KxIkpJho2bMiGDRso4ZidYY1b0ydsEYcOHaJevXosWrTIdrzEFBONGjVi9OjR9Kxen4r5C/PJ3LmMGjUKNzc36tWrx8aNG6nknp9P6jWnW+g8Tp06lSZXdMJD2rRpw9q1aylidmRo49YAxCYlcD3uPp/uCuG9997D19eXnDlz4u3tzeXLl/l5ZQhkz53meBMmTGDUqFHcuXOHzZs383+fDbHtW7JkCZ+90JLTUTfwbdiQtWvXUi1nQT6q+wrdQuYSGRlJ7dq1uX79Ojlz5mTpokUEv9YbV0cnEkzJTN6/hTZt2nD16lU6depk+7sxOjqaWrVqsWXLFvLly8fs2bNZt24dmzdv5oW8RTl2+yqHDh1i/vz5LF26lB9//JGSJUv+p2nTf4eK1CIiIiIiIiJ/TvcuFxGRvy0qIYr3tr1HkjkJgFIepRj14iiMBv1zIiJPTkxSDAtPLqT1D63p/mN3frz0Y6rSdG6X3HSt1JX1r65n+svTaVy8sUrTIiIiGcAzhyffNvmWMS+OIbfLr2WVsMgw2qxpQ8j5EKxW638+j6ujKzldclKvcD1uPLzBzqs7n8hxRf6Ms4Mzvav2tm1/d+I7YpNj7ZhIJGNVK1CNj2t/bNtee34twRHBdkwkIk/KpUuXyJYtGy+65mfG+ImcPn2a7t27s+96ZKrHZc+enYcPH+Lu7AKAu7Mr8fHxuLu7pzmm7bEurri7PHocQI4cOXB2dsZkMuHi4IjBYMDVwRGTyfS72XLkyMGDBw/wcP31QrmcLtmYd3QXM2fO5LnnnmPmzJl88sknbNu2DVdXV0wW8+8eq2/fvhTMl4/61Wuy6MvxDKvTjMI5cgFw//59crm6kWg2pcpuMBhs+XPkyIG7uzsPHz7E1cEJF4dHnzVlc3LGbLHg4eGByWTCyckJR0dHHB0dmTZtGuHh4bgkpVC1alXOnj1Lnz59uHz5Mg7exSicw4Nmfn4EBwfj5+dHeHg4r7zyCu+8884/+4/4Hz0uUvt7+zO2/li2+G8hpG0IQ+sOpVnJZuTPlj/Ncx4XqccdGEdgaCAvLnuRflv6MT98PifvnsT8B/8dRERERERERLICNUxERORvSTYn88G2D7gd/+jWhO7O7kxuPJkczjnsnExEnhYnok4QHBHMhsgNJJoT0+yvXqA6AT4BNPVqirODsx0SioiIiMFgoHmp5tQtXJex+8cSeiEUeHTh0yc/f8K6C+sYUncIRXIU+c/ncnNyo2TOkhTJUYSd13aSP1t+yuct/5+PK/JHWpVuxZzjc7gcd5m45Djmh8+nX/V+9o4lkmH8vf05ducYa86vAWDM/jGUy1OOagWq2TeYiPxn165d40rlfMQlJZI3b17MZjPG/5kof/LkSdq0acOAa5GsPn2Ic3HRVKtWjZEjR6Y53smTJ3nuuedYNXU2+69H8txzz3Hnzh1u377NkSNH6NSpE/2uv8vkfZtJcHWkfPnffw+3e/duPv30Uwb3/5ByeT1JTElm//WLHL19lUaNGtG8eXOMN+9x6tZlSpcuzeXLl//053zXtxGvlK70u/sMgGeOXJw8eZLOnTvzxadDKODmzq2URMqXL094eDgXL14kV65ceJb0Yu7RXZTIlY9frp1n3/VIqu/eTdu2bZkyZQpl8xTAbLFy4f6jqc3Fc+bBGJfAoqkzGTNmDP/3f/9Ht27deP311/HKlZc9u3cze/ZsGjRoQHBwMBUrVvwb/9XSjyZSi4iIiIiIyLNOI0JFROQvWa1WvvjlC47eOQo8ulX3uPrj8MrpZedkIpLVxZviWXlmJYGhgXRY14Efzv2QqjSd3Sk7gT6BrGy9kgXNFtCyVEuVpkVERDKB3K65GfXiKKa9NI3C2Qvb1ndd38Wra15l0clFT2QKndFoxNXRlTqedSieszhrz63lTvydv36iyL/gZHTi3Wrv2rYXnVxEdGK0HROJZCyDwcBnz31G+TyPCo4plhQGbB9AVEKUnZOJyH/x/PPP07ZtW4qX8yZkYxienp7MnTsX30K/frZbvWBx1v2wBqPRyLdzZhFXrgjLV3zPiRMnOH3gMD55C9oeW69YGUaNGsX777+P31sdKfhiTebMmcPw4cNpUqI8P2/eyu3bt1m3cQPPdfZn1apV3LhxA4vFguE3Ze06RUoRFroOk8nEwuXLuFkqLyk1ylKtxUsA7Nu3j88//5yS9Wry7bff/mH5+p94sVhZFi9chKenJ6Mmfc3D8kVZvXo1W7duJTryMqWyefD111+zbt06cr1QnUvFctKyb0+SzCnMnz+fwoULs2TJEmq83Ii6LZoyd+5cSpYsSWnfqnwwfAh1X2lCYGAgbdu2ZefOnbi7uzN2xlRq+PrSpk0b+vTpw88//0zZsmX/88/yJGkitYiIiIiIiDxrDFbd61RERP7C4lOLGb1vtG17YM2BdKnYxY6JRCSrO3//PMsjlhNyPoQ4U1ya/eXylCPAJ4DmJZuT3Sm7HRKKiIjI3xVvimfK4SksPrUYK79+zNSwaEMmNZ6E0fDkrtuPN8UTlRDF0TtHaVqiKS4OLk/s2CIAFquFdmvbce7+OQC6VOjCwFoD7ZxKJGNdf3CdwNBA7ifdB6BGgRrMfmU2TkYn+wYTkX/kgw8+4PTp01Sq9GgCs9ls5sqVK2zcsIHAsjXwcMnGtuQ7FC5cGCKuUD6fJ7NP/0LXrl0pX748Bw4cYOniJQTVepmQs0cp8UItDh06xFtFKrHh/AnuujvRpUsXcuTIwerVqzm7/zBjmrRn5+UzzDiyk7Zt25IvXz5CQ0PZtm0bHTp0IPfdeO7ny06ePHlwu3ibivmL8PWhrXTo2JHatWsTHR3NsmXLMN6M5lz8ffr06UPx4sX56aefiIyMxMPDg8TTkZyMv0f79u1ZtySYPNlyUPnlBhw5coQ2ubx4odivpeT3Ni6h/qutCAsLY2i1Jnh55CX07FGCLx6nW7dulC5dmr1797Jy+XKG1m1BfrccfLJtFeXr1KRNmzYYDAZ27NjBrrBNdKhYm+kndhEYGEjt2rWJj49n7969rFq1Cg8PDzp06ECFChVITExk+/bt7N28jajEh3Ts2BFfX1+cnZ05duwY8+fPZ9OmTdSrV89efzT+sb8zkfp/aSK1iIiIiIiIZGYqTouIyJ/ae2MvvTf1xmx9NCGidenWjKw3MtV0EBGRvyPZnMyWy1sIjgjm4K2DafY7G53xK+lHgE8AVfJV0d8zIiIiWczRO0cZtnuYrXA6pfEU6hWuh5PDky/aJaQkcPDWQaxYeaHwC3rfIE/Ulstb+GDbBwC4OLiw/rX1FHArYN9QIhls9/XdvLP5HSxWCwBvlH+DwbUH2zmViPyVJHMSg3cMZv+t/dyPuk/03misKY++BnR3cWdE8xHkjriO9dw1kpKS2HbxNIkpJuoX9yZ3tuzcfBDDlshTRCU8wDOHBy+VrECebNm59SCG3VfP4+GSjQZePhgNBo7fvsruq+cxWcxUyl+EesXK4OzgyNCffoAi+Tl27Bhms5mePXsyePBgKpWvwPSmHfnl2gWSLWYaFPcml6sb0QkP2XrxNNfi7uHm6EzlAkWoXaQU1+Luse3iae4nxlMohwcOBiNODg408PLh1J3rXI27j2+h4rg4OrH32gXcnV1o6FUOJ4dfy7mXYu5y4PpFCmTPyYvFfy1UX429x9aLp7iXGE+xnHloXKIcuVzdAEg2p7D76nmO374KQKlc+anv5Y27syt34x/w0+UzXImNxtnBkVK58vFc0dJEJzzk4I2LXI+7j9P/X2/sXZlCzetzKPYWJ06cwGQyUapUKTp16oSnp2fG/aFIBypSi4iIiIiISFan4rSIiPyhK3FX6LCuAzFJMQBUzleZuX5zNdVNRP6Rq3FXWXFmBavPrf7dW5175fTC39uftmXa4uHiYYeEIiIi8qSYzCZmn5jNoVuHmNx4Mtkcsz2R4z7++Oq3BelkczJmq5n1F9ZTOX9lvHN7P5FziVitVjqs60D43XAAAn0C+ey5z+ycSiTjzT4+m0mHJtm2R704ipalWtoxkYj8ld9e/PN7jnQ6gvlBAjv6f0FKQmK6ZPho8/d0GfQB/v7+ZMuWjSNHjjBkyBB8EhzoWKlOupwz0zEYcC9emOe/GIDB+OTuvpJZqUgtIiIiIiIiWY2K0yIi8rsemh7y5vo3bdPi8mfLz7KWyzRlS0T+FrPFzM5rOwmOCGbXtV1YSf2W08HgQOPijfH39qeOZx2Mhqf/SyQREZFniclsemKTpm/fvk2BAo9+DzGbzTg4pC5UxJviiUuOY8vlLTQr2YzcrrmfyHnl2bbr2i56b+4NgKPRkZC2IRR1L2rnVCIZy2q10n97f7Zc3gKAq4Mri5ovwiePj52TicgfuRR7idY/tLZNi/+tWgVr8Z3fdwDc3HeMY1MXY0lOfuIZwu9cZ+mJXzh77zbJ5hRKeOSlaamK+JWu9MzcJcTo7ES9UR+R3TO/vaPYhYrUIiIiIiIiktmpOC0iImlYrBYGbB9g+2LMyejEPL95VMlfxc7JRCSzi0qIYtXZVaw4s4IbD2+k2V/ArQDtvdvTrmw7XYghIiIif+nIkSO0bduWgQMH0qlTJzw8/vjuFPGmeMLvhnP9wXWal2qOk/HJFLfl2WS1Wnlrw1scun0IgDal2zDyhZF2TiWS8R4kP6Dj+o5ExkQCUDRHUZa1XKa7BYlkMlarlc2XNzP+wHiuPbiWZn/+bPlZ23YtOZxz2NYOjptN1LHTWFPMGRn1qefg4kyZdn6UbNnI3lEyDRWpRUREREREJLNRcVpERNKYemQq045Os22PrDeSNmXa2DGRiGRmVquV/Tf3ExwRzNbLW0mxpqR5TL3C9QjwCaB+0fo4Gh3tkFJERESyolatWhEbG0vHjh0ZP34848aNo3Xr1litVgwGAxaLBeNvbn+eYkkhxZJC6IVQiuQoQt3Cde2YXrK6AzcP0HVjVwCMBiOr26ymlEcpO6cSyXgXYi7QIbQD8SnxALxQ5AW+bfKt7hwkkklEREcwet9oDtw68IePmf7SdOoVqZdqLTn2ATsGfEFKfGJ6R3xmGIxGchTz5PkvBmAw6u/IP6IitYiIiIiIiNibitMiIpLKpkubGLB9gG27U4VODKo1yI6JRORJeVwwelJikmJYe34tyyOWczH2Ypr9uV1y07ZsW/zL+lMsZ7Endl4RERF5NqxZs4bPP/+cnTt34ubmRu/evalUqRJ9+/YlLi4Od3d3gDTlaYAEUwKJ5kRWnV1Fk+JNKOFRwg4/gTwN3t70Nruv7wbglRKvMK7BODsnErGPzZc20397f9t276q96VOtjx0TiUh0YjTfHP6GlWdXYrFabOu5XHLxYpEXCbkQAsBrZV9j+PPDf/cYd8PPcvCrWViSTRmS+Wnn6JaNemM+Ilve3PaOkqWoSC0iIiIiIiIZTcVpERGxiYiOoFNYJxJSEgCo61mXqS9N1XRYkSzObDbj4PDkvjg4EXWC4IhgNkRuINGcdipR9QLVCfAJoKlXU5wdnJ/YeUVERCRr+yfvSeLi4nj11Vd58803eeuttzh16hQLFy7Ey8uLq1evcvfuXWJjYxk1ahTFiv3xBVrxpnjO3z/PwVsHaefdDndn9yf148gz4kTUCTqs62DbXtFqBT55fOyYSMR+Jh6cyJwTc2zbUxpPoWGxhvYLJPKMMplNLD29lOlHpxNnirOtOxgc6FCuA72r9sbDxYMNFzdwL/Ee7b3b42R0+sPjXdywgzPBoViSVJ7+L4zOTtT6uDe5fXR3iv9KRWoRERERERFJbypOi4gIAPcS79FhXQeuPbgGQDH3YixtsRQPFw87JxORJ2XTpk1YrVaaNm36j58bb4onLDKM5WeWc/LuyTT7sztlp2WplgT4BOCd2/tJxBUREZGnRFJSEi4uLrbtv3MXjMmTJ7Nw4UL2798PwOzZs7l9+zZhYWHExcWxd+9eli1bxty5c1mzZg25cuWyPfd/C9pmixmTxcSGixswYqRFqRYqUcg/8v7W99l6ZSsADYs2ZEqTKXZOJGIfZouZ3pt7s/fGXuBRSW1py6V45fSyczKRZ8fOqzsZu39smjt/1Stcj49qfUTpXKX/8TGtVivHpy/h5i9HNXn6XzI6O1G+y6sUa1TX3lGeSipSi4iIiIiIyJOm4rSIiGCymOi9qTf7bu4DwM3RjSUtlvyrD9pFxH6sVitWq9V2q/rHb/NWrVrFkCFDKFu2LN27d6d169Z/+5jn759necRyQs6HpJpi9Fi5POUI8AmgecnmZHfK/mR+EBEREXkqmM1m1q1bx9q1azl//jz9+/f/2+9DkpKSuHnzJl5eXuzYsYOff/6Zs2fPsnXrVpo1a0ZERASDBw9m48aNdOvWjUqVKpGSkoKj46O75Tx+H/TbgnZiSiImi4lFJxdR27M2vgV9n/wPLU+lM/fO0H5te6w8+nO1qPkiquavaudUIvZxL/EegaGB3Hh4A4AyucqwuPli3Jzc7JxM5OkWGRPJV/u/Yue1nanWvXJ6MajWIF4s8uJfXpj2ZywpKewdOom4qzewppj/a9xnitHZicIv1qRS9wB7R3lmqEgtIiIiIiIi/5WK0yIiwpe/fMnS00sBMGBgUqNJNCreyM6pROTv+L2Jjffv32fHjh00a9YMJycnOnXqRKdOndJMmv6jaY/J5mS2XN5CcEQwB28dTLPf2eiMX0k/AnwCqJKvyn/6Yk5ERESeXosWLWLdunW0aNGC4sWLM2zYMNq1a0efPn1sj/nf6dAAFosFo9GIxWLBYDCwYsUKduzYQUpKCvnz5+fzzz9n8+bNjBo1imPHjnHlyhWCg4PZs2cPkZGRzJw5Ey+vP55++tD0kBsPbrAuch3+3v4UzlE43V4DeXoM2jGIsMgwAOp41mF209l2TiRiP+F3w+m8vjPJlmQA/Er4Mbb+WP1uKJIOYpNjmX50OktPLSXFmmJbz+GUg95Ve9OxXEecHJyeyLmSHzxk75CvSYi6h9VseSLHfNoZnZ3IW8mb6v27YnRQCddeVKQWERERERGRf0rFaRGRZ9zKMysZtmeYbbtf9X70qtLLfoFE5G/5vZKRyWTik08+YdOmTVStWpUyZcrQtm1bwsLCmDFjBq1atcLFxQVXV1eGDx+epjgdFR/FolOLWH1uNdGJ0WnO6ZXTC39vf9qWaYuHi0e6/4wiIiKSdT18+JBhw4ZRp04d2rdvD0BcXBxms5lcuXIRHh5OhQoV/nbJ7vbt28TGxtK/f39mzpyJp6cnAMnJyYSEhDB8+HCmTJnC4cOHiY6OxsXFhU8++QSLxYKDg4OtjP2YxWoh2ZzMtsvbuBF/g9d9Xte0VPlTl2Iv0eaHNpitj6Zwzmk6h9qete2cSsR+Vp9dzdDdQ23bH9X8iM4VO9sxkcjTxWwxs/LsSr45/A33ku7Z1g0YeK3sa/Sr3o+82fI+8fMmxz5g92cTSLoXo/L0XzA6O5HbpxS+H/XE6KjCbWaiIrWIiIiIiIj8FRWnRUSeYYdvH6bbxm6kWB5NK2nq1ZRxDcZpQpBIFnLs2DEiIyPx8/MjMjKSxYsXM2LECNavX8/HH39Mx44d+fDDD9m7dy/wqMQUGBjIzp07qVy5su04FquFnVd30ndr31THdzA40Lh4Y/y9/anjWQejwYiIiIjIX4mKiuLFF18kLCyMEiVK8PDhQ7Jnz87p06cZNmwYDx8+5MaNGwwePJj27dvbLuj63wu7/nd72LBhLF++nA4dOtClSxcKFy5M8eLFWbVqFc899xwAzZo148CBA9y5k7oc8fgjsN8eL8mchNliZm74XErmLEmzks30+5D8of/b/X+sOrsKgGr5q7Gg2QL9eZFn2og9I1h+Zjnw6HfHWU1nUatQLTunEsn69t/cz5h9Y4i4F5Fq3begL0G1giift3y6nj8pJo69/zeJxOj7WFPM6XqurMro7ESe8mWo8WE3jI6O9o4jf0FFahEREREREflfKk6LiDyjbj68SWBooG2qbLk85ZjvN19T1kQyGavVapuU+FunT5+mT58+xMXF8frrr9O7d2+OHTtGq1atKFu2LNmzZ+fNN9/kjTfewGAw4ODgwIMHDzh69CiTJ09m1KhRlCpVKtUxk8xJNF7emNjkWAq4FaC9d3valW1HAbcCGfkji4iIyFMgNjaW3r1707NnTxo1amRbr127Nn5+fgwfPpzNmzczefJkVq5cibOzs+0x/zsd+n+dP3+eNWvWEBAQwPnz55kwYQJr1qyxlawLFizIwoULadq0KatXr2b27Nl8/vnn+Pr6/uEx403xRCdGMz98Pm3KtKFSvkpP5oWQp8r1B9dpsbqF7eLjb5t8S/2i9e2cSsR+ks3JdN3YlWN3jgGQxzUPwS2DKZS9kJ2TiWRNV+OuMuHgBDZd2pRq3TO7Jx/W/JCmXk0z7IKd5LiH/DJ8Cgl37mIxpWTIObMKo4sT+aqUo9p7XTA6qEibFalILSIiIiIiIipOi4g8gxJSEugS1oVT0acAyO2Sm2Utl1E4R2E7JxORP7Nv3z6qVq2Ki4sLoaGh7N69my+//NK2/+DBgwwbNoxu3brx6quvAhAfH8+tW7e4cuUK3bt3x8fHh169etG6des0x483xfPDuR8olL0Q9YvWx9GoiTkiIiLy761fv56hQ4dSvXp1pk+fTkhICJ9++inh4eHAo8KCn58fs2fP5vLly5w7d4433ngDx/8/te/3pk9brdZUpeobN27wxhtvMH36dIoXL84777zD9evX2bhxI/Dobhvbt2/n448/ZtCgQbz55pu2592+fZuqVaumypyQksAvN35h/439vFXpLfK75U/X10iyni9/+ZKlp5cCUD5PeZa1XKa7ssgz7dbDWwSEBtguzK+crzLz/Obh7OD8F88UkcfiTfHMPj6b+eHzSbYk29azOWaje6XudKnYBVdH1wzPZU5K5siUBdwNP4slKfmvn/AMMDo7UbJlI8q089NdJ54iKlKLiIiIiIg8e1ScFhF5xlitVoJ2BhEWGQaAo8GRWU1nUbNQTTsnExGLxQKQqgyUkJDA559/zubNmylcuDAFCxZkxIgRHD16lFGjRuHu7k758uXJkSMH9evX5+DBg2zatImpU6eyZMkStmzZwueff0716tVJSEggX7589vrxRERE5Bm1Zs0a2rRpw8qVKzl06BBffPEFAOvWrWPQoEGEh4czcOBA9uzZQ548eejYsSMdOnSwPf9/J1A/LlTfvHmTXLlyERwczPfff0/hwoVZtmwZ58+f586dOyxatIhDhw7xzjvvULBgQVasWMG4cePYsWMHs2fPplWrVvj7+6fJazKbSLGmsDB8IU4OTnQs3xEXB5f0f6EkS4hKiKLZymYkmhMBmNBwAi97vWznVCL2tf/mfnr+2BOz1QyAv7c/Q+sOtXMqkczPYrWw7sI6Jh6cyO2E26n2tSjVgg9qfGD3Ce5Wq5XzqzZyIWQrlmSTXbPYm4OLM1XefZOCtSrbO4qks39VpHZ+VKSuVbAWtQrVwju3t4rUIiIiIiIimZiK0yIiz5g5x+cw8dBE2/aQ54YQ4BNgv0Aiz7jHb8V+O6UmNjaWhw8f4unpSUJCAqtWraJFixaYzWbq1q1Lhw4dGD58OPv378fJyYmzZ8+ydetW8uXLxyeffML06dMJDQ2lXLlydOnShdq1a//uub///nt2797NF198gZubW4b8vCIiIvLsOnjwIL169eKzzz4jV65c9O7dm2+//RYHBwemTZtGnTp1ePXVV1m+fDnJycl069aNokWL/uHxtm3bRlBQEF999RXOzs7069ePV199lU8//ZT33nsPJycn3njjDaZMmcL8+fP55JNPGDlyJE2bNmXXrl2EhYVRv359AMaNG0dgYCBFixa1vS+LN8Xz0PSQb498y4tFX6RxscaaLCgATDg4gbkn5gJQyqMUq1qvUjFGnnkLTy5k7P6xtu3hzw/ntbKv2TGRSOZ27M4xxuwbw7GoY6nWK+WtRFDtIKoVqGafYL8Rb4rn7L2zVC1QlVsHjnPs20WYk03wjH2taHRyxNEtG7U+7o17cd2x8VmkIrWIiIiIiMjTR8VpEZFnyI6rO+i7pS9WHv3VrwlAIvbzv7eeB7h48SKff/45u3fvplGjRlSvXp1evXpx//59Pv74Yw4fPkz16tVZunQp9+/ft01fPHv2LEOGDKFDhw60adPmb51/27ZtfP311wQFBVGvXr30+BFFRERE0tiyZQtffvkllStXpmbNmgQGBtKjRw9efvllWrZsSa5cudi0aRPDhg2jSJEiFChQgBEjRpA7d24AzGYzDg6/Fg527tzJ8OHDKVasGMWLF2f48OEAvPbaa7Rv356OHTsSFhbG4MGD2bZtG7ly5aJBgwbUqFGDK1eu0L9/f1588UX27dtH1apVcXFJO1k63hTPybsnWXV2FW9Vegvv3N4Z82JJpnU/8T5+q/x4aHoIwJcvfEmr0q3snErEvv73DmfORmcWNFtAxXwV7ZxMJHO5HX+biQcnEnIhJNV6vmz5+KDGB7Qq3QqjwfgHz84Y9xLvMffEXOafnI/FasG3oC/z/Obx8OYdjk5ewMMbtzEnJds1Y0YxOjtRoEZFKnbzxymHhg7IIypSi4iIiIiIZH0qTouIPCMuxFzgjXVv8MD0AIAaBWowu+lsnByc7JxM5NlhsVgAUt1q/tKlS0ycOJE6derg6elJREQEvXr1YsaMGQwePJgTJ05w48YNpkyZwrx58zAYDHh4ePD9999To0YN+vTpw/nz5wkICODdd98lR44cv3tus9lsO6/BYCAkJIQvv/ySTp06UbBgQdq1a5f+L4CIiIjI//f4IrJhw4YRExPD22+/Tbly5bhz5w5BQUE4ODjQu3dvjh8/jqenJ76+vuTLly/N8x+LjY0lZ86ctu0ZM2bw3XffUb9+fSZNmsTEiRN59913GT58OIcOHWLNmjUA3Lp1i65duzJ37lwKFiz4h3lTLCmkWFIIjgjm5sOb9KrSi9yuudPhlZGsYuqRqUw7Og2AojmKsvbVtTgZ9fu1PNviTfG8GfYmZ++dBaBQ9kIEtwwmj2seOycTsb8kcxILwhcw6/gsElISbOtORie6VOxCj8o9yO6U3Y4J4U78HeacmMPKMytJNCfa1rM7ZWdvx70AWC0WLobt4Oz367GYUp7a6dNGJ0ccnJ2p/G5HClTXBSDy51SkFhERERERyXpUnBYReQbEJsfyxro3uBh7EQDP7J4sbbGUvNny2jeYyDMqOTkZg8HAd999x/z582nbti1t2rRh7NixxMfHc/nyZdzc3OjcuTOdOnVixowZHDp0iA8//JATJ04waNAgnn/+eRYsWMDly5cpXrz43z53SkoKjo6OfPDBB8yaNYvu3bvzxRdf4O7uno4/sYiIiEhqVqsVi8XC3LlzyZcvH61atcLBwYGJEydy6dIlunfvTqVKlTCZTPTo0YMiRYqwc+dOPv30U/z8/ABITEwkKiqKokWL/u45Hj58yDfffMPOnTsJDQ0lMjISPz8/goODqVatGgATJkxgw4YNbNy4kYCAAGbOnGmbbv04528L2gkpCSSZk/j64Nd45/YmwCdAZdln1IPkB/it8iMmKQaAoXWH4u/tb+dUIvZ3OfYyr4e+TpwpDoA6nnWY/tJ0HI2Odk4mYh9Wq5XNlzcz/sB4rj24lmpfk+JN+LDmhxRzL2andL9KMifRanUrbjy8kWbf44nTv/U0T5/WlGn5r1SkFhERERERyfz0aaWIyFPObDEzaMcgW2na1cGVyY0nqzQtks7+9zbyAD/++CPfffcdd+/eZe3atWTLlo0rV67QpUsXChYsiNFoJCkpiaVLl9rK0AkJCbRt25b79+/TuHFjGjVqxIoVK2xln79bmg4NDWXGjBmUKVOGt99+mwkTJvDgwQOKFCmCu7t7mlKQiIiISHoyGAw4ODjQo0cPTCYTDg4OHDx4kF27dvHmm2/i7e0NQJcuXdi8eTMnT57ktddeY9iwYfj6+pI/f37WrFnDli1b6Nu3L1WqVEl1fIvFQvbs2QkKCqJfv34ArFq1iooVK9reR0VGRrJw4UJmzJjBrVu3cHNzw2w2p8n5W9kcs5HNMRtBtYKIjIlk4PaBBPgEUK9IvXR6pSSzyuGcg26VuvH1wa8BmHF0Bq1Lt8bFwcXOyUTsq3jO4oyuP5o+W/oA8MuNX5h8eDIDfAfYOZlIxouIjmD0vtEcuHUg1XrZ3GUJqhVEHc86dkqWVrwpnjvxv1/sbFK8SZq17IXyU/eLAdzad5RTC34gJT4hyxeoHVycyV6kIBXeakeuMl72jiNZmMFgoIRHCUp4lMDf2/9vFanjkuPYfmU7269sB1SkFhERERERSW/Gv36IiIhkZZMOTWLXtV227REvjKBcnnJ2TCTy9DKbzVgsFoA0pelLly4xefJkXnnlFZYsWUK2bNmoVq0afn5+/PzzzwA0b94cs9nMsWPHePDgASNGjKBTp04UKFCAoKAgjh49ysKFC21ln//1RzcS+eWXX/j222/p3bs3+fPnp3///ly9epXevXuzcOFCLBaLStMiIiJiN05OjyY2WywWatWqRZUqVXB2dmbbtm3s3buXYcOG4efnx/bt28mXLx+RkZFcvXqVI0eO4OPjQ+nSpQFSlZ6NRqPtfZmb26NJgbVr1yYyMpJJkyZhNpsZP348NWvWpHbt2ty+fZs7d+5gND76qOzLL79k1apVqXI+Ph6Am5Mb5fKUY0z9Mdx8eJNBPw3iYszFdHuNJHN63ed18ro+uij5Vvwtlkcst3MikcyhftH6vFP1Hdv23BNz2XRpkx0TiWSs6MRoPt/zOQGhAalK07lccvFZnc9Y3nJ5pipNA+R2zU2vKr1+d1+lfJV+d91gMFCoTjUaTB6Cz5ttcMruhtHFOT1jpgsHF2fcCuaj2gdvUXdEf5Wm5Yl7XKT29/ZnbP2xbPHfQkjbEIbWHUqzks3Iny1/muc8LlJ/deArAkIDeDH4Rfpt7ceC8AWcunsKs8Wc9kQiIiIiIiLytxmsf9SwERGRLC/0Qigf7/zYtt2zck/eq/GeHROJPH3MZjPvvPMOM2fOtK0lJCQwb948Dh48yLvvvkuNGjUYOnQot27dYsaMGbbHxcTEMHPmTO7fv88XX3wBwJo1a1ixYgWnT5+mevXqvP322/j6+v7hROg0t49PSCA2NpaCBQvapl7PmTOHdevWsWrVKhITE5k8eTJms5mPP/4YX19fvvrqKxo3bpyOr5KIiIjI3/Pb9zZz5szhxIkTfP3111y/fp1hw4bx008/cezYMYKDgzl8+DDdu3enUqVfyzyPLwj7o4vCkpOTOXToEFarFX9/fw4fPkz+/Pnp06cPhQoVYsiQISxZsoRhw4axZMkSatasycWLFylRooTt+I/L1Y8lpiSSYklh4qGJuDm60bNKT9yd3dPnBZJMZ/GpxYzeNxqAPK55CHstDDcnNzunErE/i9VC3y192XltJwBujm4sabGE0rlK2zmZSPoxmU0sPb2U6UenE2eKs607GBzoUK4Dvav2xsPFw44J/1i8KZ431r/BufvnUq0bDUb2dtxLNsdsf3kMc1IyV7bsJnLddlISEjEnJqVX3P/MYDRicHQgu2cBSrd5iYK1q2AwataU2MffmUj9vzSRWkRERERE5L9RcVpE5CkVHhVOlw1dSDI/+oC6YdGGTGo8CaNBHwCLPGlHjhyhWrVqpKSkMG/ePJYvX07NmjUxmUycPHmSb775hpMnTzJz5kzWrFlDSkoKjo6OAISGhrJ8+XKCgoKoWLEiAHfv3iVPnjy/W/iJjY0lKSmJ/PnTTiK5ceMGI0aMIDAwkAYNGtjWFyxYwIULF+jbty/58uXjm2++4ezZs0yaNInBgwcTHh5OSEhIOr06IiIiIv/OmTNn6NmzJ8OHD6dhw4bAo+LyxYsXGT9+PL6+vnTr1o2QkBDWrl1L//79qVChwh8e7/FFZQDXr19nz549tGvXjtjYWMaMGUPDhg1ZtGgR+fPn580338TNzY3Q0FCOHDnCw4cPGT58uK2knZCQgMlkImfOnLbjx5viuRV/i6/2f0WT4k1oW6atygvPgGRzMi1Xt+TGwxsAvF/jfXpU7mHnVCKZQ0xSDB3WdeBK3BUASuQswZIWS3RxiTyVdl7dydj9Y7kYezHVer3C9fio1keZ+qIBq9XKRzs+YuPFjQA4G50plasUp6NP07FcRz6u8/FfHCHt8aLDz3IhZCv3Tp/HClhNKemQ/J9zcHHGarHi+Xx1SjRrgHvxwvaOJJKGitQiIiIiIiLpT8VpEZGnUFRCFIGhgdyOvw1AKY9SLG6+mBzOOeycTOTpdP36dT777DO+++47hg8fznfffcelS5cA6NOnD9WrV6devXr07duXzz77jEaNGnHp0iXu379Pnjx5mD9/Pq1ataJq1appjm21WklMTOTAgQO8+OKLbN26ldDQUCZMmMC5c+cIDw/nwYMHvPHGGwCUL1+esLAwSpQoYSsHbdq0iZCQEGrWrEnnzp2ZOnUqx48fZ9q0aVy7do0NGzbQvXv3DH3NRERERP6OFStWMGLECGrUqEH//v0pX74848ePJyYmhr59+1KkSBFiYmLYsWMHw4cPp2fPnvTq1QuDwcDRo0fx8PCwTYv+Mw0aNODy5cs8//zzLFy4kMTERF555RWcnZ2ZN28eERERzJkzhzlz5uDm5sb27dsZO3YsM2fOpGjRoqmOlZCSwI6rO1hxZgW9q/bGt6BvOr06klmsOruK/9v9f8Cj0sqGdhvI6ZzzL54l8myIiI6gU1gnElISAGhcrDFfN/paF/bLUyMyJpKv9n9lm67+mFdOLwbVGsSLRV78wzthZBbzw+cz7sA42/bIeiNpU6YNMUkx/3lCduLd+1zfdZAbuw/x4PotjA6OmJMydhK1QzYXrCYzubxLULieL4XqVMPRzTVDM4j8FypSi4iIiIiIPHkqTouIPGWSzcl029iNo3eOAo8+IFvaYileOb3snEzk6WWxWHBzc+PBgwecOXOGd999lxkzZuDj48O0adO4ePEigwYNYsmSJWzevJnk5GQuXbpEt27dGDhw4B8e9/Gt6k+fPs2ePXvo2rUr169fp2jRorzwwguUKlWKZs2aMWfOHPr06UObNm14++23admyJa1atbLdSt5kMhESEsLEiRPJkSMH169f55tvvuGFF17IwFdJRERE5N+xWq2sWrUKPz8/duzYQUhICJ06daJEiRJMnjyZU6dO8d577xEVFcWVK1f48MMP2bVrF4sXL6ZLly5Ur14dZ2fnPz3Hxx9/jIuLCwMGDCBnzpyMHj2aiIgIihUrxubNm3nnnXeYNGkSISEhODk5MXr0aIxGI2PHjrW95/qtZHMyZouZaUencTP+Jh/U+IDCOTTR8Gllspho+0NbLsddBqBXlV70q97PzqlEMo/1F9YTtDPItq3J7PI0iE2OZfrR6Sw9tZQU66/TlHM45aB31d50LNcRJwcnOyb8e/bd2EevTb0wW80ABPoE8tlzn6XLuZLjHnLnyEmu7zrI/TORWC1WDA5GzInJ8IS+qjQ4GHFwdsZsMuGYzZV8Vcvh+Vx18lYsi4PLn78fFMkqVKQWERERERH571ScFhF5ilitVobtGcaqs6sAMBqMTGsyjeeLPG/nZCJPv8GDB1OqVCl69epFv379KF68OB999BHh4eGMGjWKgIAAWrduzfXr1zlw4AAtW7ZMU7CBX8vS/+vixYvcvXuXiIgIRo4cScOGDZk6dSoAixcvZtu2bbz00kvs2rWLfv364e3tneYYx48f5/bt2zRp0uRvnVNEREQks1mwYAHnz59n+PDhNGjQgMqVK9OlSxc+++wzrly5QkBAAB9//DGtW7fm+PHjTJ48mfbt2/+tY/+2AD1r1ixu3LjB0KFDOXLkCIMHD8bV1ZUffviBFStWMG/ePJYvX869e/coUqTIHx4z3hRPTFIMI/eOpEK+CnSt2BU3J7cn8lpI5rLuwjoG7xwMgJujG2HtwsjjmsfOqUQyjzH7xrDo1CIADBiY/tJ0fV4lWZLZYmbl2ZV8c/gb7iXds60bMPBa2dfoV70febPltWPCv+/mw5sEhgYSnRgNQNX8VZn7ytwMKXxbrVYS794n5sIVYs5fIvrUeeJv3iElPhGMRoxODhgMBqwW66NStRV4/NGVwYDB+GifxWQCDDjlcMO9mCd5ypcmZ6nieJQsinNO3X1Rng0qUouIiIiIiPxzKk6LiDxFFp9azOh9o23bA2sOpEvFLnZMJPLsuHLlCq1bt+bw4cN8//33LFq0iDVr1gAwZswYGjRoQJ06dX63oJyQkMCpU6eoVq1amjL1rFmzKFiwINHR0YSEhLBy5Uq2bt1Kv379CA8Px2w2YzAYWL9+PTNmzODnn3/m4MGDlCpV6k8L0b83GVFEREQkK4iJiSFHjhz4+/szfPhwKleuzE8//cSkSZMYPHgwefPmZeTIkeTOnZstW7awcOFCqlSpYnu+2WzGweHXUsDvvWfauHEj48aNY+nSpeTLlw+Ae/fucffuXYYNG0bz5s2pUKECb775JidOnAB+fX/1e8dLSEng0K1DfHvkW94o/wbNSzbXhWtPGYvVQru17Th3/xwAXSp0YWCtP767jMizxmQx0fPHnhy8dRAADxcPglsGUyTHH198IpLZ7L+5nzH7xhBxLyLVum9BX4JqBVE+b3k7Jfvnks3JvLXhLY5HHQcgr2teglsGUzB7QbvmslqtmB7Ek3QvhqT7sSTHPsRqMWMxWzAYDBiMRoyODjh7uOOS2wPXXDlxyOai91Uiv6EitYiIiIiIyF9ztHcAERF5Mvbe2MtX+7+ybbcu3ZrOFTrbMZHIs6VYsWLExsZy4cIF6taty4oVKzh9+jTlypUjKCjod5/zuLSzZcsWHB0dH03bSUwkPDwcX19fAO7evcvDhw/p0qULCxYs4OjRozRu3Jg7d+4QHh5OxYoVAWjZsiWRkZHcvXuXixcvUqpUqd/90uhxkUelaREREcmqPDw8AHjllVdo2bIlzZs3Z8+ePbRo0YLatWszYMAAfHx8GDRoEEajkcuXL3P48GFOnDhBp06dUpWmgd99z/TKK68QHh5Ow4YNqV27NmPGjMHd3Z0NGzZgNpvp2LEjR48epXXr1iQnJ+Ps7Mz169cpWrTo7x4vm2M2aheqje8rviw4uYDuG7szoOYAKuWrlD4vkmQ4o8FI3+p9+WDbBwAsi1hG54qdKeBWwL7BRDIJJ6MT4xqMIzAkkNsJt4lJiqH/tv4saLYAV0dXe8cT+VNX464y4eAENl3alGrdM7snH9b8kKZeTbNccXfUvlG20rSjwZHxDcfbvTQNj96XObtnx9k9O+7FC9s7jkiWZDAYKOFRghIeJfD39v9bReq45Di2X9nO9ivbARWpRURERETk6afGjIjIU+BK3BUG/jQQs9UMQOV8lRlad2iW+8BeJKv79NNP2bBhA0WLFmXZsmWUK1fudx939+5dtm/fzu3btwFo0aIFVatW5cCBA/zyyy+0b9+exMREAC5cuECZMmXInTs3xYsXZ+PGjQA0b96cb7/9lgsXLrB27VoAOnbsSLZs2Wxl6t+jvxdERETkafH2229z4MAB6tevj6enJ507d2bLli3cv3+fF154wXah2Ouvv86RI0fYvn079evX5+TJk3963Mc3ZxswYADbt2+nbt265M+fnyNHjrB161Z69OgBwO7du7l27RrOzs6cOHGCRo0asWrVqj88rpODE66OrnSq0IlxDcYx6/gsPvv5M+7E//n0N8k6GhdrTMW8j96LJ5mTmHlspp0TiWQu+bLlY3zD8TgaH81zORV9ihF7R6CbYkpmFW+KZ/KhybT5oU2q0nQ2x2z0rdaXtW3X8kqJV7LcZy0rz6xkxZkVtu0Pa36Ib0FfOyYSkfT0uEjt7+3P2Ppj2eK/hZC2IQytO5RmJZuRP1v+NM95XKT+6sBXBIQG8GLwi/Tb2o8F4Qs4dfcUZos5438QERERERGRJ8hg1aeSIiJZ2kPTQ95c/6btdsD5s+VnWctlmmolYge/d1v2x8zmRx8mOzg4EB0dzTfffENKSgoAfn5+rFmzBqvVytixY+nTpw/58+fnww8/ZPTo0VgsFkaNGsWaNWuYP38+ixcvJioqivfff5/r16/z3nvv0bFjR06dOkWXLl1YvXo1RYrodsciIiLy7Lhy5QrFihVj6dKlHD9+nC+//BKAjz/+mLFjx9K7d2/GjBlDSEgIDg4OBAQE/OnxrFYrFosl1XTqSZMmcfz4cWbPng1A9+7d6dGjB4cPHyY8PJwyZcrQv3//v5053hRPxL0IRv0yiqYlmtKpQidcHFz+xU8vmcmua7vovbk3AI5GR0LahlDUvaidU4lkLssjljNi7wjb9qd1PuX1cq/bMZFIaharhXUX1jHx4ERuJ9xOta9FqRZ8UOMDCmUvZKd0/82JqBN0DuuMyWICoHnJ5ox+cXSWK3+LyJPzdyZS/y9NpBYRERERkaxOxWkRkSzMYrUwYPsAtlzeAjy67ek8v3lUyV/FzslE5I/ExcVhMBh45ZVXOH/+PP7+/kyZMoXQ0FA2bdpEr1698PT0ZOrUqURERODv78/PP//M2LFjsVgs1KhRgwkTJtC4cWPi4uJwd3e3HXvw4MF4enrSp08fHB0d7fhTioiIiNjHzp07ee211/jyyy9p164d1atXZ9u2bYSEhLB48WIsFgv169dnwoQJXL58md27d/P664/Kel988QU+Pj60b9/+D48fGxtLzpw5Aejbty/Xrl3j3LlzrF27lmLFiuHo6PinF9P9L7PFTLI5mcE7B3Pm3hkG1hpI42KNVV7KwqxWK29teItDtw8B0KZ0G0a+MNLOqUQyF6vVypBdQ1hzfg3w6CKDua/MpVqBavYNJgIcu3OMMfvGcCzqWKr1SnkrEVQ7KEv/OY1OjCYwNJCbD28C4J3bm4XNFuLm5GbnZCKSmfxvkXr/zf1EJUT96XNUpBYRERERkaxGxWkRkSxs6pGpTDs6zbY9st5I2pRpY8dEIs+WPyrFmM3mVNMJAfbs2cP48eM5deoUc+bMISoqiu3bt/P6669Ts2ZNrl69ysSJE/Hx8aFnz54kJSXRsGFDYmJiGDBggO2W8OHh4VSsWPEvzyciIiLyrIqNjeXMmTOUK1eOvn37Mn78ePLmzcv169cZM2YMw4YNY8yYMVy5coXIyEiKFi3KRx99RL169fjll1+oXr16mmM+fr/14MEDcuTIQUpKCp6enrzxxhv06NGDSpUqYbFYMBqN/ypzVEIUjZY3AqBOoToMqj0I79ze/+l1EPs5cPMAXTd2BcBoMLK6zWpKeZSycyqRzCUxJZHOYZ05FX0KeHQHteWtlpMvWz47J5Nn1e3420w8OJGQCyGp1vNly8cHNT6gVelWGA3/7t/5zCDFkkLvTb355eYvwKOSY3CLYIrlLGbnZCKS2alILSIiIiIiTyMVp0VEsqhNlzYxYPsA23anCp0YVGuQHROJPDtikmIIPR/Kq2VfTTWV54+K1LGxsQwYMIB69erRvn173N3diY+PZ+TIkeTNm5c+ffrg6urKN998w61bt+jRowdeXl789NNPjBw5kr59+9KmjS6KEBEREfknrFYr/fr1IyIigtGjR+Pr6wtAWFgYPXr04MSJE+TOnZvvvvuO4cOH07p1a6ZMmfKnF6WtX7+eoUOHUrFiRdzc3Jg2bdrvPu6fSkpJovUPrbn+8DrwqGzr7+1Pn2p9yO2a+4mcQzLW25veZvf13QC8UuIVxjUYZ+dEIpnP9QfXCQwN5H7SfQBqFKjB7Fdm42R0sm8weaYkmZNYEL6AWcdnkZCSYFt3MjrRpWIXelTuQXan7HZM+GRMODCBueFzATBg4Jsm31C/aH07pxKRrEhFahEREREReRqoOC0ikgVFREfQKayT7cP8up51mfrSVByNjnZOJvJ0OxF1guCIYDZEbiDRnMhndT6jnXe7VP/vxcbGMnv2bA4ePEibNm0ICAjg7NmzNGnShMuXLwOQkpKCo6Mj8+bN4+TJk3z00Ufkz5+fDRs28P333+Pv74+fn98/us27iIiIiPy+uXPnMnv2bN58803eeecdGjZsSLdu3ejcuTMAEydO5KuvvuLSpUs4Ojr+5d081q9fT9myZSldujRGo/GJvGezWq3MPDaTaUenYbaabevuzu70qdaHAJ8AFQmzmBNRJ+iwroNte0WrFfjk8bFjIpHMaff13byz+R0sVgsAb5R/g8G1B9s5lTwLrFYrmy9vZvyB8Vx7cC3VvibFm/BhzQ8p5v50TGPeeHEjA38aaNt+t9q7vFP1HTsmEpGniYrUIiIiIiKSFak4LSKSxdxLvEeHdR1sH+gXcy/G0hZL8XDxsHMykadTvCmesMgwlp9Zzsm7J1Pt88ntw8LmC8nmmA2AmJgYAgMDqVGjBp06dcLf35+JEyfi5eXF2LFj6d27t23SIUBERATz589nw4YNeHl5MXz4cBwdHalQoUKq8zwuWouIiIjIv2M2m7l9+zaenp588MEHdOjQgTp16gBQoUIF+vXrxzvvvIPJZMLJyQmz2czZs2cpV66c7RgZcVHbuXvnGLt/LHtu7Em1XsqjFINqDaJekXrpen55st7f+j5br2wFoGHRhkxpMsXOiUQyp9nHZzPp0CTb9qgXR9GyVEs7JpKnXUR0BKP3jebArQOp1svmLktQrSDqeNaxU7In7/z983RY18E2gKNB0QZMbjwZo8Fo52Qi8rRSkVpERERERLICFadFRLIQk8VE70292XdzHwBujm4sabGE0rlK2zmZyNPn/P3zLI9YTsj5EOJMcWn2l8tTjgCfANqVbZfqy6Z79+5x/fp15s2bx/Tp0+nSpQu9evVi3bp1nDhxgsWLF3Pt2jXWrFnDu+++y507dwgNDaVZs2YUKlQoI39EERERkWfS0KFDWb16NWPHjmXGjBlcvXqVAwdSF6fOnz/P119/Ta9evahSpUqG5rNarWy/sp1xB8ZxOe5yqn0NijZgYM2BlPAokaGZ5N85c+8M7de2x8qjj18XNV9E1fxV7ZxKJPOxWq30396fLZe3AODq4Mqi5os0pV2euOjEaL45/A0rz660TTkHyOWSi77V+qa5q1hWF5ccR8d1HbkYexGA4u7FWdpyKTmdc9o3mIg8U1SkFhERERGRzEjFaRGRLOTLX75k6emlABgwMKnRJBoVb2TnVCJPj2RzMlsubyE4IpiDtw6m2e9sdMavpB8BPgFUyVfldycOXrlyhbfffpsOHTpQvXp1unXrxvTp0ylevDidO3fGYDBw9epVGjRowJdffkmOHDlsz82IKYYiIiIiAuvXr+f48eN8/PHH/PLLL9SqVQuz2YzBYMBoNHLx4kXef/99li5dyvr167l+/Tp9+vTBweHRl/UWiwWjMX0nNSabk1l8ajEzjs3goemhbd3R6Mgb5d7g7apv4+7snq4Z5L8btGMQYZFhANTxrMPsprPtnEgkc3qQ/ICO6zsSGRMJQNEcRVnWcpnusCZPhMlsYunppUw/Oj3VxfEOBgc6lOtA76q9n7o/axarhQ+2fcC2K9sAyOaYjUXNF+Gd29vOyUTkWacitYiIiIiIZAYqTouIZBErz6xk2J5htu1+1fvRq0ov+wUSeYpcjbvKijMrWH1uNdGJ0Wn2e+X0wt/bn7Zl2v7lF2m//PILH374IT///DMAefPm5b333uPTTz8F4Pjx41SvXj3N81SaFhEREcl4a9eupXXr1rYi9OP3ZH379sXDw4PevXvTuHFjXFxc+OWXX3BycsLZ2RmAbdu2kZCQQPPmzdM1Y1RCFFMOT2H12dW2ycUAeVzz8F7192hbpq1KA5nYpdhLtPmhDWarGYA5TedQ27O2nVOJZE4XYi7QIbQD8SnxALxQ5AW+bfJtqrs8ifxTO6/uZOz+sbapy4/VK1yPj2p99NTeyW/WsVlMPjzZtj22/lialWxmx0QiIr9PRWoREREREbEHFadFRLKAw7cP021jN1IsKQA09WrKuAbjVLIU+Q/MFjM7r+0kOCKYXdd2pSqhwKOpQ42LN8bf2586nnX+9he1ly5d4tNPPyUlJYXExETc3d3p2rUrDRs2TDWV0Gw2YzQa9f+xiIiISCbw24vY7ty5Q8+ePXn99dfZvXs3Bw4cYMiQIdStW5fJkyfj5OTExx9/zLVr14iMjOSFF14gMTERV1fXdM0YfjecMfvGcPj24VTr5fOUJ6h2EL4FfdP1/PLv/d/u/2PV2VUAVMtfjQXNFuj3AJE/sPnSZvpv72/b7l21N32q9bFjIsmqImMi+Wr/V+y8tjPVuldOLwbVGsSLRV58av8u3nVtF+9sfsf2WVenCp0YVGuQnVOJiPw9KlKLiIiIiEhGUHFaRCSTu/nwJoGhgbYpuOXylGO+33zcnNzsnEwka4pKiGLV2VWsOLOCGw9vpNlfwK0A7b3b065sOwq4FfhX5zh16hRLly6lRYsW1KlT579GFhEREZEMdOLECVq2bEnz5s2pVq0aOXLkoGDBgixevBgfHx969OjBzJkz8fLyomPHjty5c4eFCxfSs2dP3N3d0zWb1Wpl48WNjD84npsPb6ba90qJVxjgO4DCOQqnawb5564/uE6L1S1sF0N/2+Rb6hetb+dUIpnXxIMTmXNijm17SuMpNCzW0H6BJEuJTY5l+tHpLD21lBRrim09h1MOelftTcdyHXFycLJjwvR1Ne4qgaGBxCbHAlCzYE1mNp2Jk/Hp/ZlF5OmmIrWIiIiIiKQHFadFRDKxhJQEuoR14VT0KQByu+RmWctl+iJc5B+yWq3sv7mf4Ihgtl7emuqLs8fqFa5HgE8A9YvWx9Ho+ETPbzabcXDQB7MiIiIiWcHBgwfx8/Pj559/pnTp0gwbNoz169dTq1YtZsyYwY0bN6hbty4//PADu3btYvbs2bRs2ZIRI0aQkpLCnTt38PT0TNeMCSkJzDsxj+9OfEeiOdG27uLgQtdKXelasasuts1kvvzlS5aeXgo8mhK+rOWyv31XG5Fnjdlipvfm3uy9sRcAdyd3lrZcildOLzsnk8zMbDGz8uxKvjn8DfeS7tnWDRh4rexr9Kvej7zZ8toxYfpLSEmgc1hnTkefBh4NBwhuGUy+bPnsnExE5MlRkVpERERERJ4EFadFRDIpq9VK0M4gwiLDAHA0ODKr6SxqFqpp52QiWUdMUgxrz69lecRyLsZeTLM/t0tu2pZti39Zf4rlLPbEz2+xWDAaVYYQERERyWqSkpJwcXFh1apVtG/fntdee40FCxbg5uZG+/btKVq0KBMnTmTGjBl88sknVKpUiZkzZ5I9e3Y++ugjXn75Zbp165buOW8+vMmEgxNsvzc+VsCtAAN8B9C8ZHMMBkO655C/FpUQRbOVzWxF9wkNJ/Cy18t2TiWSed1LvEdgaKDtTlFlcpVhcfPFuihEftf+m/sZs28MEfciUq37FvQlqFYQ5fOWt1OyjGO1Wvn0508JuRACgKPRkXl+86iav6qdk4mIpC8VqUVERERE5N9QcVpEJJOac3wOEw9NtG0PeW4IAT4B9gskkkVYrVZORJ1g+ZnlbIjckGoC32PVC1QnwCeApl5NcXZwtkNKEREREckKwsPDWbFiBa+++ipVqlRh/fr1fPTRR+zevRuj0UibNm3o06cPJUqU4MSJE+TKlYv58+ezatUqAEwmE05OTume89CtQ4zZP4aTd0+mWq+WvxpBtYOolK9SumeQvzbh4ATmnpgLQCmPUqxqvUoFDZE/EX43nM7rO5NsSQbAr4QfY+uP1QUhYnM17ioTDk5g06VNqdY9s3vyYc0PaerV9Jn587L09FK+/OVL27Y+SxaRZ5WK1CIiIiIi8neoOC0ikgntuLqDvlv6YuXRX9H+3v4MrTvUzqlEMrd4UzxhkWEERwRzKvpUmv3ZnbLTslRLAnwC8M7tbYeEIiIiIpLVFS9enE8//ZS3336b0aNHs2PHDtavXw/AmTNn6NOnDwaDgcDAQLp3757m+SaLCQcc0uWuJBarhTXn1jDp0CTuJt5Nta9N6Ta8X+N98rvlf+Lnlb/vfuJ9/Fb58dD0EIAvX/iSVqVb2TmVSOa2+uxqhu7+9TOxj2p+ROeKne2YSDKDeFM8s4/PZn74fFuxHiCbYza6V+pOl4pdcHV0tWPCjHXk9hG6buhKijUFgFfLvMrw54c/M6VxEZE/oyK1iIiIiIj8HhWnRUQymQsxF3hj3Rs8MD0AoEaBGsxuOhsnh/SfUiaSFZ2/f57lEcsJOR9CnCkuzf5yecoR4BNA85LNye6U3Q4JRURERCSrs1qtmM1mvv32W95//31iYmKoXr06GzZswNvbmzt37jBjxgx++OEHFi9ezMiRIzGbzcyZM4ds2bLZjnM7/jYf/fQRnz33GWVzl02XrA+SHzDr+CwWnlyIyWKyrbs5utGzSk86VeiEi4NLupxb/trUI1OZdnQaAEVzFGXtq2txMur3fZE/M2LPCJafWQ6Ag8GBWU1nUatQLTunEnuwWC2su7COiQcncjvhdqp9LUq14IMaH1AoeyE7pbOPO/F3CAwN5E7CHQAq5q3I/Gbz9W+9iMgfUJFaRERERERAxWkRkUwlNjmWN9a9wcXYi8Cj20oubbGUvNny2jeYSCaTbE5my+UtBEcEc/DWwTT7nY3O+JX0I8AngCr5qmjCjoiIiIg8UXv27KFr166EhYVRsmRJfv75Z7766is++eQT6tSpQ0hICLNnz2bNmjW258Sb4hn400B2XtuJo8GR7pW706tKL5wdnNMl4+XYy4w7MI5tV7alWi+aoygDaw2kcbHGep9sBw+SH+C3yo+YpBgAhtYdir+3v51TiWRuyeZkum7syrE7xwDI45qH4JbBz1xB9ll37M4xxuwbw7GoY6nWK+WtRFDtIKoVqGafYHZkMpvo/mN3Dt8+DEAul1wEtwymcI7Cdk4mIpJ1qEgtIiIiIvJsUnFaRCSTMFvM9Nnah13XdgHg6uDKwuYLKZennJ2TiWQeV+OusuLMClafW010YnSa/V45vfD39qdtmbZ4uHjYIaGIiIiIPCuWLFnC5s2b6d69O8uXLydXrlwMHz6cBw8eMGTIEEqUKME777yDs7MzVquV6w+u0/KHlqRYUmzHKOlRkuHPD6d6gerplnPP9T2M3T+Wc/fPpVqvU6gOg2oPwju3d7qdW37fdye+4+uDXwNQ0K0g615bp8mgIn/h1sNbBIQG2D4LqJyvMvP85qXbxSeSedyOv83EgxMJuRCSaj1ftnx8UOMDWpVuhdFgtFM6+xr1yyiWnF4CgNFgZPpL06lbuK6dU4mIZG0qUouIiIiIPBtUnBYRySQmHJjA3PC5tu2vGnyFXwk/OyYSyRzMFjM7r+0kOCKYXdd2YSX1WxcHgwONizfG39ufOp51ntkvy0RERETEPiIiIujfvz9z5szB09OThQsXsm/fPgIDA3nhhRdSPfb8/fMM2z2MI3eO2NYMGAj0CeQD3w/I7pQ9XTKmWFL4/sz3fHvkW9ukY3hUsvL39qdPtT7kds2dLueWtOJN8TRf1Zy7iXcBGFRrEJ0qdLJzKpHMb//N/fT8sSdmqxkAf29/htYdaudUkl6SzEksCF/ArOOzSEhJsK07GZ3oUrELPSr3SLd/N7OCkPMhfPLzJ7bt/r796Vapmx0TiYg8nVSkFhERERF5Oqk4LSKSCYReCOXjnR/btntW7sl7Nd6zYyIR+4tKiGLV2VWsOLOCGw9vpNlfwK0A7b3b065sOwq4FbBDQhERERGRR+Li4nB3d+fcuXN8/vnnNGzYkNdffx03N7c0j7VYLQRHBDPx4ETiU+Jt6wXdCjK07lDqF62fbjljkmKYemQqwRHBtuIhPPpiv0+1PgT4BOBkdEq388uvFp9azOh9owHI45qHsNfCcHNK++dFRFJbeHIhY/ePtW0Pf344r5V9zY6J5EmzWq1svryZ8QfGc+3BtVT7mhRvwoc1P6SYezE7pcscTkefptP6TiSaEwF42etlxjcYj8FgsHMyEZGnn4rUIiIiIiJPBxWnRUTsLDwqnC4bupBkTgKgYdGGTGo8SVNz5ZlktVrZf3M/wRHBbL28lRRrSprH1CtcjwCfAOoXrY+j0dEOKUVEREREft/58+dZsWIFfn5+VK1a9U8fe+PBDUbsHcHOaztTrTcr2YygWkHkzZY33XKeu3eOsfvHsufGnlTrpTxKMajWIOoVqZdu55ZHks3JtFzd0naR6Ps13qdH5R52TiWS+VmtVoJ2BhEWGQaAs9GZBc0WUDFfRTsnkychIjqC0ftGc+DWgVTrZXOXJahWEHU869gpWeYRkxRDYGigrVRe0qMkS1ssfaanb4uI2JOK1CIiIiIiWZOK0yIidhSVEEVgaCC3428Dj76kXtx8MTmcc9g5mUjGikmKYe35tSyPWM7F2Itp9ud2yU3bsm3xL+tPsZzP9lQhEREREXl6WK1WwiLDGL1vNPeS7tnWPVw8CKoVRMtSLdNteqTVamX7le2MOzCOy3GXU+1rULQBA2sOpIRHiXQ5tzyy6uwq/m/3/wGPyhMb2m0gp3NOO6cSyfziTfG8GfYmZ++dBaBQ9kIEtwwmj2seOyeTfys6MZpvDn/DyrMrsVgttvVcLrnoW60v7bzb6eJ5wGwx02drH3Zd2wVAdqfsLGmxhFIepeycTEREHlORWkREREQka1BxWkTETpLNyXTb2I2jd44Cjz4YWdpiKV45veycTCRjWK1WTkSdYPmZ5WyI3GC7vehv1ShQA38ff5p6NcXZwdkOKUVERERE0t+9xHuM3T+W0AuhqdbrFa7HkLpDKJKjSLqdO9mczOJTi5lxbAYPTQ9t645GR94o9wZvV30bd2f3dDv/s8xkMdH2h7a24nqvKr3oV72fnVOJZA2XYy/zeujrxJniAKjjWYfpL01XuTaLMZlNLD29lOlHp9v+WwI4GBzoUK4Dvav2xsPFw44JM5dvDn/DjGMzbNsTG06kiVcTOyYSEZG/oiK1iIiIiEjmpOK0iIgdWK1Whu0ZxqqzqwAwGoxMazKN54s8b+dkIukv3hRPWGQYwRHBnIo+lWZ/dqfstCzVkgCfALxze9shoYiIiIiIffx87WdG7BnB9YfXbWvZHLPxXvX36FCuQ7p+WR6VEMWUw1NYfXY1Vn79uDCPax7eq/4ebcu01Zf16WDdhXUM3jkYADdHN8LahWlqrsjftOPqDvps6WPb7lqpKwN8B9gxkfwTO6/uZOz+sWnuPFavcD0+qvURpXOVtk+wTGrb5W28t+0923aPyj14v8b7dkwkIiL/horUIiIiIiKZg4rTIiJ2sPjUYkbvG23bHlhzIF0qdrFjIpH0d/7+eZZHLCfkfEiqKUKPlctTjgCfAJqXbE52p+x2SCgiIiIiYn/xpnimHJ7C4lOLUxWYq+SrwrDnh1E2d9l0PX/43XDG7BvD4duHU62Xz1OeoNpB+Bb0TdfzP2ssVgvt1rbj3P1zAHSp0IWBtQbaOZVI1jH1yFSmHZ1m257QcAIve71sx0TyVyJjIvlq/1fsvLYz1bpXTi8G1RrEi0VexGAw2Cld5nQp9hKvh77OA9MDAOp61mXaS9NUmhMReQqoSC0iIiIiYh8qTouIZLC9N/bSe1NvzFYzAK1Lt2ZkvZH6QkCeSsnmZLZc3kJwRDAHbx1Ms9/Z6IxfST8CfAKokq+K/j8QEREREfn/jt45yrDdw2yFWgBHgyPdK3enV5VeODs4p9u5rVYrGy9uZPzB8dx8eDPVvldKvMIA3wEUzlE43c7/rNlyeQsfbPsAABcHF9a/tp4CbgXsG0oki7BYLfTd0tdWwnVzdGNJiyWaVpwJxSbHMv3odJaeWkqKNcW2nsMpB72r9qZjuY44OTjZMWHmFG+K5431b9jeDxTOXpjglsHkcs1l32AiIpIuVKQWEREREckYKk6LiGSgK3FX6LCuAzFJMQBUzleZuX5zcXFwsXMykSfratxVVpxZwepzq4lOjE6z3yunF/7e/rQt0xYPFw87JBQRERERyfxMZhOzT8xm5rGZpFh+LZmV9CjJ8OeHU71A9XQ9f0JKAvNOzOO7E9+RaE60rbs4uNC1Ule6VuyKm5NbumZ4FlitVjqs60D43XAAAn0C+ey5z+ycSiTriEmKocO6DlyJuwJAiZwlWNJiCe7O7nZOJgBmi5mVZ1fyzeFvuJd0z7ZuwMBrZV+jX/V+5M2W144JMy+r1cpHOz5i48WNwKN/fxc0W0CFvBXsnExERDKKitQiIiIiIulDxWkRkQzy0PSQN9e/aZsOkj9bfpa1XKYpUvLUMFvM7Ly2k+CIYHZd25XqtuIADgYHGhdvjL+3P3U862A0GO2UVEREREQkazl//zzDdg/jyJ0jtjUDBgJ9AvnA9wOyO2VP1/PffHiTCQcnEBYZlmq9gFsBBvgOoHnJ5rp7zH+069ouem/uDYCj0ZGQtiEUdS9q51QiWUdEdASdwjqRkJIAQONijfm60df67MHO9t/cz5h9Y4i4F5Fq3begL0G1giift7ydkmUN88PnM+7AONv2yHojaVOmjR0TiYiIvalILSIiIiLyZKg4LSKSASxWCwO2D2DL5S0AOBmdmOc3jyr5q9g5mch/F5UQxaqzq1hxZgU3Ht5Is7+AWwHae7enXdl2ulBARERERORfslgtBEcEM/HgROJT4m3rBd0KMrTuUOoXrZ/uGQ7dOsSY/WM4efdkqvVq+asRVDuISvkqpXuGp5XVauWtDW9x6PYhANqUbsPIF0baOZVI1rL+wnqCdgbZtt+v8T49KvewY6Jn19W4q0w4OIFNlzalWvfM7smHNT+kqVdTXXDzF/bd2EevTb0wW82A7kYgIiK/72kpUj+urOj9gYiIiIhkFBWnRUQywNQjU5l2dJptW9NBJKuzWq3sv7mf4Ihgtl7eSoo1Jc1j6hWuR4BPAPWL1sfR6GiHlCIiIiIiT58bD24wYu8Idl7bmWq9WclmBNUKIm+2vOl6fovVwppza5h0aBJ3E++m2temdBver/E++d3yp2uGp9WBmwfourErAEaDkdVtVlPKo5SdU4lkLWP2jWHRqUXAo8n801+azvNFnrdzqmdHvCme2cdnMz98PsmWZNt6NsdsdK/UnS4Vu+Dq6GrHhFnDzYc3CQwNJDoxGoCq+asy95W5ODk42TmZiIhkdk9DkdpisWA06q4hIiIiIpK+VJwWEUlnmy5tYsD2AbbtThU6MajWIDsmEvn3YpJiWHt+LcsjlnMx9mKa/bldctO2bFv8y/pTLGexjA8oIiIiIvIMsFqthEWGMXrfaO4l3bOte7h4EFQriJalWqb7pK4HyQ+YdXwWC08uxGQx2dbdHN3oWaUnnSp0wsXBJV0zPI3e3vQ2u6/vBuCVEq8wrsE4OycSyVpMFhM9f+zJwVsHgUd/Lwa3DKZIjiJ2TvZ0s1gtrLuwjokHJ3I74XaqfS1KteCDGh9QKHshO6XLWpLNyby14S2ORx0HIK9rXoJbBlMwe0E7JxMRkawoKxSpb968yU8//USdOnUoUaJEmv1WqxWr1aoytYiIiIg8USpOi4iko4joCDqFdSIhJQGAup51mfrSVE3flSzFarVyIuoEy88sZ0PkBhLNiWkeU6NADfx9/Gnq1RRnB2c7pBQRERERefbcS7zHV/u/IuRCSKr1eoXrMaTukAwpCl6Ovcy4A+PYdmVbqvWiOYoysNZAGhdrrNst/wMnok7QYV0H2/aKVivwyeNjx0QiWU9UQhSBIYG2Am/5POVZ0GyBJh2nk2N3jjFm3xiORR1LtV4pbyWCagdRrUA1+wTLoobvGc6KMysAcDQ4MvuV2fgW9LVzKhEReVpkxiL1vHnz6NGjB507d2bXrl307duXfv368fDhQwCyZ8+e5jlmsxkAo9Go3zdFRERE5F9RcVpEJJ3cS7xHh3UduPbgGgDF3IuxtMVSPFw87JxM5O+JN8UTFhlGcEQwp6JPpdmf3Sk7LUu1JMAnAO/c3nZIKCIiIiIiAD9f+5kRe0Zw/eF121o2x2y8V/09OpTrkCG3Wd5zfQ9j94/l3P1zqdbrFKrDoNqD9DvDP/D+1vfZemUrAA2LNmRKkyl2TiSS9Ry5fYSuG7uSYkkBoHXp1oysN1LFmifodvxtJh6cmObinXzZ8vFBjQ9oVboVRoMmQ/4TK8+sZNieYbbtoFpBvFnhTfsFEhGRp96/KVJ7Zvdk/Wvrn9iQqF69enHv3j2+//571q9fz/r16/Hz82PDhg1s2LCB0qVLExQUROPGjX/3+SaTiXnz5lGmTBkaNWpEcnIyzs4a8CMiIiIif07FaRGRdGCymOi9qTf7bu4DHt2qeEmLJZTOVdrOyUT+2vn751kesZyQ8yHEmeLS7C+XpxwBPgE0L9mc7E5pr/QXEREREZGMF2+KZ8rhKSw+tRgrv37cVyVfFYY9P4yyucume4YUSwrfn/meb498S0xSjG3daDDi7+1Pn2p9yO2aO91zZHVn7p2h/dr2tv+Oi5ovomr+qnZOJZL1LI9Yzoi9I2zbn9b5lNfLvW7HRE+HJHMSC8IXMOv4LNtd9gCcjE50qdiFHpV76POif+FE1Ak6h3XGZDEB0Lxkc0a/OFplfxERyVB/p0j9QpEXGFt/LO7O7k/knPXr1+f//u//aNKkCefPn2fSpEmsXr2aPn36MHjwYMaNG8eNGzcYP348O3fuZOrUqdy7d4+2bdvi7+9P3rx5iYmJwWAwYDabWbZsGR07dsTDw4PExESuXbtG6dL6flZEREREUlNxWkQkHXz5y5csPb0UAAMGJjWaRKPijeycSuSPJZuT2XJ5C8ERwRy8dTDNfmejM34l/QjwCaBKvir60kZEREREJJM6eucow3YPSzX52dHgSPfK3elVpRfODuk/eSsmKYapR6YSHBGM2Wq2rbs7u9OnWh8CfAJwMjqle46sbNCOQYRFhgFQx7MOs5vOtnMikazHarUyZNcQ1pxfA4Cj0ZG5r8ylWoFq9g2WRVmtVjZf3sz4A+Ntd9h7rEnxJnxY80OKuRezU7qsLToxmsDQQG4+vAmAd25vFjZbiJuTm52TiYjIs+73itRvlH+Dtyq+9UQmTt++fZvSpUtz6tQpihYtyvHjxxk9ejRnz57l+++/x8vLiwMHDvDVV18xefJk3n33XVq0aEH58uUJCQmhW7duREdHc/DgQZo3b87ixYs5fvw4S5c++o723LlzBAcH069fP3LmzInVatX3WyIiIiICqDgtIvLE/e8tFftV70evKr3sF0jkT1yNu8qKMytYfW410YnRafZ75fTC39uftmXa4uHiYYeEIiIiIiLyT5nMJmafmM3MYzNJsaTY1kt6lGT488OpXqB6huQ4d+8cY/ePZc+NPanWS3mUYlCtQdQrUi9DcmRFl2Iv0eaHNrbi+Zymc6jtWdvOqUSynsSURDqHdeZU9CkA8mfLz/JWy8mXLZ+dk2UtEdERjN43mgO3DqRaL5u7LEG1gqjjWcdOybK+FEsKvTf15pebvwCPLjIKbhFMsZwqoYuISOZjtVpJNifj4ujyRI63bds22rVrx8yZM3nuuecYM2YMSUlJ7Ny5k1OnHr1/O3bsGIMHD+aHH34gMDCQPHny8Pnnn1OkSBEAvvvuOw4fPkz37t0JCgri6NGj5MyZk+XLl5MvXz4KFiyIk1PaC3dVohYRERF5thntHUBE5Gly+PZhRv4y0rbd1KspPSv3tGMikbTMFjPbr2znnc3v0HxVc+acmJOqNO1gcOBlr5eZ1XQWa9uupUvFLipNi4iIiIhkIU4OTrxT9R1WtFpBtfzVbOuRMZF0CevCF3u/4KHpYbrnKJO7DDNensHkRpMp7l7ctn4h5gK9N/em75a+XIy5mO45siKvnF60KdPGtj3l8BQ0/0Lkn3N1dGVio4nkcskFwJ2EO3y4/UNMFpN9g2UR0YnRfL7ncwJCA1KVpnO55OKzOp+xvOVylab/o8mHJttK0wYMjH5xtErTIiKSaRkMhidWmgY4dOgQ9evXZ//+/bz00kvkyJGDt99+Gx8fH86cOcPdu3eZOnUq1apVw9nZme+//x5fX1+GDh3Kjh07ALh+/TpFixalWrVquLm5sXDhQlatWkW1atXo2rUrwcHBrF+/nlmzZhETE5PqZ/ktq9WK2WzGYrE8sZ9PRERERDIvTZwWEXlCbj68SWBooK2AWi5POeb7zdctFSXTiEqIYtXZVaw4s4IbD2+k2V/ArQDtvdvTrmw7CrgVsENCERERERF50ixWC8ERwUw8OJH4lHjbekG3ggytO5T6RetnSI5kczKLTy1mxrEZqUrbjkZH3ij3Bm9XfRt3Z/cMyZJVXH9wnRarW9imhn/b5NsM++8l8rTZfX0372x+B4v1URHmjfJvMLj2YDunyrxMZhNLTy9l+tHpxJnibOsOBgc6lOtA76q9dZH9E7Dx4kYG/jTQtv1utXd5p+o7dkwkIiLy3/2TSc6NGjWiR48evPHGGwAkJibi6urKsmXL+Pzzz3F3d6dFixb06dOHuLg4XF1dKVSoEKNGjWLr1q1s3LiR/v378/zzz/Pyyy/z6quvMnPmTHx8fEhOTqZFixaMHj2awoUL06JFC3bv3o2rqyurV6/m0KFDfPrpp1gsFpKTk8mVK1eq/K+//jpt2rShQ4cOmk4tIiIi8hTSxGkRkScgISWB97a+ZytN53bJzaRGk1SaFruzWq3su7GPD7d/yMvfv8yUw1PSlKbrFa7HpEaT2NhuI+9UfUelaRERERGRp4jRYKRDuQ780OYHXizyom39Vvwt+mzpw6Adg7ibcDfdczg7ONO1UldCXw3ltbKvYeDRl84plhTmn5xPy9UtWXlmJWaLOd2zZBWFcxTG39vftv3N4W9spU8R+WeeL/w8/ar3s20vPrWY0AuhdkyUee28upPX1r7GVwe+SlWarle4HitbrySodpBK00/A+fvnGbJriG27QdEGvF3lbTsmEhER+XcSExP55ZdfOH/+PPBokvNvpzZbLJY/nOI8cuRImjZtCjz6PsvV1RWA119/nZMnT/Ljjz8ycOBA8ubNy/fff0/9+vXx8/Pj6NGjvPrqq9y4cYOkpCTKly/P0aNHKVCgAHnz5gXg2LFjODo6Urp0aRITE3FwcMDV1ZXbt28ze/ZsqlWrRlJSEpMmTaJ169bUqVOHqVOn2grSx44do0SJEraf6TGr1aq7AYmIiIg8BTRxWkTkP7JarQTtDCIsMgwAR4Mjs5rOomahmnZOJs+ymKQY1p5fy/KI5VyMvZhmf26X3LQt2xb/sv66/aeIiIiIyDPCarUSFhnG6H2juZd0z7bu4eJBUK0gWpZqmWFTtMLvhjNm3xgO3z6car18nvIE1Q7Ct6BvhuTI7KISomi2shmJ5kQAJjScwMteL9s5lUjWZLVa6b+9P1subwHA1cGVRc0X4ZPHx87JMofImEi+2v8VO6/tTLXuldOLQbUG8WKRFzVp8QmJS46j47qOts/sirsXZ2nLpeR0zmnfYCIiIv+Q1Wqlb9++3Lx5k8jISHLnzs3XX39NlSpVuH37Nvny5cNoNNoe+/i9xOMi9eN9/8tsNmM0GtO89zCbzezZswcnJyfq1KnD2rVrCQ0NZciQIRw+fJhNmzYxevRosmfPzrfffsvJkyeZMmUKZ86cYcaMGXTr1o3du3ezYcMGVq9ezeeff86uXbvYuHEjp0+f5ttvv2XMmDHExsbSoEEDDhw4wK5du6hVq5atkC0iIiIiTwcVp0VE/qM5x+cw8dBE2/aQ54YQ4BNgv0DyzLJarZyIOsHyM8vZELnB9sX6b9UoUAN/H3+aejXF2cHZDilFRERERMTe7iXe46v9XxFyISTVer3C9RhSdwhFchTJkBxWq5WNFzcy/uB4bj68mWrfKyVeYYDvAArnKJwhWTKzCQcnMPfEXABKeZRiVetVOBgd7JxKJGt6kPyAjus7EhkTCUDRHEVZ1nLZMz1BOTY5lulHp7P01FJSrCm29RxOOehdtTcdy3XEycHJjgmfLharhQ+2fcC2K9sAyOaYjUXNF+Gd29vOyURERP654OBg5s2bx5o1a3B2dubs2bOULVuWbdu28e233xIREUHJkiWZMmUKXl5eJCUl4eLikuY4f1WkfvyY39t///593N3duXPnDm+//TZ79uzh1KlT9OvXj5o1a9KvXz+cnJzo168fcXFxFCtWjKZNm1K4cGE+++wzzp07h4ODAxaLBbPZzMyZM7lz5w5jx45l69atDB48mIIFC9K/f39iYmLYvXs33t7elC5d+sm9kCIiIiKS4f74naeIiPylHVd3MOnQJNu2v7e/StOS4eJN8aw8s5LA0EA6ru/ID+d+SFWazu6UnUCfQFa2Xsn8ZvNpWaqlStMiIiIiIs+w3K65+fLFL5n20jQKZ/+1mLzr+i5eXfMqi04uwmwxp3sOg8GAX0k/1rZdy7tV38XVwdW2b+PFjbT+oTXfHP6GeFN8umfJzLpV7EZ2p+wAXIi5wPrI9XZOJJJ15XDOwcRGE3FzdAPg6oOrDN45GIv1928f/zQzW8wsj1hOy1UtWXhyoa00bcBAu7LtCH01lC4Vu6g0/YTNOT7HVpoGGP78cJWmRUQkSzKbzYSHh9OhQwecnZ0xm82ULVuWhIQE3n33XXr37s3hw4epUqUKq1evBqB///4MHTqU/v37s379em7dugU8Kkz/thT9uMT82xmAv51c/Vu5cuXCwcGBQoUKsWbNGs6cOUPu3Llp0qQJDRo0wNHREYBTp04RHBzM888/T926dXF2diYpKYn169ezd+9epk2bxpAhQ/D19WXLli1Ur14dgGzZsnH16lUAVq5cyfTp07l//376vKgiIiIikmFUnBYR+ZcuxFwgaEcQVh79gl6jQA0+rv2xnVPJs+T8/fOM+mUUL33/EsP2DONU9KlU+8vlKcfQukPZ4r+Fz577TF/CiIiIiIhIKi8UeYHVbVbzZvk3MfDoFsgJKQmM2T+GzmGdOXvvbIbkyOaYjXeqvUPIqyE0K9nMtp5kTmLGsRm0+qEV6y6sS/MF+bMil2suOlfobNueemQqJovJjolEsrZSHqX44oUvbNs/X/uZaUen2TFRxtt/cz+BoYGM2DuCe0n3bOu+BX0JbhnMsOeHkTebbkf/pO26tosph6fYtjtV6JTq3z0REZGsxMHBgbi4OC5dugQ8ujAWYNu2bbi6uvLSSy/h6OjISy+9xPLlywG4desWR44coXbt2ly6dIl+/foxcOBAOnbsyJIlS4BHhWyj0YiDg4PtmIsWLWLOnDk8ePDAtva/rFYrVquVXLlyYTQa6d69O76+vrbH9+vXj06dOtGsWTMcHR3x9PTEbDazZ88eAHx9fWnbti0AP//8M40bNwYeFafLli3LxYsX2bRpE4GBgfj6+qbDKyoiIiIiGUnFaRGRfyE2OZb3t77PA9MDADyzezKh4QRNYJF0l2xOJiwyjLc2vEXbNW1ZcnoJcaY4235nozOtS7dmUfNFLG+5HH9vf9tkMhERERERkf/l5uRGUO0gFjZfSJlcZWzrx6KOERAawDeHvyHZnJwhWQplL8TY+mOZ7zefCnkr2NZvx99m8M7BdA7rzImoExmSJbPpXKEzHi4ewKMJuT+c+8G+gUSyuJe8XqJ7pe627elHp7P9yna75ckoV+OuMmD7ALpt7EbEvQjbumd2T8Y1GMfcV+ZSPm95OyZ8el2Nu8qgHYNsQzhqFqxJf9/+dk4lIiLy39SuXZszZ85w+PBhoqKiADhy5IhtWjPAiRMnKF68ODdu3MDZ2Zm+ffvSoUMH2rdvT1xcHPfu3eO9997DaDTy448/0qRJExo3bszIkSNtx7hw4QJXrlzB2fnXu6laLBYsll/vGmIwGFKVqn+7D6BNmzbMnDnTtu3o6Minn37KqFGjqFq1Km3btuX48eOYTCauX79O7dq1bc87dOgQn332GbVr16ZFixZP6NUTEREREXsyWJ/VUS0iIv+S2WKmz9Y+7Lq2CwBXB1cWNl9IuTzl7JxMnmZX466y4swKVp9bTXRidJr9Xjm98Pf2p22ZtrYv00VERERERP4Jk9nE7BOzmXlsJimWFNt6SY+SDH9+ONULVP+TZz9ZFquFNefWMOnQJO4m3k21r03pNrxf433yu+XPsDyZwXcnvuPrg18DUNCtIOteW4eLg4udU4lkXWaLmd6be7P3xl4A3J3cWdpyKV45veyc7MmLN8Uz+/hs5ofPJ9ny68Uw2Ryz0b1Sd7pU7IKro6sdEz7dElIS6BzWmdPRpwEo4FaA4JbB5MuWz87JRERE/pv4+HgmTpzIpk2bcHNzY/bs2Vy9epXp06czZMgQHBwc6N69O3369MHR0ZFNmzYxYMAAihcvzsqVK9m0aRM9e/bE19eX77//nunTp/Pjjz9y5coV5s2bR5s2bShWrBijR4+mWrVqvPnmm9y6dYuCBQumybJ9+3a8vb0pWLAgDg4OafY/nmT9exOr4+LiiIiIoFq1apw+fZoePXqwd++j94i3b9+mWrVqFClShF27dqUqb4uIiIhI1qWJ0yIi/9CkQ5NspWmAES+MUGla0oXZYmb7le28s/kdmq9qzpwTc1KVph0MDrzs9TKzms5ibdu1dKnYRaVpERERERH515wcnHin6jusaLWCavmr2dYjYyLpEtaFL/Z+wUPTwwzJYjQYebXsq4S+Gkq3St1wMv56h6c159fQcnVLZh+fTZI5KUPyZAav+7xOXte8ANyKv8XyiOV2TiSStTkYHRhbfyye2T0BiDPF8cG2D4g3xds52ZNjsVoIOR9Cq9WtmHV8VqrSdItSLVjbdi1vV31bpel0ZLVaGbFnhK007WR04uuGX6s0LSIiTwU3Nzc++eQTtm3bRmhoKJ6entSqVYuCBQvy2muv0b59ezp27EibNm3YsWMHxYsXJ1euXACcOXOGIkWKULx4cQBWrFhBeHg49evX57PPPmPZsmX8+OOPxMfHk5CQQPHixW1F7UqVKtGmTRu2bdsGPJpIvXLlShITE1OVpi0WC2azGavVioODQ5rStMViwWq14u7uTs2aNXF0dKRSpUq20jTAtWvXqF+/Pr1798bZ2Rmz2ZzOr6qIiIiIZARNnBYR+QdCL4Ty8c6Pbds9K/fkvRrv2TGRPI2iEqJYdXYVK86s4MbDG2n2F3ArQHvv9rQr244CbgXskFBERERERJ52FquF4IhgJh6cSHzKryXCgm4FGVp3KPWL1s/QPJdjLzPuwDi2XdmWar1ojqIMrDWQxsUa/+7ksKfN4lOLGb1vNAB5XPMQ9loYbk5udk4lkrWF3w2n8/rOtlKxXwk/xtYfm+X/Tjl25xhj9o3hWNSxVOuV8lYiqHYQ1QpUs0+wZ8zS00v58pcvbdtDnhtCgE+AHROJiIhknMfToc1mMx9//DE1a9YkIODRv4NdunShYcOGdOzYERcXFypUqMDq1avx8fFhw4YN7N+/ny5dunDq1CnWr19P3759KVu2LDExMXh4eDBnzhzu3bvHe++9R1BQEHPmzMHPz48BAwbw3HPP/Wkui8WC0fj7MwYf70tKSmLZsmV8//33PP/883z88cdZ/v2hiIiIiPxKxWkRkb8pPCqcLhu62KZZNSzakEmNJ2E0aHi//HdWq5X9N/cTHBHM1stbSbGmpHlMvcL1CPAJoH7R+jgaHe2QUkREREREnjU3HtxgxN4R7Ly2M9V6s5LNCKoVRN5seTM0z57rexi7fyzn7p9LtV6nUB0G1R6Ed27vDM2T0ZLNybRc3dJ2ke37Nd6nR+Uedk4lkvX9cO4HhuwaYtv+qOZHdK7Y2Y6J/r3b8beZeHAiIRdCUq3ny5aPD2p8QKvSrfR5ZgY5cvsIXTd0tX3O92qZVxn+/HCVrkRE5Jn1uJT84MEDxo8fzwsvvECTJk2wWCz079+f8uXL07t371TPGT9+PLGxsQwfPpylS5eyZMkSoqKicHR0pHDhwsyfP5/Zs2dz9OhRChUqxHPPPUf9+vVZuHAhO3fu5LnnnqNDhw4UKJB2ENG6dev46aefGDt2bJp9ycnJjBs3DoPBQJ8+fciZM2e6vS4iIiIikvFUnBYR+RuiEqIIDA3kdvxtAEp5lGJx88XkcM5h52SS1cUkxbD2/FqWRyznYuzFNPtzu+Smbdm2+Jf1p1jOYhkfUEREREREnnlWq5WwyDBG7xvNvaR7tnUPFw+CagXRslTLDC2BpVhS+P7M93x75FtikmJs60aDEX9vf/pU60Nu19wZliejrTq7iv/b/X8AuDu7s6HdBnI660t8kf9qxJ4RLD+zHAAHgwOzms6iVqFadk719yWZk1gQvoBZx2eRkJJgW3cyOtGlYhd6VO5Bdqfsdkz4bLkTf4fA0EDuJNwBoGLeisxvNh8XBxc7JxMREcmcLly4QPfu3YmLi6NUqVJ06NCB5s2bM3ToUHx8fOjQoQO5c+fm3LlzGAwGpk+fTmRkJIsWLeL999/H19eXzp0fXfjWtm1b3nrrLQoVKsTKlSspXbq0rZC9ZcsWEhMTadGiBd27d8doNDJr1ixSUlJwdHw0tMhqtepCJxEREZGnnIrTIiJ/IdmcTLeN3Th65yjw6EvJpS2W4pXTy87JJKuyWq2ciDrB8jPL2RC5gURzYprH1ChQA38ff5p6NcXZwdkOKUVERERERFK7l3iPr/Z/lWaKab3C9RhSdwhFchTJ0DwxSTFMPTKV4IhgzFazbd3d2Z0+1foQ4BOAk9EpQzNlBJPFRNsf2nI57jIAvar0ol/1fnZOJZL1JZuT6bqxK8fuHAMgj2seglsGUyh7ITsn+3NWq5XNlzcz/sB4rj24lmpfk+JN+LDmhxRz18X4GclkNtH9x+4cvn0YgFwuuQhuGUzhHIXtnExERCTzu3LlCkePHsXHx4ccOXIwfPhwWrRoQaVKlQgICGD//v3Exsby9ttvU6ZMGYYMGULXrl1tReu7d+9SvHhxfH19ady4MV5eXkyYMIHDhw/zzTffsGvXLqKionjxxReZPXs2S5cupVGjRrZp2P/rj9ZFREREJGtTcVpE5E9YrVaG7RnGqrOrgEfTq6Y1mcbzRZ63czLJiuJN8YRFhhEcEcyp6FNp9md3yk7LUi0J8Al46m8vLSIiIiIiWdfP135mxJ4RXH943baWzTEb71V/jw7lOuBgdMjQPOfunWPs/rHsubEn1Xopj1IMqjWIekXqZWiejLDuwjoG7xwMgJujG2HtwsjjmsfOqUSyvlsPbxEQGkB0YjQAlfNVZp7fvEx7UXtEdASj943mwK0DqdbL5i5LUK0g6njWsVOyZ9uoX0ax5PQS4NHnydNfmk7dwnXtnEpERCRrMplMmEwmnJ2dGTp0KAsXLqR27dpcvnyZfv360ahRI4YNG8bHH39MmTJlWLduHcOHD2fz5s3MmzePAwcevU+aPn063t7e7N27l6JFizJt2jQ++ugjoqOjcXZ2tk2ZDg0NxdPTE19f3z/MNGXKFJ5//vk/fYyIiIiIZG4qTouI/InFpxYzet9o2/bAmgPpUrGLHRNJVnT+/nmCI4IJOR/CA9ODNPvL5SlHgE8ALUq2wM3JzQ4JRURERERE/pl4UzxTDk9h8anFWPn148Uq+aow7PlhlM1dNkPzWK1Wtl/ZzrgD42yTmB9rULQBA2sOpIRHiQzNlJ4sVgvt1rbj3P1zAHSp0IWBtQbaOZXI02H/zf30/LGnbZK9v7c/Q+sOtXOq1KITo/nm8DesPLsSi9ViW8/lkou+1frSzrsdjkZHOyZ8doWcD+GTnz+xbff37U+3St3smEhEROTpc/36dU6fPk3hwoUpV64cXbt25ejRo8yfP5+zZ8+yaNEiVq1aleo5wcHBTJ48mV27dgGwceNG+vbty9mzZ21Tpa1WK9999x3nz5/nyy+/5KOPPiIhIYHJkyeTmPjo7rFubm4cPnyY/PnzU7RoURYsWICfnx8FChQgKSkJABcXlz/M/rigLSIiIiL2pXuKiIj8gb039vLV/q9s261Lt6Zzhc52TCRZSbI5mbDIMN7a8BZt17Rl6emlqUrTzkZnWpduzaLmi1jecjn+3v4qTYuIiIiISJbh5uRGUO0gFjZfSJlcZWzrx6KOERAawDeHvyHZnJxheQwGA42KN2J1m9UM8B1Adqfstn0/Xf2JV9e+yrj944hLjsuwTOnJaDDSt3pf2/ayiGXcjr9tx0QiT49ahWrxYc0Pbdvfn/nedjc6ezOZTSwIX0DLVS35/sz3ttK0g8GBN8u/SeiroQSWC1Rp2k5OR5/m8z2f27Zf9nqZrhW72jGRiIjI06lw4cI0btyYcuXKATB+/Hhbyfm1116jVKlSNGzYkKCgIObPn09SUhLXrl2jUqVKtmNs3bqVmjVrAmCxWLBYLBgMBnLmzMm9e/e4e/cuwcHB3Lx5E6PRyJw5cxg4cCBJSUls2LCBQoUKsWvXLiZOnEiBAgUAOHjwIK1btyY6Otp23P915t4Z+m3tx4LwBZy6ewqzxZzeL5eIiIiI/A5NnBYR+R1X4q7QYV0HYpJigEe35ZzrNxcXhz++QlgE4GrcVVacWcHqc6ttt3X9La+cXvh7+9O2TFs8XDzskFBEREREROTJMplNzD4xm5nHZpJiSbGtl/QoyfDnh1O9QPUMzxSVEMWUw1NYfXZ1qonYeVzz8F7192hbpi0ORocMz/UkWa1WOqzrQPjdcAACfQL57LnP7JxK5OlgtVoJ2hlEWGQY8OgC+AXNFlAxX0W7Zdp5dSdj94/lYuz/Y+/OA2yq/z+OP+82+74byzDMgrFvIbKUXSQzktBCXy1KCf0qvkoJIUrSoiLRiJJtiJB9GztjxjKM2cy+L3c7vz/m261JCxlzzcz78U/O59xzzuveQdc5r/M5V8qNd/bvzKR2k2jo1tA6wQQAuaW5DNs4jKSCJKDs/4Gr+q8qdyOPEEIIISqHwWDg8OHDbN++HTs7O8aNG0dpaSnPPPMM3bt3p1GjRowePZoPP/yQiIgITCYTKpUKtVrNjBkzKCwspGvXrkydOpWJEydSq1Ytvv/+e5599lkSExOZOHEie/fupW/fvpw4cYLhw4czbNgwCgsL+fbbb/n222//NJfRbOSrs1+x8NhCy5izjTNtfNvQzrcd7fzaEeweXOX/rSqEEEIIURVIcVoIIf6g0FDIY5sfszzu1tvem28HfIuPg4+Vk4m7lclsYk/SHiJjI9mXtK/cRXkom/WnR70eRIRE0N6vPWqVPPBBCCGEEEIIUf1cyrnE9P3TOZF+wjKmQsWwkGFMaDPBKuWxs5lnmX14NsfTjpcbb+zRmCntp9DGt02lZ6pI+5L2MW77OAC0ai0bBm+gjnMdK6cSonooMhTxWNRjXMi+AICfox+RAyLxsPOo1BzxufG8d+Q99iTtKTce4BLA5HaT6VK7izzu3cpMZhPP7XiOfUn7AHDUObKy/0oCXQOtnEwIIYQQv7d27Vp+/PFHWrRowaRJk7h27Rq1a9cGym6cU6lUzJs3jyNHjtCiRQtcXV2pX78+ixYtomfPnkycOJFJkyahKApz587l9ddfJzc3lyeffJK8vDxOnTrFd999R6NGjfD29ub555+nXr16luMX6AuYtHsSe5P2/mVGKVILIYQQQlQOKU4LIcTvmBUzL+96mZ8TfgZAp9bxVZ+vaO7d3MrJxN0ooziD7y98z5q4NaQUptyw3sfBh6HBQ3k46GEp3gshhBBCCCFqBLNiJjI2kgXRCygyFlnGfR18mdZxGl3rdK30TIqisPXKVuZFzyO1MLXcut71e/Nym5fxd/Kv9FwVQVEUHt/yOMfSjgEwqOEg3r73bSunEqL6SMhL4JGNj5BvyAegQ60OLLl/CVq19o4fO0+fx5KTS1gVswqj8tts/k46J8a1GMejoY+i0+jueA7xzxYdX8Qnpz6xLC/otoCeAT2tmEgIIYQQ/yQ7Oxt3d/cbxletWsWIESPYsGEDHTt2ZOzYsRw/fpxt27bRsGFDOnbsyGuvvcbAgQPp1asXL7/8Mn369CEnJ4d+/frRqVMnJkyYwJgxYxg4cCDPPfecpZStKArX8q5x6PohjqQe4UjqETKKM/42pxSphRBCCCHuDClOCyHE7yw+sZiPT35sWX6789sMajTIionE3UZRFI6kHiEyNpIdCTvKXbj6VWf/zkSERNC1TtdKuZAmhBBCCCGEEHeblIIUZhycccMMqX0b9GVKuyl42ntWeqZiYzFfnfmKL858QYmpxDJuq7Hl8aaP82TYkzjoHCo91+06mnqUJ7Y+AYBapeaHQT/ILKdCVKDdibt57ufnLMtPhD3By21evmPHM5lNrL2wlkXHF5Fdmm0ZV6FiSNAQxrcab5W/Q8Wf25mwkxd2vmBZHtNsDC+2ftGKiYQQQghxO06ePMnMmTOJjIwkJSWF2rVrM2HCBObPn4/ZbCY0NJRffvkFW1tb7rvvPrZt24afnx+nT5/mtddeY+7cuYSEhDBlyhTc3Nx45ZVX0On+/GY3RVG4mneVI9ePSJFaCCGEEKKSSXFaCCH+Z9vVbby867eLHiObjGRyu8lWTCTuJrmluay/tJ7Vsau5knflhvXutu4MDhpMeFA4dV3qVn5AIYQQQgghhLjLKIpCVHwUsw7PKlf+c7V1ZUq7KQwIHIBKpar0XKmFqcyPnk9UfFS5cR8HH15u8zL9GvSzSq7b8Z9t/2F/8n6gbBbtuffNtXIiIaqXj098zOKTiy3L87vN54GAByr8OEdSjzD78Gxis2PLjbfxbcOUdlNo7Nm4wo8p/r2reVd5ZOMjFBgKAOhYqyMf3/+xlJeEEEKIaqK4uJjt27cTFBREaGgoe/fu5ZFHHiExMZETJ07w6KOPcu7cOQC2bNnCkiVLWLduHQCvvPIKoaGhPPHEE2g0N/fdQIrUQgghhBCVR4rTQggBxGbFMjJqJMXGYqDsJPfi+xfLbME1nKIonMk4w+q41WyJ31JuRrJftfZpTXhIOL0CemGjsbFCSiGEEEIIIYS4u2WXZPPekffYcHlDufHO/p2Z2nEqtZ1qWyXXsevHmH1kNucyz5Ubb+ndkintpxDmFWaVXP/GmYwzDN803LK8ZuAaQjxCrJhIiOrFrJgZv2M8uxN3A+CgdWBl/5U0dGtYIftPzE9kfvR8tl3dVm68lmMtJradSK+AXlXuho7qrshQxIjNI7iYcxEAf0d/IgdE4mbnZt1gQgghhLgjFEVBr9cTGxtL8+bNOX/+PKNHj6ZOnTqMHTuWmJgYzp8/zyeffMK1a9d45513GDhwIP3797+tY0qRWgghhBDizpDitBCixssuyWb4puEkFSQBUNe5Lqv6r8LV1tXKyYS1FBmKiIqPIjI2kpismBvWO+ocGRA4gIiQCILdg62QUAghhBBCCCGqnr1Je5lxYAbJhcmWMXutPS+0eoHhocOtcjHXrJj58eKPLDy2kMySzHLrBjUcxIutX8TbwbvSc/0bL+54kR3XdgDQrU43Puz5oZUTCVG95JbmMnzTcK7lXwOgvkt9VvZfibON87/eZ5GhiM9Pf86ys8vQm/WWcXutPU+FPcXopqOx09rddnZRsRRFYdLuSWy9shUAW40ty/sup4lnEysnE0IIIURlUBQFlUqFoiicPn0ae3t7Dhw4QGlpKWPHjmXTpk18++23vPDCC7Rr165CjytFaiGEEEKIiiHFaSFEjWYwGxi3bRyHUw8DFT9bjKhaLuVcIjI2kg2XNlgesfl7oR6hRIRE0L9Bfxx0DlZIKIQQQgghhBBVW5GhiA+Pf8g3Md+g8NtpyeZezZneaTpB7kFWyVWgL+Cz05/x9bmvMZgNlnEHrQNjm49lZJOR2GpsrZLtZsVlxzF0/VDL57qi3wpaeLewciohqpc/PrWuR90evN/9fdQq9S3tx6yY2XR5EwuiF5BWnFZuXf/A/kxoPQE/R78Kyy0q1rKzy5h7dK5l+e3ObzOo0SArJhJCCCHE3eTChQucPn2aTp064ed3577TSZFaCCGEEOLfk+K0EKJGm3loJqvOrwJAhYqF3RfSvV53K6cSlUlv0vNzws9ExkYSfT36hvU2ahv6NOhDREgEzb2ay2NRhRBCCCGEEKICnEw/yfT907mYc9EyplVreSrsKZ5u/jQ2Ghur5ErIS2Du0bnsvLaz3Hgdpzq80u4VetTtcVf/u3Dy7slExUcB0KFWBz7v9bmVEwlR/Wy+vJkpe6ZYll9s/SJjmo256e1PpZ9i9uHZnMo4VW48zDOMKe2n0NKnZUVFFXfA4ZTDPL3taUyKCYBhIcN44543rJxKCCGEEEKK1EIIIYQQt0KK00KIGmtt3FqmH5huWR7fajxPN3/aeoFEpUrMT2RN3Bp+uPgDWSVZN6wPcAkgPDicwY0G42rraoWEQgghhBBCCFG9GUwGlp5ZyqenPi03y3MD1wa82elNWvm0slq2A8kHmHNkTrliN0AHvw5Mbj+ZYPdgKyX7e1fzrjJo3SBLoW9pr6W0r9XeyqmEqH5mH57NipgVQNlkDEvuX0Kn2p3+dpu0ojQWRC9gw+UN5ca97L2Y0HoCAxsOvOWZq0XlSi1MZdjGYZZziS28W/Bl7y/RaXRWTiaEEEIIcSMpUgshhBBC/DUpTgshaqTjacd5cuuTGM1GAHoF9GLufXPv6lmjxO0zmU3sSdpDZGwk+5L2lXssNIBGpaFHvR5EhETQ3q+9XKwSQgghhBBCiEpwKecS0/dP50T6CcuYChXDQoYxoc0EHHWOVsllNBv5Lu47PjrxEbmluZZxtUpNeHA4z7V8Dnc7d6tk+zv/3f9fvr/wPQAtvVuyvO9yOd8hRAUzmA2M/Wms5ellrrauRA6IpLZT7RteW2oqZfnZ5Xx2+jOKjcWWcZ1ax+imoxnTbIzV/p4TN09v0vP4lsc5nXEaAE87TyIHROLr6GvlZEIIIYQQN0eK1EIIIYQQv5HitBCixvnjzCChHqEs67MMB52DlZOJOyWjOIPvL3zPmrg1pBSm3LDex8GHocFDeTjoYXwcfKyQUAghhBBCCCFqNrNiJjI2kgXRCygyFlnGfR18mdZxGl3rdLVattzSXBafWExkbKRlJmcou4D8XMvniAiJQKe+e2YbTS5Ipv8P/S03i3/U8yOrfn5CVFcZxRkM2zCMtOI0ABp7NGZ53+XYae2AsmLK9oTtzDs6j6SCpHLb9qzXk4ltJ1LXuW6l5xb/zpsH3mRN3BoAtCotn/f+nDa+baycSgghhBDi35MitRBCCCFqMilOCyFqlGJjMaOjRhOTFQOAu6073w74Fn8nfysnExVNURSOpB4hMjaSHQk7MCrGG17T2b8zESERdK3TFa1aa4WUQgghhBBCCCF+L6UghRkHZ7AnaU+58b4N+vJq+1fxsPOwUjK4mH2ROUfmcCDlQLnxQNdAJrebTOfana2U7EYzD81k1flVQFmZ89sB38pTlYS4A06kneCJrU9YblR4sOGDvN35beKy45h1eBZHrx8t9/og9yCmtJtCh1odrBFX/Etr49Yy/cB0y/Kr7V9lROMR1gskhBBCCHEHSJFaCCGEEDWJFKeFEDWGoihM2TOFqPgooGxmkM96fUZbv7ZWTiYqUm5pLusvrWd17Gqu5F25Yb27rTuDgwYTHhROXReZ1UcIIYQQQggh7jaKohAVH8Wsw7PILs22jLvZujG53WQGBA5ApVJZLduua7uYe3QuCfkJ5dbdV+c+Xmn7CvVd61sl2+9lFGfQd21fSkwlAMzvNp8HAh6wciohqqfVsauZcXCGZbmVTytOpp/ErJgtY262bjzf8nkeDn5Ybt6vYs5knGFU1CgMZgMA/Rr0Y1aXWVb7/5AQQgghRGWRIrUQQgghqjMpTgshaoylp5ey4NgCy/LUe6YSERJhvUCiwiiKwpmMM6yOW82W+C2WC8O/19qnNeEh4fQK6IWNxsYKKYUQQgghhBBC3IrskmzeO/IeGy5vKDfe2b8zUztOpbZTbSslA71Jzzcx3/DJqU8oNBRaxrVqLSNCR/CfFv/B2cbZavkA5kfP58szXwJls2J//+D3csFaiDtAURRe3/v6DX9XAWhUGoaHDmdci3G42rpaIZ24HVklWQzbOIzUwlQAgt2D+brv1zjoHKycTAghhBCi8kmRWgghhBDViRSnhRA1wu7E3Tz/8/MolP2VFx4czrSO06ycStyuIkMRUfFRRMZGEpMVc8N6R50jAwIHEBESQbB7sBUSCiGEEEIIIYS4XXuT9jLjwAySC5MtY/Zae15o9QLDQ4db9aJrRnEGHx7/kB8u/GA55wDgYefBC61eYHCjwVbLl1OSQ5/v+1iK3TPvncnAhgOtkkWI6mxP4h5mH5nN1byr5cbb+bXj9Q6v09CtoZWSidthNBsZt20ch1IPAWWln8j+kfIEOyGEEEKI/5EitRBCCCGqMilOCyGqvcu5lxmxaQQFhgKgbObhz3t9jk6js3Iy8W9dyrlEZGwkGy5tsPxcfy/UI5SIkAj6N+gvM8AIIYQQQgghRDVQZCjiw+Mf8k3MN+UKys29mjO903SC3IOsmA7OZp5l9uHZHE87Xm68sUdjprSfQhvfNlbJtfjEYj4++TEAdZzqsP6h9ejUcj5EiIoQnxvPe0feY0/Snj9d38q7FUv7LJU/c1XU/KPz+fJs2az9KlQs6rmIrnW6WjmVEEIIIcTdS4rUQgghhKhKpDgthKjW8vR5jNg0git5VwCo5ViLVf1X4Wnvad1g4pbpTXp+TviZyNhIoq9H37DeRm1DnwZ9iAiJoLlXc1QqlRVSCiGEEEIIIYS4k06mn2T6/ulczLloGdOqtTwV9hRPN38aG42N1bIpisLWK1uZFz2P1MLUcut61+/Ny21ext/Jv1IzFegL6PN9H3JLcwGY1nEa4cHhlZpBiOomT5/HkpNLWBWzCqNitIw76Zzo06APa+PWWm7weKzxY0xpP8VaUcW/tPXKVl755RXL8rMtn+WZFs9YMZEQQgghRNUjRWohhBBC3M2kOC2EqLZMZhPP7XiOfUn7ALDT2PF1v68J9Qi1cjJxKxLzE1kTt4YfLv5AVknWDesDXAIIDw5ncKPBuNq6WiGhEEIIIYQQQojKZDAZWHpmKZ+e+hSD2WAZb+DagDc7vUkrn1ZWTAfFxmK+OvMVX5z5ghJTiWXcSefEz+E/V/qTkb448wXvR78PgK+DL5uGbMJWY1upGYSoDkxmE2svrGXR8UVkl2ZbxlWoGBI0hPGtxuNp78nnpz9n4bGFlvXvdnmXAYEDrBFZ/AuXci4xfNNwio3FANxX5z4+6PEBapXaysmEEEIIIao2KVILIYQQ4m4ixWkhRLX1+8cpArx333v0qd/HionEzTKZTexJ2kNkbCT7kvaVewwzgEaloUe9HkSERNDer71cuBBCCCGEEEKIGuhSziWm75/OifQTljEVKoaFDGNCmwk46hytFw5ILUxlfvR8ouKjABjReAQvtHqh0ovTRYYi+n3fj8ySTAAmt5vMyCYjKzWDEFXdkdQjzD48m9js2HLjbXzbMKXdFBp7NraMKYrCS7te4ueEn4GyyRxW9FtBiEdIpWYWty5fn8+jmx61PL2wnnM9Vg1YhYuNi3WDCSGEEEJUQ1KkFkIIIYQ1SXFaCFEtbby8kf/b83+W5bHNxvJC6xesmEjcjIziDNbGrWXNhTU3PNYYymbGGho8lCFBQ/Bx8LFCQiGEEEIIIYQQdxOzYiYyNpIF0QsoMhZZxn0dfJnWcRpd63S1Yroyx64fY8GxBXzU8yOcbZwrdN+KoqBSqf7xdd/EfMOsw7MA8LDzIGpIVKUXuIWoihLzE5kfPZ9tV7eVG6/lWIuJbSfSK6DXn/4ZLNAX8OjmR4nPjQegjlMdvh3wrTwt7S5mVsxM2DmBndd2AmCvtWdFvxUEuwdbOZkQQgghRM0gRWohhBBCVCYpTgshqp2zGWcZvWU0paZSALrV6cbCHgtlVuK7lKIoHEk9QmRsJDsSdmBUjDe8prN/ZyJCIuhapytatdYKKYUQQgghhBBC3M1SClKYcXAGe5L2lBvv26Avr7Z/FQ87DyslK2NWzJgVc4X8mzYjI4OEhARat24NlP27GvjbArXRbGTQukEk5CcA8GLrFxnTbMxtZxGiuioyFPH56c9ZdnYZerPeMm6vteepsKcY3XQ0dlq7v93H5dzLDN843HJTx7217+Wjnh/JOcq71GenPuOD4x9Ylud0nUPfBn2tmEgIIYQQomaTIrUQQggh7iQpTgshqpWM4gyGbRxGWlEaAIGugXzT7xucbJysnEz8UW5pLusvrWd17GrL4y9/z93WncFBgwkPCqeuS93KDyiEEEIIIYQQokpRFIWo+ChmHZ5Fdmm2ZdzN1o3J7SYzIHDATc3OfLcbP348a9euZezYsfTr148OHTpY1v3dDNQlxhLeOvAWm+I34ahzZMvDW3Cxcams2EJUCWbFzKbLm1gQvYC04rRy6/oH9mdC6wn4Ofrd9P62X93OS7tesiyPazGO51o+V2F5RcXYl7SPZ7Y/g0LZ5bKRTUYyud1kK6cSQgghhBC/J0VqIYQQQlQkKU4LIaoNvUnPk1uf5GT6SaDsH0Kr+q8iwCXAysnErxRF4UzGGVbHrWZL/BZKTCU3vKa1T2vCQ8LpFdALG42NFVIKIYQQQgghhKjKskuyee/Ie2y4vKHceGf/zkztOJXaTrWtlOz2Xb58mXvvvZc5c+bg6enJuHHj+OKLL+jZs6flNWazGZVK9acF6mJjMVklWcw+PJsg9yDGtxpfmfGFuKudSj/F7MOzOZVxqtx4mGcYU9pPoaVPy3+13wXRC1h6Zqll+cMeH9KtbrfbSCoqUmJ+IsM2DiNPnwdAW9+2fNrrU3RqnZWTCSGEEEKIvyNFaiGEEELcDilOCyGqBUVRmH5gOt9f+B4AtUrNxz0/plPtTlZOJqDs8aZR8VFExkYSkxVzw3pHnSMDAgcQERJBsHuwFRIKIYQQQgghhKhu9ibtZcaBGSQXJlvG7LX2vNDqBYaHDq+SF0dfeuklCgsL+fTTTwF45JFHGD9+PKGhoWzYsIGePXtSt+4/P7Wp0FBISmEKPg4+Muu0qPHSitJYEL3ghpstvOy9mNB6AgMbDkStUv/r/ZvMJsZtH8fBlIMAOOucWTVAJnu4GxQbixkVNYrzWecB8HHwIXJAJF72XlZOJoQQQgghbpUUqYUQQghxK6Q4LYSoFr6J+YZZh2dZll9p+wqjm462YiIBcCnnEpGxkWy4tIECQ8EN60M9QokIiaB/g/446ByskFAIIYQQQgghRHVWZCjiw+Mf8k3MNyj8dhq0uVdzpneaTpB7kBXTgclkQq1W/+ns0H908uRJHn/8cX744Qfq16/Pxo0bOXPmDJcuXaKkpITOnTvzxRdfcP/99/POO+9Y9vnr6d8/O4bepJenPYkaq9RUyvKzy/ns9GcUG4st4zq1jtFNRzOm2RgcdY4VcqzskmyGbRxGSmEKAI3cGvFNv2/kfJgVKYrC63tftxTmdWodX/X5iubeza2cTAghhBBCVAQpUgshhBDi70hxWghR5R1MOci4beMwKSYAHmz4IG93fvumLjqKiqc36fk54WciYyOJvh59w3obtQ19GvQhIiSC5l7N5eckhBBCCCGEEOKOO5l+kun7p3Mx56JlTKvW8lTYUzzd/OlKLw8nJibi4eGBg8PNlyZfeeUVMjMz+fLLL8nIyOCLL74gKyuLzz//HC8vLz777DNatGjBzJkzeeONN3Byciq3vaIof/pv8L8aF6K6UhSF7QnbmXd0HkkFSeXW9azXk4ltJ1LX+Z9nbr9VZzPPMmrzKPRmPQB96vdhTtc58ufPSladX8XMQzMty1PvmUpESIQVEwkhhBBCiDtJitRCCCGE+D0pTgshqrRr+dcYvmk4uaW5ADTzasaXfb7EVmNr5WQ1T2J+Imvi1vDDxR/IKsm6YX2ASwDhweEMbjQYV1tXKyQUQgghhBBCCFGTGUwGlp5ZyqenPsVgNljGG7g24M1Ob9LKp9Udz5CXl8f06dOJj4/n3LlzPPXUU0yaNMlSnDSbzajV6r/cvqSkBDs7O7799lvOnz/PoUOHcHZ25u233+b555/HZDJx9uxZoqOjKS4uZsuWLRQVFTF58uQ7/t6EqApis2KZdXgWR68fLTce5B7ElHZT6FCrwx09/rqL65i6b6pleVLbSYxqOuqOHlPc6HjacZ7c8iRGxQjAQ40e4s1Ob0qJXQghhBCiBpEitRBCCFGzSXFaCFFlFRoKeWzzY5bZorztvfl2wLf4OPhYOVnNYTKb2JO0h8jYSPYl7Sv32GMAjUpDj3o9iAiJoL1fe9Sqv774K4QQQgghhBBCVIZLOZeYvn86J9JPWMZUqBgWMowJbSbgqHO8I8c1mUzMmTOHixcv8u6772I2m5k6dSqDBw+mf//+N7xWo/nt4uuvhepf/7tz50727duHt7c36enpvPHGGwBs2LCB5ORkBg0aRO/evYmIiODo0aO0bduWkJAQhg4datnHH48hRHWWVZLFouOLWHthLWbFbBl3s3Xj+ZbP83Dww2jV2krJMuPADFbHrQbKzp191usz2vm1q5RjC0gvSmfYxmGkF6cD0NSzKcv6LpOJOIQQQgghajgpUgshhBA1ixSnhRBVklkx8/Kul/k54WcAdGodX/X5iubeza2crGbIKM5gbdxa1lxYQ2ph6g3rfR18GRo8lCFBQ6TILoQQQgghhBDirmNWzETGRrIgegFFxiLLuK+DL9M6TqNrna4VfsyMjAz++9//EhERwX333Vdu3bFjx1izZg1hYWE8+uijN7U/s9lMUlISDz30EIMGDWLy5MnY2pYV/+6//366dOnCf//7XwAee+wxVq5ciV6vR6vV3rCfv5vlWoiqzGAysOr8KpacXEK+Id8yrlFpGB46nHEtxlX6k9H0Jj1PbH2CU+mnAPCw8yByQCR+jn6VmqMmMpgMPPXTUxxPOw6UFecjB0Ti7+Rv5WRCCCGEEOJuI0VqIYQQonqT4rQQokpafGIxH5/82LL8due3GdRokBUTVX+KonAk9QiRsZHsSNhheZTl73X270xESARd63SttFl6hBBCCCGEEEKIfyulIIUZB2ewJ2lPufG+DfryavtX8bDzqLBjXblyhT59+nDmzBm0Wi1FRUU4ODiwcOFC1q9fT+/evdm1axfu7u58+eWX2NjYWLb9Y7lZURRUKhUA165d4/XXXyc9PZ3//ve/eHp6MnDgQGJiYjCbzWg0Glq0aMGoUaOYOHEiu3fvZubMmbz00kv07t27wt6fEHebPYl7mHNkDlfyrpQb7+zfmUntJtHQraF1ggHXC68TsTGCrJIsAJp5NeOrPl9ho7H5hy3F7Xj30LusPL8SALVKzZL7l9DRv6OVUwkhhBBCiKpAitRCCCFE9SLFaSFElbPt6jZe3vWyZXlkk5FMbjfZiomqt9zSXNZfWs/q2NU3XGgCcLd1Z3DQYMKDwqnrUrfyAwohhBBCCCGEELdBURSi4qOYdXgW2aXZlnE3Wzcmt5vMgMABlpLy7cjNzWXcuHH06NGDMWPGoFKpUBQFHx8fNm3aRPv27SkoKODZZ59l8eLFFBcXk5WVRUhISLmsv8/y+0J1amoqrq6ulJaWMn78eD755BMcHBxYv349Tz/9NKmpZU+MKigo4OjRo7z55pt069bNMit1Wloau3fvZtCgQeh0utt+v0JYS3xuPO8dee+GGyICXAKY3G4yXWp3qZA/07frSOoRxv40FpNiAiA8OJxpHadZOVX1teHSBl7b+5pl+aU2L/Fk2JNWTCSEEEIIIaoyKVILIYQQVZsUp4UQVUpsViwjo0ZSbCwGoGOtjiy+f7HMblzBFEXhTMYZVsetZkv8FkpMJTe8prVPa8JDwukV0EtmwxFCCCGEEEIIUeVll2Tz3pH32HB5Q7nxzv6dmdpxKrWdat/2MU6dOsW0adMwmUwsX76cH3/8kVWrVrF161YURcFoNBIaGsr+/ftZu3YtGzdupG3btoSHh9OsWTOg7N/sgKX4aTabAVCr1RgMBhRF4cUXX+T48eOMHDmSN954g4ULFzJixAg+//xztmzZQs+ePRkyZAgvvvgi3333HWvWrGH58uX06NGDCRMmAJCXl4eLi8ttv2chKkuePo8lJ5ewKmZVuSelOemcGNdiHI+GPopOc3fdFPD1ua+Zc2SOZfnNTm8yJGiIFRNVT+ezzjNy80jLOc4HAh5g3n3z7ooCvRBCCCGEqB6kSC2EEEJULVKcFkJUGdkl2QzfNJykgiQA6jrXZVX/Vbjaulo5WfVRZCgiKj6KyNhIYrJibljvqHNkQOAAIkIiCHYPtkJCIYQQQgghhBDiztqbtJcZB2aQXJhsGbPX2vNCqxcYHjq8Qi5ixsXFERwczPHjx/n000/5+OOPAZg0aRJXr15l2bJljBo1CpPJRLdu3bh48SJNmjRh2LBhuLu7/+V+4+Pj+f777xk/fjznzp1j4cKFnD59mqNHj7Jw4UIOHDjA448/zv79+5k7dy49e/Zkw4YNTJs2jfnz5zN06FAWLVqEk5MTCxcuxNnZmSeflBlZxd3NZDax9sJaFh1fVG7WeBUqhgQNYXyr8Xjae1ox4V9TFIUpe6YQFR8FgI3ahuV9l9PUq6mVk1UfuaW5DNs4zHJOuYFrA1b1X4WjztHKyYQQQgghRHUmRWohhBDi7ibFaSFElWAwGxi3bRyHUw8D4KB1YGX/lTR0a2jlZNXDxeyLrI5bzYZLGygwFNywPtQjlIiQCPo36I+DzsEKCYUQQgghhBBCiMpTZCjiw+Mf8k3MNyj8dvq0uVdzpneaTpB70G0fQ1EU0tLSGDlyJBqNhiZNmnDgwAF+/PFHIiMjSUpKYuTIkTRp0oTLly/z7LPP4u/vj7e3NxMnTsTHxwcAk8mEWq22zJw6ffp01q1bR1hYGAaDgccff5y+ffvy7rvvkp2dzZw5czCbzTRq1IgVK1bQqVMnRowYQXBwML6+vtjb29O3b1+8vLwwm81otVpMJhMajVysFXefI6lHmH14NrHZseXG2/i2YUq7KTT2bGylZDevyFDEY1GPcSH7AgB+jn5EDojEw87DysmqPpPZxHM7nmNf0j6gbFKIlf1XEugaaOVkQgghhBCippEitRBCCHF3keK0EKJKmHloJqvOrwLKZotZ2H0h3et1t3Kqqk1v0rP96nZWx60m+nr0DettNbb0rt+biJAImns1l0dXCiGEEEIIIYSocU6mn2T6/ulczLloGdOqtYxpNoaxzcZio7GpkOOsXr0as9nMwIEDSUtLY9q0aQwfPpw+ffqgVquZOXMme/fuZdCgQRiNRnQ6HSNHjkRRFBwcym5wNpvNqNVqAAoKCti5cyfdunXD2dkZgE2bNjF58mQGDBjAhg0baNCgAZs2bWLLli289tprHDt2DAC9Xk///v0ZNmwYPXr0oF69emi12gp5n0JUlMT8ROZHz2fb1W3lxms51mJi24n0CuhVpc5lJeQl8MjGR8g35APQoVYHlty/BK1a/uzdjkXHF/HJqU8sywu6LaBnQE8rJhJCCCGEEKKMFKmFEEII65LitBA1jFExkWkoolQxYlTMKIqCVqVGp9LgqXPE9i48Gb82bi3TD0y3LI9vNZ6nmz9tvUBVXGJ+Imvi1vDDxR/IKsm6YX2ASwDhweEMbjQYV1tXKyQUQgghhBBCCCHuHgaTgaVnlvLpqU8xmA2W8UDXQN7s9CYtfVpW6PHefvttsrKyePHFFwkICODEiRPMmzePRx99lL59+wIwfvx4GjRowPLly3n44Yd5/fXXUavVKIrCli1b6Ny5My4uLn+6/3Xr1jFr1izef/99OnbsSI8ePRg6dCjPPvssAFu2bGH69Ons37+fYcOGMWTIEIYPH14h700xm9HnF2I2GlGMJgBUajUqjRqdkwMam4opoovqq8hQxOenP2fZ2WXozXrLuL3WnqfCnmJ009HYae2smPDf2524m+d+fs6y/ETYE7zc5mUrJqradibs5IWdL1iWxzQbw4utX7RiIiGEuH2K2YyhoAiTwYBiMoOi/PZdytEBja18lxJCiKpKitRC3HlmRaHIaMRgNmNWQEFBrVKhRoW9VoOtPG1NiBpFitNCVENFJj0nCpOILkjkcEECV0uySTHkkW4opMBUio1KY/mfP4ACmFEoNRuxU2vx0jniq3Omnq07rRxr09apLm2c6uCpc6z093I87ThPbn0So9kIQK+AXsy9b26VmjHmbmAym9iTtIfI2Ej2Je0r95hhAI1KQ496PYgIiaC9X3vUKrWVkgohhBBCCCGEEHenSzmXmL5/OifST1jGVKgYFjKMCW0m4FhB500UReHq1avUr18fgClTpuDs7MyoUaOoV68ekZGRDB8+nG3bttG+fXteeeUVhgwZQu/evdmzZw9ffPEFffv2JSIiotx+TSYTmv9dAPr11wkJCfTq1Yvo6GgcHR3R6/UMGTKEXr168cILL/DWW28RGhpq2deuXbvo1q2bZZ+/n+Xachy9gfyEZPLiE8m9dJWitExKc/LQ5xViLC5BrdWg+sM2iqJgNhpRa7XoHB2wdXPGztMd5wB/3ALr4RJYF1tX5wr5fEXVZFbMbLq8iQXRC0grTiu3rn9gfya0noCfo5+V0lWcj098zOKTiy3L87vN54GAB6yYqGq6knuF4ZuGU2AoAKBjrY58fP/HUiIRQlQJZoOR/GvJ5MYnknsxgaK0DEqz89DnF2As+uvvUorR9L+b0RyxdXXGztMNp3q1cGsYgEuDOti5y0Q5QghRlUiRWoh/x2g2k1JUTGJhEVcLCsgsKSVXb6DAYKDEZEKjUqH+Q99IAUxmM2qVCgetFmcbHW42NtRysKeekyN1HR1xtdFJT0mIakaK00JUA9nGIqKyz7Mu8wyH8q+SYsjDQW2DXjFS8r/C8b+lQ4ODRkex2YCLxo5WjrUZ6NGEgR5NCbDzqKB38OdSC1MZtnGYZVbkUI9QlvVZhoPO4Y4etzrJKM5gbdxa1lxYQ2ph6g3rfR18GRo8lCFBQ/Bx8LFCQiGEEEIIIYQQouowK2YiYyNZEL2AImORZdzXwZdpHafRtU7XCj3e1atXeeONNxg2bBgDBgwAoFmzZvTp04fTp09Tu3ZtXF1dcXBw4M0332T27NkYjUbGjh1LrVq1ygrJZrOlMA3lC9R6vZ7p06dz6NAhPvjgA2JiYliwYAF79+4FoG3btnzwwQd06tSJ6dOns3PnTtasWYO3t7dlf8biEtJOxpAefZacuHhKsnJQ29igmEyY9QZui1qNxtYGs8GAxtYGl3q18W7VGJ82zXCs5f3P24tq4VT6KWYfns2pjFPlxsM8w5jSfkqFz/puTWbFzPgd49mduBsAB60DK/uvpKFbQysnqzqKDEWM2DyCizkXAfB39CdyQCRudm7WDSaEEH/BWFJK5ulYrh89Q05cPMUZWahtdGBSMOn1/7yDv6NWo7W1KbtBTafFuZ4/3i3/913K30fKP0IIUYVIkVqIP6c3mYjLzeN0Vg7x+flklurRqVUoCujN5tvatwqw1agxmhW0ahW1HBwIdXOlmYc7fvZ28l1KiCpOitNCVFGXSzL5MfMM36Qf40xRCrZqLfmm0ko5toNah1lR8LNxYZhXS4Z4NqOtU90K/VJQbCxmdNRoYrJiAHC3defbAd/i7+RfYceorhRF4UjqESJjI9mRsAOjcmN5vrN/ZyJCIuhapytatdYKKYUQQgghhBBCiKorpSCFGQdnsCdpT7nxvg368mr7V/GowJvNi4qKMJlMODs7c/HiRZ544gn27Ck77tKlS1mwYAEffvghHh4efPLJJwwcOJA+ffpw/vx5QkNDb+oYGRkZaDQaHn74YcLDw3nmmWfYvXs3H3/8MYsXL2bx4sUcO3aMjz76iOTkZE4dOMSVvUfo4F0PdU4Baq0WU0nlnJdS67SgUqFzcsCvQ0v82jfHLaj+DTMviqovrSiNBdEL2HB5Q7lxL3svJrSewMCGA6vlU9NyS3MZvmk41/KvAVDfpT4r+6/E2UZmXf8niqIwafcktl7ZCoCtxpblfZfTxLOJlZMJIUR5Jdm5pB07S/Leo+ReSkCj02EsLqmUY6u1WlCr0DnY49u+BX4dWuAe0kC+SwkhRBUjRWpRk+XrDZzNzuFoRiZX8wvQqFWUmm6vJH2ztP+bsdpGo6aFhzstPD0IdHZCI9+lhKhypDgtRBViMJtYl3WGOYk7OFt8HZUCxcptztxzm3SosVVrcdPaM7F2N0b7tMNNa39b+1QUhSl7phAVHwWAVqXls16f0davbUVErrZyS3NZf2k9q2NXcyXvyg3r3W3dGRw0mPCgcOq61K38gEIIIYQQQgghRDWiKApR8VHMOjyL7NJsy7ibrRuT201mQOCAOzLzzH/+8x/q1avH66+/bhnT6/XMnDkTjUbD888/T2lpKTNmzODcuXO89dZbdOnSxfLa9PR0y4zR5v/NvKP+38WdK1euUL9+fQBOnDjBypUrOXv2LPXr12fqG2+QfiKG/Z99Qz0H17JyjdFU4e/vlqjVaGx0aGx0BPTpSt0eHbFxcbJuJnHbSk2lLD+7nM9Of0axsdgyrlPrGN10NGOajcFR52jFhHdebFYsI6NGWt5/j7o9eL/7+9WyKF6Rlp1dxtyjcy3Lb3d+m0GNBlkxkRBC/EYxm8k4FUv8xh3kXLgCajXm0tucUfp2qVRobG1QazVl36V6dsLWVW7UEUKIqkiK1KK6MysKF3Lz2JGcyuW8fNQq1W3PKH27VICNRo0aFZ39fOjs64ObrY1VMwkhbp4Up4WoApJKc1mcso/Fqfswo1TazNK3ykGtw4zCUM8WvOx/Hy2dav+r/Sw9vZQFxxZYlqfeM5WIkIgKSlm9KIrCmYwzrI5bzZb4LZSYbpyRoLVPa8JDwukV0AsbjXxJE0IIIYQQQgghKlJ2STbvHXnvhllxO/t3ZmrHqdT+l+dH/sq5c+eYOnUqCQkJjB07lqeffpqNGzcSFRXFo48+SufOnbl27Rq1a9fm0KFD/N///R9fffUV9evXZ//+/Zw7d44BAwbg6+tbrtitKEq55e3bt9OrVy8e6jeAd0b9h6SfD1CYl4/NXVrcVNvoQFHwbtmE+v274x5c39qRxC1SFIXtCduZd3QeSQVJ5db1rNeTiW0nUte55kwGsPnyZqbsmWJZfrH1i4xpNsaKie5uh1MO8/S2pzEpZTd0DAsZxhv3vGHlVEIIAfr8QhJ3HuRK1C5MpYZKe0rHrVLryp5O6tkshAYDuuMeEiiPnxdCiCpMitSiuig2GjmUlsHO5FRKTCarl6X/ivZ/35sauTrTw78WjVyc5buUEHc5KU4LcRdLNxTw34StfJV2GEWBUsVo7Ug3RYMKW7WWzs4NWBA4mMYOvje97e7E3Tz/8/MolP3VFB4czrSO0+5U1CqryFBEVHwUkbGRxGTF3LDeUefIgMABRIREEOwebIWEQgghhBBCCCFEzbI3aS8zDswguTDZMmavteeFVi8wPHR4hV9sPHToEAaDgdatW/P666/j5+fHlClTGDFiBABnzpxh4MCB5OTkMHbsWAoKCnj66acZNGgQM2fO/Mf9G4qKOfDJCopPxKFChdlg3aee3TSVCo2NDud6/jQePQTXwJpTtK3KYrNimXV4FkevHy03HuQexJR2U+hQq4OVklnX7MOzWRGzAgAVKpbcv4ROtTtZOdXdJ7UwlWEbh5FVkgVAC+8WfNn7S3QanZWTCSFqMmNxCZc37uDqpl0ogFlfRb5LARpbGxz9fWny+BDcgupbO44QQogKIEVqUdXoTSZ2pVzn56QUFMBwlxam/4yNWo2XnS0PNwgg0EWe5iHE3UqK00LchQpMpcxJ3MH85F8wKUqVKUz/kRoVNmoNgz3CmF1/AHVt3f/29ZdzLzNi0wgKDAVA2UzJn/f6XE5w/87F7IusjlvNhksbLJ/T74V6hBIREkH/Bv1x0DlYIaEQQgghhBBCCFFzFRmK+PD4h3wT843lpnCA5l7Nmd5pOkHuQRV+zLS0ND799FN69OiBjY0N/fr1Iy0tjWvXrjFhwgTy8/NZsWIFx44d49VXXyUvL4/HHnuM6dOno1aXzR5tMplQq9WoVCpMegNXt+7m0g/bUMwmzPqqeV4Kymah9mwaROhjg3Gs5W3tOOJPZJVksej4ItZeWItZ+e0iqJutG8+3fJ6Hgx9Gq9ZaMaF1GcwGxv40lujr0QC42roSOSCywmeyr8r0Jj2Pb3mc0xmnAfC08yRyQCS+jjc/mYcQQlQks9FIwvZ9XPxuC2aTqUoVpv9IbaPDPSSQxqMewqm2/L0qhBDViRSpxd3KZDZzMC2DTQmJGBWlShWm/0inVlPPyZEh9evh7yj9HSHuNlKcFuIuoigKy9OOMiF+HXrFRLG56p5M+T0darRqDc/5dWZGQF9s/+RiR54+jxGbRnAl7woAtRxrsar/KjztPSs57d1Hb9Kz/ep2Vsettlwk+T1bjS296/cmIiSC5l7N5XEfQgghhBBCCCGElZ1MP8n0/dO5mHPRMqZVaxnTbAxjm43FRmNT4cdUFIUTJ07w8ssvs3LlStLT0/n8889xd3dn2rRpPPfcc3Tr1o17772XtLQ0WrZsyfnz5wkICMDR0RGA60dOc+azbzEbjJhK9RWe0RpUajUqjRr/Lu0IfWwQWjtba0cSgMFkYNX5VSw5uYR8Q75lXKPSMDx0OONajMPV1tWKCe8eGcUZDNswjLTiNAAaezRmed/l2GntrJzs7vDmgTdZE7cGAK1Ky+e9P6eNbxsrpxJC1FTpx89x+pNVmEr11ea7FCoVaq0Wv3ta0nj0Q+gc7K2dSAghxB0gRWpxN4jNyWXlxXhKTCb0Vbgw/XsqQKtW0dTdnaENAnDU1dybw4W420hxWoi7RHJpLo/FfcORgmsUmqvJyZQ/cFDr8NY5sTpkFO2c61nGTWYTz+14jn1J+wCw09jxdb+vCfUItVbUu0JifiJr4tbww8UfLI+Z/L0AlwDCg8MZ3GiwXEgSQgghhBBCCCHuMgaTgaVnlvLpqU8x/O7m+EDXQN7s9CYtfVrekePOnTuXH3/8EVdXV/Ly8li1ahXR0dGsX7+esWPH0qFDB/Ly8hg7dixhYWGsW7eO8AcH08vJn8zTsZiq8KyIf0et06J1sKfF+FF4Nmlk7Tg12p7EPcw5MscygcKvOvt3ZlK7STR0a2idYHexE2kneGLrExjNZTPAP9jwQd7u/HaNn0Bhbdxaph+Ybll+tf2rjGg8wnqBhBA1lqGwmLNffEda9JkqPcP031HptGhtbWj+3Ei8W9Ts63dCCFETSJFaVKYSk4nv469yIjO7Ss8w/Xe0KhU6tZpHGwUS5uFm7ThCCKQ4LYTVKYrCsrQjvHD5B0rMRoxUzy8Bv2ev1vGsXyfeDuiHrVrL/KPz+fLsl5b17933Hn3q97FiQusxmU3sSdpDZGwk+5L2lXusL5TNutOjXg8iQiJo79cetUptpaRCCCGEEEIIIYS4GZdyLjF9/3ROpJ+wjKlQMSxkGBPaTMBR51jhx1QUhe3bt3P48GFef/11XnnlFVq1asUjjzyCRqPh2WefZfny5ezbtw/n7CLOfhqJTqMFk6nCs9xt1DY6anVqTeNRD8ns05UsPjee9468x56kPeXGA1wCmNxuMl1qd6nxReC/szp2NTMOzrAsv97hdR4JfcSKiazrTMYZRkWNstyY0q9BP2Z1mSW/h4QQlS79+DlOffwNphI9ZqPR2nHuOLWNDt92zWnyxMMy+7QQQtQgUqQWd0psTi4rLlymxGTCWAMqjDq1msZurgxrWB8Hrcw+LYQ1SXFaCCsqMJUyLHY5u3MvV9tZpv+Kg1qHn40LrzoHsfDAW5bxsc3G8kLrF6yYzDoyijNYG7eWNRfWkFqYesN6XwdfhgYPZUjQEHwcfKyQUAghhBBCCCGEEP+WWTETGRvJgugFFBmLLOO+Dr5M6ziNrnW63pHjKoqCSqVi8uTJnD9/nvXr15OQkECnTp2Y8+4sUr7fRoi9O1pqVtFQrdOic3Sg7f+Nw7luLWvHqfby9HksObmEVTGrMCq/FcqcdE6MazGOR0MfRafRWTFh1aAoCtP2T2PdxXUAaNVavuz95R2bvf5ullWSxbCNwyznUYPdg/m679c46BysnEwIUZOYjSbOfvEdKfuPVdtZpv+KSqdFZ29HmylP49qgrrXjCCGEsAIpUovbZVIU1sUncCg9o9rOMv1XtCoVNho1Y0ODqe/sZO04QtRYUpwWwkriSzJ54MwnJOtzKVGq/x3of0aNCswG6qUcx7E4m251urGwx8IaM4uyoigcST1CZGwkOxJ2lLtw9KvO/p2JCImga52uaNVyt5kQQgghhBBCCFGVpRSkMOPgjBtm3O3boC+vtn8VDzuPO3Lc9PR0pkyZwpAhQ7C3t2fZkk/5T8O2FKam17iiz+9pbG1o/txj+LZtZu0o1ZLJbGLthbUsOr6I7NJsy7gKFUOChjC+1Xg87T2tmLDqKTGWMCpqFDFZMQB423uzeuBqvOy9rJys8hjNRsZtG8eh1ENAWfkisn8kdV2kuCeEqDz6vAKOzvmUgsTUGv1dSm2jI+zpR/Dv1NraUYQQQliZFKnFrSgyGll6/gLXCotqXGn693RqNQ83qEcHH29rRxGiRpLitBBWsCv3IoNjvqDApMeM/BFUmU00Kcxkf/fFONs6WzvOHZdbmsv6S+tZHbuaK3lXbljvbuvO4KDBhAeFywl/IYQQQgghhBCimlEUhaj4KGYdnlWuTOpm68bkdpMZEDgAlerOzQB9/dwF9r/1AbYaLWo5LYXaRkeDAd1p9HCfO/q51zRHUo8w+/BsYrNjy4238W3DlHZTaOzZ2ErJqr7kgmSGbRxGTmkOAK19WvN578/RqWvGrN3zj87ny7NfAmUl/EU9F92xWfuFEOLP5Cckc+TdJRgKi1CMJmvHsTq1jY56D9xLyPABqNQ1Y2IkIYQQ/0yK1OKvpBUXs/hcLAUGIyapLKJTq+ng7cngBgFo5LyUEJVKitNCVLLPUg8wIf5His019w70P+Og1hHh1ZLPGkWgqYYzTiuKwpmMM6yOW82W+C2UmEpueE1rn9aEh4TTK6AXNhobK6QUQgghhBBCCCFEZckuyea9I++x4fKGcuOd/TszteNUajvVrvBjphw6wemPV9bomRH/jMbWBo+mQbR68XHUOnni1+1IzE9kfvR8tl3dVm68lmMtJradSK+AXlJQrwD7k/fzzPZnMCtlM3M91vgxprSfYuVUd97WK1t55ZdXLMvPtnyWZ1o8Y8VEQoiaJu34WU5+sBxTqd7aUe4qalsb3IPr03riU2hs5PqWEEKIG0mRWgDE5eax9PwFDGaZYvL3dGo1dR0deLpxMLYa+T0uRGWR4rQQlej9pF+YmhBFkZSm/5SD2oY+biF8GzoSrap6fBkoMhQRFR9FZGyk5RGav+eoc2RA4AAiQiIIdg+2QkIhhBBCCCGEEEJY096kvcw4MIPkwmTLmL3WnhdavcDw0OEVdlEwafcRzn7xnZSm/4LaRodbw3q0mfIfNDY1Y+beilRkKOLz05+z7Owy9ObfymT2WnueCnuK0U1HY6e1s2LC6ufz05+z8NhCy/K7Xd5lQOAAKya6sy7lXGL4puEUG4sBuK/OfXzQ4wPU1XASDiHE3UluQPt7ahsdzvX8affaM2jtbK0dRwghxF1OitQ1z9nsHJbFXcJgNls7yl1Jq1LhY2/H801DsdfKTf1CVAYpTgtRSeYk7uCtaz9JafofOKh1dHdtxA+Nn6jS5emL2RdZHbeaDZc2UGAouGF9qEcoESER9G/QHwedgxUSCiGEEEIIIYQQ4m5RZCjiw+Mf8k3MNyi/m3OnuVdzpneaTpB70G3tP3HXIc59tVaKPv9ArdPh0qA27V57VsrTN8msmNl0eRMLoheQVpxWbl3/wP5MaD0BP0c/K6Wr3hRF4aVdL/Fzws8A2GnsWNFvBSEeIVZOVvHy9fk8uulRruRdAaCecz1WDViFi42LdYMJIWqMlAPHOf3JKvku9Q/UOi1Otf1oP+15KU8LIYS4JVKkrt7OZGWz/MJlKU3/A61KhaedLS+GNZbytBCVQIrTQlSChUm7eT1hs5Smb5KDWkcft1AiQ0ehqUIzhuhNerZf3c7quNVEX4++Yb2txpbe9XsTERJBc6/m8lhSIYQQQgghhBBClHMy/STT90/nYs5Fy5hWrWVMszGMbTYWG40NeXl5rFy5ksLCwr/cT+/evQkLCwMgee9Rzny++q4t+mQXF/Lega3k6YsZ1qQ9Xer9dUlcURQyiguw0+pwtimbvXhJ9C5OpSXS3KcO49p0u6Vjf358D8dSr9LEy5/2tRuw4vQB7HW2zBgxhgGzXkOt+/OLVK+99hqbNm2iffv2fPrppzX2HM+p9FPMPjybUxmnyo2HeYYxpf0UWvq0tE6wGqRAX8Cjmx8lPjcegDpOdfh2wLe42rpaOVnFMStmJuycwM5rO4GyWcxX9FshT+8TQlSa60dOc/Kjr+/a71J3G7VOi3NAbdq/8SwaGxtrxxFCCFFFSZG6+ojJzuXLuAsYzFJPvBm/zjz9QlhjbDXy+1eIO0mK00LcYd+kRfOfS99JafoWOah1DPdqzWdBEdaO8o8S8xNZE7eGHy7+QFZJ1g3rA1wCCA8OZ3CjwdXqooUQQgghhBBCCCEqnsFkYOmZpXx66lMMvzufFOgayJud3mTj0o1s3byV9u3b/+n2+fn5HDp0iJMnT5J+Mobj7395Vxd9dl2N5aSLwuDBg/lk+kxmdh/yl69denwPe7ITKSos5O1OA6nn6sHwDUs5ePAg99xzD6sGPoWd9uZmijaZzTz43SKOHTtGly5daOTgzmOTX+TAgQPUTspj5JBwWk986k9L0VqtliNHjnD//fcTExODj4/Pv37/VVFaURoLohew4fKGcuNe9l5MaD2BgQ0Hoq5CkyFUdZdzLzN843CKjEUA3Fv7Xj7q+VG1+Rl8duozPjj+gWV5Ttc59G3Q14qJhBA1SVbMRY7O/vSu/i51N1LrtLgFN6Dd/41Dpa4e/z8SQghhXVKkrpqu5hfw0blYmWn6FmlVKuo4OfB808ZoaujN+kJUBilOC3EHHclPoNuZxRRLafpfcVDreK/+QJ6p1dnaUW5gMpvYk7SHyNhI9iXtK/cYXQCNSkOPej2ICImgvV/7anOhQgghhBBCCCGEEJXjUs4lpu+fzon0E5YxFSr0W/UE5gTSo0cPAFq1akXjxo1ZuXIlADk5Obzzzjus/upr9i5ZThMPP+y1OmIyUig06PF1dCHMuza2Wi1mRSE2MwUouwhzJScDLwcnWvjWxUZTNttyWmEe59KTKTTo8bR3pKl3bZxty2Z7ziwq4Pj1BNSoCPb0pY6LBwBXczPJKSnCzc6B2MxU7LU6mvvWxdXW3vJeYjJSiM9J51x6Ct73tODJJ59kysgxzOwxBJPZzPHUBK4X5uHn5EJL33qoVCoi1n7M2g3rWbFiBaXR52npW5d3Dm+lsLAQR0dHng7rjFqlorFXLeq4uFuOVWI0EJ1ylQJ9CfVcPQjxrIWiKDz43SJMJhPu7u4E2rkQ1qsbcXFxdMGVbkFh5DTypbCWG46OjrRp04aQkBAANBoNer0ef39/Tp06ha+v7535TXCXKTWVsvzscj47/RnFxmLLuE6tY3TT0YxpNgZHnaMVE9Zc269u56VdL1mWx7UYx3Mtn7NiooqxL2kfz2x/xnLudVSTUUxqN8nKqYQQNUVRWib7/28uxuISa0epktS2NtS7vxOhIwZZO4oQQohqSIrUd7+cUj1zTp6h2GSydpQqSadW0c7bi/DA+taOIkS1JcVpIe6QFH0ezY6/R9b/ZvoQ/469WkdUk7F0dW1o7SgAZBRnsDZuLWsurCG1MPWG9b4OvgwNHsqQoCH4ONSs2YaEEEIIIYQQQghRscyKmcjYSBZEL7DMJmvMM5L5cybmUjOlCaWM6jaKESNGMHToUFJSUrjnnns4f/48LVu2JDg4mE8//RQvLy+6du2Kh4cHsbGxxB07ybQuAzl5/Ro78pNRFAWVSsV9991HXFwcCafOMbP7EHZcOc+a+FP07t0bd3d3rl69yq5du/jo/kfYcOEk25MuMGDAAFQqFTt37qSDix/d64fy9rHtBAQEEB8fT//+/cnLy+OXbdt5vVM/gtx9mblvE5n2anr06MG5c+eoW7eupTj9ZMt7eXvvRgKbN6VZs2acPHmSq2diaOtfn3OmAiIjI9m+fTvbtm0jMTGRxMRECgsLcXNzo1u3bjg7O7NlyxaG1G3CQ6Gt2XHlPB8c/ZluPXrg7+/P4cOH0aTn8mqnvjy2fqmlOO2vtUdTy4vMzEwG+gXxzZlDhDYPo3nz5hQWFvLLL78wdOhQPvjgA7RabY0qTiuKwvaE7cw7Oo+kgqRy63rW68nEthOp61zXSunErxZEL2DpmaWW5Q97fEi3ut2sF+g2JeYnMmzjMPL0eQC09W3LZ70+Q6vWWjmZEKImMJaUsu/V9yhOzwK5lP6vqW10hI0dhn/nNtaOIoQQopqTIvXdRW8yM//0WdKLS5C5pv89nVrNQ/Xr0dHX29pRhKiWpDgtxB1QYjbQ/uQCzhenYVTka8DtctHYcbLlRALsPKxyfEVROJJ6hMjYSHYk7MCoGMutV6GiU+1ORARH0LVOVzl5L4QQQgghhBBCiAqVUpDC9P3T2Z+yv9x45vZMHnJ5iBEjRvDKK6+QnZ3N999/T2ZmJhkZGVy/fp1x48axZs0arl+/Tm5uLr169eLkyZO8M3EKLXzr0nnsCDp37kxpaSnHjx8nPDycefPmsefb77liKOT48eNs2bKFpKQkGjduzEcffUTRhavYNKjN2rVr2bhxI8XFxQwZMoQhQ4agSsrAr20z5s2bR0pKCtHR0dx7770kJCTw0hNj6VI3iMKgWixdupRly5bRoEED/Pz8yMvLY+JjT5BVXMScJYto0aIFUVFR9O/fn6NHjzJq1Cj69+/P4sWLiY2N5fz58+zZs4dNmzZRWFjI5s2bSUxMxMvLi3vuuYfGjRvzYouufBxzkJ07dxIfH09MTAxDhgzh/fff5+zG7exJvGgpTgfYODF18QJ++uknzm7egW1wPSZNmsSxY8fw9vZm4MCB9OvXj1dffZXhw4fXmOJ0bFYssw7P4uj1o+XGg9yDmNJuCh1qdbBSMvFHJrOJcdvHcTDlIADOOmdWDVhFgEuAlZPdumJjMaOiRnE+6zwAPg4+RA6IxMvey8rJhBA1gWI2Ez3nM7JiLmI2GP95A/G31DY6Okwbj2ug3GQlhBCi8kiR2noUReHLuIucz87FIJXE26ZTqxjXOIRAF2drRxGi2pHitBB3wJMXviUy/QTFisHaUaoFDSoa2nlxutUkdJX4xTS3NJf1l9azOnY1V/Ku3LDe3dadwUGDCQ8Ol1l1hBBCCCGEEEIIcUctPb2UBccWlBv7q+L01q1bmf7qa3SoHchPl8+W28bOzo5r167RunVr6ph1PPzSs3Tv3p127drR2rcu3i2bMG/ePJo0aUK/fv1444036NSpEyrA2dYeV1t7sooL2LlvLwsWLGDlypUAjBgxgieeeIL777+fQYMGsXLlSgIDAwm1deVkXhppaWnUrl2b9PR04uLiePXVV4nff5ST16/xw7p12Nvb06tXL+69917WrVtHYGAgbT38OZaTSnx8PP369ePAgQNs2bKFFStWcHbbbmq7uLEj6SKFhYUMGTKES/uOcDU3k6idP/Phhx+y7rs1/PftGXh5eTFmzBgA6taty+nTp/H396ekpORPi9N5+07w7dnD5T63F198kdatW7N582a+++67al+czirJYtHxRay9sBbz7yaGcLN14/mWz/Nw8MMyecBdKLskm2Ebh5FSmAJAI7dGfNPvGxx0DlZOdvMUReH1va+z4fIGAHRqHV/1+Yrm3s2tnEwIUVNcWreNSz9ux1yqt3aUakPn7EjX+a+jc7S3dhQhhBA1lBSpK88vKdfZnJCI3iyTTFYUe42G11o1w0mns3YUIaoVObMpRAXbnhPH6gwpTVckEwqJ+hxmXPuJtwL63tFjKYrCmYwzrI5bzZb4LZSYSm54TWuf1oSHhNMroBc2Gps7mkcIIYQQQgghhBACyoqs/+TXWRF/+uknXmx/Px3rNMRkNmMM8OGll16iQYMG2NjY4OzsTGBgIImnzgHwyy+/MKBRcx4MbsGs8/vw9/cH4OjRowQEBLB9+3aioqJYt24dupxCCjSOtGvXjm7dutG+fXsA3N3dadGihSVLTEwMjqUmXu3Rj0d/+JSMjAxq1aqFwWAgKCiIqKgolvcbzc/xMURFRTFkyBAA2rVrx+7duwlx8mBSxz68vvN79u7dS7t27Thw4IBl/z0bNKZz3UbsSLoIwK5du1jcLZzPj+/hwoUL+Pv7U2w00Lt3b1JTU1mwYIFlW61WS8OGDTl7tnyp/FfFBj2ODg68+n//R/fu3fH09MTJyYmrV6+SkJBwsz+yKslgMrDq/CqWnFxCviHfMq5RaRgeOpxxLcbhautqxYTi77jbufN+9/cZtXkUerOeizkX+e/+/zKn6xxUKpW1492Ub2O/tZSmAV5t/6qUpoUQlSY/MYVL67Zh1ss1vopkKi7l7Bff0XL8KGtHEUIIUUOpVCrqu9anvmt9woPDb6pIna/PZ9e1Xey6tguQIvXNSC8uYVNCIgYpTVcovdnMqovxjG0cbO0oQlQrUpwWogLlG0sYEbuCIrOcUKloRWYD85J/4WGvFrRw9K/4/RuKiIqPIjI2kpismBvWO+ocGRA4gIiQCILd5cuIEEIIIYQQQgghKteYZmNQq9SczzrP9aLrJBckl3+BolCSlQNAYWEhjjY+pBXmcaY4i5gf9vHII4+wb98+CgsLiY2NRafTYTKXPYywtLQUW40WtUqNyWRCpVJhr7XhQf8QQkJC6Nu3Lw888ADHjh3jscceI/PgQQC2bdtGbm6uJcLXX39t+XVpaSm22rKZcH6/39+XN1UqVdm63z0UUa1WoygKKlSWbc1mM2q1+m8/n9LSUuy0OtQqleVYUFaSPnbsGL/88ovltZs3b/7bAvSPcSeYNWsWQUFBDB8+nOTkZB566CEmTZqE0Wj82xxV2Z7EPcw5MueGJ6919u/MpHaTaOjW0DrBxC1p6tmUqR2nMnXfVAC2XNlCM69mjGp695fVjqcdZ87hOZblhxo9RHhwuBUTCSFqErPJxIkFyyw3ogHEZV4nozifMO/auNj+82zJ+aUlXMxOo8igx06ro8RoIMjDBx9HlzsZ/a5nNhpJiz5D+okYvFs2tnYcIYQQQorUd4BZUVh+4RJGKU1XOJOicDEvnxOZWbT09LB2HCGqDSlOC1GBxl/+gXxTqbVjVFslZgMR55dxptVkdBX0hfNi9kVWx61mw6UNFBgKblgf6hFKREgE/Rv0r1KPtBRCCCGEEEIIIUT14m7nzsS2E8uNzc+cz6W4SwAUZ+ag/OHiVFphPg0bNiQ7O5uffvqJbgEhXPMzEhgY+I/HKzbq+fr0AbwcnNgXtY3vvvuOnJwcevfuzYYNGzh58iROTk589913hHnXJiE3kzx9CV4OTn+73+zsbK5cuUKPHj2Yd2ArJ64nsmzKM5b10dHRTJ48mceyU1l0ZAfn8zPo3Lkzc+fORa1SUVRUhIODA9+fj+Z0WuI/vo9t27ZRr149fvrpJ5p41SK3tJik/Bxc/6H81KxZM9auXYtNQQkOGh0PPPAAAIpZ+dvtqqL43HjeO/Iee5L2lBsPcAlgcrvJdKndpcrMVizKDG40mNPpp1kdtxqA+dHzaezZmHZ+7ayc7K+lF6UzcddEjEpZYbGpZ1Nev+d1+b0nhKg0l3/8meLMbPjfDV0JuVnMOLaN5s2bs3FfFDN7DPnb7Q8mXuLdQ1vp1KkTbl5uREVtpm/fvny8NZIVg8dWxlu4ZZey09h44RT2Wh2PhnXAycbujh3LrDdwavEKur7/BjrHfy6hCyGEEJVJitS3b3fKddKKS6h+Z03uDnqzmchLV2jk4oyTTmftOEJUC1KcFqKC7My5yJrMk5Qo1XfWGWtTgCR9Lu9c28b0gD7/ej96k57tV7ezOm410dejb1hvq7Gld/3eRIRE0NyruZycF0IIIYQQQgghxF3JVmtr+XVpTp6l6POruq4enDm8BZ1Ox7Jly4iPj6dfv36kpqbe1P4jHh3Oww8/zKFDh7C3t+exxx5j5MiR+Dm58tJLL7FmzRo6d+7MhQsXaNiwIba2towePfpv99nOvz6vvfYay5YtY/HixTwXGEhwcDBpaWmEedfm/NHjHDhwgN27d7Np0ybeGjiQX375hUvHTzMktDVbt27ltddeo0OHDmzfvh1+jP/LY3Wu24g5c+bwyy+/sHnzZvbu3YubmxsPPPAArVq1+stZrJ10tmzcuJE333yTJbVq0aRJE4KDgzGbzZRkZt/UZ1cV5OnzWHJyCatiVlnKqgBOOifGtRjHo6GPotPIxbiqakr7KZzPPs+p9FOYFBOv/PIKkQMi8XP0s3a0GxhMBib+MpH04nQA3GzdmN9tPrYa23/YUgghKkZB0nUur9+OWf/bE2WzSwoJCwtjwYIFPNil+99ub1YUPjy6gz179pCWlsaVK1c4ePAga9asweYuLrasPneEFoP6cOrUKQ4kXuaBwCZ39HimEj3nvlxDi+dH3tHjCCGEELdLitS3JrOklM3XkjDIbNN3lOF/5emnQoOsHUWIakGlKIrc7CHEbTIrZkKPzeZiScY/v1jcNnu1jsttXsfXxvmWtkvMT2RN3Bp+uPgDWSVZN6wPcAkgPDicwY0G42rrWlFxhRBCCCGEEEIIIe6I77//nokTJ1K7dm1IuE5BaQnuTRpx6tQpZnccSB0Xd36MO8HahLM89NBDAKxbt47Q0FDOnTtHK2cfkuzBbDbTzcGXng0a88SWr7m3Sxe2bNmCo6Mj3bp1Izg4mIKCAnbs2IFfqYrJnfrw6bHd7MtI4MEHH8Tb25urV6/y888/09zZm1h9Hg0bNoSE67xx7wBe2LqKgNbNOHz4MPO7PsQHh39G8XXn/vvvJyYmhlOnTlGvXj0cU3PpH9ScGXs30vbeTjRr1oxTp05xbN8BpnUZiJ+TK6/t+B4bP08aNGjAtWvXiImJoW/fvuz9eScrHnyKr08f4LxOT0FBAUN8gjCaTXx8fDf393qAkJAQsrKy+OWXX/AuhdiMVO59oAd7duykY60GZLjbkZaWRrh/KGtiogls3ZwWLVpw7tw5Tpw4QXBwMKarqVw1FtK6TRv27t1LUlISDg5V6yllJrOJtRfWsuj4IrJLfyuCq1AxJGgI41uNx9Pe04oJRUW5XnidiI0RlnOhzbya8VWfr7DR2Fg5WXnvHnqXledXAqBWqVly/xI6+ne0ciohRE1yZObHZJ69UO4mtOuFeTy1aRk2NjZoTGaGNWnPgcSLnMtIob6rJ0UGPcGefjzZ8l4+jt7JNXMJ8fHxODg4oCgKPj4+JCcnY6PT8eXAJ/gu5ihn0pLJLS3Cy8GZLnWDGBzSiqySQhYf3cml7HQMJiM6jQZXWwf6NAzjWl4WR5Lj0ao13BcQzPCmHTicHM8Pscc4nZZEbWd3Sox66rt60a1+CLsT4ricnY63gzPDmrbnntqBnE5LZOOFk1zISkNvMlHHxZ3BwS2p5+rJUxu/4ocffmDz5s1sXLUaX0cXRjXvyPXCfDZdOEVSfjae9k70CmxKv0bNOJuexMozhziXkYKXgxMpBbkAhHj68WhYB9r7N6DEaGDBoW2kF+XTsU4jhjZuU+6zVut0dJwxAed6/pX6MxZCCCEq0s0Uqf+oOhepvzh/gbPZOUht+s7TqdU81ySEAOe/f+KbEOKfSXFaiArwbfpxxl5cTaFZb+0oNYKtSsNIn7Z82ijiH19rMpvYk7SHyNhI9iXtQ/nDg0E0Kg096vUgIiSC9n7tUav+fKYhIYQQQgghhBBDL1cqAAEAAElEQVRCiLuN2WwmakUkx5evpYm7LybFzLn0ZLwdnAl097a87mpuJqfTElEUCPLwIa+0BA97Rxq4eXEqLREVKpr51EajVpOYl0Vifg7BHr5o1GrOpCWRWpCLrVZLkIcvIZ6/zVabXpTP0eQrFBpK8bB3oplPbbzsnbiQlUZOSRFhPrVx0NmQU1LE+cxUajm5EuDqiaIonLh+razY4+iMm609JSYjzX3qYKfVoTcZOZQUz/XCPPycXGjv3wAbTdnDE01mM/E5GWQVF6LTaPBxdOZaXjYNXD3xdXJFbzJyOi0JG42Gpt61UatUFBv0HEqOJ6MoH0edLaGeftR38yKjqIBLOekEuHriYefI6bREHHQ2NPaqhcFs4kjyFa4X5uHj6Iy7nSOF+lLC/OpgHxyAsX0oTZo0KSuIVyFHUo8w+/BsYrNjy4238W3DlHZTaOzZ2ErJxJ1yJPUIY38ai0kxARAeHM60jtOsnOo3Gy5t4LW9r1mWX2rzEk+GPWnFREKImiY77gpHZi4uN9s0wKm0RL7NusSLL77IWxNeIbkglw1Rm1m8eDGvvvoq3t7efPfdd7z66qsEBATw3Xff0apVK/bv38/hw4eZM2eOpTjdtV4wQb26Mm7cOPz8/IiPj+ett97CfOEaDd19yG7kS9OmTXFzc+Ohhx4iPj6exx9/nAceeICXX36Z0tJSXn75ZTySc4nNTGXs1ClER0czfPhwmjRpwubNm5k0aRJz586lT58+nDlzhieeeILJze5j0s/f8dHixXTv3h17e3uOHTvGxIkTMWfmcu/AvixYsIDs7GxSUlLYvHkzs2bNolmzZrz99tu0a9eO2NhY3nrrLXRX0ygxGuj51AhSUlLo1asXHTp0YOrUqdx3333833Mv8tmA0Wy5dJo4Dx2DBg1i1qtv8En/UeU/cJUKj8YNaf/Gc5X4UxZCCCHurJpcpE4qLGLhmXMYzFI/rCz1HB2Z0KwxKpXK2lGEqNKkOC3EbdKbjdQ/+japhnxrR6lR7NVaTreaTKDdn89+k1Gcwdq4tay5sIbUwhsfP+vr4MvQ4KEMCRqCj4PPnY4rhBBCCCGEEEIIUeEURWHvpFkUJqdZO0qNorbR0WHaeFwD61o7yk1LzE9kfvR8tl3dVm68lmMtJradSK+AXnLBrRr7+tzXzDkyx7L8Zqc3GRI0xIqJypzPOs/IzSMpMZUA8EDAA8y7b578XhRCVBpFUTjw+nzyriTesO7k9WtsMWfywQcf8GCX7qQU5JKVl8svv/zCuHHjsLGxYceOHTzzzDNs2bKFli1bsmvXLgICAjAYDNjb25crTqsC/YmLi+P69et07dqVb7/9lmbNmtHOxZdG/Xswc+ZMRo8ezbZt25gzZw7dunVj3bp1vPvuuwwePJgZM2YQ3CCQ+q5eLF6zEm9vb4YNG0ZOTg7bt2/HYDDw6quvsm/fPpYsWUJmZibfzfmAY6kJdO/Ti507d2IwGBg/fjwPPfQQHTt2xN7enjVr1rB9+3aWLVtGaWkpJpOJ2NhYFi1axMcff0zfvn354osvCA0NxZRbwMKln9K1a1dGjBjBiRMnMJlMXLhwgfvvv5/hnkEsPbGHRauWs379evL2HGNE2D03fLZqGx3tXh2He2hgZfyYhRBCiEpXk4rUH56JIT6/ACkfVh4btZonQhoR6uZq7ShCVGkytaoQt+nz6wfJN5VaO0aNY1DMTIrfUG5MURQOpxxm4q6JPPDdAyw6sahcaVqFis61O7Ow+0K2PLyFcS3GSWlaCCGEEEIIIYQQVdb1wycpycyxdowax6w3ELP8e2vHuClFhiI+OPYBg9YNKleattfa83zL51k/eD296/eWomo191jjx+jboK9l+Z2D73A246wVE0FuaS4Tdk6wlKYDXQOZ0XmG/F4UQlSqjJPnKUy5tRvQ3nrrLYbWCsVfr2bDhg20adOGzrUDyc7Oxmw2U5SXz/yuD5Xbpku9IHbu3ImLiwv9+/fH29ubtLQ02rdvz5WcTAD279/Poa0/858mHVm2bBl169bltdde4632fVm+bBk+Pj64eHqQU1IEwJIlSwg22NDExpUNGzYQGxvL+f2HGRXUhq+//pq2bduSlJ9DB/8GbNiwgaZNm9K/f3+SkpJo37499vb2BDi4otfrKSgo4OGAMJ5t3oUePXpgMBj45INFfNg9nOhtO9m7dy/Dhg0jtSAXgG+++YaSuKt80GUIDexc+OKLL3j66af55NgvmNwc6dSpEytWrKBXYNM//QzNegPnvlqLzO8mhBCiulKpVNR3rU94cDhzus5hR/gONgzewLSO0+jboC9e9l43bJOvz2fXtV28d/Q9IjZG0CWyC+N3jGf52eXEZMZgMpsq/438g4u5eVwrLJLSdCXTm818H38Vs3yXEuK2aK0dQIiqzKiYmJqwhUKz3tpRahyjYiYqJ4YLxen4qG1Yf2k9q2NXcyXvyg2vdbd1Z3DQYMKDw6nrXHVmAhJCCCGEEEIIIYT4K4qiELtyA6ZSOS9lDflXk8m5cAW3oPrWjvKnzIqZTZc3sSB6AWnF5Qth/QP7M6H1BPwc/ayUTlQ2lUrF9I7TuZhzkQvZF9Cb9UzYNYHIAZF42HlUeh6T2cSUPVNIKkgCwFHnyPvd38dR51jpWYQQNdv5b3685e9SqampNGvWmITcTAoKCnB0dMT0u0fTq1DhqLO1LCuKwrKT+1m6dCmtW7dmx44d5OfnY2Njg6enJ6f1pZb9Brp7U8fZnaK0VDIzM3HV2dLIwwcbtZbi4mIcHBzIzS2wvD7Ey4+ruZkUFhaSmppKY69a+Du7caowEwcHBxJyM0kzlXD8+HESEhI4e/YsJSVlN6x4eHhgKjZYctppdRQb9NSp04j4+HgauHri5+RKqFctLl++TO3atS2vvXr1Ks186uDp4MTjLTqz8JNPiI6OZvLkybw+5iVWr15NE2cvvB2c//JzLLqeQda5i3g2Dbqlz18IIYSoin4tUv9apr6ZGal/LVLvurYLuDtnpN6QcA2D2WzVDDVVrt7AuexcwjzcrB1FiCpLitNC3Ib1WWcxKvIlwFpMZjMjjs1Fid9hmZnk91r7tCY8JJxeAb2w0dhYIaEQQgghhBBCCCHEnZETG48+r6BC9xmTkcK59GTUKhUdagfi7+wGQHJ+DoeSLmNWFJp41yK3tIRvTh/EUWfDxI69/7YU82/klhZjMpvxsC8rUf5yNZbvYo7iYmvPlE59cbW1r9Dj/RsmvYH4TTtpNeEJa0e5wan0U8w+PJtTGafKjYd5hjGl/RRa+rS0TjBhVQ46BxZ0W8AjGx8h35BPamEqk3dPZsn9S9CqK/dS0ccnP2Zf0j7L8jud3yHQNbBSMwghRO7laxSnZ93ydoqicCtz4ytAiZ2WESNG4OrqShf/QLbHxzB06NA/2a+q3DJ/c6Q/5vjj9gClJiNDBwzg+vXrDBvyMA3dvUlXm/jvf//7v1eoUBQFtVpNZnEBPg4uXElOpl69eiTkZZFXWsyFrDTq1avHL7/8Ytmv2WxG/b8nBIR4+qE9WsjBgwd57LHHePLJJ3nwwQcZ0KjZ334uplI98Rt2SHFaCCFEjVQditTXi4pJKSyutOOJ8vRmMzuSU6Q4LcRtkOK0ELdhTuIO8k2l1o5RYxkwE23WE2rWo/7fmKPOkQGBA4gIiSDYPdiq+YQQQgghhBBCCCHulMsbd1T4bNNTd/3Af8Y/T3Z2Nu/8sJGP+o4A4N19m+kyuD/u7u688eEimvvU4fn/vsauXbs4lpxA74Z//hj2f+NwUjzzTuxEp9MRHhDGoJBWRF08zatzZrJ69WpOXU+kS727oGCjKKQfP4c+rwAbFydrpwEgrSiNBdEL2HB5Q7lxL3svJrSewMCGA1Gr1H+xtagJ6rnUY1bXWTz383MAHEo5xAfHP+DlNi9XWoadCTv55NQnluUxzcbQM6BnpR1fCCF+dWXzLswGY6Ucq7S0FJVKRVhYGDtPnOCZZ54hNDS0Uo5dUFBA/fr1sXN24nJhDkuWLLGsc7dzICEhgXvuuYdpmzeTnxiL/oweJycnhj0+ikc/+4wHHniA7t278/zzz+PzFzfL9W/Ugo8//pgVK1Zw+fJlrp49T5uBHf8xW1bMRUoyc7DzdKuotyuEEEJUSVWxSP1LynVMivLPL7xLnd+6hXObNzFk4Yf/eh95qal8PWIYz/y0A7Wm8mf/vlZQSEZJCV52dpV+bCGqAylOC/EvnS+6zumi1ArZlzL0c5jyAKp2ARWyv4pwN2b6MyoFcp386KhzISIkgv4N+uOgc7B2LCGEEEIIIYQQQog7pjQnj8zTsRW+30KDnnnz5lFSUkLjnTu5lJ0GgMHFnsWLF2NnZ8f777+PWqXixIkTJCcnE6L1BCCtMI/jqQnYaLQ0cPMiu6SIAFdPHHQ2xGam4mxjR1ZxIWlFeQR7+OFm50BMRjL5+hJ8HFwI86mNnVbH3msXeOaZZwgKCmLJ1BkEuHpRYjISHR3N9evXsXVvAJTNSn00+QoGs4kwb3/quHgAkF6YT2J+Nl4OTlzMSsOsKDT19sfPybXCPy9UKq7tPEjDQfdX/L5vQamplOVnl/PZ6c8oNv4225NOrWN009GMaTYGR52jFROKu0nXOl15tsWzLD65GIAvz3xJM69mPBDwwB0/9pXcK7y29zXLcsdaHXm+5fN3/LhCCPFHhoIirh85BX9T9lGpVBQUFHDu3DlUKhUqlYrjx4+j1+tRqVSggqSkJAA0ahV6vZ4TJ06gVpVtazQaOXbsGBqVmhBHD5555hm+//57NBoN33//PYsXLyYzMxONWkVaWhpXrlxBrVKhUkFxcTGnT5+2zOqsVsGJEyfQ6/Vo1Cri4uLIyclBpbJFjYqUlBSKiorKcoIlt7eDM3u3/cyOHTs4d+4ceXl5zJw5k4YNG2IwGLivYTPmzp3L7NmzWbNmDZs2beKtt95i8ODBzJo1i5kzZ3Lp0iWGDRtGfcUWxasW8fHxpKen4636bXbr+wKC+WDtx5SWlvLJJ5/Qp2EYGvXN3ayVsH0fwcP6//sfphBCCFEN3e1F6lKTiaMZmZgrZG9/bumQQRRlZaHWqNHZ2RPQsSPdX56EjUPF9IFCe/chtHef29qHi58fz/38yz+/8A5RFIXdKdcZ0uDu7nUJcbdSKUoVvv1DCCt69tIaPk89hLECvgpUdklZMZpRaf/+hEVVKU4DBOhcuNxuWtmJKiGEEEIIIYQQQohq7uL3W7n84/YKnyWx76oFKIrCmjVrOH36NCe/XQ9Ai0ceJCwsjPDwcNRqNS186mD2dSc9PZ0xjdpwLTeL76+cYfDgwRQWFrJ582Y6duzI8QOHaOzph97PnStXrhAcHExYWBhffvklTk5OdO3aFR8fHy5evMjJg4d5vHlnvow7wpw5c6hduzZz586lqKiIgwcP0qpVK5KSknilWVdiM1NZGRvNgAEDcHJyYvPmzYTYuvBc2x6M2bKCth3as3//fgYMGICNjQ1RUVE8EdKOXoEVNzP2r2xcnOi++E1UN1kOqkiKorA9YTvzjs4jqSCp3Lqe9Xoyse1E6jrXrfRc4u5nVsyM3zGe3Ym7AXDQOrCy/0oaujW8Y8csMhQxYvMILuZcBMDf0Z/IAZG42bndsWMKIcRfid+8iwurN2PWG/7yNSVGA3P2R5FRXED/Ri3IKi5gf+IlAt29mdD+fi5lp/PJsbKizH9a38ePcce5kpPJvXUbEdGkHYuO7iAu8zrt/BswJLQVS0/s5VDSZYoMevQmIw46G0I8/Rge1oEVpw+iNxkZ3bwTYd61mXMgiuT8XO5v0JhBIa349uxh9l27SH03T9r5N2BtTDQutvZM6tibrOJCFkfvxGRWGNuqC/XdvH6XuzmhXrX47NhuzmWkYKvRklNahL+TG8196/BCu54cTo5n6+WzZBYVoFGreaJFZ5Lyc9h44SRXc7PwdXShV2ATBoe04nRaEitOH8BOq2NC+/vxdXIlOuUqP10+Q6qdikOHDlGvXj0+7jEMT4ebeyKH1sGeHktmoNZW/iyNQgghRFV1M0XqP7qVInWBvgAHncNfPrVqf2oaP169ht5856rTS4cM4oH/e5167dpTkJ7GDxNeoEHne7n32du/+dZsNKLWVo+5Zm3Uama0bYWNRp4wJsStkuK0EP+CWTHjfugN8k2lt70vZUYU/BQDOg1o1PD4PRCTCqeSoNQIjbxhYk9UgV4oGQUw/MvfB4FSI6q9L6Mk5cDsbXAxHVRA+/rwcg9UzmWPZFCGfg6Dm8O285CQDdvGw8F4WLIXMgrKjvNKT1T1Pf80k2pEO5QzybDoF7iSBb7O8GJ3VK3LLr4oz6+GFrXh2LWyDGH+8N9+qNzsy9b/zba3y0Gt41jLiQTbe1fI/oQQQgghhBBCCCHuZrvGv0lJZk6F7/fX4vTAgQNZuHAhLRqXFY1PxpzlhRdeYOPGjajVatrVqs9ri99n/fr1JP9ymDOlORw9epQdO3aQnp5OWFgYPXr0wMHBAV8bR1Zt2YDJZCI3N5erV68yadIkFi9eTHFxMZmZmXTv3p3k5GSGDh1KcHAwX331Fa6urvz888+kpqYyc+ZMduzYweLFizGcusix4kwOHjzI/v37uX79Oo899hiPPvooSmwCp0tzuHz5Mtu2bePKlSvUr1+foKAg2rRoyed9R+Jia1+hn5nGzpa2r/4H9+AGFbrffxKbFcusw7M4ev1oufEg9yCmtJtCh1odKjWPqHpyS3MZvmk41/KvAVDfpT4r+6/E2ca5wo+lKAqTdk9i65WtANhqbFnedzlNPJtU+LGEEOJm7Jn4LoUpadaOUS08vWkZz702hYcffpilS5dy+Nt1TOp487M3auxtaTXhCbyahdzBlEIIIUT1VpFF6g2XNjBt3zRqO9dm3n3zCPG48f/Rc0+eJamo6E69HaB8cRpgz6IPyIyPx71eXc5v3YpJr8fZz4++b76NV8OGlBYUsGv+e1w5eACtrR1hDw6i/egnUKnVnN20kTPr1+HXpAkxUZtp/tDDuNapy9kNPxKx5DMAdr0/j4u/7ERfUIhb3brc9+JL1G7ZCoDUc2fZMXc2OQnX0NraEtKrN/e9+BK5Kcl8+fBgXti9H7VWy9lNGzn05ecU5+Rg7+pKp6efue1Zrf+JrUbNiEaBNPNwv6PHEaI6qh63TwhRyQ4XXIMKuuVANbUvysmkcrM7KxvPwGu9QauGj/fAW1Hw1UhUXk5lhef/Ud7cXFaehrLHiY1sX1ZeLtTDGxvgiwPwYvffDrY9FuY8BG52kJwL0zfBu4OgVR2IPAZT1qGsePzPM6Xnw+R1MLUPdGgA0QnwxgaUbx5H5f6/R2FsOw9zh4CvE0z8AVYdhWe63Ny2t8GMwvrMM7xSp/s/v1gIIYQQQgghhBCiCitMTUefV3hHjxEXF0dycjKt7ym7OJWcnExcXNyfvnbLpTMsXLiQ9evX8+bEKXjZOxL2wH306NHjhn0+M/ZpugWEUFhYyOjRoy3rtFotFy9epGnTppw9e5Yff/yRoKAg3ntjOq386qH93WzO6+NO8MmnnxIVFcXUCRPxcnDi0KFDLFy4kKCgIOrUqYNOp2POnDkUxl3lbHoyx8+comOXezmfkUr72hVbcDbpDVw/fKrSitNZJVksOr6ItRfWYlZ+m9nJzdaN51s+z8PBD6NVy2l/8c9cbV15v9v7jIwaSbGxmCt5V3hj7xu83/39v5xV7N9afm65pTQNMPWeqVKaFkJYTUl2LsXpWdaOUW0429jx008/8d1333E97jJzeg69pe1NJXpSD56Q4rQQQghxG1QqFfVd61PftT7hweE3VaTO1+ez69oudl3bBfxWpD6TcQajYuRq3lVGRY1iXrd53Fv7Xst2hQYjqcXFlffmgPzr14k/sA8bB0eSTmQyOnINtk5OZF+9gq1T2c2/u+a/R2lBIU989wPFebn8MGE8jl5ehA0cBJSVn0Puf4CnN27BbDISu317uWP4Nm5ChyefwtbRieOrI9n0xv/x5Nof0drasuv9ebQKf4TGffuhLyoi8/KlGzIaiov55f15PLL0KzwCAijMyKAkL/eOfzalJjPHM7KkOC3EvyDztAvxL3yfcYpi818/vut2qQaEoXKwQWWjhSc7wsV0lILys1srKw7D1Sx4rVfZNnXcUbULQGWjLSsjD2sDJxLL73hoK1S+zqhsdbAjFjoGlm2j1cDwtmUzXJ9O/vNQW2OgYwNUHQNRqVVlhepQ37JZq3/Vrymqeu5l++8RDBfSbn7b21BiNvJNxrEK2ZcQQgghhBBCCCHE3Swt+gwVdkf/3/jqq694/PHHeeKJJ/jqq6/+9rWtW7fm559/5tGwDkzs2Jvtf7j4BPDTTz/xfLseTOjwAA8Gt6RDhw6sWbOGEydOcPr0aXx8fGjYsCEhnn6WbRp71eKZNt1o4uVvGVOAdu3asXHjRkY378T/derHhg0baNSoEe7uZReJTCYTe/fsYVqXgYT5+HPx4kX8/f3JKb0DsyGZzaQePFHx+/0Dg8nA8rPLGfD9AL6L+85SmtaoNDzW+DE2PrSRYaHDpDQtbkmIRwjTO063LO+4toMvznxRocc4nHKY96PftywPCxnGoEaDKvQYQghxK9KPnUUljzKvMP/t+iBdjU4Md2/I4r6P4W7veGs7UBSuHzmNPCRbCCGEqDi/FqnDg8OZ03UOO8J3sGHwBqZ1nEbfBn3xsve6YZtfi9S/L1gXGYt4dvuzfHTiI8tYTE4OWpWqMt4GG16dxOJePVg9bix1Wramw+NPoi8qJPvqFVAUPOo3wNHLC7PJROz2bXR+5llsHB1xreVP6+EjiNkSZdmXk5cXLcOHodZq0dra3XCsxn36Yu/qhlqrpc2jIzAZDGQnXAVAo9WSk5RIcU4ONg4O1Apr9ueB1SoyL1/CWFqCo5cXnoEN78THcoNzOTmY5buUELdMzqIK8S+szjyBEfM/v/BfUExm+HQf7IyDnGJQ/+8LR24xONmWveZAPHx3HD59tKykDChZhbBwF5xMhCJD2QzUzrbld+77u8csZhSA32/LKrUKxce5bPzPpObDzjiUfZd/GzOaoFXd35Y9f3cyxE4HxYab3/Y2xRRdJ9NQiKfuFk/ICCGEEEIIIYQQQlQhKfuOYTYY7/hxvvvuO2bOnAnAiy++iK+v71++1mg0otFoMJpNGM1mNBrNDa8pLCzESWdLfmkJO1MucfXgVR5//HF27NhBQUEBhw8fRqfTlZtF+a+o1WoURUGtUll+DWUXBn/No0KFTqNBrVJjMplQqVTcqWtI+oJCClPScazlfUf2vydxD3OOzOFK3pVy4539OzOp3SQaulXOhThRPfUL7MfpjNOsiFkBwAfHPqCJRxM61e502/tOLUxl0u5JmBQTAC28WzCl3ZTb3q8QQtyO5H3RmEr11o5RbbjY2tOhduBt7cNsMFBwLQXnev7//GIhhBBC3LJ/MyP1rxQUlpxcQqmxlJfbvsyxjCxKzXemL/VHA2e9R7127cuN5SQlsXPee+SlptDovu50Gf8CxtJSzEYjLn61LK9z8atFYXq6ZdnJ56/PawFEr1zBmQ3rKcxIB5UKfWEhxbk5ANz/2hsc+OxTlg0Px7WWPx2eGkNg5y7lttfZ29PvrXc4tuobtr37Nv7NWtB1/It41K9/ex/CzVAgoaCQ+s5Od/5YQlQjUpwW4hbFl2SSbqjgx6H+/masbedh7yVYMBRquUBBKfRdzK9XdpSELHhnC7zzIKrfF6E/2Vv23+WjULnYo+y+CO/v+OtjejnBpd+++CiKAmn5ZeN/zARlpevejVFN6XXr7+92tr1JNioNm7JjGOXT9o4dQwghhBBCCCGEEMKaDAVF5CemVMqxnMxq3n33Xcuv/4pGpebAgQMMGTKEMSNG4Whjw8OPj/zL16cX5VOvXj1MJhPr16+nZ/3GxLjkEhYWBoCNRktRUREODg4cTorng8PbOZVW/qlq0dHR9OrVi9n/NxWfy+fo3bs3V65cISsrCwcHhwp497dIUUiLPk2DAT0qdLfxufG8d+Q99iTtKTce4BLA5HaT6VK7i6UsLsTteLnty8RkxRB9PRoFhcl7JhM5IJLaTrX/9T71Jj0v73qZrJIsADztPJl33zx0Gl1FxRZCiFtmLCkl9+JVa8cQf2A2mkg9fEqK00IIIUQl+asi9VsH3+JI6pE/3ebo9aMYzWYu5uVVctryWkUMo1XEMIqystg09TWiv1nBPU+NRa3VkpeagmeDshu68lNTcfT+7Qb3vzt/knTiOEdXfM3DH36EZ4NAVGo1H/fuaXngm3vdevR7620Us5mLu3ay6fX/Y1zUthv2U/+ejtS/pyPG0hL2f7KE7bPfIeLjzyr2A/gTBrOZk5lZUpwW4hbJc4iEuEW78y6juaFVfJvcHSA5t+zXRXrQacDVDkqM8Mk+y8uUwlJ49Ud4ujOqFn84aV1kAAcdONqipOfDqqN/f8wewXDgMsrRBBSjCVZFg04LzfxvzATQqzHsu4xy6AqKyYxSakQ5dg0lLf+f39/tbHuTCsx6fsqOrbD9CSGEEEIIIYQQQtxtci5cQa2rnNLh2FZdiNv4M3Ebf2Zs665/+bpBwS2ZN28ejRs3ZuPPP7Fo+Zf06FFWIDaZTKj/cGHK39mNhMvxZGVlERkZSedR4axbt46UlLJCeH1XL3bt2kWfPn344LMldBg5tNz2/Rs15+233yYiIoLpC+Yy9MVxfPLJJ0ycOJH7GzSu4E/h5pgNRtJPxFTY/vL0ecw5MochPw4pV5p20jnxSttX+OHBH+hap6uUpkWF0al1zL1vLj72PgDkluby0s6XKDGW/Ot9vnv4XU5nnAZAq9Iyr9s8fB3/foYvIYS403IvX6u071Li5ikmExknK+67lBBCCCFuza9F6nrO9W5Yp1Vp8Xf0581Ob5JcVHTDeZ7KlHruHClnz2AyGtHZ26O1sUGlVqPWaAjucT/7P/kYfWEheSkpHPt2JY1797mp/eqLilBrNdi7uWE2mTj4xefoC3+bUDNmSxRF2dmo1GpsncsmuFSpy38OhVmZXNr9C4biYjQ6G3QODqhUlVPLNAPnc3L/8XVCiPJkxmkhbtGBvCsUmCv4EV4j28P7O1E+3gOPtAE/Fxj8KbjYwZjOsO5k2eti0yAhGz78BeXDXyybq7aNhyfugbe3QJ+PoLYb9G4Mq4/95SFV9TxQpvaFBTsgvQCCvGH2IFQ6zY2ZRnVA9WhblHcHwce7Yfom0KihsR9M7PmPb0/l6/yvt70Vh/JllgAhhBBCCCGEEEJUX7mXr93RR8t72DsycOBAUpNTaBLWnXvqNAQgr7SYtOM7GThwIG629ng5OPHOO++QmprK2MDWXMpOo3nz5tx7770UFBRgMBjo2LEjdioNvk4uTJo0iQsXLnB/ix7YaXWMad6ZDh06MHToULRaLYMHDyYgIIArV64wsWkXoi6epmnTpoSFhWEwGAB4/fXXLetdU6/SsGFDHn74YZycnGjVqhXeenip/QP856eVDBkyBE97x7L3ZOfA22+/TWpqKk8Htrljn13+1eTb3ofJbGLthbUsOr6I7NJsy7gKFUOChjC+1Xg87T1v+zhC/Bkvey/mdZvHE1ufwGg2EpMVw4yDM3i789u3XNJfG7eWNXFrLMuvtHuFNr537s+fEELcrLz4a5gNxjt6jGWn9nM89Sqxmdep6+JOoUHPQyGtAdh55Ty5pcXUcXFnSEhr2tduwPWCXFacOci59BSKDHq8HZ3pULsBDdy8WBd7nNNpSfg7uVFiMhDo5s2jYR1o7FULk9nM1stn2HrpLOlF+dRycqN/o2Z0rx/K3msXWR93gnMZydR18aBAX0o9Vw9GN+9EiKcfsZmpfHv2MJez0zEqZvyd3HggsAm9AptyNj2ZH2KPcT4jFWcbW1r7BfBYs3uw19nc0c+tIDEVRVHkxjAhhBDCip5t+SxGsxGVSkUL7xa08G5BoGsgGnVZj2hfahpms2K1fPqiAnYvXEBuchIaGxsCOtxDm0cfA6Dby6+wa/5cvgx/CI2NDWEPDqbpgAdvar8BHe4hoENHlg0LR2tvR+thw3Hy+e3G36sHD7D7gwUYS0tw9vOj75tvo7W1K78Ts8Kxb1eydcZ0UKnwDgqmx6QpFfXW/1F6SSlmRbFqsV2IqkalKIr1/kYTogpqdmwOZ4uvWzuG+BNalZr8e97FVi33hAghhBBCCCGEEKL6Ofz2R2Sdu3jH9p9elM+l7HRqO7tR18Wj3LpreVkk5efQ0M0bZ1s7zqQl4WhjQ0N3HyLWfcqwRx5h9+7deHl5MW/ePI4ePcr3Cz7mpQ4PcDYtGTc7B4I8fCxlmKT8bE6kXsOkmGnk7kOBoRRXW3uCPXxRqVQk5+eQUpCD0Wwm0M2b+NyMcuvTC/M5lHwZg8lEU+/aBHv6WvZ7LS+bIHcfPB2cKDEaLFlDPWvdsTKOSquh24f/xdbV+V9tfyT1CLMPzyb2D09Ua+PbhintptDY0zqzaYuaZ3XsamYcnGFZfr3D6zwS+shNb386/TSjt4zGYC676aFfg37M6jLrri/CLVmyBAcHB0aNGsVXX31Fr1698P9/9u47vqbzD+D4596be7P33ntIQoQMpLH33pSatVqdKNqiKFqKomhV1d57703NiJnEihDZQ/a4Se79/RGN5idqFKF93q9XX6971vN8z7lJ+jjne76PTensjAMGDGDYsGF4e3s/d7tOTk6cP38eMzOzlx2yIAgvIGz6b6RcuPbK2i8sLqb79t/Yt28fs2fPZsyYMSQmJtKiRQvatWvHiBEjcHR05Pz583z++ee0NHNmY2QYH44cTvfu3dHX1ycmJobevXuTdO8+k6dP48qVK3Tv3h0vLy/27dvHsGHDGB/UnP3REWRZG/LNN9/g7e3NhQsXGDt2LD7FmpyPj+HzKRM4duwYffr0wdPTk6NHj/LJ0I8YXqMh350rja9hw4YoFAoiIyNp3bo1n9ZsyLLocCZMmEDLli1JTU1l7ty5HN28nVlNu6PxMGnqVZAq5Lzzw2h0zE2evrMgCG8cMZYShP+G5TdvcyE1vbLDECqgKZXyaVVvrHW0KzsUQXhriOxCQXgOxeoSbhakVnYYwhNoS+VcyU0gQN++skMRBEEQBEEQBEEQBEF46bLuxr3S9s119DHXqTjx197ApFwydYCNEwDFqhJKVCreeecdBg4cSElJCbt27eLnuXOZXr8TunJNgmydH2vPVt8YW33jJ8Zio2+Ejb7Ro9h0y8dlrqtPa3e/p7arpSEvi/VVksnlZEXHYu7/fMkA97PvMzNsJvvv7i+33lrXmuEBw2nq2PSNTzgV/l26eHThSuoVttzaAsDUc1PxMvGiukX1px6bXpDOsKPDypKmPYw9+Kb2N2/Fz/CQIUPKPi9ZsgRfX9+yZJ/ffvutssISBOEly4qOfaXtq1EjlUoJDQ0lNTWV9u3bk5+fT/369Zk/fz6dOnXi0qVLDBgwgG3btuHv70+TJk3o3Lkz9erVIyUlBR8fH3JycpBKJFStWpX27dvTtm1b7t69y6JFi5g5cybDP/wIuYEeN8OO88EHH7Bt2zbef/99duzYgbeXF/ISNX5+ftSuXZuePXuSnJzMxo0bGfzhB4ydOpWRI0diZmZG9erVKSgoIDg4GIkaFoQd4eDJ4xw8eBBfX1+srKzYvn079+/fZ390BC3cqr6yayeRScmKvicSpwXhLSXGUoLw33A3O7eyQxCeQA3E5uSKxGlBeA7Syg5AEN4mUXnJKCSv7m1q4Z8pUasIy71f2WEIgiAIgiAIgiAIgiC8dIWZ2agKiyo7jMdoSGVMDG3LmikzGdShK0O79OD2tgPMatj1sarV/2bFhUoynyMZK68ojzkX5tBuS7tySdPaGtp8VP0jtrXfRjOnZm9Fwqnw7yKRSPg6+GuqmJRWOS9WFTPsyDBS8/++oEixqpiRR0eSmJsIgL5Cn1n1Z6Ej13nlMcfExODl5UXPnj2pUqUKnTt3Ji8vj4MHD+Lv70/VqlXp378/hYWFAIwePRpvb2+qVavGiBEjABg/fjzTp09nw4YNnD9/np49e1K9evWyhMfz58/zyy+/8MUXX5T1u2TJEj766CMAVqxYQVBQENWrV2fw4MGUlJSUi3HcuHHMmjWrbPnrr79m9uzZr/jKCILwV8V5BSizc15bf2PGjKGnnS86hSUMGDCAhQsXEhUVhaamJitWrMDU1BRPT0+kUilaWlo4OTmhIZVx78YtGpg54mhkCsCiRYuwyi5mRPUGjB49mp49e5KpLKBTp06cP3+eEzv2MLdBF5YtWEhmZiaNmjQhNa/0POfMmYNXsSZNzJ1ZsWIFAQEBAEilUoyMjLC1tUVDDdfOX6Chgwcu3l44OTkxbdo0pFIpycnJLF68mK5duxKRGv9Kr1dJgZKMW/deaR+CIFRMjKUEQXgWxSoVD5TKyg5DeAKlSkXMaxzrCsK/gUicFoTncLMgFalE/Nq8qfJURVzLS6zsMARBEARBEARBEARBEF66vIQUpPI3cwJBfysHvqjdnJlNujG9cVferx6KtZ5hZYf1eqlUz1QRXKVWsf32dtpsbsPCKwtRqh49dGzl0opt7bcx2G8wWhparzJaQfhbWhpazGowCyNNIwBS8lMYfmR4WSXpisy5MIcziWcAkCDh+9DvsTd4fTMDXr9+nQ8//JDIyEgMDAyYOXMmffv2Ze3atVy5coXi4mJ+/vln0tLS2Lx5M9euXePy5cuMGTOmXDudO3cmICCAlStXcvHiRbS1H1Xr6tSpE5s3by5bXrt2Ld27dycyMpK1a9dy8uRJLl68iEwmY+XKleXa7d+/P8uWLQNApVKxZs0a3nvvvVd4RQRB+H+5SSnIFIrX1t/du3epae2IXKaBh4cHPXr0YNeuXezatYudO3dy79499PT02LNnD4sWLWLp0qUkJCUydfaP7ImN4n7WAwDu3LmDj7kNVS1siYmJQaFQYG5ujp2dHdHR0XiaWmGpZ4irsTl37tzBzs6uLIbExES8zW2w1DMgNzcXHR0drHQNmD9vHpcvX+bgwYPcuBPNJ6O+YE/0NTw8PNDW1mbHjh1lsbZt25bs7GwyCvJe7QVTq8l+xbOrCILwZGIsJQjC06QXFiIXL3e/0eLzXvF4TRD+Zd7MO+2C8IaKV2aiVBdXdhjC34gpSK/sEARBEARBEARBEARBEF66goxM1Gr1a+svLCGGmIw0AKQSCaY6evia22Kirfu3xxUUF5FZkIeZjj4yqZT7WenMPnsQZUkx/fzeobrV60ukfN0K0jP+dvvllMtMPTuVy6mXy633NfVlVNAoqltUf3XBCcJzstGzYWrdqXxw4ANUahUXki8w8/xMRgWNemzfvTF7WXxtcdnyB9U/oK5d3dcZLvb29oSEhADw3nvv8e233+Ls7IyHhwcAffr0Yd68eXz00UdoaWnx/vvv07p1a1q3bv3MfZibm+Pi4sLp06dxd3cnKiqKkJAQ5s2bR1hYGIGBgQDk5+djYWFR7lgnJydMTU0JDw8nKSkJf39/TE1NX9LZC4LwLAofZL3W/lQqFVKJBCMtbe7evcuWLVuYMmUK7iYWFBQXEfswMbqpiw+r5//Kr7PmoGdhxurVq/lg6FC+++47oPTv25XTl7HWN8Le3p6ioiJSU1OJj48nMDCQ2w+SyS4s4E5GGg4ODsTHP6oMrVar+f/0Jg2pjOrGZvw47lu+/mIkbt5V2LFjB+fOnePevXvk5+cTGhqKroYCaz0DrqclATAsuOkrv2YFDzJfeR+CIFRMjKUEQXiaTGWRmBXrDZdV9ObNVCcIbzKROC0Iz+F+YSYFKpE4/SaLLcyo7BAEQRAEQRAEQRAEQRBeusIHWaiKX899qazCfH64cIj3BwwAoKSkhOuxsczbu5o+3kG0dKtW4XEFxUUM2LUMXVNj9PKKmdGkK6fj7lCzZWPc3Nw4+Puqf3XitDKj4oSs5LxkZoXNYnv09nLrzbTN+KzGZ7RxbSNmuRPeSHVs6vCx/8fMvlA6DfqKyBX4mPnQ2uVRgsztjNuMPTm2bLmeXT0GVxv82mP9/wf4RkZGpKWlPbafhoYGZ8+e5eDBg2zYsIG5c+dy6NChZ+6ne/furFu3Di8vLzp06IBEIkGtVtOnT5+yJMcnGTBgAEuWLCExMZH+/fs/c5+CILwchRlZqEpKXnu/IXbuLFy4kJUrV3Ls2DFOnjyJtrY2nTp1YsuWLaQaaaKnY03M1avkJavIzs6m6C9JLwMHDqTx2rXsP7GdRYsWsW7dOjSlMjZv3sz333+PT2ht3t26kD59+mBhYcH+ffv+9kW3+9kPcA+ojup2ITmZqdy/f5/CwkKKioo4ffo08fHxzJgxgzFjxnA9LQlvb290dXXJURa88mulzBLTywtCZRFjKUEQniZLWfRaX+gXnl9ekchnE4TnIRKnBeE5RBc8/o+Dv1J3/g1Sc2DLYCRGj6adUfdbDjdTYP378Psp2B8FctmjA20MkSztXbrvjiuw6jyk5ICWHDwtYGJrJDoK1JP3gLk+kkEhj9pOyIQui+DIZ0g0Kn7Aoo5IKO33agJIADsjaO+HpJVv6fbz92DmQUjKBm8r+Lo5EiuD0m1Z+TD9IJy/V3pskBOMaIREV/NR++suwPoL8CAPLA3gu3ZIHIxLt20Ih7VhkFkA9sbwSX0kfral21adg90RkJgFRtrQwQ9Jj9I3SdWJWdBrafkTyS+CoXWRvBvwxO8guSj7idsEQRAEQRAEQRAEQRDeVgVpGaiLX0+yT35xEYZGRsyYMYOZM2dSXFxMt27dmD59OkGBgbibWJJdWEBibiZ6Ci28TK2w0DXgXmY6hpbmXLx4ETNjY8IT75GYk0kVc3Ps7e2JfpDKnttXMdLUprqVA1oacm4/SCavSImnqRUAUWmJSJHgaWpFiVrFjbREDLV0cDQ05X5WOjfSk1GWFGOjb4SPmQ1SiYQb6UkUFBfhaWqFloYcgPtZD0jJy8bR0PSpVbJfFmVO+SlRC0sKWXZtGQuvLCS/OL9svVwqp49PHwZUHYCu/PXEJggv6n3f97maepWD9w4CMOGPCbgbueNp4km2MpvPDn9W9vPtoO/AlNAplfIiwL179zh16hS1a9dm1apVBAQEsGDBAm7duoWbmxvLly+nXr165OTkkJeXR8uWLQkJCcHFxeWxtvT19cnOrvg+c4cOHZg8eTLh4eFMnToVgEaNGtGuXTs+//xzLCwsSE9PJzs7G0dHx8eOHTduHEVFRaxaterlXwRBEP5WQXoGqtdQhU+lUhEWFvaw2rOEBk6e7Dm4gaFDh/LDDz/g7u5Obm4uJ06cYPPmzZiamjJ16lRsbW0pKChg9+7d/DxvHmY6egAsXryYlStX4ubmxuHDh/nwww+ZULcde6Ov0rlzZyZOnMjSpUu5fPky7du3p6mtB1eS7xMVFUVmZiYSmSlSJKSnp3Pr1i0APDw8mD9/PsbGxmRnZ7No0SKunjrLx4ENadGiBZMmTeLWrVtIJBKio6P5+uuvkWa8+nFocW5+6XUT1SwF4bUTYylBEJ4mq0hJsVr1xO2LOrYjNzWFgdt2oW1kVLZ+ZZ/3SLl5g34bt3B60UKu79uLTC4v225oa8t7y0p/p69u30rYyhXkpKYg19TCwsuLlhMno9DVZe+kCeibW1Bn8Adlx2YmxLO4U3s+OfYHUo3HUyD3TppQ2p9CAYCBpRXO74QS2KsPmnp6ZftF7dvDyZ/nk5+ZgUNgEE2/HouWgSEAFzesI2LXDtJu38ajSVOajfmm7LiSoiJ2fzOWpKhIshMT6DT3Z+xr1Czbfuq3Xzm3dHFZ/wDvLVuFoW1pzpSqpITTv/3KtZ3bUeblYWRrR6e5P6Olr8+1nTs48N0kNDQf5Wa1/WFmufb/n1KlolilQkMqXs4XhGchEqcF4TncK3zw9J2sDeFAFHT2B0B9OwUK/u+tnh6B5ZKf/6QOj4UFJ2FGRyQeFqVJyyej/1HM6qvx8PlG6BMMY1qAoRZcT4aV56CVL+qMfPh6G4xqCiEu8NtJGLcDfu1R2sCvf0B2YWnStxr4entpEvbH9Uvb334Fdl6FaR3AyQTiM0G/9H/c6msJ8MtxmNutNAF8y2X4ehvqrYORyKSl7Y1pDq7mEJ8Bn29EbaGPpLFXaeL2/o8fnUd8JnT/Heq7/+35phfn/e12QRAEQRAEQRAEQRCEt1Fe8t+/0P+qTJw4kVALRyaO+4YrkRF07daNYb/+Su3atfGq7kVcWhrzD26kk1NVNl+/QNN2bdDQ0OCdevU4QAZnEm5T5WFbSj1Nsnzsibh/n192LaeDpz/bEm9iamqKS+wtlCXFxOvJKCoqwjf+Dmn5uaQbaxEXF4cktwC5sQEhISHo6uqy9uJFMsKO0sLNl433I7Gzs0N+4yLjQttwP+sBw49vxs/Pj9sHDrGoTd/Xcq1UxcWUKJVI5XIO3DvAjPMziMuJK7dPI4dGDA8Yjr3+v7fytvDvIpFImBQyiejMaO5k3qGgpIDPDn/Gqlar+OaPb4jJigFAW0ObHxv8iIHCoFLi9PT0ZN68efTv3x9vb2/mzJlDrVq16NKlC8XFxQQGBjJkyBDS09Np164dBQUFqNVqZs6c+Vhbffv2ZciQIWhra3Pq1Kly24yNjalSpQoREREEBQUB4O3tzaRJk2jatCkqlQq5XM68efMeS/ZRKBQ0aNAAIyMjZDIZgiC8XKfiT7H7zm6CrINo4dQCmbT871l+Snrpc6lXSEtDTktHb7o3aUlLJ280HybwfNewE1uiwunevDWxWekYKLTxNLPii1rNiLqbQMcGTbibmYa+Qgtvcxu+r9uBheHHAIiMjGTixInIpTI8TC0Z5lsXXwtbvMys2HL9Ip2bNCchJwt7A2NauVWjhV8QR+5eZ/KwURhr6eBTpyqFxcUcOr2P+afPM7hGPW7tPUbDlWtIyMnEVFuXGlaOTG3YGXNdfWz1jVk4bjIfDx5CYUkxjoamBNo407TKk4savSwSqZSi3DwUeuLFMkF43cRYShCE84nn2Xp7KwGWAbRyaYWGtHxKYXqhkpKnjKUMbWy4vn8v1bt0AyD19i2KC8vPWhHQs1e55Oc/3Q+/wB+//Ez7mbOx8PSkICuT6BPH/9lJ/aW/4sJCUm/f5sT8n1g3eADdf1uMXFubtOjbHJz2Pe1+mImFpxcHp07h0A/TaPntZAD0zMwJ6tOfu2dPU1xY+Fj7Nn5++Hfrzs4xX1bYv0ejJjQfP7HCbad/+5X4K5fptmAR+lZWpEVHo/GXJGtr36p0/WXhM5+rhlRKdlERxn9JthYE4clE4rQgPIcHf6kM80TNqsCeiLLEaXZHQHNvWHjy6cdGJoGvNRIPCwAkBtrQwucfRAzMOwbNvZG8F/RonZclfPtwOsWjN8HZFElDDwDU/etAq/mo76YjcTSBhEwIdS2rMK2u6wYnb5d+Vqlh8Sn4qjkSZ9PS9myNHvWTmFXatpdl6f7NvWHGwdLK1GZ6SHoGPtrXwQR1qCtciYfGXo+fx54I8LNFYm34t6erVKsoUpUgl4p/LAmCIAiCIAiCIAiC8O+hzK68qcvr2LlxJu4OKSkp6Ovr07NnT9q2bUtERAR169Zl9uzZBAcH86Agj3r16qGhoUH79u0BiIiIAKBq1aqsXr2a8+fP89VXX7Fp0ya++XoMAbWCWbhwIfVqBlFQUszFyGulD+MbNCGzII+bp2Jo3Lgx15KvcWz3DsLCwigsLGT06NEsX76chT/OQW5swOHDh7G3tycpN4vdt64wdOhQ/P39mfTRsNd3oWRSou5fZfqNnzifdL7cJndjd0YFjiLYOvj1xSMIL4meQo9ZDWbx7o53ySvO437OfXrt7sXdrLtl+0yoMwEPY49Ki1FDQ4MVK1aUW9eoUSPCw8PLrbO2tubs2bOPHT9+/Piyz506daJTp05ly0eOHCm3744dOx47vlu3bnTr1u2x9TExMWWfVSoVp0+fZv369X93KoIgvIBiVTFfHPuCzMJMNt/azIJLCxjsN7hcArUy8/WMpQbWqPvYOi0NOd19gujuE/TYtvqOnk9t88uQltR1KP83VkMqo3OVmnSu8njVwYZOXjR0evSsTVeuyaQGHZ4lfPws7fGzrJwXvCQaMopyROK0IFQGMZYShP82tVrNqGOjSM5PZsutLSy4vIBB1QbR2qV1WQJ1tvLpM3d4NWtB5O5dZYnTEbt2UqV5S/749ZenHpsUGYGVry8WnqVjIy0DQ7xbtv4HZ1WehqYmVt7etJ06nSXdO3Nt53aqd+5K1L69uIS8g51/DQBqDxzCsh5dUebmotDVxa1+AwCSoyLJTkku16ZMLqdGt3cBkD5njlJBVhbh69bQc+lKDKytATBzdf1H5yiTQF5xCcYib1oQnolInBaE51CsfoZpqHysYW8k6pg0sDeGg9fh5+7PljjtYwW/nUS96A8IdAQvSySK5/s1Ve+LhJXnkCztjbqgCK4lwMA6Tz7gThq4mZctSrTlqG2N4E4qOJpAx+qw+SLqP5OZj96Edx7+zzo5G5JzIDoV9ZQ9IJOWJon3q41EKoFaTrDyXGnlaS/L0srU7uZg+vgND7VaDZfioF21irftiYC+tZ56/jIkFKtVyBGJ04IgCIIgCIIgCIIg/Huoi1/99OgVqVq1Kpuy79F36BBq1KjBkCFDCA8PZ+nSpWX7zJo1i0GDBjFt8hSmT5/Oe++9x+effkZLt6qosnMBMDU1pU6dOtQwt2PZsmUcOnSIL0eP5vzZc6XVoo0N0FUoyM7OxsTEhHy5BEcHNwDu3riFn6U9des+SkT68ccfuXPnDlOmTMFFocWhQ4fo1asXO/b/wYGYSKYP3MDAgQNp4Vb1tV2rQlUhQ/YNIkP7UQUiDakGzgbOWOtYszxiOcsjlr+2eAThZXMydCIirfRliL8mTdvp2bEzeic7o3c+c1vv2L5DR/eOKGSKp+/8LxAREUHr1q3p0KED7u5/P6vi88gozGDMiTEvrT1BeFsVq4rJLMwsW47JiuHL418y6fQkvgr6irZubVGVVM5Y6kWZaOvy1VdfcffuXYJ83qnscF6LwpJCvj05gRyjyo5EEN58gVaBdPPshpaGVmWH8lq8qrFUblEuo46NemntCcLbSq1Wk5z/KCk4NjuWsSfH8t2Z7xgeMJyunl0pUT996g5r36pE7d1NeswdjOwduHFgP11/WfhMidNW3j788esCTv32K45BwVh4VSlXfflZRO3bw/nly3hv+aon7qPQ1cUxMIi4Sxep3rkradHRWFd9dO/IyM4OmVzOg9h7WHpVeWI7zyr65HF+btYYXTNT/Dp1wa9jZ6C0GrdEJuPm4YOEr12NQlcX/67d8evUpezY5BvX+aVFE7QMDKjSvCWBvfog1fj7HDLVM3xPgiCUEonTgvAcip91Dq8/q05XtytNPjbTK799zXnUmy4+Wn7HFcmY5kj87FBPbgubL8H6cChRoW5bFT6si0QmrfhYVfmYJE2rQNOH//POLijdbvp//f9VvhKMdMqv09OEvIdvi3laQJEKWs0vXa7pAB38Sj+nPHw7/9xdWNobcgrh841grgdtq4GOAuq7w4drAXVpu9M7IpFIHo/j91OlsbasoML25bjSKtX1n/6PIIlEQpG6BG3kT91XEARBEARBEARBEAThbaEuUVVKv7NmzaKwsJB79+7RtGlTIi5fwdTUlHHjxhEcHIyhoSHGxsbs378fewMT/qw/pJDJ+DCgARaR+gCcOnWKQAsHhgU3odfupRgZGaGppYW9tgHHjx+nUaNGKBQKDhw4gJGREQ0aNMDW1pZDhw7hY2FLXlEhHTp0YNCgQdjZ2aGhoYGmpia2trbUNrTl559/Zvr06VSbO5dGjRtTUlLC+ZOn+KRt/9d6vWRqabnlYlUxNzNucjPj5muNQxBep/s597mfc/+5jrHQsaDkWQqVPAMnJyeuXr36Utp6Vby9vYmOjn7p7SpLlBy9f/SltysI/xa5RblMPD2Rtm5tUb9lidOfBDbiakocBlWd8DCxrOxwXotiVTEXEsJIyKm8mVYE4W2hr9AXY6mXoFhVLMZSgvA38orz+O7Md8+cOA2lVacjdu/Czr8GJk5O6Jmbl9setnolFzc+qhzvGlqXZmPHY1vdn9bfTeXypg2Er1uDuqQE37btCf3oE6QyWYXH/n++lFfT5ng1bf7UGHXNzEm+HgVAUX4emnrlc6oUunoo8/Ke6Xz/jkejxlRt1wEdExMSI66x46tRaOrp49W0GTkpyShzcsiIvUf/jVt4EBvLpk+GYmTvgGNQMHbV/em1YjUGVtak3Ylm19ivkchkBPXu+zc9Sp75exIEQSROC8JzqSDdt2LNvWHoWkjIKv38/7oHIBkUUnEftZ2htjNqlRouxMLY7WBvAu2rVXisOiETuiyqOA59LZBKIC2nNIG7ItoKyFWWX5dbCDoPE4/H7gBXc/i+HajVMO8YTNwN37YGzYd/QnoEINHXAn0t1O2qwak7pYnTO67CrmuwvA/YGcHZGBi5BfXi95D8JZlcvTG8NNF8XreKK2zvjoB67kh0nv42mRo10ooSswVBEARBEARBEARBEN5mlXS7o1GjRljKtDDX1SfA2ol0Uyu++mkGycnJtGvXjpSUFIYPH07NmjVRqZ+c3F1YWIimTAOpRErJw8QliUSCn6U9Bw8eLEucXr58OUZGRjRq1Ag7Ozu2bNmChlSKzMac+fPn065dOy5fvkxhYSH5+fnI5XJq27ky6tBGtLW1qVW7NoMGDeLXX3+liVMVFLLXewtc9ayFFwRBEARBeC1MtUxLP7zEZ0clKhVZhfkoNDTQlVc8F3qJSkW2sgAtDTlaGs9W7CevSEmJWoW+QgttuYJAG+eybSq1mqzCfHTkigrHN8qSYvKKlBhoalf4nOzPmLXlisfi+bNtfYUWMqn0sWNfJzGWEgRBEIQ3i5GWEfDst6WqNG/J+g8HkxUfT5XmLR/bXvPdntQZ/EGFxzrXroNz7TqoVSpiL5xn59dfYezoSLX2HSs8NjMhnsWd2j/P6QCQk5KCpoEBAHJtHZS5ueW2K/NyUejoVHToczF1din7bFO1Gv5dunPryCG8mjZDQ7N0DBncbwAamlqYu7nj0bgJMadO4hgUjKGtbdmxZq5uBPd7n7BVK56SOF1ptw8F4a0kEqcF4TnIJbJn2k9iZYDa2rA0gXh00xfqSyKVQIAD6poOcCf1xdrQkqP2sYYjN6GGQ8U7OZuWJi0/pM4vgrhMcDYrXXErBYY1QqJdehNF3b7awwrSgIMxyGXlbzb99fPNZKjjgsTBuHS5ljNqU124Eg8NPErb23EVVpyDuV2RWOg/Fp66sAgO34ApbZ/pnNVq9TN/T4IgCIIgCIIgCIIgCG8Liazy7ndMbtABPUXpFNAbIsOoWrUqQ4cOxVylQZJKRdOmTUlLS0Mh0yAtLw8tLS0KVSXMOrOfs/F3eL9xrSe2Xd3SnvUHDzJs2DBUKhUDBw5ET0+PiRMnYm5uzscff0yQnjmavl5cvXqVS2EX8LO0R8fDEc2HD5kUMg2aOnvzyy+/MHbsWEJDQ/nwww/5PrjVa7k+f5IgwVTXjAfq8pV37fTs6OTeCTdjt9cajyC8TGq1muWRyzmXeO6xbda61gyvORxNjYqTBytio2uDQvp80y6/DOPHj0dPT48RI0Y8cZ8tW7bg4eGBt3cFRVH+hp6eHjkvUCW1ZcuWrFpVOpX0qlWr+PDDDwE4cuQI06dPZ8eOHU881lBhyE8Nf3ruPgXh36awuJARx8r/XuvL9Wnp0pLhAcMByioV/hO30pPZfP0CJ+7fxtDYiPz8fHTUEuo7eNLZOwB9hRbp+bmsizjH/jsR6BgakJOTg5ehOZ2rBFDT2rHCdu9npfNr+DEiMlOQyWTYyHUYVKMuVcxsADgcE8WSyycp0VKQnZ1NYwdP+vqFoK/QIq9IydLLf7D7zjUMDQ1R5xbQu1ptmrqUzvCaX6RkfWQYO29dRtNAj6ysLJz0jPiidnOMtXRZfOkEe25fxcDIiIKcXDp71qCLdwC5RUq+OLCO1Lzyf9cMNLWZ3KADtvrGZetWXzvLhsjzALzrE0TnKgEvdH21NbT5qs7XSM0ff14oCEJ5ljqWaMqefez1svzbxlI6GjpiLCUIgEqt4tPDn5ZbpyvXpblTc0YElP6+P+vLVQbW1hjY2BBz6g+afDXmheKRSKU4BARhXzOAtOjbL9TGkyjz8rh3/ixBffoBYOriQsqtR7OEZcbFUaJUYmz/hByrf0JS+m9rADNX94frJH/Z/DdpzxJJ2bF/RyYVqdOC8KxE4rQgPAfF8yTkftkUsguQaMtRFz/bVKrq47egsBiCnEBfEyIT4eJ9+KT+C8ULwId1YdhG1FYG0MoXiaE26pspsOIskgmtoK4bzD+G+sgNqO0Ci0+BqxmSPytUe1nCjiuoPwwtXd56BVxLk6olWnLUDT1g1TnUHhaQUwjbLkOPhzdEqljB0jOoO1UHG0M4fw9iH4BL6fHqfZHw6wmY0wWJrVHF8R+9VVo5u4b9M52uCtCQVO7b8IIgCIIgCIIgCIIgCC+bTPFslQpfNRcjM3bs2MFPP/3EypUr+T4kBGNjY9LS0jDS0uF+SjzXrl1j9+7d3L17l8vffPO37XmYWnLj5E40NTWJjIzEWqFDVnYeBQUFpKSkkJ2cSr16IUw9epS5c+cybeYMcnJyqFevHnl/mTa1hVtVRi1ezLfffsvmzZuxlWpho2/0iq9GeVpSTda0W8fh9JPMCJtBYm4iAPdz7jM7fDbNnJoxrOYwbPRsXmtcgvAyrI5aXS5pekDVASy7tgylSklCbgIH7h1gWt1pSCphNsDi4mI0NDSeuPy8tmzZQuvWrZ872edF7dq1C4CYmBjmz59fluzzLDQ1NKlvX/8VRSYIb5eVUSsJTw7HRMuE/r796eLRBR35o0qB0n84ljobd4eZl44wfvx41vTsiVKpRFdXl7i4OKZOncqsw/v5oGYDhh9YR89B7xPx6RakUil6enrs2rWLL7/8ko552TR39S3XbraygNGHNzFm8rf07NkTtVrNwYMHGTxwEDPrd+JORgobk2+yed8e7O3t0dDQYNy4cUzetoPvGnZi2qk9uDeow51DOygpKSEpKYk+ffogiYaGTlX45thWqtQP4cLWlZiamqKhocHnn3/OyXORXEuJx71BHWKP7UWpVFJQUMBHH33EggtHqWXrinuAP9e2bCkX75AhQ4i4nVCWOB2ZmsCexFtE3b7FjRs3+Kjbey+cOC1FQm37ELTNnzCLriAIr8R/eSwll8nFWEoQHqpjU4c/4v/ASNOIPj59eNfrXXTlumXbFc8xK0WTL8dQmJ2FXFsbVXHxMx1z+9hRigsLcQyuhaa+PkmREcRdvEC9T4c997lUpFipJC36Nifmz0VL3wCfVm0A8GrajLWDBhB3MRwLTy9OLVyAW70GKHRLz11VXIyqpASVSoW6REVxYSFSmQzpw7+TxUolPExoVhUVUVxYiEyhQCKRcPvYUWyr+5edz8X16wgZUlox28jODlu/6pxdupj6nw8nKz6O6wf202LitwDcOfUHFp6e6JqYkh4Tw9nFi3Bv2Ohvz1GNWuRLCcJzEInTgvAcrBUGROQnPdO+T0wEhtJE4/UXHi0rZEh2fliaILzhFPx4CJQlYKoL7wYgaVrlmWNU74uEZWeRrOhTGkdVG9SzO8OiU6VJzFIJ2BlDx+ql2411UE9qU9rnxN3gbQ0T/lKN58tmMOswdFhY+j/7KlbwdfNH24c1hGkHoN2C0mTvNlWh1cObPs29IS4DPl4P2QVgoQ9fNH6UlL3wJGQWwMBVjybealoFyReNH7W/JwKaVXnmG+76MgUyMRAQBEEQBEEQBEEQBOFfRsvU6LX1pafQJCMtnTZt2oCyGE3Zo0Sjvn4hjBr/LcePH8fV1ZXJkyeTkJCAiYkJDjr6fFCjHrVq1SIwMBAjIyOys7PZvHkzBw4cwENbFw2pFC2JlDZt2qBQS9DWUFDTypG2bduSnZ1NsI0L2coCevfujUwmI9jGGVdjCwJ1zalevTotW7YkNzeX77//npCQEBITEtD30yJbWUB6ejopKSksWLCAlm5VX9v1+pOquASFvi7NDZtTz74eS64u4ferv1NQUgDA3pi9HIk9Ql+fvvT37V8umUsQ3mThyeFMOzutbLmDWwc+8f8ERwNHxp4cC8CemD1UNatKb5/eL9zPsmXLmD59OhKJhGrVqrF8+XJiYmLo378/qampmJubs3jxYhwcHOjbty9aWlqEh4cTEhJCenp6ueWhQ4cydOhQUlJS0NHRYeHChXh5eZXrb+HChfz6668olUrc3NxYvnw5Fy9eZNu2bRw9epRJkyaxceNGgArbunPnDj169CAnJ4d27dpVeE4//PADmpqafPLJJ3z++edcunSJQ4cOcejQIRYtWsTKlStxcnLi/PnzjB49mtu3b1O9enWaNGlCq1atyMnJoXPnzly9epWaNWuyYsWKSklOF4S3wcKmC7mefh13Y3e0NbQf265tZlzBUc9GWVLMj+f2s+fQQZKSkqhVqxbpcYnkFyupERRIx44dObJ1BwvDj/LhF8Po3bs3HTt25Na1SCRaCqZOncqhQ4cIrFGTmtaORKUmkq3Mx9/KkdP3b9O8QzuaNWuGl5cXeXl5bNu2jc+HD2Pb6q1EpMYzf80KTpw4wddffolnlSqcOXMGv8N+7IuOIFZdwKEFCwgNDeXyxYt8NWYMv/76K++2bItKDabe7syfP5927doRduYsapkUMzMzqmoZ80BXg4ULF1K/fn0uXwgnpF5dNm7ciLOzM+4mlsgMZNy5c4c6deqUXQt1cTHTG3Quuy4/nNrDT4t+JSoqCj09vRe+xgCqomIUhqLatCC8KDGWEmMpQfgn5jacS2R6JG5GbhXerzDWfPYZg4zs7J647fzK5YSvW1O2LFMoGLJ7P5r6+lxcv5bDM3+gpKgIXVNTavZ4D69mzZ/Y1v+L2ruHs8sW03vl2vL9rV8LajX6VlY413mHwMl9kWuXjhdNXVxpOHIUeyaMIz8zE4eAIJqOGVt2/Jklv3Pm99/+0sdugvsPoPaAQQAs7d6F7MQEADZ//gkA/TZuwdDahusH9rN/yreUFBWhZ25BwHu98W7ZuqytFhMnsX/KJBa0aIK2sTG1Bw3GISAIgNjz59g/aSLK/Dx0TEyo0qwFgQ+rZD9JiUqNvvzNKLwgCG8DifpZ6rgLggDAgJtr+T35bGWHIfwNZ00Tbgd8XdlhCIIgCIIgCIIgCIIgvFQ3N+7h9qa98Jru5t7PesD97Ac4GZpipWdYbltekZKzcdGkF+Rhq2+EtlxBUUkxVS3sUMg0yC4s4E5mKnlFSqz1DMkqzEdZUkJVC1sUMg2ScrO4k5GKs6EplnqG5BYVci0lHg2JlKoWdqjUaq6m3EetBl8LW7Q0Sh/6XE9LJCo1AblMA1djcx4U5GGnb8TaiHNczk2jZ8+e9OrViyYhoSxu0x+57Dlmj3sJNHS1abxwSrl1ibmJzAybye47u8utt9CxYFjNYbR0bike3AtvtJS8FLrt6EZKfgoAPqY+LG2xtGxq+G9Pfcu6G+sAkElkLGy6kECrwOfu59q1a3To0IE//vgDMzMz0tPTMTExoU2bNnTu3Jk+ffrw+++/s23bNrZs2ULfvn1JTU1l69atyGSyx5YbNWrEL7/8gru7O2fOnOHLL7/k0KFD5aaXT0tLw9TUFIAxY8ZgaWnJxx9/TN++fWndujWdO5cmBj6prbZt29K5c2d69+7NvHnzGDVq1GPTy58+fZoZM2awfv16QkNDKSws5OTJk0yZMgUrKysGDx5cluyTk5ND69atuXr1KlA6vXy7du24du0aNjY2hISE8MMPP/DOO++82JcpCP9xd3Yc5sbanahLSp772JOxtzgpz2X79u1YW1kxJrg5Vc1tUanVHI+9yZJLJwl1cGf3nQjiEhPo27cv2jcTeK9qLeKyHzDi8EauRkXy1Vdfce3AMfIMtfH39yd8/2HkUg1mrPidgwcPcnfHYaz1jIix0WX69Om4ublhZWVFXFwctra2TKzZlLnnDjH+lzlcunSJCRMmMGLECJo1a8aH3d5jzDut+PTYJlJSUvD09CQvKZVZi34lMjKSCRMmoCnTwFbfmBB7Nww1tcmr5sQHH3xAx0ZN+blFL/psW8TpyxcZNWoUWeGRSNzsmDp1KjVq1EBbQ4GXmRUDqofiYmwOwNLLf6D0tKN3797s2rWLvn370r9NR35s2v2FviOpQk7TJdOevqMgCI8RYykxlhKEV+1kYjJb796jSCXSDN9UUmB6rQBxn0kQnpGoOC0Iz8FFyxQZEkpe1xMq4bnZKAwqOwRBEARBEARBEARBEISXTsvYEKlCjqqw6LX0Z2dgjJ1BxZUZdeQK6jt5VbgNQF9Ti2oWT64uZKlrgKXuo3s4unJNgmycy+1T09rpseM8Ta3wNLV6bP3tBynM+WUuBgYG9O7dm56+tV570jSAQv/xKotWulZMqzuN7p7dmXpuKhFpEQAk5yUz+vho1kStYVTQKHzNfF93uILwVEUlRQw/OrwsadpI04iZ9WeWJU0DjAoaRdSDKC6nXKZEXcKIoyNY23otVrqP/67+nUOHDtGlSxfMzMwAMDEpnbXw1KlTbNq0CYBevXoxcuTIsmO6dOmC7C+/638u5+Tk8Mcff9ClS5eybYWFhY/1efXqVcaMGUNGRgY5OTk0a9bssX3+rq2TJ0+WVVHs1asXo0aNeuz4mjVrEhYWRlZWFpqamtSoUYPz589z/Phx5syZ89TrEhQUhN3Dam3Vq1cnJiZGJPsIwgvSNDJAKteg5AUSpy8lxdLmgz4cPnwYN10Tqprb8nPYEW4/SAbAVFuXyNQEguvURl9fn127drG23UCkEgn2BiYEWNhz4MABWrVqxYoVK+jbvC9fffUV9XcEoVLn4+rqyty5c/E3tcJG34g9UedwcnJCKpXi7OxMVlYWmanp2BuY4GVqRVRUFK6urgC4uroSGRmJl6kVFroGyAqLSExMxMXFhQPR0TRq1Ij4+Hhu3ryJoaEhhw8f5qOPPqK6njnmBVbo6emRoyzkRnoiBSXF6OrqEhAQwG+HjuGKHd7e3mRlZZGRkcHmzZsZM24c44KaoyGVsS/hFqc2Ladhw4a0bNnyH39HCj0xG4cgvCgxlqqYGEsJwstjoJAjk0gp4vnHUsLroa2hIZKmBeE5iMRpQXgO1goDtKRyclXKyg5FeAJ7zRefak0QBEEQBEEQBEEQBOFNpWlkgFQqQ8XrSZx+m7Tz8Gfsh5+iI1fQyNGTZi4+lRKHpvGTX+ivYVmD1a1Ws/XWVmZfmE1aQRoAF1Mu8u7Od2nn2o5Pa3yKuY756wpXEJ5q+vnphCeHAyCVSJlWdxo2ejbl9lHIFMysN5OuO7qSXpBOekE6w44MY0nzJShkzz6V84vQ1dWtcFmlUmFkZMTFixf/9vi+ffuyZcsW/Pz8WLJkCUeOHHlsn6e19bSH0nK5HGdnZ5YsWUKdOnWoVq0ahw8f5tatW1SpUuVvjwXQ1HyUpC6TySguLn7qMYIgVEzT2ACJ9MUSSfKKlJiampKcnIyZjh5p+bmcyUxg05bSZES1Wk1oaChVTOqQmZmJhpqyGTMAjLV0SUpKIiAgAD25JhvWrmPr1q34m1lxJi4aY2NjsrOz0dYwRUdDQXZ2NjKZDENDQ4yNjcnJyUHn4bTrWvLS7X8mRRobG3P79m20H/anrfH49tatW9OoUSPS0tJYsWIFP//8M/179kKxL5m5c+fy/kcfMm/zZkZ+/RUWFhbo6uoik0qJiIggMDCQmzdv4unpye+//870mTOZ+/UEHuTn8eOcH5k1axaJ8Qll5xqVlkhGQR5GWs+fBK0w1H+h70cQhBcjxlKCIDwPA7n86TsJlUpPLtJABeF5SCs7AEF4m9hpGqIhEb82byopEly1TCs7DEEQBEEQBEEQBEEQhJdOy8QIxCxoFWrm6sOcZu/yfcNONHf1rbTqOjrmf39fSiqR0sG9Azs67KC/b3/k0kcPHbfe3krrza357cpvFJY8Xs1NEF637be3sypqVdnypzU+pbZN7Qr3tdS1ZHq96cgkpRULr6Re4fuz3z9Xfw0bNmT9+vWkpZW+VJCeng5AnTp1WLNmDQArV64kNDT0qW0ZGBjg7OzM+vXrgdKExkuXLj22X3Z2NtbW1hQVFbFy5cqy9fr6+mRnZz+1rZCQkHKxPUloaCjTp0+nbt26hIaG8ssvv+Dv7//Y36q/9isIwsunZWKIukT1Qsfqa2oRHx+Pvb09cdkZ6Ck0KczJ5dNPP2Xu3LnUqVMHgISEBIyNjUGuQVZhftnxibmZ2NraEhcXRw1rR5a37sfPDboyolYzDDV1SElJwdDQkNyiQnKKCjE0NKSoqIiMjAxSU1MxMDAgR1mIWq0mV1m6PTm5tNr1n8fmFJWOH3KLym/PyMjgt99+I0DbjOE1GjJt2jSaN29OQXERdc0cqF+/PsHBwaxbtw5dXV2OHDlSmuRt7UwfJz/6WlZhdZv3CZQYMGrUKLp160Z44j1sfT2pX78+kZGRhIS+g4eHB4aGhtStW5ehe1aiUj//uFXbzOSFvh9BEMRY6v/7FQTh5TNUKChRvdhYSng9jBSv9uVlQfi3Ea8aCMJzqKZjQ4FKvIX4ptKTKfDXs63sMARBEARBEARBEARBEF46XRsLSpQVV5uOTE0gIiUeqURCsK0LNvpGAMRnZ3AmLhqVWo23uTVWuoYci71JcQVT1Ne0dsTJyIz7WQ/44/4tknOz0ZRp4GBoSoC1I3oKLY7cjSKvSEmIvRsWuqXVlW+kJXEl+T5WeoaE2LuVa7OopIQjd6+XJQ5pSKWYaOtSzdIeQ03tcvvmKgvZc/sq8TkZ2OgZ0dzVF12F5sM2osgqLCi3v7muPqH27lxJvs/N9OTHzkdTQ4M6dm6ci48hR1nw2HYbfSNq27k+vH7xnLh3ixK1imBbF6pb2iORSIjNSudcfAzqvyT+/P81LluvkGPo5lDR1/MYPYUen9f8nE7unZh+fjqHYw8DkFecx+wLs9l4YyMjAkfQ0L6hmGJVqBRR6VFMPDWxbLmJYxP6+fT722MCrQIZHjCcaeemAbD+xnp8zXzp6N7xmfr08fHh66+/pl69eshkMvz9/VmyZAk//fQT/fr144cffsDc3JzFixc/U3srV67kgw8+YNKkSRQVFdG9e3f8/PzK7fPtt98SHByMubk5wcHBZYk23bt3Z+DAgcyZM4cNGzY8sa3Zs2fTo0cPpk6dSrt27Z4YS2hoKJMnT6Z27dro6uqipaVVYdKSqakpISEh+Pr60qJFC1q1avVM5yoIwrPRsTRDVcEY6FkEWjuxadMmhg0bRoqkiKN3rzOncTfOxN3h+LVrZftdPHeepKQkunXrxqKjJxhUoy6RKQlcy0yhVatWvP/++3iZWvFL2BGylAU0cqqCpa4BUVFR+Pv7c3bFRhJzMvH39+f69evIpdLSatLa2tg6OnA1JY5LSbEMrF6dQ4cOoZDJiIqKKv1blHyfG2lJaBoZYGFhwY0bN7DQ0efMmTNIJBJUqFGp1aWfVSpATT0HTxKunWHMkI+5npaIrq4ud+/eZdSoUdTWNiQ6IxVzHX1KVKqyY/+kUCi4efMmY8aMAcDW1hYbGxvGjRtHixYtKFGpkMpkz3yNpRoaGHk4v9D3IwiCGEuBGEsJwqtmqJCXjgVe4OUo4dWTAs76epUdhiC8VSRqtfiLJgjPw/T0GB6U5D99R+G105bKifAfiaOWeCNdEARBEARBEARBEIR/n6OfTSI/Oe2x9Z03zGfwxx/x4MEDjm7ewbwWPQH4eM8qQtu3wtjYmF9+mksDRy/UHnZ4eXmVOz47O5v96zbR3K0qa6Mv0adPH9zc3MjLy+PixYts3rSJ7p41uaxRgLOzMwmnLzImtDUAPTb/Sq9BA1i/fj3j/ZvgYPjovszJ2FtsfnCHZs2aAaBUKrl79y6HDx/GVdeYjwMbYqtvzI20JMYd30q7Lp0JCgri7NmzbF2/gYmh7UjKzWJb5l2aNm1aLuYNGzbwsUcwE07uZNAHQx67JhcuXCDqfDhWbs40bNjwse0rVqzgu6CWbIq6wNWiTAYPHoxcLmfhwoVYF8AXtZszbP9aQtq1LK0c+VBycjJX9h/l+4adyrUn09Yk6KsPMXR9tuTpvzoVf4pp56ZxK+NWufXBVsGMDBqJh7HHc7cpCC8qszCTbju6EZcTB4CLoQurWq1CV677lCNLKwiOOj6K3Xd2A6CQKljWYhk+Zj6vNGZBEIRndWLkVHLuJz73cSUqFe/vWMIvK5ZiY2PDmDFjOHbsGAqFgnfffZeff/4ZDZmM5q6+ODQOYfLkyXzwwQds2bIFV1dXZsyYgYmJCS0bN6G7VwDXDaV07tyZ70aPoZNXDW6aa/Lzzz/TuHFjsrKy2LFjB8uWLSPpwCmupcQzdu5MlEolAwcOpF69emzYsAF3d3c+9Azmx8vHuHv3Lr1792bXrl389NNP2NjYMKzPAELt3Sn0dWTChAk0bdqU1NRUVqxYQXZ2Nt99NpLMwjzcalbn4sWLmJqaMmXKFExNTenetj3VzO1QVHEiNjaWmJgYPD09+e233wgLC2Pm6LGY6+iT8fDluLS8HFp070y/fv2oU6cOvavV4V2foOe6xhraWtQY8T4mVdyevrMgCIIgCJXix8sR3MvNrewwHnNw2nfomVsQ3O/9yg6l0mjJpPRyd8Xb2KiyQxGEt4a0sgMQhLeNn65NZYdQIXXn31A3nI26yU+om89DPWQ16i2XUKv+O+9GSJHgoGn89B0FQRAEQRAEQRAEQRDeQk+qaJxbpGTGjBnMnz8flZEutx8kc/tBMkUG2syfP58ZM2aQX1xEjrKAHj160L17d6ytrcv+s7S05G5mGutjrnDp0iWCg4MJDw8nLi6O9957D1c3N+5lplO3bl2GDBlSNhU8QF6Rku+++w5HR0dyiwr+L65CAgMDGTlyJKampjg4ODBo0CDi4uJ4/+svGH14ExkFecw5d4AFi39n4MCBnDlzhoEDB/LL74v46dxBcosKCQoKYujQoeViVigUFJeoUKEut97GxobvvvsOV1dXFFIZurq65bbXrVuXSZMmUVhYSFRqArc1lFy8eJHCwkJSUlI4c+YM+VZGnIi9SW6RklGjRhEYGFh2vJmZWYVT06oKi9Czt36h77W2TW3Wt1nPV8FfYahpWLb+TOIZumzvwqTTk3hQ8OCF2haE51GiKmHU8VFlSdO6cl1+bPDjMyVNA0gkEsbXHo+7sTsASpWSz458RnpB+iuLWRAE4Xm8aEVjmVTKlyEt6dfzPZYvX87kyZNJTk7m5s2btGrViubNm+Njbkv/6u9wYN0m3n//fYYOHUpqaiq7du3i/PnzNGvWjM8CGqGtIS8bn6jUauo7enH5+B9MnTqVffv2cfHiRXbt2sXy3xbRxt2P96rWYujQoahUKuLj4/n+++/p1KkTngoDAm2cCTaxpW3btnz99dckJiZiYGDAwIEDec+3Fq3cq3Fk2y5mzZrFwYMHiYyMJDU1laFDh9K/+jvkKAv54IMPiI6O5sSJE8TExNChQwc+D2qCVCLB09OTzZs3k5CQwKpVq9i3bx9fDBvOoBr1GB3Sku8bduL7hp3oVKUmqampXL9+HW8z6+dOmgYoUSoxcLR7oe9HEARBEISXp6C4gILix2fuAnA10Kcy5sVa1LEdP9UPZV7j+sxv2pC1g97n8uaNqB/en2k08sv/dNI0QLFKjb3us/3bXRCEUqLitCA8p/H39jA59gAlvFm/OurOv8GoJkgCHVHnFMLF+zD7MPjbI/mq2eP7l6iQyP5d704E6zlwyu/Tyg5DEARBEARBEARBEAThlbi3/yRRK7eiUhaVW99i9SzUajUbNmzgypUrXFqzDQC/7m3x9fWlS5cuSKVS6tq7M3DKOOLi4vht6kyqWtiWtZFdWIB1aAAjRowgwN+fwTXqkatUcvL+LXKUhTRw9MS8SW1atWrF8J79yiout183l/SsTBo1akR7HVuWXzlFfHYGVS3sqGHlSIa3LR9//DGN6oTS0NmLG2lJ5OjKOXXqFOPGjSNiz2GSNOHatWtYW1vTxMqVfQm3SEhIwMfHBy+JLpZ1A2jfvj1t27ZFX6GFt7kN1S3taetRnZOxN4lKK60ceedBKtquduzbtw8ba2tm1uvIsXs3yVGWPvA7cvc6U36cga6uLrNHjkFbQ0HPr4ejUqmYPXYi2hpyOg4dSJUqVZj00TBS83I4eO4UAwYM4MSJE9jqG1PT2pEmzt64mViU+w60LUypN2vMP/6OMwszmX9xPmuvr6VEXVK2Xl+hz9DqQ+nq2RW5VP6P+xGEiswNn8uCywvKlmfVn0Ujx0bP3c69rHt039Gd7KLS6dqDrYP5pfEvaEg1XlqsgiAILyLu2FkiFm+kpFD5Qsen5uWw9/ZVjt67QUpeNgqZBs5GZtR39KSxcxU0pDIKiovYF32NvbevkZCTgbZcQS1bF9p5+ONgaEJaXg4zz+wjW1lAMxdfWrlXI6MgjzXXznLk7nVKVCqCbJ3pVbU2VnqlL1RFpMSz/MopotISMdLUppW7H+08qiOXyShRqdhx8xLbblwiLT8HdxNLelWtRTVLe4Cyto/du0GJSoW7iSV9/OrgbmLJydhbbIwK425mGhoSKTWsHenmHYiTkRn3MtNZfuUUN9ITySzIx1hbFy9TK3r61sLOoHwRo5TcbH48u58cZSEdPf2p7+T12LV7Gk0jAxrMn/BC34sgCIIgCC/Hvph9jDg6AplEhoeJB37mfngaexJkHYS9vj0X09JZc/sOhSWPv1D+Ki3q2I4mX36NQ2AQhTk53A+/wNFZM7Dzr0nTMeNeayxvKm2ZjClBNSo7DEF4q4i7VILwnIL1HdGVaZJVUvEbVm8CiZ4mvOOK2kQHBq9G3b0mrD4PmhqQmFWaVP1dO9RLz0CzKkjaVAVAvesabL+C5OfupctnY+DHw5CeC02qQEwqNPMu2/9NIkVCqKFLZYchCIIgCIIgCIIgCILwyhi62iORPvlF+KVLlzJ79mz8vp8GwMw+G/nkk0/o0qXLY/vGZz8g+2FCsUwixVbfCOOCAqytrXFwdmZ9xHl8zG3pUiWA2naubLkeXnZsZGo8/bYvBqCwpLhsfWxWOhJLEyIuh+Hi4oKP+aOZ20x1dBnoXxeA2WcP8Pvvv9OnTx/eWbiQ/v37Ex4ejpFKRl+/EM4nxHDx4kVCQ0M5s2MvloCdnR0jRowgKSmJ3bt3Y5tbmpAZ6uBBqIMHABOPbeP9999n3bp1eBuYY6tvXFbxMKMgjwP3b/Duu+/Svn17mrr4svTyH9SvX5+vvvqK9h7VMdTSYc+BAwwZMoT+D1LQV2gB0K5dOwIDA7l48SJnz4bRwNHzsetp5O7091/eMzLUNOTL4C/p4tGFaeemcSrhFADZymy+P/s9666vY2TgSEJsQ15Kf4Lwp8P3DpdLmh5QdcALJU0DOBg48H3d7xl6cCgAZxLOMCd8DsNqDnspsQqCILwoQ5eKZ+94VmY6evSsWoueVWs9cR8tDTltParT1qN6hdtNdfSY3KBjuXVGWjoMqVmfITXrV3iMt7kN3z18ae3/yaRS2nn6087Tv8Ltf9d2iL0bIfZuFR7nYGjC1++0qnDb/zPX1WfK/53T8zJwtf9HxwuCIAiC8M8djj2MGjXF6mIi0iKISIso2/Zx9Y/p7NUHVSXPeq+pp4draF10TU1ZM7A/Nd7tSdjqFeibW1Bn8AfkZ2Swb9IE4i5fQiKRYuriTJd5C5BIpeSkpHDkx+nEXQxHrq2Nf7ce+HftBkBixDWO/DiD9LsxaGhq4l6/IXU/+QyZXI5arebYnB+J2ruXEqUSfSsrWkyYhJmrK8VKJX8s+Jmbhw5QoizCtV496n36ORqaWq/1utjq6rzW/gTh3+DfVW5WEF6DugYuFKqKnr7jG0DibQ3m+nCpdGpF9kdB72DY9zFUs/3bY9UZ+TBmBwx5B3Z+CA7GcCXhNUT9YnRlClobe1d2GIIgCIIgCIIgCIIgCK+MgdPfT19+48YN4uPjqVEriBq1goiPj+fGjRuP7Tdo0CAuRUZw4mIYJy6GMeHHH8gszGPfjp0cOXKEmzdvcujcaTqP+oQ9BYl8c3QrxarS6sd16tQh4vr1smNv3bqFjk7pwxmFTIOMjAw2btwIKjUyScW3nwOsnTh9+jTVqlUDwNramqSkJMx09AAw1dYjKSkJGxsb0vNzycnJISoqCnNzc9577z2uX79OvLGC/dGPHuCl5+dyLSuFrl27smjRIpq6+JTr83BMFO06dCA1NZULp85Qy9aF9Pycv/StX9avubk5BeoSCkuKuHz5MnK5HBcXF1auXMn85UuYdHInRSWPqkHLtDSxDHy5hQbcjN1Y0GQBcxrMwUH/UZJXdGY0Qw4M4aODHxGTGfNS+xT+u2IyY/jqxFdly7Wta/NR9Y/+UZt17eryod+HZcuLry5m/939/6hNQRCEf0rX1hKphqgr9qaRaSqwCvKr7DAEQRAE4T8pszCTw/cOM+3cNM4knHnifodjD2OiqYn2GzKWsvL2Qd/CgrhL4eXWh61eiZ6FBYN37WPQzj2EDP4QJBLUKhXbRg7HzM2dAVt30mnOfMLXrSbmdOkL6xKplHqffs6QXfvo9usi7p0/x6VNGwC4e+Y0cRcv0mftBj7Yf4hWk6agbVg6M8jJn+eSEXuPnktX0HfdRnJSUjj9+6LXei0UUinVTU1ea5+C8G/wZvw1E4S3iK5MkyB9R45nRVd2KM/GTBeyHlbHfscVyZ8J05oa/O17YKfugLMpknruAKi7+MOa86801H9CpVZTx8CpssMQBEEQBEEQBEEQBEF4ZSRSKeZ+VUg8c/GJ+yxZsoS+ffsikUhYsmRJhfusW7eO77//vmw5Pz+fuhb21LF344sBHzBs2DAaNGhAq1atOHXqFK1atWLPH2fo3jCI8PBw3nvvvXLtRUSUJjDb6RvT0tyFPbN/5eMa9SlSlVCRIlUJGhpalDxMPi4pKUEqlaJ+eLdKjRqZTEZxcTG+5rYc37WXeyfPY6NvxI+xkxkzdQrjxo1jRO8BNHMtTZA+FBNJ5y5diIuLIyIsnNHt3i/rT61Wszf6Gkt/nMjixYtp4OiJXCZDKpGU9a1CXdavSqVCrVIR6uDB8AGD8bO0J7+oiMmTJ3P9+nWqBgUQlhBDLTtXAFTFxZhVfbwK9T8lkUho4NCAENsQVkauZMHlBeQW5QJw9P5RTsafpKdXTwb7DUZfof/S+xf+G/KK8vj8yOfkFOUAYKNrw7S605BJZf+47cF+g7madpVj948BMObEGFwMXXA1cv3HbQuCILwIiUSCRWBV4o6eBXXlVksUHlGVlGBeXRRHEgRBEITXIbMwkwtJFziXdI7zieeJSo8qux/zJHKpnC8CvwCguqkxxxOTn3LE66FrZk5hVla5dTINDXJT08hOTMDIzh7b6qWzciREXCM/4wG1+g8AwNDWFt+27blxYD9OtWpj6VWlrA1Daxuqtu9AXPgFanR7F5mGBsq8XB7cjcHK2wcTJ2eg9H7Tla1beG/ZKrQMShOpA3v3Zc/4sbzzwdDXcQmA0nwpH2Oj19afIPxbiMRpQXgBPc1rEJZznzyVsrJDebrUHDB4OAWExXM8QEnNKbe/RCJBbf7mPoBpZuyJhuSf38wXBEEQBEEQBEEQBEF4k1nX8SflUiQlBYUVbl+/fj1TpkwB4NNPP8XS0vKxfTIyMvCU6tLVOxAAmUSCuY4+19MSmdmkK6n5OVyNjOOzTYMoKSmhd+/evLdvH1CaZK2VXcAXtZsDMHjnMlQqFQASCTRw8iItPwdrPSNOxN58rO8SlYpj927wbvdP+eOPPwCIj4/HxsaGxJzSh12JOVnY2NgQHx+Pn6UdnwY1Ri4rve/jbGTGoUOHaNu2LUm5pfur1Wr23r7G2nlT+f3332nkXAWNvyR93khPQm5uzDvvvMN7773H11XrA2CirVfWd1JMOvlFytLPSUnoaWjSzy+EQf51kUgkAAzZtZzIyEh8fX1J+uNKWfuGLvZoaL+6KVgVMgX9fPvRxrUNP4X/xOabm0unzlUVszRiKdujt/OJ/ye0d2v/UpJdhf8OtVrNuD/GcSvjFgCaMk1+bPAjRlpGL6V9qUTKlHem8O7Od4nNjiWvOI/PDn/G6lar0VPovZQ+BEEQnpdVcHUSz1yiJL+gwu33sx5wNzMNNxMLLHUNntiOSq3makoc+UVK/Czt0dKQv3BMsVnp3MtMx8PEEnPdF3sWl1WYz9WUOMy09fEwfXz89ybTs7FEoa9b2WEIgiAIwr/SiyRK/5WbkRs/N/4ZK10rAPxMTTiTkkphiepVhfzMclKS0TQoP16r2eM9Ti9ayKbPPgagatsOBPbuQ3ZiAjmpqcxv2rBsX7VKha1fdQAe3LvLsTmzSIqKpLigEFVJMRZeXgDYBwTi16krh2f8QFZiAm71GhD68SeUFCopLihgVf/ejwJQq1GrXu+1MdJUYKSpeK19CsK/gUicFoQX0NrYm0+jt1R2GE+ljkyElByoZgMRCaVPr/5KWw4FRY+W03IffTbThZPZj9pSqyElmzeRvkyT7mb+lR2GIAiCIAiCIAiCIAjCK2da1RNVcfETt+uppHz33Xdln5/kYlIsDwryypYLipTEqwtJS0ujkaMXxlo6FJYUo6WlRVpaWrljFTINrPVKK+lI/3K/KbMgnwmnduPk6kLC7Tu86x1Uti0xJ5Pxx7ZxIy2RqkEB9O3bl969e9PWozr79+9n4cKFYKjLdyd3gqEu3t7eHDhwADuJJnPDDlPT0gELXQNOxd1mfO+pXLlypSyZKSI1AT1bS4KCgujUqRMTazYtF+/e21fp178f+/btQze/CCcjMwC8TK3YtWsXbdu2ZeSQoWjKNPhk/Bh27dqFlZ4B721dhI6GnABrJ3KLClHqKPD29ubKlSvUf9i3VCHHJiTgyV/YS2SmbcaEOhPo6tmVqWenEp5cOh1tekE640+NZ831NYwKHEWA1euJR3j7LYtYxt6YvWXLY2uNxdv05Vb8NNQ05Mf6P9Jrdy/yi/OJyYrh6xNf82ODH5FKnvw3ShAE4VVITU2lbrcO3L19u2ydgaY2Vcys6elbC3MdfYYdWk+jZk2Zt2cNqzoMemJbp+Nuszz2KhYWFoRdvMuHAQ1eKKbcokKGH9lIg0aNWHhwPUva9n+hdr47uQtTXw8uXThNP/cAfr94gryi0hft5A/Hbs1dfWnq4lNu/FbZpHINrENqVHYYgiAIgvCv8byJ0lKJlComVQi0CiTQKpDVUas5EXcCgHds32F6venoyh+94OSkr/dGTNyRGBFBTkoKtn7VSYy4VrZeoatL3U8+o+4nn5F6+zYbP/4QS+8q6FlYYmhtQ991Gyts79APUzH38KTFhEkodHW5sHY1tw4fKtvu37Ub/l27kZeezs6xXxG2cgW1BwxCQ1OT3ivXoGdu8crPuSIyiYQapiaV0rcgvO1E4rQgvAAbTUOctEy4np9c2aFUSJ1bCBfjYPZhaFoFiat5xcMgN3M4egt1m6qlFaZ3XgVjndJttV1g5iHUx25BHRfYegnS8ipqpdIpVSU0NXr506EKgiAIgiAIgiAIgiC8aTS0NDFyc+RBVHSF2wf6h3Jux8HSzzXqsioh8rF9OnXqhNfDqjlQ+sJ8+/btGTx4MKNHj2bPnj2kp6fT138iQUFB1K9fHz8Lu6fGlpqfg7ObK+Hh4ejq6qIsKU3wdnFxYcmqlcjlcry9vZHL5YwePZqLh0/wY9Nu3D26lZ9++olDhw6xcuVKevbsyU8//YSlWk5usZK169eTl5dHYmIin1SvTrVq1WjVqhXNXX0A2Bd9jf5D+rNr1y5MiqXYGzx6YFRQXMShe9f5rW9fPv30U5q6+JZta+Vejelz5nD69Gm+mzeHgoIC2rdvT2hoKIE2Thhoq5g3bx6nTp1CLpfToUMH9u7dy9Wz5xnepv+fFw+LGj5PvTYvk4+pD0ubL2VvzF5mhM0gMTcRgKj0KPrt7Uczp2YMqzkMGz2b1xqX8HY5m3CWH8N+LFvu5tmNdm7tXklfniaejK89nlHHRwFwKPYQv1/9nQFVB7yS/gRBEJ4kPDwcaxtrzp47W7YuOTmZTZs2MWr8RL6t2w5NXR02b95cNuPEkzzIz6NZs2Y0btyYWcO+fOGY8pRKDI2NWbNmDUb6Lz7z64OCPJbPmsVHH33E0ZvX6TGgH5MnTwZKZwy5cuUKo0ePJvnKaXpXq/3C/bx0EgmWAVUrOwpBEARBeGv900Rpfwt/9BWPxiDOhs78fPFn3I3d6eXdCw2pxv8dL8Hb2JBLaQ+eo271y1OYm0PcxXCO/jiTKs2aY+bqVm579MnjmDg6YWhrh6aeHhKZFIlEipW3D3IdHc4tX4p/125INeSkx8RQXFiIlbc3yrw8FLq6yHV0SI+J4crmjWgbGQOlSdpqtQoLTy/k2tpoKBRIpFIkUim+bdtzdPaPNBj2BTomJuSkJJN6+zZOtV7PeEsmkVBNJE4LwgsRidOC8II+s67LiJht5KqUlR3KI6O2oJZJQSoBJ1PoVhPaV3vy/t1qQlQStPmlNIm6iRecvweAxEgb9betYdZhmLwHmlQBL0uQv2HTfarVuKDm7oOb+Jr5PvVGliAIgiAIgiAIgiAIwtvOqUV9smLiKCkorSJooq1LmzZtSIxPwNu3AbXsXIHSKduTww/Tpk0bjDS1MdXRY8aMGdja2lbY7rqlyzl79iwBAQHo6ury+++/07VrV1rYe+Hi6sv6rVs5deoUptqPKg0Za+vSuXNnrl+/TueaTVhxNow2bdqgUEuw0jXkt4MH6dWrFwBKpZKYmBiS797nHQc3pjXujJaGnE+DmzB+4hQ2b95MUFAQffv25f7VKL6p25at18MZOXIkISEhmJiYcObMGfbs2UNTW3ca+ZVWxk3KyWTbtm3Ex8fTya184k1WYT4KTU0GDx7MycNHWdj8vbJtnqZWNDNzxtPTk+7duyOXyxk5ciTNbT1o6VqVbftW8fXXX+Pl5YVSqWTZsmXcuxrJ2NA2yGWl98gMXRzQMjV6OV/sc5BIJDR3bk49+3osubqE36/+TkFJAQB7Y/ZyJPYIfX360t+3Pzpyndcen/BmS8xN5ItjX1CiLgHAz9yPUYGjXmmfLV1aciX1CisiVwAw58IcvE28qWNb55X2KwiC8P9kMhkFBQXY2toilUpxd3dn586d3L59m/Onr5Kamoqenl7Z/tdS4tkYFcb1tES0NRSEOrjT0evxCsklKhV7o6+x9/ZVUvKysdYzpKVbNRo6eSGRSAhLuMvaiLPcz3qAXCYjNS+Hqua2dPUOJC4uDnNzc5QlpX+Xox+ksOV6OJeSYilRq3AyNKODlz95RUUcuBNBTEYqSMDJ0Ix3fYLwMrN+LB65XM65c+do3rw5enp6jBkzhh07dmBvb8+1lDjuZqYhk0qRUDqW7OBZgyN3r3MzPQk9hRb1HD3o4FkDHbmCbGUBW6+HcyL2FpkF+Zjr6vGOvTudvGpyIz2RzVHhpTOAKDSpbmlPr2q10dFQsPv2VfZFXyM5NwtNDTmuRub09A0mW1nAuojz3M1KQyKTUTU2jA8//JBOnTq9su9dEARBEP4tXnai9P+z17dnSuiUv40h1MqSiAeZKFWqFz6P57X1i+FINWRIJBJMnJyp8W4Pqrbv+Nh+GbGxHJ4xnfyMB2jpG+DXsTP2NUtn5mr3w0yO/TSb3zu1p6SoCGMHR+oMGlJ6Th99wsGp3xG2cjnmHh54NGpCbNh5AJR5ORybPYvM+DhkCgWOwbWo2aP0/tI7H37EmcWLWDOoPwUZmeiam1OtQ6fXljhtpFBgqyvu+wjCi5Co1W9CAX1BePvklBRiefYb8lVFlR3Ka6FWqaHDr/BNCyQ1HCo7nDISVTFOcWHoFGZSxaQK3Ty70cK5hXggJAiCIAiCIAiCIAjCv5aqpITDQ8ZRlFs6O1hKXja3H6Rgq29UrtoyQGxWOnHZGbgamWOopc2V5PsUVfBgy9XYHBMtXaLSEonJSKWguAhTbV18Leww09FDpVYTkRJPXrGSqua2aMsVAKTn53IjPQlLHX2cjc25m5lGQk4mzoamWOgaEJWWQGZhaUKvXCrFREsXRyOzx6aIL1GpOBMfTUJ2Jjb6RgTZOCOTSlGr1dx6kMztBynkKAsx09alirkNlroGZcdmFORxPS0RHbkCX3Pbx16sv5WeTGp+Dg4GJtjoGz127im52ZyJj6ZErSbQ2qlsn2xlAddS4knIzkAmlWKrb4yfpR0a0tKkaZmWJn4f9XrtFacrkpibyMywmey+s7vcegsdCz6v+TmtnFuJggMCAMoSJX339OVK6hUATLVMWddmHRY6r35a4SJVEQP3DSQsKQwAQ01D1rZei61exS9zCIIgvGz79+9n2rRprFy5Emc7ewb512Pp5ZP8unwpt27d4sjCFZxOu8/27dupX68ek+p34Merx5k8eTItWrQgLS2NOXPmcGTTNpq6+qIO8CyrOG2ipUu6hR7jx4/Hx8eH8PBwxo0bh2ehBh4mliy8HcasWbOoU6cOFy5cYPfu3VhaWrJ+7q8kS4pYtWoVrZo1Z0K9dkw5v59x48bRvn17FAoFx44d47333sPAwICFCxcSGBiIWq3m6NGjjBgxgjE1mzD77AF2nDjCRx99RP7Ne7zTvQMtWrRgRM9+9PUL4fvLR0hMTMTT05PQ0FAsLCxwdnamRYsWDB48mIsXLzJlyhQaN25MYmIiM2bM4NL+o4yv25Zh+9fSrGtHBg8ejL29Pbdv36Zfv35U1zDkSOpdJkyYQKtWrUhPT+fnn39m39qN1Hf05JIsn+nTp+Pp6UleXh6LFy/m11k/odZWMHfuXOrUqYNEIuH8+fN07twZ1WtMvhIEQRCEt8WrTpR+EWq1mknhl0kvfIMKTf4HKaRSOjo7EGxhXtmhCMJbSVScFoQXpCfTpJd5TX5POksx/85/yKvPxIC3FWhqwKrSN6nwefyt9cokLy5EuzATgMj0SMafGs/089Np49qGrh5dcTN2e0oLgiAIgiAIgiAIgiAIbxepTIZj81Citx1EVVSMuY4+5joVPwSzNzApl0xd09rpb9v2MbfBx9zm8T4lEnwtHk9uNNHWpZatS9myo6EpjoamZctVzB5vqyIyqZQ6do/fx5FIJLibWOJuYvnEY420dAj+Swz/z83EAjeenBRqrqtPa3e/x9brK7TKndv/k8o1MK9e5YnbXycrXSum1Z1Gd8/uTD03lYi0CACS85L58viXrIlaw+ig0fia+VZypEJl++7sd2VJ0xoSDWbUn/FakqYB5FI50+tNp9v2biTnJ5NZmMnnhz9nWYtlaGlovZYYBEEQALS0tGjdoT2JUikfNRtOcHAwEyZMoLGZDWFZSYSGhqJSq/n1wlEWLV9MVlYWVatWxd3dnR07dtA7Lo69Z8JoGuAJQGxmOtfzM7h17hYff/wxmzdvpm/fvuzcuRMPd3eKosLZvGMbd+7cwdPTkypVqrBt2zaOHTtGsaoEhbaCOnXqoKa0z5UrV1JcXEy9evVIS0sjNDQUDakUgN9++42+ffuiqanJ1KlTmT59Oj+PmfjEc72TmcZP5w5Ro3YAJSUlJCUl4ejoyPDhw+nfvz+jR4+muLiY7du3ExkZiY+PD9WqVWPbtm20atWKz/evpVmXDowdO5Zu3bpx4cIFqlSpQn5+Puvv3+TkyZOcOnWKqlWrYmFhUTYLyJIdO7hw4QI//fQTS5cuxcDAAA8PD9Lyc5gxaQZ5eXlUqVIFlUpFrVq1sLR88lhPEARBEP5L3sRE6f8nkUhoaGPNtruxr7XqtPA4f1OTp+8kCEKFROK0IPwDn9rUZXlKGMX/1oHA1XiYsAuKSsDJFKa0RaIpr+yoyuhJFQy3r0OR3Iw9MXsoLCmdnjanKIfVUatZHbWampY16erRlcaOjVHIFJUcsSAIgiAIgiAIgiAIwsth36gO0dsOVnYY/1lShQZOzesheZjE9KaoYVmD1a1Ws/XWVmZfmE1aQRoAl1Iu8e7Od2nn2o5Pa3yKuY6oRvRftPHGRjbc2FC2PCJwBDUta77WGMy0zZjZYCZ99/SlWFVMZHok357+lkkhk0RVdEEQXhuFQkHz5s2RSCTY2Nhw7949ioqKyFYWlNsvWwPatGmDubk5YwOasuvWFX7++Wf69+9Pt717y/a7l5XOoEGDuHjxIoe37GBuw64MX7SEwYMH07xFCw4cOECzZs0wNDRk2jvtWH3tLKtWrcLOzq5cf8qSEgp0FLRo0QILCwtGVm+Am4kFZ+Pu0LhBR34+f5jjx48THByMpaUlN2/eZOjQoYzM+ARdueZj5+nn58fSNavQ09Ojdu3afPXVV2RmlhYjOnToEOf2HmJUjQb8cucCtWrVolWrVkx9px0rr55myZIl9OvXj4EDBzJw4EAmTpyITYaSL9sP5npaAsfzb2LoY4i3tzdt27ZFKpWSmprKokWL6Nq1Kzt27EAqlWJvb4+hoSEleQUkXb+Nv5UDUqkUU1NTrKysSEtL4/bt2yxcuPAVfNOCIAiC8OZ7GxKlKxJgbsrWu7GvvV+hlAwIMjdDIZNVdiiC8NYSidOC8A9U0bGkhq4tf2TH/M2w5e0leb8OvF+nssN4IqlEyhfObdBx68QXgV+w9dZW1t9YT0xWTNk+YUlhhCWFYXLOhA5uHejs0Rk7fbsnNyoIgiAIgiAIgiAIgvAW0DQywLy6N8lhV1H/W1/qf6NJsG9Uu7KDqJBUIqWDeweaODZh4ZWFLI9YTpGqCICtt7ey/+5+BlYbSC/vXmjKHk+yEv6drqRcYfKZyWXLLZ1b0sOrR6XE4mfux5dBX/Lt6W8B2HZ7G1XNqtLdq3ulxCMIwn9PVlYWH3zwAc38gzhz5RJDRnzOggUL6NSiNRLdRxXw7ezsyM7OJvtBBt7mNtzPfkB0dDSNGzd+rE07O7vSitKmVljqGuBqbE50dDS2trZYWVmRlZWFMi8fZ2NzPEytuH///mOJ0wDOzs48ePAAZU4ufpb2ADRw8iI88R4yMyOuH7rAyZMnuXPnDnp6epiampKrLKwwcTouLo4FCxaQl5fH9evXsZFo0szFB4C7d+9Sxcy6LPaUlBTkxSpcjM2pamFHdHQ0LVq0AMDV1ZUbN27QxtYFTQ0Nqlnak60sRG4uR6FQsH379nL9hoWFAdCnTx+mTJnCyJEjuXbtGmPGjOHm2QtMmjSJ77//njNnzpCVlcXcuXMZNWoUzZo1Qy5/cwo4CYIgCMKr8LYmSv8/TZmMIHNTziSnUqz+N2ZMvdmkUgn1bMSMHYLwT4jEaUH4h350bk+9q/PIf/jwQXg9dKUKJjg0Q+dhFWlDTUN6+/Sml3cvziaeZe31tRy+d5hidTEA6QXpLLq6iN+v/k6IbQjdPLsRahuKTCrevhIEQRAEQRAEQRAE4e2gUqlYs2YNCQkJACizc3kQE4mXsSU2+kao1WpmnN5HdEYKIXZu9Kxa64ltxWU/YNaZAyhLiunn9w7VrexfKKYSlYofTu3hXlY69R096eod+ELtbLkezr7oa1jrGfJZcBOO37tJfpESAE0NDaz1jPCztEPjDbiXI5XLcWxeF4WBXmWH8rf0FHp8XvNzOrl3Yvr56RyOPQxAXnEesy/MZuONjYwIHEFD+4ai0u+/XHpBOsOODitLoPcw9uCb2t9U6vfexaMLV1KvsOXWFgCmnpuKl4kX1S2qV1pMgiD8t+jo6DB22ndMHvwJ0dHRDBgwgIyCPIz/kjgdHx+Pvr4+Ogb63MlI5XpaIjUcgsvGYn8VHx9PSEgItx8kk11YQExGKg4ODiQkJHD//n309PQwMDHmZOwtwhJiGOT+boVx3b17F2NjY2TaWlxPS8TFyJywxLtsuR5Ov48Hs2XLFqZ8NZYiVQl+tYLo16/fE88xNTWVG6fPM6hGPd4PdsNC14Bll/8ASseVUokEE21d4u/GY25uToFETUJOJlGpCbR2aF12njExMbi4uHDhfCS+FnbcfpDMleT7xOZJKSwspG7dumhJZdjqG3E9LQmAYFsXsuKS+bBHbxLys+nbty/r16/HxMSEAGtHfpjwLcOHD8fX15fdu3dz/Phxzp49S0hIyAt/p4IgCILwJvq3JEpXpJm9LWdT0kAkTr9WMomE6qYmmGlpPX1nQRCe6M2aR1AQ3kIB+vY0MHRDJn6dXisdmYIhVo9Xw5ZIJARbBzOz/kz2dd7HR9U/wkrXqmy7GjUn4k7w8aGPab6pOQsuLSA1P/V1hi4IgiAIgiAIgiAIgvBCjh07xrhx44iPjyc+Pp6UrAzinUwYeWo7v188QXJeNpHKTFbt3s7GqLC/betM3B38mzek1+cfcTAm4oVjSsjJ4K5UyeItG9gYdeGF29l6PZx5q5aRaajFgrCjnJPlYtAwEIOGgRTX9GBHQQJDdq3gftaDF+7jZZHIpLi2fbzS5JvKwcCBOQ3n8GuTX3Ezcitbfz/nPp8d/oyB+wZy48GNSoxQeJWKVcWMPDqSxNxEAPQV+syqPwsduU6lxiWRSPg6+GuqmFQBSuMcdmSYuFcrCMJroaGhgY2NDf0+HEK+gzkjR45kz549uBibl9tPq7CYffv2MXXqVIYd3kC0RhEffPABy5cvx97ApGw/O31jtmzZQmBgIH713+HdrQtp0aUjdnZ27N69G5mymPXr1/PLL7+wKT0at9BgOnbs+FhccqkMWXY+Bw8eZP78+XxzZjftN8xjX1EKl5JiycnJwdvbm8wSJTI9Hb755punnquBpjZ+lvZY6BpUuN1az4ishGQuXCitBD1k70oyTXTo168fy5cvx1xHn99//52xY8dyVZJHqzWzmXXzDGezk7hw4QLR0dHMnj0biaaC62lJeHl5ERwczJm4aHzqh5BaXIBSqSQ2NpaioiLUajXGvh5kFSvJysoiNjYWpVJJUVERGhqi5psgCILw9ssszOTwvcNMOzeNrtu7EromlE8Of8LyiOVEpkc+ljQtlUjxMfWhr09f5jWax4nuJ1jTeg3DA4ZT167uG5s0DaAvl1PP2hK5VLyM/TpJJdDK4fGZSwRBeD7iXx+C8BLMdG5H9czplIhpUV8LXamCGU5t0ZT+/Z8wcx1zBvsN5v2q73P8/nHW3ljLH3F/lA1EE3MTmXtxLr9c+oWGDg3p5tmNQKtAUWFHEARBEARBEARBEIQ3UmZmJj4+PowbN4558+YhlUqpV68e8+bNIygoCJfUBPLz8zl06BCFJcVlx91KT+ZGehK6cgWBNs7oyBWo1WrMzc2xt7cvKwxUVFLChcS7pOblYKtvTDVLO6QP75Oo1WouJsWSkJOJtZ4hOnIFRaoSzLT1yM3N5ejRoxSVlJT1GZ+dwZXkONSocTYyw8PEEpVazc30JO5mpiOVSHAxNsPV2KK0fcDLywttbW1yMtJp0rgxvXv3Zv369Tg7O/Ptt9+yZs0apk+YwuAadQEJoCYmIw1zHX1qWjsSlZbInYwU9BXaBNo4oaXxaKr3XGUhYYl3yS4swEJXn6oWdmXb7zxIISotEQNNbbzNrDHW1gVAWVLMxaRYUvOy0ZLJcTWxwMXCGtcOTTkTHkZUVBQSiQRPT0+Cg4Pf+GSf2ja1Wd9mPetvrGfexXlkFmYCcCbxDF22d6GLRxeGVh+KsZZxJUcqvExzLszhTOIZACRI+D70e+wNXqzC/MumpaHFrAaz6LajGxmFGaTkpzD8yHB+a/Ybcqn86Q0IgiA8J6lUSnZ2Nnfu3GHp0qVAaVXmVatW8cvceYwKbML3Fw4SFhaGVCJhQPW69OvXj+nTp3P//n0yMjKYOnUq4UeO08rdj5TUVKKjo3E2MkNHrqBjx458++23LF68mCtXrtC+fXsaW7tR286VQYMGMXbsWBYuXEh4eDi//fYbZmZm6Cm0eFCUT3h4OFKJhPerv0OPHj2YMmUKN2/epKSkhFOnTtGxY0fmz59PcHAwMTExJCcnM336dKRSKRKJBAkSIiIiyMnJQSGVkpyczM2bNx975iWRSIiPjyc7OxupRIJMKqX/wz5/+OEHEhISSElJ4csvv+T+pQhmN+3O5ytWo6WlxaZNmzA1NeXevXu8++67BOlb0rp1a7799tuyvu7cucO4ceMA6NatGz/++CMymYx79+7RuXNn1Go1/v7+zJ07Fz09PTIyMvjmm2+Qy+XUrFnztf9MCIIgCMI/9W+uKP0sGtlaczwxCf7mnIWXR0MiIcTSAkOForJDEYS3nkStFvXyBeFl6HNjFWtTL6JUlzx9Z+EfcdY04UbNL5FJnr/Kd2x2LBtubGDzzc08KHy8QpGTgRNdPbvS1rUthpqGLyNcQRAEQRAEQRAEQRCEl2Lr1q38/vvvzJ49Gz8/P4YMGcLChQvZtGkT+/bt4+bmfeyIuUZwcDBHjx5lXachTD6xkywdDRo1akRSUhL79+7l45oNeZBfWtG5WrVqLB8/lRZuVZl8YgfVggPx9PTk3LlzpN6+yzd126Ar1+Sbo1vRcbAmMDCQc+fOkZ6ejq6uLq7Fcg7F3aJmzZocP36cjZ0/ZMbpvdxSZtO8eXNkMhmnTp3CIKuQe1npmDnZU7NmTYqLizl58iT2JXJG1G7GoJ3LOHXlIl27dkWWkE6Tfj0IDAzkg559cDQ0QdPdgcOHD2NgYIClpSVqtRqZTEbdunXZs2cP8XFxuLm7U69ePWJjYzl26DDDgpoQYu/GpqgLLL12mmbNmmFjY8ONGzc4+8cpZjXuyvzzR0hVqGnSpAkpKSkcOHCAj6rXw9XYnC8PbcSvVhAeHh5kZ2dz4sQJ6ps7Eq2tJiMjg6CgIADCw8OxsLBg7969lfwT8uwyCzOZf3E+a6+vpeQv9zP1FfoMrT6Urp5dReLqv8DemL2MODqibPnD6h/ygd8HlRhRxf6I/4MPDnyASl1amOS9Ku8xKmhUJUclCMK/UW5uLj169OD+/ftl60xMTHDQNqC+wgxzhQ7zzh8iKjWRQBsnelerw4WEu2yIDONaahx6Ci1C7d3p7hOEsqSYWWcOkFespFfVWvhZ2rPtxiX23L5KQk4m9gbGtHSrSku3alxLiWP04U2oHhZgkkqlHDx4kLVr16I8dZW47AfcfpBCbTtXevgGE5ESz8aoMC4mxVKsKsHdxJLOXjXRlitYcukk0RkpGGnpkJybjbORGXUdPDDW0mHnrcuY6ejTu2ptfrlwlPwiJV29AwmxfzTjxJ2MVOafP4xKrWagfyheZtYAnI6LZmNkGNfTEjHU0qa+gyddfQLRV2iRnp/LhsjzHI+9SVpeDnYGJtR1cOddn2AiUuPZev0il5JiyS8uwtHQhABrJ+wNTTgcE8Wt9GSylQU4GJrS2NmbAEdXDmnkcObcWe7du4ejoyOtW7dm/PjxmJmZvd4fCEEQBEF4Af/1ROmKHIlPZHdsHEpRbPKVU0iljK/ph/Yb/vK+ILwNROK0ILwkKUU5uId9R1ZJQWWH8q+mLZWz12cQ7xi4/KN2lCVKDtw9wNrra7mQ/Pg0spoyTZo7NaebZzd8zXxFFWpBEARBEARBEARBECrdXxOn3d3dcXZ2JiEhgbCwMCZPnkzO2auE5adx9epVzI1NqOfggWPjECZNmsTKlSvx8fHBzs6O4OBg6lo649m2MdWqVeO3sZOJTI1n+cb1WFpacvjwYdq3b8/OnTuZP/E7bPWN8OvQghEjRrBy5UqqVauGiYkJ165d4/sRX4KZISdOnMDV1p5gWxds6gby448/sm7dOjIzM6lWrRotWrTAw8ODhQsXcurUKXR0dOjcuTPvv/8+Ngk57Lh5qcLE6a8HfEhDJy/2Zt0nKioKGxsbhg8fTmhoKCqVinPnzrFkyRIaNGjA8OHDWbNmDTVq1EBfX5/6oXXp6xPMnoxYDh48yKVLl7h06RLVqlVj4sSJ3LoSQZ8hAxk+fDjr16/Hzs4OX19f6tSpg4ayhO9mz8TX15d9+/ZhYmJCXl4eo0ePpmfPnkyePJnVq1cD4OPjw7vvvktOTk4l/4Q8v1sPbjHt3DROJZwqt97F0IWRgSMJsQ2ppMiEf+p2xm3e3fku+cX5ANSzq8echnOQvkAxitfhtyu/MfvC7LLl70K/o7VL60qMSBCE/5ISZRHHh0+hIC3jlbS/4+YllP5uvPvuu9y9e5eAgACysrJo1rgJC5r1xOThbBf/djJNBd7vd8H2nYDKDkUQBEEQnplIlH66EpWK7y9dJbWgsLJD+VdTSKW0c7SnjpVFZYciCP8KInFaEF6iDamX6HtzNXmqosoO5V9JW6pBH4sg5rt2eqnt3nxwk/U31rP99nZyih5/wFXFpArdPLvRwrkFOnKdl9q3IAiCIAiCIAiCIAjCs9q4eSPLlixjw4YN3Lp1C5lMhq2tLTt27KBHjx5MbNCBhbfOc/XqVfT19dHT1eV+XBytW7dGGR3H9bRENu7czqFDh/huyhQ+HzaMatWq0a9vX1q3acPcuXOp4ulFsKUjUcpMbt26RUBAAHfv3iUxMZG6deuin5bL8dibnDhxgps3b5ZLnLa0sEBHS5v7CfG0b9+enOt3sDMw4XRcNK7G5py+H02J+lH1ofbt2/PZZ58xpFN3HhTkPZY43bhxYz799FMMDAz48ssvsba2xt/fn+nTp9OiRQuqVatGTUsHbhVkEhsbS506ddBLy+VKShz7jx1h+fLlzJ07l1WrVpGSksL3X48jxN6NiJQEbqQnoW9owL179/Dx8eHevXsA/Pbbb9y5c4fJkyeTlJRE3bp1uX79Ooaa2kjlGjzIyWbt2rUcOnSIBQsWYGRkhFwup3379vz666+V9aPxj6jVao7EHmH6+ency75Xbls9u3qMCBiBk6FTpcQmvJhsZTY9dvYgJisGAAd9B1a3Xo2BwqByA/sbarWaz498zsF7BwHQkmmxouUKPE08KzkyQRD+KzJuxnB28nxUypf/jC/6QQrDD67D09sba2tr7t+/T8LtGD4JbESQrfNL7+9NJJFJMfF2J2D0YFGsSBAEQXijiUTpFxOXm8fsqxEUqUQa4qsgBRz19fjYx0uMpQThJRF12wXhJeps5sey5PPsy7iO8i9TXAovh5FMh+lObV56u+7G7nwV/BWf1fiMXXd2se76OiLTI8u2R6ZHMv7UeKafn04b1zZ09eiKm7Hb37QoCIIgCIIgCIIgCILwcp1NOMvYk2Nxx52kpCSaN2+ORCLB3t6eefPm8emnn7Jzz4Fyx7i6ld6/OH/6DBs6fcDGqDB27txJvXr1yj3yUwOBgYEcOHCAWlaOfFG7OZ/sXU14eDgBAQHI5XKUSiU3rkWwodMH2Fz+g4MHD+Lg4FCuP5VaTY3AAJRKJedO/sHajkOQSaUMrlGP9PxcItMSeX/oB7Ru3Rpzc3O0tLSQy+Wk5GWjIZU9ds5+fn4sWLCA3NxcLl26xPvvv19WkfHQoUM0c/amroMHu4pTSE1N5d71m6xsP5Cll/9g165dBAYGAtCsWTPatm3Lx4GN8LcqjfnYvRtct9RCqVQybNiwsj5dXFwwMChNLt26dSt79uxh06ZN7Nmzh2tXrxL8Tgjbt29nzpw5BAcHs3//frZv317W19tIIpHQwKEBIbYhrIxcyYLLC8gtygXg6P2jnIw/SU+vngz2G/yffPj7tlGpVXx94uuypGltDW1mNZj1RidNQ+nP4aSQSURnRnMn8w4FJQV8dvgz1rReg6GmYWWHJwjCf4CRuxP2DWsTe+jUS0+edjE2Z22HwcRkpJGZn4eBjS9uPg2RSd/MWQBeBalcTrUPeohEH0EQBOGNIxKlXw5bXR3qWVtxNCGJIpXq6QcIz0VDKqWXu4sYSwnCSyQSpwXhJVvk3g33sO9QlojE6ZdJWypnjWcvdGSKV9aHjlyHzh6d6eTeiSupV1h3fR17YvZQWFI6nUhOUQ6ro1azOmo1NS1r0tWjK40dG6N4hTEJgiAIgiAIgiAIgiAA7InZU5bMWlxcTHx2PC5fuRC5L5J58+bx2WefMXfuXGxsbMqOkUqlqNVqJJQmJUolElQqFdIKknQe7Vv6AOav+xYXFyOTyVCp1ajUaopKSpDJHk905mE/f7bz14c5e6Ov0a1PL9q1a0efPn24e/cu/v7+bN++nRKVGo0K8oaOHTtGj85dcDE2x0bPiFFV63Hs7g0AcnJy0JVrolb/JXbJo9jVanXZef4Zk/Qv8ahUKjQ0NMjKymLXrl1l63ft2kVqaipeplaM+3wEi6v50LRpU3766ScuX77M6NGjKSwsJDAwkFatWjFw4EAmTZpEjRo1aNeuHRYWb+90qQqZgn6+/Wjj2oafwn9i883NqFFTrCpmacRStkdv5xP/T2jv1h5ZBYnuwpth0ZVFHI49XLY8oc4E3I3dKzGiZ6en0GNWg1n02NmD3KJc7ufcZ/Tx0cxrNA+p5L+TXCgIQuXx6N6apHOXKUjLeOltK2QaeJhavvR23wYyTQXe/TujafRmv8QjCIIg/DeIROlXp7mdDRfT0kktKKzsUP5VFFIp7RztMdbUrOxQBOFfRSROC8JLZi7XY7lHD7pfX06+6uVP5/VfpCOVM9iyNqGGLq+lP4lEQjXzalQzr8YXgV+w9dZW1t9YX1alBSAsKYywpDBMzpnQwa0DnT06Y6dv91riEwRBEARBEARBEAThv6eqWdVyyyW5JSSuSSTvdh4+rX1IS0vDyMio3D43b9xAJpPh61+daX/s5mpKHMunfMWZM2ceaz8sLIzp06fz6dCP+OncQdIkxfj7+xMWFsbt27cpKiqidug7jDiwjttZaXzTZjEXLlwo14ZUIiHs3Hm0tbXxrenPlJM7cTAw4XRcNHcyUpk/5D0OHjxIflIaNjoGNG3a9Knn7Wthx/i6bcuW/0yc/pOdgTFXTx7FwsICC0d7Zpzex/mEGHY0mcGmTZsAOHjwIO3atWPe5KnUd/QkIjWeqynxGNw2xsLCgjt37pAaG4e1nhERqfFlbRtoapMQeZMJp06xbt06wsLC6Nq1K4mJibi4uLBixQrmzJlDQkICnp6e3Lp1661OnP6TmbYZE+pMoKtnV6aenUp4cjgA6QXpjD81njXX1zAqcBQBVgGVHKnw/07GneSn8J/Klnt796aFc4tKjOj5uRi6MClkEp8f+RyAE3En+PnSzwytPrSSIxME4b9AppDj/3k/zkyc+9KrTv9XSeVyTH09sAmpWdmhCIIgCP9RIlH69ZFJpfT3dOPHK5Gi6vRLoiGR4KSvR21L88oORRD+dUTitCC8Am1MfBhp24Af4o6Qp1JWdjhvNU2JBsH6jkxzblMp/RtqGtLbpze9vHtxNvEsa6+v5fC9wxSri4HSB0aLri7i96u/E2IbQjfPboTahoqqO4IgCIIgCIIgCIIgvBTFqmKWXlvKz5d+LltnYWHBupXrkEgkODg44OTkRMeOHenWrRvbt28HQEtDTrC5A2PHjmXr1q0sWrSIT3188PLyokePHjR39S1rr46dK0f27CP201j2HNjPwYMH+aFLF9auXUtBXDJNHbz47LPPWLduHYcOHcLFxYWkpKTSStQSCX/Ou6Yn16SGuR0jR45k586dLF68mMzMTDr5+dG5c2d27tzJsmXLUKvVWFlZUb169X98fcx09HDXNOC7775j7969LF26lGE1a2JqasqihQsZ5F+X8ePHc+jQIezt7bly5QrNq1Zl+vTpXL9ylYkTJ3L8+HGWLVvGgwcPmFCjBseOHeOnn37ij7BzbN++nfT0dFq3bs2GDRv4H3v3GRhVmbZx/D+THkgCoYXeE0KRHgRkVQSlS01EqooFEJEiuFiAFXFBRFQUEFRAARNARDqooChI7yWEmlBCgIQQ0mfmvB/yOrvZ2CU5Kdfvy+5zPzNzrhkgTs65z/MAfPLJJ1y/fp1z585Rv359bt68ycmTJwkODv7b7yc/qVeqHos6LGLT+U28te8tYpNjATgZf5LHNj3GQ9UeYnTT0VQoXuF3XknywsWki4z7fpyzAaBZuWaMajrK5FR/Tbuq7Xii/hN8dPQjAOYemku9UvW4r/J95gYTkSLBr0YV6j3eh2MfL1fz9N9ksVrxKl2Shs8O0LbyIiKSZ9Qoba7y3t70r1Wdz06fJdPx65+7/D4L4OvuxmNBtfRdSiQXWAzD0E8pkVxgGAbdT3zClpuRpP1/k638OVYsVPIoweFGY/F19TQ7jtO1lGt8EfUFK6JWOC8Y/beAYgH0rt2bXoG9KO1V2oSEIiIiIiIiIlIYHL9xnEk7JnEi/gQAKWdTSJ6XTPPmzZ2PuXbtGkePHmXo0KFMmDCBqlWrcs8993B83wGm39+LV79egWtAadq3b8/Vq1dZtWoVTzZojZerGyuunsLX15fAdFcaBVRh6o713NvuAYKCgti7dy8n9x1g8j8exsvVjcFrPiEgIIAGDRpw5MgRJk6cyJUrV9i/7Eu2XTlLq1atOLVrP9Pb9WbqD+tI9Halc+fOWCwWfvjhB7h8A5thx7NqBVq1asWFCxfYunUrLVq04PTuA3i4ulKhYV327t1L58p12JMeT4kSJSiTkMaI5g843++KE/vYmXEDh8PBfd7leDioMddSkpj43WpKVK/Mfffdx8WLF/lq9Wqea9qW+6sGseToT3x57ig9evSgXLlynDx5ks2bN/NuuzDe37uV5OLudOzYEXd3d44fP862bdvIyMigSZMmNG/eHE9PT44fP86hQ4do3LgxkZGRtGnThrJlyxITE8OaNWv48MMP6d+/f57/HckrqbZUFh5dyMdHPybNnuase7h4MLjeYB6v/zjebt4mJizaUm2pDNwwkJPxJwEo612W8C7hBfrcpN1h55mvn+GnKz8B4OPmw7Iuy6jqW9XkZCJSVJxYvIqL3+7Erubpv8zV24vW017Aq1RJs6OIiEghpkbp/Gld9EW+u3JVK0//DR4uVsbeVY/SnvmnX0qkMFHjtEguSrFn0OTgTM6k3cCOvgz8WT4uHuxtOIraXvlzywmbw8b2i9sJPxXOjks7cnz5drW40rZKW8KCwmge0Fx3gImIiIiIiIjIH5JqS2XOoTksPrYYu2F31uuUrEOdlDp8tuszLFh48q4nuTfoXoKDgylZMqsh5dSpU0RGRtKkUWOiP1xO4vmLHL4STdSNqxR39+DuSjXx8/DCYRgcv3aZdLuNBmUr4u7iSpotk58unuF6ajKVfErQrEI1XK0ufHXqIAfc0nBxceHSpUu0atWKDz74gJCQEB6v1AB/r2JcSrpJkH85SnoVAyAq/ipH4y5hsVioUaI09cpUBGBf7AUu3UrAz9Ob8sX9SExPpU6pAKwWC8evXyGgmC+Vff05dv0yGTYb9ctWxNPVzfkZ2B0ODsddxIKFBmUr4mK1AuAwDA7GRnP25nX8PDy5u1JNfNz/c2EpPjWZXZfOkpyZTrlifjQJqEIxdw8Mw+BMwjWOXruEwzCoUNyPBuUq4eXlhUvX1py5FktaWhrVqlWjY8eOzibq3bt3c/36dcqVK8eDDz5IQEBArv+9yA9ik2OZuW8mG85tyFYv612WUU1H0bl6Z50Dy2OGYfDSDy+x5mzWavNuVjcWdljIXWXuMjnZ35eQlkDY2jCuJF8BoFaJWizptERN+iKSJwyHgz2vf8DNqAs4bFog6c+yurvRfMJQSgZWNzuKiIgUMmqULhgchsGCk1FEJd7CptbEP83NauHJOoHU9vM1O4pIoaXGaZFcFpOeQLODb3PDloLjN76sSXZeVjfWBD9B2xK1zY7yh8QkxbDi1ApWRa0iIT0hx3w132qEBoXSrWY3/Dz8TEgoIiIiIiIiIgXB7iu7mbRzEjFJMc6ah4sHwxoNY2DdgbhaXTmXeA4LFqr5VfvN18pISmbHS2+RnpCIYf/rN/WvP32Y/e7pjBs3jnLlyhEdHc2cOXNIj4rmlTZd//Lr5ldWdzfuGtaPgJCGZkfJt/Zf3c+0PdM4fuN4tnrDMg15MeRF6peub1KyomfZyWVM3TXVOX7l7lcIDQo1MdGddezGMQauH0iGIwOADtU6MP0f09WgLyJ5IjMllZ0vv03qtXgMu/33nyBA1nepek/0oWKb5r//YBERkd+hRumCK91uZ9aRE1xLS8Ou9sQ/zM1qoXu1KrQqV9bsKCKFmhqnRfLA6dTr3H34HRJsqb/5BU6yeFndWB40iE7+wWZH+dMy7Bl8feFrwiPD2R+3P8e8h4sHHap1ICwojPql6+sEv4iIiIiIiIgAWRcC3973NiujVmarNw9ozsSWE6nqW/UvvW5aQiI7X36bjMQkjL+4PWq6zcaXkfs5eu0ySRmp+Hl407pyLdpWq4Or1eUvvWZ+pUafP85hOFh9ejXv7H+HG2k3ss09XPNhRjYZSRnv/LmTXGFxIO4Aj298HJuRtRJqj1o9mNxqcqE75/jl6S955cdXnOMXmr3AwHoDTUwkIkVJxq3b7HzlbdLiE9U8/QdY3d2oM6A7VR5oZXYUEREpoNQoXbik2my8feQ48enp2NUu9bvcrFY6Va7IfRWKxs5mImZS47RIHolMiaP1kfe4aUvVytO/wcvqxrLA/nQrVfBXpYlKiGL5qeWsObOG25m3c8wH+wcTGhRKp+qdtL2kiIiIiIiISBG25cIWpu6ayvXU686aj5sPY5qNoWftnn+7CTLtxk12vjqLjFtJf2vl6cLO6u5G3cG9qHRfC7OjFCi3M24z/8h8Pj3+KZmOTGfd29WbJ+96kgF1B+Dh4mFiwsLpWso1wtaGcS31GgD1StVjUcdFhfazfm3na0ScigDAxeLC/Afn0zxANziISN5IT0zip1dnqXn6d1jd3Qh6tCtVH2xjdhQRESlA1Chd+CVn2njn6HHi0zO08vRvcLNaeahSBR6oWN7sKCJFghqnRfLQmdTrtDr8Lgn2VGyGLlL9L2+rGyvqDKZDyTpmR7mjUjJTWH9uPRGREZyIP5FjvrhbcbrW7EpoYCi1StYyIaGIiIiIiIiImCEuJY6pu6byTfQ32ertqrRjQosJd3S13rSERL5/8U3st5Ox6IxwDlZ3N+o/9QgVWjUxO0qBFX0rmhl7Z7A1Zmu2eqXilRjbfCxtK7ctdCshmyXTnskTm5/gQNwBAEp4lCC8SzgVilcwOVnuybBn8Nimxzh87TAA/p7+hHcJJ6CYVuESkbyRces2P016h7TrN3HYbGbHyXes7m7UHdSTSvffbXYUERHJ59QoXTSl2Gy8d/QE19PSsalVMQc3q5UuVSryj/L6HVckr6hxWiSPXUpP5MFjczmfHk+qQydWADAcFLO6s6n+M7TyrW52mlxjGAZHrh8hIjKCjec3km5Pz/GYpuWaEhoYSruq7XB3cTchpYiIiIiIiIjkNsMwWBm1kpl7Z5KUmeSsl/YqzUstXqJd1Xa5ctyj+w5w7fONZF5LwJGR+ftPKAosFlzc3Wj0/GOUaVi4buY3y87LO5m+Zzqnb57OVm8R0IJxIeMILBloUrLC441db7D05FIgq4lgbru5tKzQ0uRUue9q8lVC14YSnxYPQIPSDVjYYaHOo4pInslMTmX/WwtIPHcRR3qG2XHyDRcPd+4a3p9yzRqYHUVERPIhNUrLz9Lsdj6JPM35pNtkOLTY5M/crFb61qxG49KlzI4iUqSocVrEBKn2TPqd+ozNN0+R4ijaJ1YsDjtutlRqXj7E4nbv07RcU7Mj5YnE9ERWn17N8lPLOX/rfI55f09/etTqQe/A3lTyqZT3AUVEREREREQkV0TfimbSzknsid2Trd6rdi9GNxuNr7vvHTuWzWZj+/bt3HfffVgsFmw2G1s2bSJ+/Q+Uvm3DyCzaN/VbXV1x9y1O85eGUqx8WbPjFCo2h43lp5bz/sH3SUxPdNatFit9AvswvNFwSnqWNDFhwbXmzBom/DDBOR7VdBSP13/cxER5a0/sHp7c/CR2ww5An8A+vNryVZNTiUhRYjgcnPz0S2K2/lTkb0SzuLrgVsyb5hOG4lNZW8qLiEgWNUrLb3EYBuuiL7I9No7MIt48bQW8XF15pm4glYoVMzuOSJGjxmkRkxiGwdSLXzP14jekOormiZViVnf80m7iF7MDq+HA39Ofzzt/TvniRefkimEY7I7dTXhkOFujt2Izsl+wtGChdcXWhAWF0aZiG1ysLiYlFREREREREZG/w+awsejYIuYcmpNtF6oqPlWY2HIiIeVDcuW4U6ZMIT4+nlq1auHi4kLTpk0ZMGAAK6fO4uLqb4psw4/Vwx2/6pVpMvYJ3Ly9zI5TaCWmJ/LBwQ8Ijwx3NroC+Lj7MLzRcEKDQnGzupmYsGA5GX+SAesHkGZPA6B91fa8de9bWCwWk5PlrU+Pf8r0PdOd48mtJtOzdk8TE4lIUXTp+90c+3hF0f0u5e6GT+XyNB33FO4+avQRESnK1Cgtf8WB6zdYduZ8kW2edrNaKOvpxdPBgfi467yIiBnUOC1iso0JJ+l36jNS7Bmk/9fFg8LMigUPqyuTKj9IP7869F3f17m9YrB/MIs6LsLLtehdsLqWco0vor5gRdQKYpNjc8wHFAugd+3e9ArsRWmv0iYkFBEREREREZG/4viN40zaMYkT8SecNReLC4PqDWJow6F4unresWPZ7XZcXP5z4/Xrr7/O66+/Tq9evZg/fz6enp6MGDECm83G1JEvsHfmR2TcTqEo3aptdXOjasd/EBjaCYvVanacIuF0wmmm75nOzis7s9Vr+NVgXPNxtK7Y2qRkBUdieiJha8O4dPsSkPXZLe28lGJuRa9ZzTAMxm8fz4ZzGwBwt7qzuONi6pWuZ3IyESlqEs9Es//tj8m8nVKkGqit7m5UbtuKoEe7YnUtSt8iRUQE1Cgtd86l5BQ+jowiKTOTTEfRaV90s1poXqY0PapVwVXnpURMo8ZpkXwgwZbC06dXsD7hOCmFfPXpYlZ3anj6Ex40kDre5QDYf3U/T2x+Apsja7XlDtU6MP0f04vcSik/szlsbL+4nfBT4ey4tCPHLxmuFlfaVmlLWFAYzQOaF9nPSURERERERCS/S7WlMufQHBYfW5xttd1g/2AmtZpE3VJ1c+3Y0dHRVKlShW+//ZaPPvqIChUq8Oabb2IYBlFRUfTp04eIiAhqVq3G4Y8juPLjflwK+Zliq7sbHiV8aTRyEH7VK5sdp8gxDINtMduYsXcG0UnR2eburXQvY5uNpZpfNVOy5Xd2h53h3w7nx0s/AlDMrRhLOy+lhl8Nk5OZJyUzhf4b+hOVEAVkLToR3iUcf09/k5OJSFFjz8ggcukaLm7bVeibp63ubrj7FKPRc4MoUbua2XFERCSPqFFacpPN4WB99EV+uBpX6Jun3SwWvFxdGRhYk5q++jchYjY1TovkI2vijzE4ahkp9kzSDZvZce6on1eZfrVye8ZWvB8XS/a7ppafWs6/dv7LOR7ZZCRDGgzJ65j5TkxSDCtOrWBV1CoS0hNyzFfzrUZoUCjdanbDz8PPhIQiIiIiIiIi8kt2X9nNpJ2TiEmKcdY8XDwY1mgYA+sOxNXqekeO878rTEdERDB16lQaNGiAh4cHCxYs4OLFi3Tq1IklS5bQoEEDAF588UWOHj3K2rVrAbhx/DSH3luMLTWt8DX9WCxY3Vyp+lAbavfpiNX1znz28tdk2DNYcmIJ8w7PIzkz2Vl3tbrSr04/nm74tC6q/4/ZB2Yz7/A853jWfbN4oOoDJibKH6JvRfPI2kdIykwCoEX5FsxtN/eO/XwVEfkzEk6d4+C7iwrt6tNZq0y3JPCRLrhoO3kRkUJNjdJihujbySw6dZqkTBuZDofZce64n1eZfrhqZdxdtGOHSH6gxmmRfCbBlsIrFzbwcdxubA4HNgr+FwJvqxv3+Fbnneo9CPIu+6uPm/LTFMIjwwGwYOHdtu9yX+X78ihl/pZhz+DrC18THhnO/rj9OeY9XDzoUK0DYUFh1C9dX6tQi4iIiIiIiJgkMT2Rt/e9zcqoldnqzQOaM7HlRKr6Vr0jx3E4HFj/ZzvPvXv38sYbb/DGG2/g6+tLxYoVWbx4Mf369ePFF1/k8uXLLF68mG3btlG9enUWLlzIhAkTcHPLan7JTE3j7KotXNi8HcPhwLDZf+nQBYqLhzs+VStQd3BvfKtVNDuO/Jfrqdd578B7rIpale0ivL+nP881fo7utbrjYtXFxK3RW3lu63PO8ZAGQxjZZKSJifKX7y9+z/BvhjvHj9V/jNFNR5uYSESKMntGBmdWf835ddvAMHBkFvxFklw83ClWsRz1HuuNX80qZscREZFcoEZpyS9sDgffXo7lm0tXcBgGtkLQ0uhutVLK04M+NapS3Uf/TkTyEzVOi+RTF9LiGX9+LV8lHCPDYcfxG19M86tiVnfqeJXlvZo9udvn9y8KZjoyeWrzU+y9ujfr+W7FWNppKTVKFN0tJ39JVEIUEZERrDm7JtuqPD8L9g8mNCiUTtU74e3mbUJCERERERERkaJpy4UtTN01leup1501HzcfxjQbQ8/aPXPlRufo6GiGDRvGp59+SsmSJbl9+zbz589n2bJlBAUFceTIEX788UcyMjJo3749qampPPjgg0ydOhUvL69ffM20hERORawndscBHHYbFMCtUl083PEsVZK6j/WiVL3aZseR33DsxjGm7Z7GgbgD2ep1/Oswvvl4mgU0MymZ+c4nnqfvur7czrwNQMvyLZnTbo4ayv/HnINz+ODQB87xzPtm0r5qexMTiUhRl3HrNlErNnLpu90YDjuGveAtkuTi4Y5HCV+CB/ei9F1BWrBHRKQQUaO05HfJmTY2X7rMzqtxOAwDe8E7LYW71UoxN1d6VqtKvZJ++i4lkg+pcVoknzuafIUXzq/hu8QzODDIMPL3Sj9WLHhaXanm4c+M6t14qMSfO5kSnxZP37V9uZx8GYAqPlVY2nkpfh5+uRW5wErJTGH9ufVEREZwIv5EjvnibsXpWrMroYGh1CpZy4SEIiIiIiIiIkVDXEocU3dN5Zvob7LV21Vpx4QWEyjjXeaOH/PcuXM8//zz1KlTh3nz5jFgwADee+89zp8/z/Dhw/nss88oWbIkAQEBDB06lIkTJxIVFUVmZiZ169Z1vs4vrVz9s5ULP8Wx9yQe15JwdXXBmt/PJFssuLi74e7nQ9CjXSnX/C5dmCogDMNg0/lNvLXvLWKTY7PNPVTtIUY3HU2F4hVMSmeOlMwU+q3vx+mbpwGoUKwC4V3CKeFZwtxg+ZDDcDDi2xF8f/F7ALxdvVnaeSk1S9Q0OZmIFHWp1+KJ/HwtcXuPgAUcGfl/BWoXD3fcinsT2Lcr5e9uhOVXvieKiEjBoUZpKahupmewPuYiB67HY7FAZgG4sd/dasXTxYXOVSrSrExprDovJZJvqXFapICITk/g/Ss/Mi92J4ZhkORINztSNt5WNxyGQc9SDRhV8V6aFq/8l18rMj6SARsGkGpLBaBVhVa8/8D7uFpd71TcQsUwDI5cP0JEZAQbz28k3Z7z70bTck0JDQylXdV2uLu4m5BSREREREREpPAxDIOVUSuZuXcmSZlJznppr9K81OIl2lVtd0eOYRhGjubmN998k3PnzvHBBx/w1Vdf0b9/f44dO0ZycjITJkzg5ZdfJi0tjZdffpnatWsze/Zs3NzcfvE1HQ4HFoslW5NxeHg4kyZN4p133mH3d9s5u+l7Hm3cGsPuwJ6Wv85LWd3cAIPSDetQvfP9lAisrobpAirVlsrCowv5+OjHpNnTnHUPFw8G1xvM4/UfLxI7rBmGwQvfv8Cm85uArPe/uONi6paq+zvPLLoS0xPpu64vMUkxAFTzrcayzsso7l7c5GQiIlkrUMd8u5MLG7/HnpGZD79LZV1/869Xm+pd2uIfXFPfpURECjA1Skthk5xp46e4a3x3JZYMu4N0R/7azcP1/7831fD1oW2FAGr7+aphWqQAUOO0SAGT4bDxxY0jzLr8PQeTL+FhcTWtifrnZumKHn48E9CKx8uFUNL1zly42Hx+M2O+G+McD6o7iLHNx96R1y7MEtMTWX16NctPLef8rfM55v09/elRqwe9A3tTyadS3gcUERERERERKSQu3LrA5J2T2RO7J1u9V+1ejG42Gl933zt6vPj4eDZu3Ej79u0pU6YMvXv35umnn6Z9+/YAPPXUU6SlpbF48WLeeustPvvsMzw9PZkxYwatW7f+1dc1DMPZGHPp0iUqVqwIwMSJEwkMDKRfv34A9O3bF9/iPvzrqRGcW7+NxDMXsLq5Yk8157yU9f+bwN19i1Hp/rup/EArPPx0YbewiE2OZea+mWw4tyFbvax3WUY1HUXn6p0LdUPXomOLmLF3hnM8pfUUHq71sImJCob/XZCjbeW2vH3/21gtWi1VRPIHw+Hg2qETnF+3jZunzmNxczHxu5QrWCy4Ffem0j9CqNy+NZ4ltfuriEhBpEZpKSochsGpxFtsuxzLmVtJuFotpNnNaaJ2/f8FCDxdXGhephT3BJSlpIeHKVlE5K9R47RIAZZoS2Vjwkk+v36ALTdP4WqxkmHYSXPkzlZfbrjg5eJGmiOTZsUr069MU7r4B1PZo2SuHG/2gdnMOzzPOX79ntfpVrNbrhyrsDEMg92xuwmPDGdr9FZsRva/ExYstK7YmrCgMNpUbIOL1cWkpCIiIiIiIiIFS6Yjk8XHFjPn0Jxsuz5V8anCxJYTCSkf8rePYbfbcXFxweFwYLVaefPNNwkPD6dDhw4cP36c559/nl27drFz506++OILACIiIhg8eDCHDx+mVq1aHDhwgMaNG+d4zf/9/wBnzpxh0qRJXLhwgdatWzNw4EBWrFjBmTNnWLhwIQBbtmwhNDSU48ePU758eTJT04g/eoorOw9w7eAJIKsZyJGR+bff/y+yWnH1cMeemYlP5fKUb92Uck3r412udO4cT/KF/Vf3M23PNI7fOJ6t3rBMQ14MeZH6peublCz37L6ym6e2PIXdsAMQFhTGy3e/bHKqgmP92fWM3z7eOR7ZZCRDGgwxMZGIyC+zp2dw4+gprvx0kGv7j2XtCJJH36WKVwygQusmlG1an2Lly+bO8UREJNeoUVoEMuwOTt+6xcEb8RyNv4n9/9sfM3JpNWoL4OHiQqbDQVkvT5qU9qeBf0nKenoW6hu7RQozNU6LFBKZDjt7b8ewL/ki2xPPsvt2NJcyEvG2ugEWbIadVEfmb3xd/g9PiyvuVhfAQpojEz8XTxoXr8S9vjVo5lOZu4tXxcfVM5ffETgMB89vfZ6tMVsBcLe6s7DDQhqUaZDrxy5MrqVc44uoL1gRtYLY5Ngc8wHFAuhduze9AntR2ksXG0VERERERER+zfEbx5m0YxIn4k84ay4WFwbVG8TQhkPx/JvnS/63oTkzMxM3Nzdef/11xowZw5EjR+jbty+PPvooL7/8MjVr1mTGjBk0bNiQiIgIvvvuO6pXr86CBQt+8TUzMzM5cOAAZcuWpVq1as65MWPG0KJFC7p37063bt3w8/Nj7ty51KxZk2+++YbGjRvz5Zdf8swzzzBkyBCmTJmSLbfhcHDr/EUSz8aQEHmWm1EXSLuRgNXdDQsWDLsDe2YGf+TElNXVFYubCxYs2DMzcfHwwLdqBfzr1sKvRhVK1KqKW/E7s+OZFAwOw8Hq06t5Z/873Ei7kW3u4ZoPM7LJSMp4lzEp3Z0VmxxL2Now4tPigawG8U8e+gQ3FzeTkxUs03ZP47MTnwFZC0jMbTeXVhVbmZxKROTXGQ4HSdGXSTwTTULkOW5GnSf1evx/vks5HNgzMuEPXNa3uLpkfZ+yWHDYbFjd3PCpWgH/4Jr41axCiVrVcPcplgfvSkRE7hQ1Sov8NodhcCUllZjbyZxNSuJ80m3i0zOcq0I7DINMh+MP9Uu5WCzO59kcDlytVip4e1HT14cqxYtTzacYxd30O7pIYaDGaZFCLMWewYnUq1zOuMWVjFtczkjkbNoNLqYnkm7YyDQcGIaBm9UFN4uVcm4+1PAsRSWPEpR386W8uw9BXmUp5WbeCZTkzGT6r+/P6ZunASjrVZbPu3xeaC6G5CWbw8b2i9sJPxXOjks7cvwy5WpxpW2VtoQFhdE8oLnuihMRERERERH5f6m2VOYcmsPiY4udq8ACBPsHM6nVJOqWqntHjxceHs7UqVNp3749TZs25d///jdVq1YlKSmJ559/nocffhiA9evX8+233/LVV18xfvx4/Pz8OH78OK+88sqv/l4/e/Zsrly5QmxsLBUqVGDw4MGMHz+e7t27M2/ePKpXr86rr75KrVq1mDFjBgcPHiQyMpJy5crx+uuv07Bhwz/0HhyZNm5fukpawk3SbyaRHp9IStwN0uJv4sjIxGG3g8PIau5xccHNtxjeZUrhWbokniV88Sjhi3f5Mnj46eKuZLmdcZv5R+bz6fFPyXT8ZzVOb1dvnrzrSQbUHYCHS8HdFjfdns7gDYM5euMoAKU8SxHRNYKy3loJ9M/KdGTy5OYn2Xd1HwB+Hn6EdwmnYvGKJicTEfnjHDYbyZfjSLtxk/Sbt0hLuEVq3A1SbyTk+C5lcbHi7lMc77Kl8CxVAo+SvniW8MM7oDQeJXzNfisiIvInqVFa5O+zOxxcTU0jMSODW5mZJGZkcCMtg4T0dDIdDuxG1r8qF4sFq8VCMVdXSnl4UNLTHV83N3zd3Snt6YGfu7vZb0VEcokap0Uk34u5FcMj6x7hVsYtAO4qfRcfd/i4QF8IMVtMUgwrTq1gVdQqEtITcsxX861GaFAo3Wp2w8/Dz4SEIiIiIiIiIvnD7iu7mbRzEjFJMc6ah4sHwxoNY2DdgbhaXe/Ysc6dO8ezzz5LgwYNePjhh1m6dCk1atRg7ty5tG3bljlz5gBw7do1NmzYwMCBA4GslaT37NnDqFGjePbZZxkwYIDzNf93FeuFCxfyzDPP0KlTJz788ENKly7N3XffTUpKCuvXr6dSpUpZ73v3bkJCQrh16xbbt2+nc+fOd+x9ivwd0beimbF3hnOXup9VKl6Jsc3G0rZK2wK5IMCkHZNYGbUSyFrgYMFDC2harqnJqQqu66nXCVsTRlxqHJB1o8vijov/9s4AIiIiIiJ3mhqlRURE8p4ap0WkQNh5eSdDvx7qXNXp4ZoP81rr1wrkRZD8JMOewdcXviY8Mpz9cftzzHu4eNChWgfCgsKoX7q+Pm8REREREREpMhLTE5m5byZfRH2Rrd48oDkTW06kqm/VO37MGzduEBQUxEsvvcSoUaPYsWMH3333HYcOHeLw4cNMmTKFU6dOsXjxYgYNGsSYMWPIzMxk+fLlLFiwgNdee417770XwzBy/A6/efNm7r//fuLi4njvvfcoWbIkjz/+OGXKlGH58uVMmjSJn376iVu3bvGvf/2LjIwMpk2bRtmyWu1W8qedl3cyfc905051P2sR0IJxIeMILBloUrI/b+WplUzaOck5fjHkRfoF9zMvUCFx6NohBm8cjM1hA6BbzW5MaT1F5zhFRERExFRqlBYRETGfGqdFpMD47PhnTNszzTke33w8/ev2NzFR4RKVEEVEZARrzq4hOTM5x3ywfzChQaF0qt4JbzdvExKKiIiIiIiI5I0tF7YwdddUrqded9Z83HwY02wMPWv3zNWmu3feeYcvvviC7777DoB58+aRkJBASkoK/v7+HDx4kBdeeIF69eo5n5OUlISPT9ZF0/Xr15OYmEjfvn0BWLZsGTNmzKBSpUo0aNCArl27UqVKFUaPHk1YWBjdu3cH4LnnniM5OZn9+/fz4IMPMnHiRLy99fu/5G82h43lp5bz/sH3SUxPdNatFit9AvswvNFwSnqWNDHh7zty7QiDNg4i05EJQKfqnfh3m3+rufcOiYiM4LWfXnOOX2rxEo/UecTERCIiIiJS1KhRWkREJP9R47SIFBiGYfDKj6+w+sxqAFwsLsxpN4eWFVqanKxwSclMYf259URERnAi/kSO+eJuxelasyuhgaHUKlnLhIQiIiIiIiIiuSMuJY6pu6byTfQ32ertqrRjQosJlPEuk+sZbt++TadOnXj22WcJDQ1l3759LFq0iHbt2tGtWzfn4xwOBwBWqzXb86dMmUJiYiLDhw/Hw8ODefPm8dRTT3H79m369u1L3bp1+fDDD/nwww+5cuUKjzzyCHFxcbRu3RqAjIwMSpbM342mIv8rMT2RDw5+QHhkuHPHOgAfdx+GNxpOaFAoblY3ExP+svi0eMLWhhGbHAtAYMlAPu34qRYtuIMMw+DVHa/y5ekvAXC1uvLJQ5/QqGwjU3OJiIiISOGlRmkREZH8T43TIlKgZNgzeGzTYxy+dhgAX3dflnVeRhXfKiYnK3wMw+DI9SNEREaw8fxG0u3pOR7TtFxTQgNDaVe1He4u7iakFBEREREREfn7DMNgZdRKZu6dSVJmkrNe2qs0L7V4iXZV2+VpniVLlvDmm29y8OBBAK5cuUL58uWd8w6Hw9kw7XA4sFgsztVpDx8+zCeffELjxo0ZOHAgqampfPLJJ8ydO5cePXpw9epV2rRpQ5cuXZg1axaff/45jRo1YsGCBXh7e2uVWynQTiecZvqe6ey8sjNbvYZfDcY1H0friq1NSpaTzWHjmS3PsCt2F5DV5B3eOZzKvpVNTlb4pNnSGLhhoHORiDJeZYjoGkFpr9ImJxMRERGRwuCvNErX9a9L84DmNAtopkZpERERE6hxWkQKnGsp13hk7SPEpcYBUNOvJks6L6GYWzGTkxVeiemJrD69muWnlnP+1vkc8/6e/vSo1YPegb2p5FMp7wOKiIiIiIiI/EUXbl1g8s7J7Indk63eq3YvRjcbja+7b55nSktLY+jQobz66qtUq1bN2cxsGMavNjZHRkZStWpVPD09WbBgASdOnOCJJ56gVq1aPPbYY7z77ruUKlWKhx9+mOTkZD7++GOqVKnC5cuXqVChQl6+PZFcZRgG22K2MWPvDKKTorPN3VvpXsY2G0s1v2qmZPtvM/fO5JNjnwBgwcLsB2bzj0r/MDlV4XX59mXC1oZxM/0mAE3KNmHBQwvy5UrkIiIiIpK/qVFaRESk4FPjtIgUSEevH2XQhkFkODIAuL/y/cy6fxZWi/V3nil/h2EY7I7dTXhkOFujt2IzbNnmLVhoXbE1YUFhtKnYBheri0lJRURERERERH5bpiOTxccWM+fQnGy7LFXxqcLElhMJKR9iYrpfZxgGhmE4V5yOiYlhwoQJREZG0rZtWypVqsRjjz3GP//5T+666y6GDBlCiRIlCA8Px8vLi/fee4+QkBD69u1LpUq6+VkKrwx7BktOLGHe4XkkZyY7665WV/rV6cfTDZ82rVlh0/lNjP1urHM8rNEwhjYcakqWomTH5R0M/XooDsMBQP/g/owPGW9yKhERERHJ79QoLSIiUviocVpECqw1Z9Yw4YcJzvHTdz3Ns42fNTFR0XIt5Roro1ay4tQKrqZczTEfUCyA3rV70yuwl7a9FBERERERkXzl+I3jTNoxiRPxJ5w1F4sLg+oNYmjDoXi6epqY7j8cDoezQfp/x7GxsdhsNrZt2wZA//79GTNmDCtXruTs2bMsXLiQw4cP88orr/DDDz+wcOFCzp49y5tvvsmDDz5oxtsRMcX11Ou8d+A9VkWtytbc4O/pz3ONn6N7re55evP/mZtn6LuuL6m2VCBrFex3276rBSHyyIIjC3hn/zvO8Rtt3qBLjS4mJhIRERGR/EaN0iIiIoWfGqdFpECbsWcGi44v+s/43hk8VO0hExMVPTaHje0XtxN+Kpwdl3bk+KXR1eLK/VXuJywojJCAkF/dUlhEREREREQkt6XaUplzaA6Ljy3Gbtid9WD/YCa1mkTdUnVNTPfr7HY7Li5ZjZ2ZmZl8/vnnfPDBB4waNYrFixdz99138+2331K+fHleffVVgoKCuHjxIv/+97+pXLky48aNIykpCV9fX5PfiYh5jt04xrTd0zgQdyBbvY5/HcY3H0+zgGa5niEpI4lH1z3K+VvngawV7pd1WYavu/5t5hXDMBi1bRTfRH8DgKeLJ591+owg/yCTk4mIiIiIWdQoLSIiUvSocVpECjS7w86wb4ax4/IOALxcvVjccTF1/OuYnKxoikmKYcWpFayKWkVCekKO+Wq+1QgNCqVbzW74efiZkFBERERERESKql1XdjF552RikmKcNQ8XD4Y1GsbAugNxtbqamO6XGYbhvAHZbrfz1VdfsWHDBs6cOcPkyZO55557GD9+PAsWLODYsWMEBAQAsHnzZh544AHWrVuHv78/99xzj5lvQyTfMAyDTec38da+t4hNjs0291C1hxjddDQVilfIlWM7DAfPb32erTFbgazzmEs6LaF2ydq5cjz5dbczbvPo+kc5l3gOgErFK/F5l891vlJERESkiFCjtIiIiKhxWkQKvMT0RPqt78eFWxcAqFCsAsu6LMPf09/kZEVXhj2DLRe2EBEZwf64/TnmPVw86FCtA2FBYdQvXV+rUIuIiIiIiEiuSUxPZOa+mXwR9UW2ekhACBNbTqSKbxWTkv26/26YBvjxxx+ZPHkynTp1okyZMnz88ceMGTOGTp06cfnyZVq0aMGiRYuoWLEis2bN4ty5c8yZM4fq1av/6WOJFAWptlQWHl3Ix0c/Js2e5qx7uHgwuN5gHq//ON5u3nf0mPMPz+fdA+86x9P/MZ2O1Tve0WPIH3c28SyPrnuU5MxkAO6peA/vP/A+VovV5GQiIiIicqepUVpERET+lxqnRaRQOHvzLI+u/8+J7mblmvHhgx/iZnUzOZlEJUQRERnBmrNrnH8+/y3YP5jQoFA6Ve90xy9IiYiIiIiISNG25cIWpu6ayvXU686aj5sPY5qNoWftnvmuYdjhcGC1Zm/aW7duHa+//jr169fnww8/BODpp5+mcePGhIaG4u/vz6JFizh06BA7duzg/vvv5+WXX6ZYsWK/eazkzGSsFiterl659n5E8rvY5Fhm7pvJhnMbstXLepdlVNNRdK7e+Y78nPjx0o8M/XqoszljYN2BvND8hb/9uvL3fH3ha0ZtG+UcP9PwGYY3Gm5iIhERERG5E9QoLSIiIr9HjdMiUmh8F/MdI74d4fylJywojJfvftnkVPKzlMwU1p9bT0RkBCfiT+SYL+5WnK41uxIaGEqtkrVMSCgiIiIiIiKFRVxKHFN3TeWb6G+y1dtVaceEFhMo413GpGR/zJo1azh06BB9+vQhKCiIUaNG4XA4ePnllylTpgxfffUVa9euZfDgwbRq1cr5vNu3b1O8ePHffO2UzBTS7eksPbGUoY2GanVVEWD/1f1M2zON4zeOZ6s3LNOQF0NepH7p+n/5tS8mXSRsbRi3Mm4BWQs+zH9wPq5W17+VWe6MWftm8dHRj5zj99q+x32V7zMvkIiIiIj8aWqUFhERkT9LjdMiUqgsOLKAd/a/4xy/2vJV+gT2MTGR/C/DMDhy/QgRkRFsPL+RdHt6jsc0LdeU0MBQ2lVth7uLuwkpRUREREREpCAyDIOVUSuZuXcmSZlJznppr9K81OIl2lVtZ2K6nBwOBxaLBYvFgmEY2Gw2nn76ac6fP88999zDDz/8wJNPPkndunWZOXMmTz/9tLNRetCgQQQHB/Pss8/+brM0gMNwkJKZwgcHP+DzyM+Zed9MNQeK/BeH4WD16dW8s/8dbqTdyDb3cM2HGdlk5J++6SLVlsrADQM5GX8SyFrJOrxLOKW9St+x3PL32B12nvn6GX668hOQtSvBsi7LqOpb1eRkIiIiIvJr1CgtIiIif5cap0WkUDEMg3Hfj2Pj+Y0AuFpcWfDQApqWa2pyMvkliemJrD69muWnlnP+1vkc8/6e/vSo1YPegb2p5FMp7wOKiIiIiIhIgXHh1gUm75zMntg92eq9avdidLPR+Lr7mpTslxmGgcViASAyMpJSpUrh5eXF8OHDeeedd/Dz82PHjh306tWLK1euMG7cOMqVK0f//v0pV64cBw4coHTp0lSuXPkPHe/7i9/zwncvkGJLoUHpBizptMR5fBH5j9sZt5l/ZD6fHv+UTEems+7t6s2Tdz3JgLoD8HDx+N3XMQyDl354iTVn1wDgZnVjYYeF3FXmrlzLLn9NQloCYWvDuJJ8BYBaJWqxpNMSvN28TU4mIiIiIqBGaREREbnz1DgtIoVOqi2VQRsGcSL+BJDVfPt5588pX7y8ycnk1xiGwe7Y3YRHhrM1eis2w5Zt3oKF1hVbExYURpuKbXCxupiUVERERERERPKbTEcmi48tZs6hOdl2NariU4WJLScSUj7ExHRZzt48S4XiFfB09cxWv3TpEqNGjeLy5cvMnDmTUqVK0bFjR44ePYqrqytWq5UHHniAESNGULZsWd58800mTpxIo0aN/tTxL92+RJcvujh/3/6w/Ye0rNDyTr09kUIp+lY0M/bOYGvM1mz1SsUrMbbZWNpWafubNx8sO7mMqbumOsev3P0KoUGhuZZX/p5jN44xcP1AMhwZAHSo1oHp/5iuG0xERERETKBGaREREcltapwWkULpyu0rPLLuEeLT4gEI9g9mUcdFeLl6mZxMfs+1lGusjFrJilMruJpyNcd8QLEAetfuTa/AXtrWVEREREREpIg7fuM4k3ZMct48DeBicWFQvUEMbTg0R6NyXotLiWPWvlmsObuGZZ2XUbdUXawWKwAOh4NJkybh7u7Oyy+/7HxOhw4daNKkCVOnZjVcDh8+nMGDB9O8eXNOnDhBcHDwn84xYfsE56q3zQOa89GDH6kZUOQP2nl5J9P3TOf0zdPZ6i0CWjAuZByBJQNzPOdA3AEe3/i482aFHrV6MLnVZP27y+e+PP0lr/z4inP8QrMXGFhvoImJRERERIoGNUqLiIhIXlPjtIgUWvuv7ueJzU9gc2RdoNAqIQWLzWFj+8XthJ8KZ8elHTl+OXa1uHJ/lfsJCwojJCBEf64iIiIiIiJFSKotlTmH5rD42GLsht1ZD/YPZlKrSdQtVdfEdJBuT2fxscXMPzKfVFsqAHeVvosFDy3IdlN369atmTx5Mu3atSM5OZlixYoRFRVF37596dChA8ePHyc+Pp4lS5ZQsWLFv5TlzM0z9Fjdw/l79eKOi2lctvHff5MiRYjNYWP5qeW8f/B9EtMTnXWrxUqfwD4MbzSckp4lgaxFAcLWhnEt9RoA9UrVY1HHRXi4eJiSXf6c13a+RsSpCCDrRpz5D86neUBzk1OJiIiIFC63Mm5lNUrH7mFP7B41SouIiEieU+O0iBRqy08t5187/+Ucj2wykiENhpiYSP6KmKQYVpxawaqoVSSkJ+SYr+ZbjdCgULrV7Iafh58JCUVERERERCSv7Lqyi8k7JxOTFOOsebh4MKzRMAbWHYir1dW0bIZh8HX017y19y0u3b6Ube6BKg/wRps3nI3TNpuNyZMnU7NmTQYPHpztsVeuXGHTpk1kZGTw1FNP/a1Mo7eNZsuFLQDcU/Ee5rSb87deT6QoS0xP5IODHxAeGZ7tpg0fdx+GNxpOj1o9eObrZzgQdwCAkh4lCe8STvni5c2KLH9Shj2DxzY9xuFrhwHw9/QnvEs4AcUCTE4mIiIiUnCpUVpERETyGzVOi0ihN+WnKYRHhgNgwcK7bd/lvsr3mRtK/pIMewZbLmwhIjKC/XH7c8x7uHjQoVoHwoLCqF+6vlahFhERERERKUQS0xOZuW8mX0R9ka0eEhDCxJYTqeJbxaRkWSLjI5m2Zxp7Yvdkq9cuWZvxzcfTonyLHM9ZuXIl69evp0OHDnTt2pVx48ZRvnx5/vnPf96RTCdunCB0bahzHN4l3PTVuEUKg9MJp5m+Zzo7r+zMVvd19+VWxi0gq9ljXvt53F3+bjMiyt9wNfkqoWtDiU+LB7J2DPikwye4u7ibnExERESkYFCjtIiIiOR3apwWkUIv05HJU5ufYu/VvQAUcyvG0k5LqVGihsnJ5O+ISogiIjKCNWfXkJyZnGM+2D+Y0KBQOlXvhLebtwkJRURERERE5E7ZcmELU3dN5XrqdWfNx82HMc3G0LN2T1NvnI1Pi2f2gdmsjFqJw3A46yU8SvBso2fpFdjrV1fBttvtrFq1iiVLlnDmzBk6derExIkT8fLyuiPZhn09jO2XtgPQvmp7Zt438468rohkrTC/LWYbM/bOIDopOsf84HqDGdNsTN4Hkztib+xehmwe4lxZvE9gH15t+arJqURERETyJzVKi4iISEGjxmkRKRLi0+Lpu7Yvl5MvA1DFpwpLOy/Fz8PP5GTyd6VkprD+3HoiIiM4EX8ix3xxt+J0rdmV0MBQapWsZUJCERERERER+aviUuKYumsq30R/k63erko7JrSYQBnvMiYlg0x7JstOLmPuobkkZSY56y4WF/rW6cszDZ/5w+cdEhMTsVgs+Pr63rF8B+MOMmDDACBrB65VD6+iZomad+z1RSRLhj2Dt/e9zWcnPstWd7G40D+4P083fFpNIAXUp8c/Zfqe6c7x5FaT6Vm7p4mJRERERPIHNUqLiIhIQafGaREpMiLjIxmwYQCptlQAWlVoxfsPvP+rqz5JwWIYBkeuHyEiMoKN5zeSbk/P8ZgmZZsQFhRGu6rttLWmiIiIiIhIPuYwHHwR9QUz987M1pRcxqsME1pMoF3Vdiamg+0XtzN9z3TO3zqfrd66QmteaP5CvmhQfmLTE+yO3Q1AlxpdeKPNGyYnEimcEtMTCVsbxqXbl35x3t/Tn+caP0f3Wt1xsbrkcTr5OwzDYPz28Ww4twEAd6s7izsupl7peiYnExEREclbapQWERGRwkaN0yJSpGw+v5kx3/1ni8xBdQcxtvlYExNJbkhMT2T16dUsP7U8x0VsyLpg1aNWD3oH9qaST6W8DygiIiIiIiK/6sKtC0zeOZk9sXuy1XvV7sXoZqPxdb9zqzL/WecSz/HmnjfZfml7tnpV36qMaz6ONhXbYLFYTEr3Hz9d+YknNz8JgKvFla+6f0Vl38ompxIpfOwOO8O/Hc6Pl34EoJhbMf7V+l98dvwzDsQdyPbYOv51GN98PM0CmpkRVf6ilMwU+m/oT1RCFAABxQII7xKOv6e/yclEREREco8apUVERKSwU+O0iBQ5sw/MZt7hec7x6/e8Trea3UxMJLnFMAx2xe4iIjKCrdFbsRm2bPMWLLSu2JqwoDDaVGyjVX9ERERERERMlOnIZPGxxcw5NCfbLkJVfKowseVEQsqHmJbtVsYt5h6ay7ITy7L9blncrTjPNHyGR+s8ipuLm2n5/pthGPRf35/D1w8D0DuwNxNbTjQ5lUjh9L/nGWfdN4sHqj6AYRhsOr+Jt/a9RWxybLbnPFTtIUY3HU2F4hXyOq78RdG3onlk7SPOHRBalG/B3HZztZOhiIiIFBpqlBYREZGiRo3TIlLkOAwHz299nq0xW4GsLRYXdlhIgzINTE4muelayjVWRq1kxakVXE25mmM+oFgAvWv3pldgL0p7lTYhoYiIiIiISNF1/MZxJu2YxIn4E86ai8WFQfUGMbThUDxdPU3JZXfYWRm1ktkHZpOQnuCsW7DQs3ZPRjQeQSmvUqZk+zXfxXzHs98+C2Sd81jXcx0BxQJMTiVS+GyN3spzW59zjoc0GMLIJiOzPSbVlsrCowv5+OjHpNnTnHUPFw8G1xvM4/Ufx9vNO88yy1/3/cXvGf7NcOf4sfqPMbrpaBMTiYiIiPx1apQWERGRok6N0yJSJCVnJtN/fX9O3zwNQFmvsnze5XPKeJcxOZnkNpvDxvaL2wk/Fc6OSztynARwtbhyf5X7CQsKIyQgJF9ssSwiIiIiIlJYpdpSmXNwDouPL8Zu2J31YP9gJrWaRN1SdU3Ltid2D9N2TyMyITJbvWm5poxvPp7gUsEmJft1DsNB6JpQZ+b+wf0ZHzLe5FQihc/5xPP0XdeX25m3AWhZviVz2s351d3MYpNjmblvJhvObchWL+tdllFNR9G5emedgyoA5hycwweHPnCOZ943k/ZV25uYSEREROSPUaO0iIiISHZqnBaRIivmVgyPrHuEWxm3ALir9F183OFjPFw8TE4meSUmKYYVp1awKmpVtpXDflbNtxqhQaF0q9kNPw8/ExKKiIiIiIgUXruu7GLyzsnEJMU4ax4uHgxrNIyBdQfianU1JdfFpIvM3DeTLRe2ZKuXL1aeMc3G8GDVB/Ntg+PG8xt54bsXAPBy9WJ9z/XaVUnkDkvJTKHf+n7OBRkqFKtAeJdwSniW+N3n7r+6n2l7pnH8xvFs9YZlGvJiyIvUL10/NyLLHeIwHIz4dgTfX/weAG9Xb5Z2XkrNEjVNTiYiIiKSnRqlRURERH6bGqdFpEjbeXknQ78e6lzV6uGaD/Na69fy7QVQyR0Z9gy2XNhCRGQE++P255j3cPGgQ7UOhAWFUb90ff39EBERERER+RsS0xOZuW8mX0R9ka0eEhDCxJYTqeJbxZRcKZkpLDiygEXHFpHhyHDWvVy9eKL+EwyqNwhPV09Tsv0RNoeNHqt7cP7WeQCGNBjCyCYjzQ0lUsgYhsEL37/ApvObgKxzRos7Lv5Tq+M7DAerT6/mnf3vcCPtRra5h2s+zMgmI7UrXj6WmJ5I33V9nTf9VPOtxrLOyyjuXtzkZCIiIlKUqVFaRERE5M9R47SIFHmfHf+MaXumOcfjm4+nf93+JiYSM0UlRBERGcGas2tIzkzOMR/sH0xoUCidqnfC283bhIQiIiIiIiIF15YLW5i6ayrXU687az5uPoxpNoaetXuacqOqw3Cw7uw6Zu2bRVxqXLa5zjU683yT5wkoFpDnuf6s1adX8/KPLwNZn+mGXhu0e5LIHbbo2CJm7J3hHE9pPYWHaz38l17rdsZt5h+Zz6fHPyXTkemse7t68+RdTzKg7gDtjJdPRcZHMmDDAFJtqQC0rdyWt+9/G6vFanIyERERKSrUKC0iIiLy96hxWkSKPMMweOXHV1h9ZjUALhYX5rSbQ8sKLU1OJmZKyUxh/bn1RERGcCL+RI754m7F6VqzK6GBodQqWcuEhCIiIiIiIgVHXEocU3dN5Zvob7LV21Vpx4QWE0xbXfXwtcNM2z2Nw9cPZ6vXL1Wf8SHjaVS2kSm5/qxMeyZdv+zKpduXABjeaDjPNHzG5FQihcvuK7t5astTzp3rwoLCePnul//260bfimbG3hlsjdmarV6peCXGNhtL2ypttftZPrT+7HrGbx/vHI9sMpIhDYaYmEhEREQKMzVKi4iIiNxZapwWEQEy7Bk8tukxDl/LulDq6+7Lss7LTNseWPIPwzA4cv0IEZERbDy/kXR7eo7HNCnbhLCgMNpVbYe7i7sJKUVERERERPInh+Hgi6gvmLl3JkmZSc56Ga8yTGgxgXZV25mSKy4ljln7ZrHm7Jps9dJepXm+yfN0rdm1QK0cGn4ynCm7pgBQ0qMkG3ptoJhbMZNTiRQescmxhK0NIz4tHoCGZRryyUOf4ObidseOsfPyTqbvmc7pm6ez1VsEtGBcyDgCSwbesWPJnTFt9zQ+O/EZABYszG03l1YVW5mcSkRERAoDNUqLiIiI5C41TouI/L9rKdd4ZO0jzm15a/rVZEnnJbrQKE6J6YmsPr2a5aeWc/7W+Rzz/p7+9KjVg96BvankUynvA4qIiIiIiOQjF25dYPLOyeyJ3ZOt3qt2L0Y3G42vu2+eZ0q3p7P42GLmH5lPqi3VWXezujGo3iCGNBhS4M4DpNnS6PxFZ+f5jLHNxjKo3iCTU4kUHun2dAZvGMzRG0cBKOVZioiuEZT1LnvHj2Vz2Fh+ajnvH3yfxPREZ91qsdInsA/DGw2npGfJO35c+WsyHZk8uflJ9l3dB4Cfhx/hXcKpWLyiyclERETkz9i/fz8//vgjI0aM+MX5+Ph4/P39czWDGqVFRERE8pYap0VE/svR60cZtGEQGY4MAO6vfD+z7p9VoFaZktxnGAa7YncRERnB1uit2AxbtnkLFlpXbE1YUBhtKrbBxepiUlIREREREZG8l+nIZPGxxcw5NCfbrj1VfKowseVEQsqH5HkmwzD4Ovpr3tr7FpduX8o2165KO0Y3G01ln8p5nutOWHRsETP2zgCyVvJe33M9nq6eJqcSKTwm7ZjEyqiVALhaXFnw0AKalmuaq8dMTE/kg4MfEB4Zjt2wO+s+7j4MbzSc0KBQ3Kx3brVr+euup14nbE2Y8+aVYP9gFndcrJ/DIiIi+ZjdbsdisQBgtVrZvn07AwcO5Ny5c6SkpJCamkqpUqXIyMhg8uTJVK9enSFDhtzRDGqUFhERETGXGqdFRP7HmjNrmPDDBOf46bue5tnGz5qYSPKzaynXWBm1khWnVnA15WqO+YBiAfSu3Ztegb0o7VXahIQiIiIiIiJ55/iN40zaMYkT8SecNReLC4PqDWJow6GmNJJFxkcybc+0HCtf1y5Zm/HNx9OifIs8z3SnJGcm03FlRxLSEwB4qcVLPFLnEZNTiRQeK0+tZNLOSc7xiyEv0i+4X54d/3TCaabvmc7OKzuz1Wv41WBc83G0rtg6z7LIrzt07RCDNw7G5shaXKFbzW5MaT3F2ZAlIiIi5jIM4zf/u+xwOAgKCuLHH39kwYIFREdH8+abb+Lj40OTJk1YuHAhd91119/OYXfY+eToJ2y+sFmN0iIiIiImU+O0iMgvmLFnBouOL/rP+N4ZPFTtIRMTSX5nc9jYfnE74afC2XFpR46THa4WV+6vcj9hQWGEBITowomIiIiIiBQqqbZU5hycw+Lji7OtjhrsH8ykVpOoW6punmeKT4tn9oHZrIxaicNwOOslPErwbKNn6RXYC1era57nupPmHZrH7IOzAahYvCJruq/BzUWr0IrcCUeuHWHQxkFkOjIB6FS9E/9u8+88P6djGAbbYrYxY+8MopOis83dW+lexjYbSzW/anmaSXKKiIzgtZ9ec451I4uIiEjeO3XqFOXKlcPPz+9XH5OcnMwnn3zC5s2b8ff359VXX6VGjRq0bt2af/7zn3Tp0oUuXbrQt29fHn30UR5//HEGDBhA27Zt/3a+5Mxk/r3733x5+sscc2qUFhEREclbapwWEfkFdoedYd8MY8flHQB4uXqxuONi6vjXMTmZFAQxSTGsOLWCVVGrnKt+/bdqvtUIDQqlW81u+Hn8+skbERERERGRgmDXlV1M3jmZmKQYZ83DxYNhjYYxsO7APG9OzrRnsuzkMuYemktSZpKz7mJxoW+dvjzT8JlC8btYYnoiHVd2dL7H11q/Rvda3c0NJVJIxKfFE7Y2jNjkWAACSwbyacdP8XbzNi1Thj2DJSeWMO/wPJIzk511V6sr/er04+mGT6u5xkSGYfDqjledjVCuVlc+eegTGpVtZGouERGRwuz69et4eHjg7e2Ni4sLr776Ko8//jjVqlXL9rjo6GgWLFjAkCFDOH36NNu2beOJJ55g48aN7N+/n+nTpzNjxgwSExN59913+fzzzzly5Ah+fn5cu3aNUaNGUaFChTuSed3Zdby4/UU1SouIiIiYTI3TIiK/IjE9kX7r+3Hh1gUAKhSrwLIuy/D39Dc5mRQUGfYMtlzYQkRkBPvj9ueY93DxoEO1DoQFhVG/dH2tQi0iIiIiIgVKYnoiM/fN5IuoL7LVQwJCmNhyIlV8q+R5pu0XtzN9z3TO3zqfrd66QmteaP4CNUvUzPNMueXd/e8y/8h8IOsG3VUPryrwK2iL5Ac2h41ntjzDrthdAPi4+xDeOZzKvpVNTpbleup13jvwHquiVmXb8czf05/nGj9H91rdcbG6mJiw6EqzpTFww0BOxJ8AoIxXGSK6RlDaq7TJyURERAqPzZs3Ex0dzZAhQ5g9ezZNmzalZcuWAKSlpREfH09sbCxr1qzhgQce4J577mHFihV8++23TJkyhalTp3LhwgUaN25MeHg4ZcqU4cMPPyQyMpI33niD77//npSUFLZv387gwYMJDg7m22+/xTCMO3IdLykjiQNxB9QoLSIiImIyNU6LiPyGszfP8uj6R52ruDQr14wPH/wQN6u2vZU/JyohiojICNacXZNtVaCfBfsHExoUSqfqnUxdvUhEREREROSP2HJhC1N3TeV66nVnzcfNhzHNxtCzds88vzH0XOI53tzzJtsvbc9Wr+pblXHNx9GmYptCdbPqjdQbdPyiI6m2VADe/MebdKjeweRUIoXDzL0z+eTYJwBYsDD7gdn8o9I/TE6V07Ebx5i2exoH4g5kq9fxr8P45uNpFtDMpGRF2+XblwlbG8bN9JsANCnbhAUPLdD5ZBERkb/AMAwcDgcuLv+5KSw2NhZvb298fX0ZMWIEe/bswcPDg2effZakpCQ2b97Mu+++y4cffsixY8dYtmwZq1at4sMPP2TDhg0MHTqUM2fOMGjQIJo3b05gYCAA8fHxtGzZkv3791OsWDEAHn30UTw9PZk7dy7u7u6mfAYiIiIikjusZgcQEcnPapSowbQ207CQdXF179W9TNs9zeRUUhDVLlmbl+5+iW/7fMvElhMJ9g/ONn8i/gSTd07mgeUPMHXXVE4nnDYpqYiIiIiIyK+LS4nj+a3PM3rb6GxN0+2qtGN199X0CuyVpw3KtzJuMX3PdHqu7pmtabq4W3HGNhvLqm6r+EelfxSqpmmABUcWOJumg0oG8WC1B01OJFI4bDq/ydk0DTC00dB82TQNUK9UPRZ1WMSb/3iTgGIBzvrJ+JM8tukxxn43lsu3L5uYsGiqULwC0/4xDasl6/Lb/rj9zNw70+RUIiIi+Z9hGNjtdhwOh7NmsVicTdPx8fHExcXh4eHBJ598QkREBGXLliUuLo4hQ4bQp08fGjduTFJSEh4eHgwYMICEhAR++uknSpYsScmSJQFo2LAhFSpUoF+/fgQGBhIXF8e+ffvw9/cnKSmJAwf+c1NamTJlCAkJ+cNN06mpqYSHh3PhwoU7+MmIiIiISG5Q47SIyO+4t/K9PNfkOec4PDKc5aeWm5hICjJvN296B/YmvEs4SzotoVvNbni4eDjnb2feZtnJZfT4qgeDNgxi/dn1ZNgzTEwsIiIiIiICDsPBilMr6P5ld76J/sZZL+NVhrfve5u373+bMt5l8iyP3WEnIjKCLl904dPjn2IzbEDW6rC9avdibY+1DKo3CDeXwrfCZ2xyLBGREc7xs42fdTboichfd+bmGV758RXn+N5K9/L0XU+bmOj3WSwWOlTvwFfdv2JYw2F4ung65zad30S3L7sx+8BsUjJTTExZ9LSq0IoRjUc4x5+d+Iy1Z9eamEhERCT/cTgc2O125/jnJmmr9T+/26SmpvL2228THBxMt27d+O6777BYLJw6dQqbzcb48eOpXbs27dq1A6BBgwakpKQQGRlJ1apVGThwIHPnzmX58uV06tQJh8PBoEGDSElJoX///tx33320adOG48ePA7Bx40aaN2+OzWbj2LFj/PTTT1SsWBHIauz+7/9NT08H4MiRI5w7dw6AW7duER4ezt69ewG4dOkS169fz/Y8EREREckfLIa+oYmI/C7DMBj3/Tg2nt8IgKvFlQUPLaBpuaYmJ5PCIDE9kdWnV7P81HLO3zqfY97f058etXrQO7A3lXwq5X1AEREREREp0i7cusDknZPZE7snW71X7V6MbjYaX3ffPM2zJ3YP03ZPIzIhMlu9abmmjG8+nuBSwb/yzMLhXzv/5byhu0HpBizptKTQragtkteSMpJ4dN2jzvMyVXyqsKzLsjz/+fZ3xSbHMnPfTDac25CtXta7LKOajqJz9c76eZFHDMNg1LZRzpuNPF08+azTZwT5B5mcTEREJH9KSEhg1qxZHDt2jAYNGvDKK69w/fp1evXqxfr16/Hx8XE+durUqQBMmDCBrl27MmTIEDp27Ii7uzuPPvooHTt2pH///lgsFgYNGsSnn37Kp59+Sr9+/QBITk5m+/bt+Pv707x581/8frRy5UpiYmIYMmQIxYsXB8But+Pi4sK7776LYRiMHDmSBQsWEBcXx4QJEzh37hwbN25ky5YtAJw4cYK7776buXPn4uHhkeMYIiIiImIeNU6LiPxBqbZUBm0YxIn4E0BWM+vnnT+nfPHyJieTwsIwDHbF7iIiMoKt0VudK6b9zIKF1hVbExYURpuKbXCxupiUVEREREREioJMRyaLjy1mzqE5pNvTnfUqPlWY2HIiIeVD8jTPxaSLzNw3ky0XtmSrly9WnjHNxvBg1QcLfUNgTFIM3VZ1c/6++GH7D2lZoaXJqUQKNofh4Pmtz7M1ZisAXq5eLOm0hNola5uc7K/bf3U/0/ZM4/iN49nqDcs05MWQF6lfur5JyYqW2xm3eXT9o5xLzFqFslLxSnze5XP8PPxMTiYiImKu69evc/z4ccLDwylRogSvvvoq8+bN48SJE/Tp04eFCxdSsWJFXnnlFRo1asS9995LSEgIderUoXXr1oSHh7N7926mTZvGyy+/TEBAAKNHjwbgtddeIyYmhpkzZ1K8eHF++OEHVq5cyaBBg2jUqNEv5jEM41d/l3Q4HNlWwQaw2Wy4uLhgt9t56qmnWL58OY0aNaJ3795Ur16dYcOG8f3331OjRg0efPBBhg4dSo8ePe7oZygiIiIif48ap0VE/oQrt6/wyLpHiE+LByDYP5hFHRfh5eplcjIpbK6lXGNl1EpWnFrB1ZSrOeYDigXQu3ZvegX2orRXaRMSioiIiIhIYXb8xnEm7pjIyfiTzpqLxYVB9QYxtOFQPF098yxLSmYKC44sYNGxRWQ4Mpx1L1cvnqj/BIPqDcrTPGaasH0Ca86uAaB5QHM+evCjQt8sLpLbPjz8Ie8deM85nv6P6XSs3tHERHeGw3Cw+vRq3tn/DjfSbmSbe7jmw4xsMpIy3mVMSld0nE08y6PrHiU5MxmAeyrew/sPvI/VYv2dZ4qIiBRO169fJyQkhFatWtGmTRu2bdtG/fr1mTVrFhs2bKBZs2YcP36cf/3rX4wfPx5vb2+OHj1KVFQUS5Ys4amnnqJLly5MmzaN5557jtTUVGbOnMm2bdsYMWIE3bt3Z/fu3fTt2xc3N7ffzPJbDdO/5NKlS2zcuJGBAwdSrVo1jhw5wuLFi5k9ezZ79+6lRIkSHDp0iP79+7Np0yYqVKjAlClTcHNz45lnnsHPTzdPiYiIiOQXOjMjIvInlC9enrfvextXqysAJ+JP8OqPr6J7UOROK+NdhmcaPsPGXht59/53aV2xNRb+c/ImNjmW2Qdn0355e0ZvG82uK7v091BERERERP62VFsqM/fO5NF1j2Zrmg72D2Zp56WMajoqz5qUHYaDNWfW0HVVV+YfmZ+tabpzjc581f0rnm74dJFpmj5z8wxrz651jkc0HqGmaZG/6cdLPzL7wGzneGDdgYWiaRrAarHSo3YP1vZYy+P1H8fN+p/GodVnVtNlVRcWHFmQbUcBufNq+NVgSuspzvEPl35gzqE5JiYSERExV+nSpfHy8qJhw4Y8/fTTTJw4kRs3blCiRAliY2MBCAgIoGLFiuzfv5+goCB69erFiy++yKBBg7h27Rq+vr7Y7XZOnz5N06ZNefnll/nqq6948cUXqVOnDgMHDszWNO1wOLDb7c7xz9fToqKinKtQOxyObDkTEhIAWLx4MV27diUjI4MjR46wY8cO3NzcKF++PEePHuX555+nUqVKnDiRtWOxn58fjRo14vDhwwBUq1aNGzducP369dz5QEVERETkL1HjtIjIn9SkXBMmtJjgHG88v5GPjn5kYiIpzFytrtxf5X7mtpvLup7reLz+45T0KOmctxk2tlzYwpDNQ+j2ZTc+Pf4piemJJiYWEREREZGCateVXfT6qhefHPsEu5F1UdnDxYNRTUextPNS6paqm2dZDl87zID1A5jwwwTiUuOc9fql6vNpx0/5d5t/E1AsIM/y5AfvH3wfg6wL/PdUvIfGZRubnEikYLuYdJFx349z/rtqVq4Zo5qOMjnVnVfcvTijmo7iy4e/5P7K9zvrKbYU3tn/Dt2/7M43F77RDfm5qF3VdjxR/wnneO6huWyL2WZaHhEREbO1b9+ea9euAVC2bFmCgoIoWbIky5cvB7Iam6Ojo2nUqBEnT57k3nvvpVGjRmzatIknnniCUqVKMXPmTLp16wZAcHAwTZs2db7+/zZBWywWXFxcso0BAgMDOXnyJLdv38Zq/U/rzEcffcS//vUvUlJSOHnyJD/++CNnz57l/PnzBAcHA1C/fn1++OEH5+ts3boVyGoMr1KlCgcPHgSgZs2axMTEcOHChTv2+YmIiIjI36fGaRGRv6BPYB/CgsKc43f3v6uT3ZLrKvtUZlTTUXzd52v+3ebfNCnbJNv8+Vvnmb5nOg8sf4CXf3iZI9eO6KKXiIiIiIj8rsT0RCbumMiQzUOISYpx1kMCQvii2xc8Xv9x585LuS0uJY4J2yfQb30/Dl8/7KyX9irNlNZTWNJ5CY3KNsqTLPnJiRsn2HJhi3M8ovEIE9OIFHyptlRGbRvFrYxbAJT1Lsub976ZZz/rzFDFtwrvtn2XD9t/SK0StZz1i7cv8vy253ly85OcSjhlYsLCbUTjEdxd/m7neML2CVy4pQYqEREpmlq1asXGjRsB8Pf3Z//+/Tz66KPcuHGD/v378/DDD1O2bFmaNm1K1apVeeONN9ixYwdbtmyhatWqAPj4+GR7zf++HvZzE/TPtf/dqSc2NpY5c+bw5ZdfUrJkSX766ScAbDYbAN26dSM1NZVvv/2Wpk2bUq1aNaKiojh58iTnzp0DoHXr1s7nhYSE8N133wFw7tw5atSowY8//ghkNVh3796dOnXq3KFPT0RERETuBIuhjioRkb8k05HJU5ufYu/VvQAUcyvG0k5LqVGihsnJpCiJSogiIjKCNWfXkJyZnGM+2D+Y0KBQOlXvhLebtwkJRUREREQkP9tyYQtTd03leup/tg32cfNhTLMx9KzdM8cF5tySbk9n8bHFzD8yn1RbqrPuZnVjUL1BDGkwhGJuxfIkS3407OthbL+0HYD2Vdsz876ZJicSKbgMw+ClH15izdk1QNbPmYUdFnJXmbtMTpZ3bA4by08t5/2D72fbucxqsdInsA/DGw2npGfJ33gF+SsS0hIIWxvGleQrANQqUYslnZbonJ2IiBQ5Z8+eJTg4mH/+85+cOHGCuLg41q5di2EYrFmzhnr16nHXXTm/mxmGgWEY2VaH/tmRI1mLCf38PMMwsFgs2Gw29uzZQ9myZalZsyYAzz33HFFRUYSFhTF16lR69erFG2+8gc1mw8XFBYvFwqeffsqqVat46qmn2LZtG61bt+aDDz7Ax8eHiIgITp8+zQMPPMCFCxe4ceMGvXr1IjExkQEDBtCnTx+Sk5PVLC0iIiKSj6lxWkTkb4hPi6fv2r5cTr4MQBWfKiztvBQ/Dz+Tk0lRk5KZwvpz64mIjOBE/Ikc88XditO1ZldCA0OpVbLWL7yCiIiIiIgUJXEpcUzdNZVvor/JVm9ftT3/DPknZbzL5EkOwzD4Ovpr3tr7FpduX8o2165KO0Y3G01ln8p5kiW/Ohh3kAEbBgBgwcKqh1dRs0RNk1OJFFzLTi5j6q6pzvErd79CaFCoiYnMk5ieyAcHPyA8Mhy7YXfWfdx9GN5oOKFBobhZ3UxMWPgcu3GMgesHkuHIAKBDtQ5M/8f0PLtRSUREJD9IT0+nR48eNGvWjHvuuYdGjRpRtmzZP/x8u92OxWLJ1kC9dOlSoqOj6dKlC+7u7gQGBvLZZ5/x9ttvU758ee666y5atmxJjRo1GDNmjHPF67lz5zJv3jwOHDiA3W7HxcUFgOvXr/Pkk09isVgYOnQo9evXp1atWgwYMIAPPvgAq9XKfffdx2effUalSpW4efMmJUqUuKOfk4iIiIjkHjVOi4j8TZHxkQzYMMC5IlarCq14/4H3C/XWnpJ/GYbBketHCI8MZ9P5TaTb03M8pknZJoQFhdGuajvcXdxNSCkiIiIiImZxGA6+iPqCmXtnkpSZ5KyX8SrDSy1e4oGqD+RZlsj4SKbtmcae2D3Z6rVL1mZ88/G0KN8iz7LkZ09seoLdsbsB6FKjC2+0ecPkRCIF14G4Azy+8XFsRtY27D1q9WByq8lFvmn1dMJppu+Zzs4rO7PVa/jVYFzzcbSu2NqkZIXTl6e/5JUfX3GOX2j2AgPrDTQxkYiISN7r378/jRo1YuzYsdnqP7ev/Pf3s927d7N582Z69epFcHBwtsffunULX19f/vWvfzFt2jQCAgJ46qmn6NmzJ++//z7Tpk0jMTGRl156iRMnTrB69WoaNGjA5cuXsdlspKSkULlyZRITE/lf4eHh9O3bl++++442bdrw7LPP0q5dO7p06YKrq64Di4iIiBRkapwWEbkDNp/fzJjvxjjHg+oOYmzzsb/xDJHcl5ieyOrTq1l+ajnnb53PMe/v6U+PWj3oHdibSj6V8j6giIiIiIjkqQu3LjB55+Qcjcq9avdidLPR+Lr75kmO+LR4Zh+YzcqolTgMh7NewqMEzzZ6ll6BvXQz8v/76cpPPLn5SQBcLa581f0rKvsW7RW4Rf6qaynXCFsbxrXUawDUK1WPRR0X4eHiYXKy/MEwDLbFbGPG3hlEJ0Vnm7u30r2MbTaWan7VTMlWGL228zUiTkUA4GJxYf6D82ke0NzkVCIiInln6dKlXLt2jZEjR2IYhrNR2jAMHA6Hc+VnyGqcXrhwIT169KB9+/YsX76c+fPnc/36de6//37Gjx9PTEwMkydPZty4cdxzzz1cu3aNypUr06BBA9zc3GjSpAldunShQ4cOVKhQgW+++Ybg4GD2799PmzZt2LlzJ3fddVe2LCkpKXz++ed06dLlT62ILSIiIiL5nxqnRUTukNkHZjPv8Dzn+PV7XqdbzW4mJhLJYhgGu2J3EREZwdborc5VlX5mwULriq0JCwqjTcU2uFhdfuWVRERERESkIMp0ZLLo2CLmHJxDhiPDWa/iU4WJLScSUj4kb3LYM1l2chlzD83Nttq1q8WVR+o8wjMNn8HPwy9PshQEhmHQf31/Dl8/DEDvwN5MbDnR5FQiBVOmPZMnNj/BgbgDAJT0KEl4l3DKFy9vcrL8J8OewZITS5h3eB7JmcnOuqvVlX51+vF0w6fxcfcxMWHhkGHP4LFNj3H4WtbPeH9Pf8K7hBNQLMDkZCIiInnL4ci6mdZqteaYi4+Px9/fn2vXrjF9+nTq16/PoEGDWL16NbVr16ZGjRpMmDABb29vpkyZwrBhw2jZsiU9e/akWLFiVK9enVWrVtGoUaNsr/vaa69x/vx5fHx8KFasGJ9++imTJ0/msccey4u3LCIiIiL5gBqnRUTuEIfh4Pmtz7M1ZisA7lZ3FnZYSIMyDUxOJvIf11KusTJqJStOreBqytUc8wHFAuhduze9AntR2qu0CQlFREREROROOn7jOBN3TORk/ElnzcXiwqB6gxjacCierp55kmP7xe1M3zM9x244rSu0ZlzzcdQoUSNPchQk22K2MeLbEUDWOYZ1PdepoU7kL3pj1xssPbkUAKvFyrz287i7/N0mp8rfrqde570D77EqahUG/7mM5O/pz3ONn6N7re66+f5vupp8ldC1ocSnxQNwV+m7+KTDJ7i7uJucTEREJPc4HA4sFotzVef/dunSJcqVK8eIESM4cOAAPj4+DB06lJ49e/LGG29gGAZjx47FarUyY8YMvvrqKxISEqhVqxaLFy/mo48+Ii0tjbFjx+Lp6Un//v3x9/dn0KBBREdHs23bNvr370/z5s356quv+P777wkNDaVBgwZ4eXllW21aRERERAo3NU6LiNxByZnJ9F/fn9M3TwNQ1qssn3f5nDLeZUxOJpKdzWFj+8XthJ8KZ8elHdkugEHWim/3V7mfsKAwQgJCdKJIRERERKSASbWlMufgHBYfX4zdsDvrwf7BTGo1ibql6uZJjnOJ53hzz5tsv7Q9W72qb1XGNR9Hm4pt9PvGL3AYDkLXhBKZEAlA/+D+jA8Zb3IqkYJpzZk1TPhhgnM8qukoHq//uImJCpZjN44xbfc052rdP6vjX4fxzcfTLKCZSckKh72xexmyeYjzv9V9AvvwastXTU4lIiJyZ9jtWf99c3HJebNVSkoKUVFRnD17lpiYGMLDw2ndujWNGjXCarXSo0cPLl26RNu2bdmwYQMnT57khx9+YPz48ezevZsvv/ySKVOmcOvWLV555RXGjh1LYmIiq1at4u6776Zu3bqUL1+edevWsXDhQsqXL8+DDz5Inz59KFmyZF5/FCIiIiKSz6hxWkTkDou5FcMj6x7hVsYtIGulkI87fIyHi4fJyUR+WUxSDCtOrWBV1CoS0hNyzFfzrUZoUCjdanbTttkiIiIiIgXAriu7mLxzMjFJMc6ah4sHwxoNY2DdgbhaXXM9w62MW8w9NJdlJ5ZhM2zOenG34jzT8BkerfMobi5uuZ6joNp4fiMvfPcCAF6uXqzvuV67Aon8BSfjTzJg/QDS7GkAtK/anrfufUs3bPxJhmGw6fwm3tr3FrHJsdnmHqr2EKObjqZC8QompSv4Pj3+KdP3THeOJ7eaTM/aPU1MJCIiktOtjFvsv7qfSj6VqFWiVo55h8OBYRhYrdbf/K4VHh7OqVOn2LRpEw8++CCXLl1i//79vP3229xzzz3069ePqKgoypYtS1xcHCVKlGD+/PlcunSJJUuW8MILL7BixQq2bNnCpk2bWLt2LS+88AKPP/44L7zwAvPmzeP999+nd+/evPTSS7/YtC0iIiIiosZpEZFcsPPyToZ+PdS5UsjDNR/mtdav6aKM5GsZ9gy2XNhCRGQE++P255j3cPGgQ7UOhAWFUb90ff19FhERERHJZxLTE5m5byZfRH2RrR4SEMLElhOp4lsl1zPYHXZWRq1k9oHZ2W7MtGChZ+2ejGg8glJepXI9R0Fmc9josboH52+dB2BIgyGMbDLS3FAiBVBieiJha8O4dPsSADX8arC081KKuRUzOVnBlWpLZeHRhXx89GNnMzpknTMaXG8wj9d/HG83bxMTFkyGYTB++3g2nNsAgLvVncUdF1OvdD2Tk4mISFH2c6P0ntg97Indw8n4kxgY9K3Tl9FNR+Pp6vm7r7FlyxY++ugjoqOjGT58OP369XM2Nk+bNo2OHTvy1VdfsWzZMl5++WXq1avHlClTWL16Nd988w2+vr7O17p48SJvvvkmDzzwAM2bN2fIkCFER0dTtmxZevbsSeXKlenWrVtufiQiIiIiUojk/vIyIiJFUMsKLRnbbCzTy+P/cwABAABJREFU9kwDYPWZ1dTxr0P/uv1NTiby69xd3OlcozOda3QmKiGKiMgI1pxdQ3JmMgDp9nRWn1nN6jOrCfYPJjQolE7VO+mCmIiIiIhIPrDlwham7prK9dTrzpqPmw9jmo2hZ+2eeXLj457YPUzbPY3IhMhs9ablmjK++XiCSwXneobCYN3Zdc6m6eJuxRlcb7CpeUQKIrvDzvjt451N08XcivH2/W+rafpv8nL1YmijofSo3YOZ+2Y6G33T7enMOzyPVadXMarpKDpX76wb7v8Ei8XCpJaTOH3zNFEJUWQ4Mnh+2/OEdwnH39Pf7HgiIlJE/Fqj9P86EHcAm8OWo75nzx6WL1/OhQsXGDlyJCEhIaxcuZJ//OMfNGvWjHfffZcrV67Qs2dPtmzZQunSWTvqVKhQAU9PT1JSUgC47777+Pzzz7HZso7x448/cu7cOfr164enpydXrlyhfPnyzJs3j4SEBBo0aJCLn4qIiIiIFFZacVpEJJcYhsErP77C6jOrAXCxuDCn3RxaVmhpcjKRPy4lM4V159YRERnByfiTOeaLuxWna82uhAaGUqtkzq3ZREREREQkd8WlxDF111S+if4mW7191fb8M+SflPEuk+sZLiZdZOa+mWy5sCVbvXyx8oxpNoYHqz6oBro/KNOeSdcvuzqbPYc3Gs4zDZ8xOZVIwTP7wGzmHZ7nHM+6bxYPVH3AxESF0/6r+5m2ZxrHbxzPVm9YpiEvhrxI/dL1TUpWMEXfiuaRtY+QlJkEQIvyLZjbbi6uVq2BJCIid94fbZT+mdVipa5/XUICQhjZdCRWi9U5FxUVxYQJE2jcuDHNmjWjXbt2fPPNN0yZMoXvvvsOgO+//57hw4dz6NAh+vXrx5AhQ3jggQdITk5mxIgR9OjRg65duwIwZ84c1q5dy+XLl/H09GTo0KEMHDiQ1NRUvLy8cveDEREREZEiQY3TIiK5KMOewWObHuPwtcMA+Lr7sqzzsjzZHlnkTjIMgyPXjxAeGc6m85tIt6fneEyTsk0ICwqjXdV2uLu4m5BSRERERKTocBgOvoj6gpl7ZzobrADKeJXhpRYv5UmDYEpmCguOLGDRsUVkODKcdS9XL56o/wSD6g36Q9s3y3+Enwxnyq4pAJT0KMmGXhu0Qq7In7Q1eivPbX3OOR7SYAgjm4w0MVHh5jAcrD69mnf2v8ONtBvZ5h6u+TAjm4zMk5t4CovvL37P8G+GO8eP1X+M0U1Hm5hIREQKi7/aKN08oDnNAprRpGwTirsX/8XHLlq0iPDwcNavX++sXblyhYYNGxIXF4fD4SA9PZ3AwECio6MZMWIEISEh9O3bFzc3Nx5//HHq1avHsGHDnI3R586do0KFCnh4eNzZD0JEREREBDVOi4jkumsp13hk7SPEpcYBUNOvJks6L9GFTymwEtMTWX16NctPLXduH/3f/D396V6rO30C+1DJp1LeBxQRERERKeQu3LrA5J2T2RO7J1u9V+1ejG42Gl9331w9vsNwsO7sOmbtm+X8XfdnnWt05vkmzxNQLCBXMxRGabY0On/R2fmZjm02lkH1BpmcSqRgOZ94nr7r+nI78zYALcu3ZE67ObhYXUxOVvjdzrjN/CPz+fT4p2Q6Mp11b1dvnrzrSQbUHYCHixqf/og5B+fwwaEPnOOZ982kfdX2JiYSEZGCKDcbpf/Xe++9R3p6Os8//zyGYeDi4oLVaiU4OJg333yTLl268PXXX7N06VI+/vhj/vnPf+Lu7s7IkSPx9/fn2LFjlCtXjtKlS9+pty8iIiIi8pvUOC0ikgeOXj/KoA2DnCtw3V/5fmbdPyvbNlYiBY1hGOyK3UVEZARbo7diM2zZ5i1YaF2xNWFBYbSp2EYXKUVERERE/qZMRyaLji1izsE52VZ4ruJThYktJxJSPiTXMxy+dphpu6dx+PrhbPX6peozPmQ8jco2yvUMhdWiY4uYsXcGkLVy+Pqe67Vit8ifkJKZQr/1/Th98zQAFYpVILxLOCU8S5gbrIiJvhXNjL0z2BqzNVu9UvFKjG02lrZV2mKxWExKVzA4DAcjvh3B9xe/B7Kaz5d2XkrNEjVNTiYiIvlZXjZK/6/NmzezdOlSJk6cSPXq1bHZbLi6urJ69WpWr15NVFQUN2/e5PXXX6dbt25cvnwZPz8/ihUrhmEY+m4gIiIiInlOjdMiInlkzZk1TPhhgnP89F1P82zjZ01MJHLnXEu5xsqolaw4tYKrKVdzzAcUC6B37d70CuxFaS+tGCAiIiIi8mcdv3GciTsmcjL+pLPmYnFhUL1BDG04NNcbbONS4pi1bxZrzq7JVi/tVZrnmzxP15pddXPw35CcmUzHlR1JSE8A4KUWL/FInUdMTiVScBiGwQvfv8Cm85sA8HDxYHHHxdQtVdfkZEXXzss7mb5nurOR/WctAlowLmQcgSUDTUpWMCSmJ9J3XV9ikmIAqOZbjWWdl/3lhjYRESl8zGyU/l8Oh4MRI0aQmJiIq6sr0dHRPPvss/Ts2ZOoqCji4+Np2rQprq6uapQWERERkXxBjdMiInloxp4ZLDq+6D/je2fwULWHTEwkcmfZHDa2X9xO+KlwdlzakeMknavFlfur3E9YUBghASE6OSYiIiIi8jtSbanMOTiHxccXYzfsznqwfzCTW00muFRwrh4/3Z7O4mOLmX9kPqm2VGfdzerGoHqDGNJgCMXciuVqhqJg3qF5zD44G4CKxSuypvsa3FzcTE4lUnD894rtAFNaT+HhWg+bmEgg6zzR8lPLef/g+ySmJzrrVouVPoF9GN5oOCU9S5qYMH+LjI9kwIYBzv/+tq3clrfvf1s3KomIFFH5qVH6l6SkpLB582ZiY2Np3749NWvWVJO0iIiIiORbapwWEclDdoedYd8MY8flHQB4uXqxuONi6vjXMTmZyJ0XkxTDilMrWBW1yrlq2n+r5luN0KBQutXshp+HnwkJRURERETyt11XdjF552TnapOQtYrqsEbDGFh3IK5W11w7tmEYfB39NW/tfYtLty9lm2tXpR2jm42msk/lXDt+UZKYnkjHlR1JykwC4LXWr9G9VndzQ4kUILuv7OapLU85by4JCwrj5btfNjmV/LfE9EQ+OPgB4ZHh2W4C8nH3YXij4YQGheJm1c0iv2T92fWM3z7eOR7ZZCRDGgwxMZGIiOSV/N4oLSIiIiJSkKlxWkQkjyWmJ9JvfT8u3LoAQIViFVjWZRn+nv4mJxPJHRn2DLZc2EJEZAT74/bnmPdw8aBDtQ6EBYVRv3R9rT4gIiIiIkVeYnoiM/fN5IuoL7LVQwJCmNhyIlV8q+Tq8SPjI5m2Zxp7Yvdkq9cuWZvxzcfTonyLXD1+UfPu/neZf2Q+kHWD6aqHV+VqU7xIYRKbHEvY2jDi0+IBaFimIZ889IlWbM+nTiecZvqe6ey8sjNbvYZfDcY1H0friq1NSpa/Tds9jc9OfAaABQtz282lVcVWJqcSEZE7TY3SIiIiIiJ5R43TIiImOHvzLI+uf5TkzGQAmpVrxocPfqiVVaTQi0qIIiIygjVn1zj//v+3YP9gQoNC6VS9E95u3iYkFBEREREx15YLW5i6ayrXU687az5uPoxpNoaetXvm6o2G8WnxzD4wm5VRK3EYDme9hEcJnm30LL0Ce6mh9w67kXqDjl90JNWWCsCb/3iTDtU7mJxKpGBIt6czeMNgjt44CkApz1JEdI2grHdZk5PJbzEMg20x25ixdwbRSdHZ5u6tdC9jm42lml81U7LlV5mOTJ7c/CT7ru4DwM/Dj/Au4VQsXtHkZCIi8neoUVpERERExDxqnBYRMcl3Md8x4tsRzpMg2kZUipKUzBTWnVtHRGQEJ+NP5pgv7lacrjW7EhoYSq2StUxIKCIiIiKSt+JS4pi6ayrfRH+Trd6+anv+GfJPyniXybVjZ9ozWXZyGXMPzSUpM8lZd7W48kidR3im4TP4efjl2vGLsv9eRTSoZBARXSOwWqwmpxIpGCbtmMTKqJVA1s+rBQ8toGm5piankj8qw57BkhNLmHd4Xrab612trvSr04+nGz6Nj7uPiQnzl+up1wlbE0ZcahyQtfjA4o6L8XT1NDmZiIj8UWqUFhERERHJP9Q4LSJiogVHFvDO/nec41dbvkqfwD4mJhLJW4ZhcOT6EcIjw9l0fhPp9vQcj2lStglhQWG0q9oOdxd3E1KKiIiIiOQeh+Hgi6gvmLl3Zram5TJeZXipxUs8UPWBXD3+9ovbmb5nOudvnc9Wb12hNeOaj6NGiRq5evyiLDY5ls5fdCbDkQHAe23f477K95kbSqSAWHlqJZN2TnKOXwx5kX7B/cwLJH/Z9dTrvHfgPVZFrcrWPObv6c9zjZ+je63uuFhdTEyYfxy6dojBGwdjc9gA6FazG1NaT8nV3ShEROSvU6O0iIiIiEj+pcZpERETGYbBuO/HsfH8RkCr40jRlpieyOrTq1l+anmOpg3IumDWvVZ3+gT2oZJPpbwPKCIiIiJyh124dYFJOyax9+rebPVetXsxutlofN19c+3Y5xLP8eaeN9l+aXu2elXfqoxrPo42FduoESuX/Wvnv1h+ajkADUo3YEmnJfrMRf6AI9eOMGjjIDIdmQB0qt6Jf7f5t/79FHDHbhxj2u5pHIg7kK1ex78O45uPp1lAM5OS5S8RkRG89tNrzvFLLV7ikTqPmJhIRER+pkZpEREREZGCQ43TIiImS7WlMmjDIE7EnwCymkM/7/w55YuXNzmZiDkMw2BX7C4iIiPYGr0Vm2HLNm/BQuuKrQkLCqNNxTZadUhERERECpxMRyaLji1izsE5ztWGAar4VGFiy4mElA/JtWPfyrjF3ENzWXZiWbbv2sXdivNMw2d4tM6juLm45drxJUtMUgzdVnVz/hl82P5DWlZoaXIqkfwvPi2esLVhxCbHAhBYMpBPO36Kt5u3ycnkTjAMg03nN/HWvrecf8Y/e6jaQ4xuOpoKxSuYlC5/MAyDV3e8ypenvwTA1erKJw99QqOyjUzNJSJSFKlRWkRERESk4FLjtIhIPnDl9hUeWfcI8WnxAAT7B7Oo4yK8XL1MTiZirmsp11gZtZIVp1ZwNeVqjvmAYgH0rt2bXoG9KO1V2oSEIiIiIiJ/zvEbx5m4YyIn4086ay4WFwbVG8TQhkPxdPXMlePaHXZWRq1k9oHZJKQnOOsWLPSs3ZMRjUdQyqtUrhxbcpqwfQJrzq4BoHlAcz568COtlivyO2wOG89seYZdsbsA8HH3IbxzOJV9K5ucTO60VFsqC48u5OOjH5NmT3PWPVw8GFxvMI/Xf7xIN8un2dIYuGGgcyGOMl5liOgaoXNjIiK5TI3SIiIiIiKFhxqnRUTyif1X9/PE5iewObJWm+pQrQPT/zFdF05FyLo4uv3idsJPhbPj0o4cJyNdLa7cX+V+woLCCAkI0b8bEREREcl3MuwZzD4wm8XHF2M37M56sH8wk1tNJrhUcK4de0/sHqbtnkZkQmS2etNyTRnffHyuHltyOnPzDD1W93D+XrO442Ial21sciqR/G/m3pl8cuwTIOumj/cfeJ82ldqYnEpyU2xyLDP3zWTDuQ3Z6mW9yzKq6Sg6V+9cZM8BXb59mbC1YdxMvwlAk7JNWPDQAtys2jVCROROUaO0iIiIiEjhpcZpEZF8ZPmp5fxr57+c45FNRjKkwRATE4nkPzFJMaw4tYJVUauyrZT3s2q+1QgNCqVbzW74efiZkFBEREREJKekjCQeWP4AqbZUIGvVzGGNhjGw7kBcra65csyLSReZuW8mWy5syVYvX6w8Y5qN4cGqDxbZhjMzjd422vlnck/Fe5jTbo7JiUTyv03nNzH2u7HO8bBGwxjacKiJiSQv7b+6n2l7pnH8xvFs9YZlGvJiyIvUL13fpGTm2nF5B0O/HorDcADQP7g/40PGm5xKRKTgUqO0iIiIiEjRocZpEZF8ZspPUwiPDAeyVs95t+273Ff5PnNDieRDGfYMtlzYQkRkBPvj9ueY93DxoEO1DoQFhVG/dH01hIiIiIiIqVJtqURERjBj7wxCAkKY2HIiVXyr5MqxUjJTWHBkAYuOLSLDkeGse7l68UT9JxhUbxCerp65cmz5bSdunCB0bahzHN4lnLql6pqYSCT/O3PzDH3X9XXeeHJvpXt5t+27WC1Wk5NJXnIYDlafXs07+9/hRtqNbHMP13yYkU1GUsa7jEnpzPPRkY+YtX+Wc/xGmzfoUqOLeYFERAoQNUqLiIiIiBRdapwWEclnMh2ZPLX5KfZe3QtAMbdiLO20lBolapicTCT/ikqIIiIygjVn15CcmZxjPtg/mNCgUDpV74S3m7cJCUVEREREIM2WxvcXv6d91fa5cmOfw3Cw7uw6Zu2bRVxqXLa5LjW6MLLJSAKKBdzx48ofN+zrYWy/tB2A9lXbM/O+mSYnEsnfkjKSeHTdo5y/dR6AKj5VWNZlGb7uvuYGE9PczrjN/CPz+fT4p2Q6Mp11b1dvnrzrSQbUHYCHi4eJCfOWYRiM3jaar6O/BsDTxZPPOn1GkH+QyclERPIfNUqLiIiIiMjP1DgtIpIPxafF03dtXy4nXwayLgot7bwUPw8/k5OJ5G8pmSmsO7eOiMgITsafzDFf3K04XWt2JTQwlFola5mQUERERESKMsMwcm0nlMPXDjNt9zQOXz+crV6/VH3Gh4ynUdlGuXJc+eMOxh1kwIYBQNYOU6seXkXNEjVNTiWSfzkMB89vfZ6tMVuBrFXzl3RaQu2StU1OJvlB9K1oZuyd4fz78bNKxSsxttlY2lZpW2R2H7udcZtH1z/KucRzQNZn8HmXz3UuWUSKPDVKi4iIiIjIr1HjtIhIPhUZH8mADQOc25C2qtCK9x94H1erq8nJRPI/wzA4cv0I4ZHhbDq/iXR7eo7HNCnbhLCgMNpVbYe7i7sJKUVEREQkP/r5VNnPzVYOh4OYmBg2b97Mk08+icPhwGq1mhkxm7iUOGbtm8Was2uy1Ut7leb5Js/TtWZXrJb8k7coe2LTE+yO3Q1krQD+Rps3TE4kkr99ePhD3jvwnnM8/R/T6Vi9o4mJJD/aeXkn0/dM5/TN09nqLQJaMC5kHIElA01KlrfOJp7l0XWPOndiu6fiPbz/wPv6DiAiRYoapUVERERE5I9S47SISD62+fxmxnw3xjkeVHcQY5uPNTGRSMGTmJ7I6tOrWX5quXNr3//m7+lP91rd6RPYh0o+lXIlw+7duwkJCcnVFQZFRERE5O9zOBykp6fj5eWVrX7s2DF69uzJ/v37KVasmEnpsku3p7P42GLmH5nvvOEWwM3qxqB6gxjSYAjF3PJHVoGfrvzEk5ufBMDV4spX3b+ism9lk1OJ5F8/XvqRoV8PdTY7Daw7kBeav2ByKsmvbA4by08t5/2D75OYnuisWy1W+gT2YXij4ZT0LGliwrzx9YWvGbVtlHP8TMNnGN5ouImJRERylxqlRURERETkr1LjtIhIPjf7wGzmHZ7nHL9+z+t0q9nNxEQiBZNhGOyK3UVEZARbo7diM2zZ5i1YaF2xNWFBYbSp2AYXq8sdOa7D4WDYsGHMnTv3jryeiIiIiOSOtLQ0XnvtNZKTk5k1axafffYZbdu2pXz58ty4cYPJkyfz3HPPUbt2bVNzGobB19Ff89bet7h0+1K2uXZV2jG62Wgq+6ghNz8xDIP+6/tz+PphAHoH9mZiy4kmpxLJvy4mXSRsbRi3Mm4B0KxcM+Y/OF+7sMnvSkxP5IODHxAeGY7dsDvrPu4+DG80nNCgUNysbiYmzH2z9s3io6MfOcfvtX2P+yrfZ14gEZE7SI3SIiIiIiJyp6hxWkQkn3MYDp7f+jxbY7YC4G51Z2GHhTQo08DkZCIF17WUa6yMWsmKUyu4mnI1x3xAsQB61+5Nr8BelPYq/beOdfz4capXr55t1UKHwwGQr7Z4FxERESnqDMNg27ZtzJo1i/fee4958+Zx5coV7r77bp566inuuecePv30U6pXr/6HdxKx2Wy4ut65Rr/I+Eim7ZnGntg92eq1S9ZmfPPxtCjf4o4dS+6cbTHbGPHtCCBrRfD1PdcTUCzA3FAi+VSqLZWBGwZyMv4kAGW9yxLeJfxv/24uRcvphNNM3zOdnVd2ZqvX8KvBuObjaF2xtUnJcp/dYeeZr5/hpys/AeDj5sOyLsuo6lvV5GQiIn+eGqVFRERERCS3qHFaRKQASM5Mpv/6/py+eRqAsl5l+bzL55TxLmNyMpGCzeawsf3idsJPhbPj0o4cJ11dLa7cX+V+woLCCAkI+UPNMf+rbNmy7Ny5Ex8fH06ePElISAienp536i2IiIiIyN9gt9txcfnPTiNJSUnMmjWLq1evMnv2bE6cOMFjjz3Gq6++ymeffUbr1q0ZPvy3t7y/fPkyS5cuZezYsQAcO3aMUqVKERDw1xtl49PimX1gNiujVuIwHM56CY8SPNvoWXoF9tJKrPmUw3AQuiaUyIRIAPoH92d8yHiTU4nkT4Zh8NIPL7Hm7Bog60aDhR0WcleZu0xOJgWRYRhsi9nGjL0ziE6KzjZ3b6V7GdtsLNX8qpmSLbclpCUQtjaMK8lXAKhVohZLOi3B283b5GQiIr9NjdIiIiIiIpJX1DgtIlJAxNyK4ZF1jzi3Kb2r9F183OFjPFw8TE4mUjjEJMWw4tQKVkWtIiE9Icd8Nd9qhAaF0q1mN/w8/P7Qa168eJHu3buzd+9ePv74YyZMmECbNm1wcXHhn//8Jw0bNsz2+P9t3BERERGRvLF48WJq1arF3XffzdmzZ3nxxRfp83/s3XdcleX/x/HXWRw2iIKACogDce+ZqblnbsyZpanlSDNNLS01y5Fmampabsmde69wD1w5cKI4EBFkHjjr/v3ht1P8HFmKx/F5Ph4+6Lru+77u97kxvDnnc19XmzaEhYVx4MABlixZQnh4OMOHD+fDDz985IzTVquVo0eP8umnn9K3b1/279/PunXryJcvH1999RWVK1f+Vw/jmSwmws+FM+PEDFJMKbZ+rUpLuyLt6Fmq5xPfmwr72BS9iU93fwqAk9aJDS03yMy5QjxC+LlwxhwcY2sPrzKcNoXb2DGReBUYLUYWnV3EzJMzSTOl2fq1ai0dinSgR6keuDm42TFh9jh99zSdN3TGaDUC0CCoAePeHPefJgUQQojsIoXSQgghhBBCCHuRwmkhhHiJ7L+5n17bemFRLAC8XeBtRlUbJW94C/EMGS1Gtl7dytKopUTGRT6wXa/R0yCoAWEhYRTPVfyx//8NHjyY/Pnz07NnTzp37oxOp+Pnn3+mf//+pKWl8dNPPwE88VLvQgghhBDi6f393uv48eMMGjSIoKAgLBYLZrOZqVOn8ttvv7FixQoWLFiAm5sbRqORwYMHc/bsWTZt2vTAmJcvX8ZisVCoUCFSU1NZs2YN06dPp0GDBgwbNowRI0aQnp5Ohw4dKF269BPljLgewbjD44hOjs7SX82/GoMqDCLYM/hpL4XIZmarmRarW9i+h91KdKNf2X72DSXEC+pY3DHe2/QeZsUMQIuCLfiq6lfyu7J4ZuIN8Uw5NoVVF1ZlKcrzcvSib5m+NC/YHI361XqY/beLv/HF3i9s7U/Lf0rnYp3tmEgI8bqTQmkhhBBCCCHEi0IKp4UQ4iWz8MxCxh4ea2sPrjCYjkU72jGREK+uC4kXWBq1lLWX12aZlehPJXOVZF7DeQ9dFt1qteLn58f169c5d+4cw4YNY9y4cRQpUoTx48dz7do1pkyZwt69e9mxYwe7d++mVatWdO3aFUdHxyzjqFQq+bBYCCGEEOIZSktLw8XFhcWLF6PT6WjTpg1t27bl7t27rFq1iuTkZL755hty587N8OHDAbh37x49evTgl19+wcXFBYDo6GiCgoLYt28fY8aMoV+/fmzdupVWrVoxcOBAypcvz6RJk4iJieHbb7+lZMmStG/fHje3R89seSXpCuMPjyfiRkSW/kD3QAZVGET1PNXl3vAl8feCNVedK5tabZIZwoV4iDvpdwhbF8Ydwx0AiuUsxryG82SVNZEtTt89zdhDYzkWdyxLfxGvIgyuMJjyvuXtlCx7jD4wmiVRSwDQqDTMqjeLCr4V7JxKCPG6kEJpIYQQQgghxItKbe8AQggh/p0OoR14u8DbtvaEIxPYf3O/HRMJ8eoqlKMQwyoPY0ebHQyvMpwiXkWybPdz9SPDnPHQYw8cOEDhwoXR6XT8/vvveHt7U6RIETIyMrh58yalS5cmNjaWnj17kjt3bj777DM2b97M6tWruXfvHpcvXwZArVbbCmOsVmv2vmAhhBBCiFfQ/7+HOnv2LO3atSM5OZmTJ0+yaNEiypUrR7ly5di+fTvu7u7kzZuXhg0bcvr0ae7du4fFYmHo0KFYrVZb0XRMTAzDhg3DaDQSFBREZGQk7733Hp06daJSpUoMGDCACxcuEBMTQ758+ahRowYHDx5k//6H//6WbExm3OFxtFzdMkvRtKvOlYHlB7Kq2SrezPumFE2/JEwWEzNOzLC1uxTrIkXTQjyEyWLik92f2Iqmc+hzMKnmJCmaFtmmWM5izGswj/FvjsfXxdfWfy7hHF03d2Xg7oHcTL1px4TP1uAKgynpXRIAi2Jh4O6BxKbF2jmVEOJVlWxMZlfMLsYfHk/btW15I/wN+uzow/wz8zmbcPaBomm1Sk3xnMXpWqwr02pPY2+7vYQ3CWdA+QG8mfdNKZoWQgghhBBCZBuZcVoIIV5CRouRrpu7cvLOSQDcHdwJbxxOgHuAnZMJ8WpTFIVT8adYErWEzdGb+anuT5TNXfah+969e5eUlBTy5MlD69atady4MR988AG7d+/m119/pX379ty9e5eFCxeyfPly23FWq5UNGzbw7bff4u3tTcGCBfnqq69wdnbOso9aLc+/CSGEEEI8zoEDB0hOTqZevXoPbCtTpgy//PIL0dHRDB06lJ07d+Lre794avDgwbRv355SpUphsVjQaDQYjUZ27NhB/fr1UalUKIpiK2DevXs3hQoV4scff2Tt2rUcOXIEnU7HjRs3+OGHHwAYO3YsFouF0aNH06pVK4oXL54lj8lqove23uy7tc/Wp0JFy0It6VOmDzmdcmbXZRLZZMm5JYw+OBq4Xwi6sdVGXHQudk4lxIvnm4PfsPjcYuB+8dTMujOp7FfZzqnE68JgNjD3j7n88scvZFj+ejBer9HzbrF3ea/4ezjrnB8zwsvhdtpt2q5rS0JGAnB/BbU5DebgoHGwczIhxMtOZpQWQgghhBBCvKykcFoIIV5Sd9Lv0G5dO+IMcQAU8CjAosaL5INYIZ6T5MxkXHQuaNSaf9w3KiqKfPny4ezszNChQzEajYwdO5bu3bsTHBzM559/TkpKCm5ubiQnJ/PDDz+watUqFi5cyG+//cb777/P4sWLcXd3JywszDbLIdwv5gZk5kEhhBBCiP9n7969+Pj4UKhQIYYOHYqrqyutWrUiJCSE0aNHU7BgQdq1a0eTJk3Inz8/+fPnZ/369Tg7O/Pjjz+SL18+AMxmM1qtNkuxNMCxY8coWbIknp6eLF++nPr169OvXz+SkpKYO3cuAAcPHuSzzz5j2LBh1KlT55FZTRYT1X6thsFsAKBc7nIMrjCY0Jyh2XeBRLbJMGfQeGVj2+/rA8sPpEuxLnZOJcSLZ+2ltQzdM9TW7l+uP+8Vf8+OicTrKjYtlolHJ7LxysYs/T7OPvQv15/G+Ru/9O+7HIk9Qrct3bAoFgDaFG7D8CrD7ZxKCPGykUJpIYQQQgghxKtCCqeFEOIl9kf8H3TZ2AWj1QhArXy1+L7W96hVMhOtEC+aPwttDh8+THJyMrVr1+bbb7/F0dGRjz/+2LZfZGQkc+fOpVq1aoSFhXH69GmmT59OlSpVOHnyJBERESxcuJDg4OAHxgcpoBZCCCHE6+3s2bOEht4vNrZarWzdupVjx47RuXNnfvnlF/bv38+vv/7KuHHjcHV1ZfDgwVy8eJHz58+zdetWqlWrRuvWrf/xPLdv36Znz55MmTKFHTt2MHPmTPbu3cvVq1dp0qQJc+fOJUeOHJw6dQonJydKlCiBn5/fQ8fKtGRy7u45Om7siJ+LH5+U/4R6gfXkvu4lNu/0PCYcmQCAt5M3G1puwFHraOdUQrxYziWco9OGTrZZfusG1uW7Gt/Jzz5hV5G3Ixl7eCxn7p7J0l/KuxSfVfyM4rmKP+LIl8OCMwsYd3icrf1V1a9oWailHRMJIV50SZlJ9wulbx/mSOwRKZQWQgghhBBCvDKkcFoIIV5y/392nh4le9C7TG87JhLi9WaxWFCr1U/0Ye/ly5fp2LEjWq2Wdu3a8cEHH7B8+XJ+//13RowYQe7cuenUqRMRERHUrVuXCRMmMGXKFNzc3OjXrx/btm1jx44ddO3alUKFCmUZ+//PiCiEEEII8aqzWCy2gujQ0FCio6MpV64c7du3Z/369QQHB9O7d2+0Wi3+/v789ttv7Nu375FjaTSaLPdUiqIwefJk9Ho9vXr1on///rzzzjtUrFiRqlWr0rZtWz7++GN+/vlnJkyYgIeHB99//z2VK1d+ZOZ0Uzqn755mSMQQ2hRuQ5diXaTA9iWXZkqj4YqGJGYmAjCs0jDaFWln51RCvFiSMpMIWxfGjdQbAAR7BLO48WJZRU28EKyKldUXVzM5cjJ3M+5m2fZ2gbfpV7Yf3s7edkr3dBRFYXDEYNvM2g5qB+Y3nE+xXMXsnEwI8aKQQmkhhBBCCCHE60Jr7wBCCCGeTtMCTYlKiGLemXkAzDw5k0I5ClE/qL6dkwnxetJoNE+8b3BwMPv27SMiIoL4+HgMBgMHDhzAx8eH3Llzc+/ePa5du8batWvZvXs3LVu25Pfff2f27NkAhISEcOLECd555x1atGjBsGHDbGP/WeDzZ9GPEEIIIcSrymq1olar0Wg0BAYG0q1bNypUqMC8efMICgqiTZs2fPrpp6xYsYIpU6YwceJENm3axI0bN7h+/Tp58+a1jfVnofSf909/3lMlJCSg1+tZtWoV8fHxNGzYkIyMDDZu3EjFihX59ttv6datG23btuX999+nXLlylC5d+pGZDSYDBouBUftH4ah1ZGGjhfi6+GbrdRLPx8IzC21F03lc89CqUCs7JxLixWKxWhgcMdhWNO2ic2FSrUlSNC1eGGqVmhaFWlA3sC6zTs1iwZkFmKwmAFZfWs3Wq1vpXrI7nYp2Qq/R2zntv6NSqfiyypdcvHeRC4kXMFqNfLzrY5Y0WYKXo5e94wkh7EAKpYUQQgghhBCvK5lxWgghXgEWq4UPt3/Ivpv3Z0tz0joxv+F8ingVsXMyIV4f9+7do2PHjoSGhtKlSxeKF8+6fOuTzgB98OBBXFxcKF68OPfu3WPo0KE0btyYxo0bA3Dr1i10Oh0mk4nw8HCKFy9OxYoV6dOnD5MmTSJXrlysXLkST09P3nrrrWx5rUIIIYQQL4K/PyD2Z/F0eHg4CxYswM/Pj59//hlFUYiPj+ftt9/m008/pUWLFiiKwp49e0hKSqJJkyZZxkxOTsbd3R2z2YxWq0VRFObPn8/x48cZPHgwW7Zs4dtvv2Xo0KFcunSJ5cuXs2fPHjw8PGjZsiW1a9fmo48+emRmk8WEWTGz8MxC9lzfQ//y/SntUzo7L5N4jpIyk2i4oiEpphQARlUbRfOCze0bSogXzNRjU5l5cqat/X3N76kdWNuOiYR4vGvJ15hwZAI7Y3Zm6c/rmpeB5QfyVsBbL92KX9eSr9FuXTvbv1eV/Coxo84MtGqZa0mIV50USgshhBBCCCHEfVI4LYQQr4ikzCQ6bOjA1eSrAPi7+BPeJFxmCxHiOTGZTNy4cYNdu3bx66+/Mm7cOEqWLPnAfv92BuhffvmFX375hY4dO1KqVCmqVKnC7t27mT9/Po6OjqSmprJnzx4UReHy5cv88MMP/PHHH1y/fp3o6GhmzJjBm2++mWVMq9WKSqV66T7YE0IIIYR4mIkTJ3L06FGqVKlC7969MRgMVK9enVGjRtGwYUMAFi1axIgRI7h48eIjxzl69Cj16tXj7t27wF/F2JcuXWLjxo1s2rSJuXPnMnLkSOrVq0dERAQzZ85k4cKFNGnSxFZs/SjppnSOxx1nyvEptAtpR9MCTVGr1M/2Ygi7+iHyB2admgVAkHsQq95eJUVoQvzNzms76buzr63drUQ3+pXtZ8dEQjy5/Tf3M+7wOC7ey3ovUcm3EoMqDqJwjsJ2Svbf/H79dz7a/tfDXl2Ld2VAuQF2TCSEyA5SKC2EEEIIIYQQDyeF00II8Qq5fO8y7Te0J82UBkD53OX5qd5P6NQ6OycT4tV27949pk+fzunTp+nevTtTpkyhWbNmdO7cmbi4OPbs2YNer7fNGm00Gjl8+DBBQUH4+/v/YwHznj17mDNnDteuXWP58uVs376dPXv2MHHiRADCwsLIlSsX06ZN49NPPyUxMZHZs2dz5swZtFothQsXJioqisjISJo3b46Tk1OW8Z90NmwhhBBCCHv78yE0q9XKvXv3aN++PXny5GHUqFFUrVqVfv360b9/f2bMmMGiRYuIiIhg//79BAQEsHr1at59912cnJyy3PtYrVYA1Go11atXp06dOowYMeKBQuhWrVrh6emJm5sbQ4YMISUlhRYtWjBr1iwqV678yHuqdFM6ycZkRu4fSYhXCN1KdMNF55L9F0s8V3cNd2m4siEGswGA8W+Op0H+BnZOJcSLIzopmnfWv0OqKRWAKn5VmF5nOhr1kz9YLIS9ma1mlp1fxrTj00jKTLL1q1Vq2hRuw0elPyKHYw47Jvx3ph+fzo8nfrS1J9acSN3Aus89h6IoxMTd4eKNm9xOSCQ2IZGrt+O4fucO8UnJmC0WLJb792tajQYHrRYfrxwE+HiTz8eb3F458PPKQZHAAHJ5uD/3/EK8SKRQWgghhBBCCCGejBROCyHEK2Z3zG767OhjezMsLCSMzyt/budUQry6TCYTY8aM4cSJE/Tu3ZvZs2ezadMmNm/eTKFChahZsya1atXi9OnTxMXFsWjRIq5evcrBgwfp0KEDhQsXJj4+nnPnzlGpUiV0ukc/6PD3WQ8bNGhAkyZNCAoKYsCAAZw6dYqiRYty/Phxpk2bRvXq1encuTMAP//8M6dOnUKr1bJr1y7ee+89PvzwwyxjK4qCoiio1TLroRBCCCFePH9ftSM+Ph5XV1ccHR3Zv38/oaGhjBw5ks2bN2M0Glm/fj2FCxemUaNG3Lhxg4CAAGbOnIm/v/9jz3HmzBmWLVvGpEmTOH/+PD4+PlgsFgA0Gg03b95k/PjxTJ48mTVr1tCkSRMyMzPR6/UPHc9oMWKxWph+cjo3U27Sr1w/8rnle7YXRrwwxh4ay8KzCwEIyRHC0qZLZUZxIf4n3ZROhw0dbDP1+rv4s6TJEjwdPe0bTIj/KCkziR+P/8iSqCVYFIut383BjY9Kf0TbkLYvxUQWVsVKnx19+P367wA4a51Z3HgxBTwLZOt545OS2X/6LJHnL7D/9FnOXYtBsSrotFrMVguZRhOW/z3Y9k+0Gg16Bx0alZoMoxEXR0eKBwdRrXhRShcqQKWiRXBxdMzW1yOEPUmhtBBCCCGEEEL8N1I4LYQQr6DZp2YzOXKyrT28ynDaFG5jx0RCvNq6detG/fr1adOmDcuXL2fFihUMGTKE3bt3c/z4cX7++WcAjh8/TmBgII0bNyY6OpqePXsyfPhw0tPT2b59O4GBgZQsWfKJZoCOjo5m+/btHDx4kJ07d3LhwgXOnDlD0aJFuXTpEm3atGHMmDG4u7vTt29fvLy8WLFiBUeOHGHv3r18/vnntgLuMmXKUKhQoedxqYQQQgghnsq2bdsYMGAARYoUYenSpVitVvr06YOzszPjx4+ndevWGI1G1qxZQ0JCAidOnKBWrVq24/+8z/r/91vDhg3jt99+47PPPmPSpEnky5eP1atXP7D/nTt3mDp1Kq1ataJEiRKPvGczmA1EXI9gSdQSPij5AZX8KmX7tRH2E5sWS+OVjTFajQBMeWsKNfPVtG8oIV4QiqLw6e+fsjl6MwB6jZ75DedTNGdROycT4uldTLzIuMPj2H9rf5b+YI9gBlUYRLU81eyU7MklZSbxzvp3iEmJASDIPYjwxuHPtJBSURQuXL/BxgNHWPH7Hi7fvIVepyMtIwNrNn1EqdVocNI7kGk0UbZwQVrXrE698mXxzemVLecT4nmRQmkhhBBCCCGEeDakcFoIIV5BiqIw6PdBbIreBIBWpWV2/dmUy13OzsmEeDV9/vnnrFixghYtWjBz5kx69+7NJ598wieffELTpk1p1qyZbTbCO3fu8N1332E2mzEYDLRv35579+5RsWJFvL29/9P54+LicHNzo2fPnhgMBsLCwjh8+DA+Pj4UKFCAlStXUqlSJZYuXUpcXBz+/v4sWbLEVmR0+PBhSpUqxahRowgMDHzGV0cIIYQQ4t/7/4XNN27coEmTJlSqVAlfX1++//57Nm3aROXKlenevTt16tQhLCyMQYMGsXDhQnbu3ElISIjt+D9nrP5zBY//76OPPuL999+nbNmypKWlERwczIIFC6hXrx5msxmtVvtEudNMadxJv8O4w+OokbcGrQq3Qqt+smPFy2vk/pEsO78MgBK5SrCo0aJ/fBBSiNfFvNPzmHBkgq09utpo3i74th0TCfFsKYrCrphdTDgygWsp17Jsq5G3BgPLDyTII8gu2Z5UVEIUnTZ2wmA2APBWvrfoWaone2/upX5gffK5/7cVM24nJDJ301YWbN5OiiEdq1Uh02R6ltGfmLNej8VqJSC3Nx80bUSrGtVxdZKZqMWLTwqlhRBCCCGEECJ7SOG0EEK8ogxmA102duFswlkAvBy9+LXxr/i5+tk5mRCvptjYWLZt28bevXvp1KkTFStWpGTJkqxbt47g4GBb8c9vv/3Grl27+OCDDyhatCinTp1i0qRJ1KhRg4IFC3Lq1Cl69uz5wPg7duzgjTfewMHB4ZEZzGYzCxcuZMWKFTRt2pS2bduycOFCDh06xPz58wE4f/48N27coFKlSgQEBLBnzx6KFCnC1q1bKV++PDly5Mi2aySEEEII8ST+LHL+u8jISH766SdmzJgBwIQJE1i8eDGRkZGMGzeOyMhILly4QPXq1fnoo4/+cTWNlStXcuTIEerWrUutWrWoXLkyo0ePpk6dOgB89tlnbN68mWPHjj1R5kxzJiariclHJ6PT6OhRqgceeo//8OrFyyYmJYZmq5phVswA/FT3J6r4V7FzKiFeDIduHaL71u5YFSsAYSFhfF75czunEiJ7GC1GFp1dxMyTM0kzpdn6tWotHYp0oEepHrg5uNkx4eNtuLyBwRGDbW01aqxYKZSjECuarnjiB4IURWHfH2eYtmotESf/ALBbsfSjOOv1WBWF1jXeoEezxoQE5LV3JCFspFBaCCGEEEIIIZ4PKZwWQohX2K3UW7Rb346EjAQAQr1CmddwHk5aJzsnE+LVoSgKiqJkmbnwz1kJp02bxoYNG+jatSv169fH1dWVr7/+GoAPPvgAHx8fFixYwLFjxxgxYgQ//PAD0dHR/PzzzwBcvXoVHx8fdDodP//8MzVr1iQkJITY2Fh8fX2fKN+1a9fo2bMnDRo0oF27dvj4+NiKkRYtWsTvv/9Ot27dqFChwrO/OEIIIYQQT2HUqFEUL16c0qVLEx0dzdChQ9m/fz9GoxGtVouPjw/Tp0+nTZs2bN68mXv37hEWFgb8NWO12WzGbDbj6OiIoiiYzWZ69OhBfHw8vXv3ZsiQIQwbNozk5GSmTJnC0aNHAZg5cya9evVi2bJltGrV6pEZrVYrRquRDVc2sOf6HnqX6U2wZ/BzuT7ixTA0YihrL68FoIJvBX6u97PMNi0EEJsWS9i6MNt7UqW8SzGn/hx0Gp2dkwmRveIN8Uw5NoVVF1ZlKXb0cvSib5m+NC/YHI1a85gR7OfrA1/za9SvD/Rvbb0VX5fHvw9ltVpZt/8gX85ZSGJKKumZGbzonz5q1Wq0Wi1FgwIY3a0L5UMK2zuSeA1JobQQQgghhBBC2MeDa5MKIYR4Zfi5+jGp5iTb0tBnE84yfO9w5JkZIZ4dlUplK5q2WCwAtqXcP/roI9q3b8/cuXP59ddfUalUpKenU6hQIXx8fEhPTycqKoq8efPi4eGBxWKhevXqABw5coQPPviAdevWcfr0aZo0aUJISAiHDx9mwoT7yxxbrdZ/zBcQEMDQoUM5ceIE9erVY/ny5aSkpJCUlESHDh1o1KgRAwcOJCoqKjsujxBCCCHEP7JarVl+Rzl27BiVK1fm3r17JCcnU79+fWrVqkV8fDy//vorDg4OmM1matasyfDhw7FYLNSvX99WNG21WlGpVCQnJ7Nu3Tpu3ryJ1WrlypUrZGRkULRoUdasWcOJEyfIzMxEp9Px7rvv4uPjQ48ePWjYsCEREREcPnz4sUXTaaY0ohKj+PT3T8nllIvvan4nRdOvmUv3LrHu8jpbu0+ZPlI0LQSQacmk/87+tqLpnI45mVhzohRNi9dCLqdcfFX1K8KbhFPGp4ytPyEjgS/3f0m79e04EnvEjgkfzqpYOZ94/qHbTseffuyxu4+f5I3en9D3h+lcvxNPWsaLXzQNYLZayTAaiTx/kVafj6LNiK85H3Pd3rHEKy4pM4md13Yy7vA42q5tS/Vfq9N3Z18WnFnA2YSzDxRNq1VqiucsTtdiXZlWexp72+0lvEk4A8oP4M28b0rRtBBCCCGEEEL8R1p7BxBCCJG9yuYuy9BKQxm5fyQAm6I3EeIVQrcS3eycTIhXz/9fUh6gQ4cOdOjQwVbkbDKZGDBgACEhIdy7d4+0tDSqVasGQFBQEJcvXyY9PZ3hw4fTsWNH2rRpQ506dejcuTOOjo4MHTqUJk2aAGSZ5fpx3njjDd544w3MZjMGg4HLly/Tvn17WrVqRcuWLTl69Cg+Pj7P6CoIIYQQQjw5q9Vqu6e5d+8enp6eXL9+nfHjx1OgQAH69++Pv78/AJMnT+bLL7/k2LFj7Nixg06dOmE0GtmxYwd169a1jfln4aq7uzunT5/mp59+IioqiiFDhlC9enUmTpzIokWLqFWrFnv27MHT05PU1FRWrlzJ6dOn2bt3L3379n1kAazBbMBoMTLxyESCPYOZWEOKAV9X045PsxW3vJHnjSwFckK8zr45+A1/3P0DAK1Ky3c1v8PHWX7nFK+XYjmLMa/BPDZHb+a7o98RmxYLwLmEc3Td3JX6QfUZUG4A/q7+dk56313DXSLjIh+67fid49QOrP1A/x9Xovl0+mzORl8jPTMzuyNmK4PRSMTJU9QZMIQGlcoz6r3O5PbKYe9Y4hUgM0oLIYQQQgghxItJpci0o0II8VoYfWA0S6KWAKBCxQ9v/UDNfDXtG0qI14DFYkGtVmcpvNm/fz+Ojo7s3buXqKgoBgwYQP78+enfvz8ajYbg4GB27drF0qVLOXHiBAMHDmTBggWkpaVRokQJQkNDqVy5Mm3atOGNN96wzXANWYuPHufKlSvMnDmTW7du0bRpU1q3bv3ExwohhBBCPEsmk4lBgwaxZ88ehg4dyq+//kpUVBRubm60b9+eXr162fa9ePEiO3bsoFy5cvj6+tK3b1+mTZuGr+/95eMtFkuWh9lmz57NkCFDGDBgAEOGDAHg3XffJSUlhRUrVgCwbt06du7cybBhw/Dy8npkTovVgslqYmnUUq6nXKdHqR7kdMqZHZdEvATO3j1L23Vtbe0lTZZQNGdROyYS4sWw4vwKvtz/pa39WcXP6BDawX6BhHgBGMwG5v4xl1/++IUMS4atX6/R826xd3mv+Hs465ztmBAUReHbQ9+y+NziB7b5u/izufVmW9toMjPu12X8tGYDmSbjSzG79L+h02hw0OkY2+M92tR6U1aTEP+KFEoLIYQQQgghxMtBCqeFEOI1YbKa+GDLBxy5fX8pSBedC4sbLZalpIV4jhRFeeDDlkuXLlGgQAEA+vTpw65du2jYsCGdOnWiRIkSfPbZZxiNRiZOnMjkyZPZvHkzGzZs4NixY2zcuJGcOXPSo0cPe7wcIYQQQointmXLFn755RcqVqxoe3jM1dWVKVOmcPToUQoWLAjA8OHDKVmyJK1bt8ZgMLBgwQImTZrE+++/z8CBA7OMmZaWxqJFi2jatCmurq6sWrWKU6dO8c4771C2bFliY2OpXr06rVq1IioqimvXrjF27Fjq1KnzyJzppnTO3j3LsgvL6FK0C6E5Q7P1uogX34fbPiTiRgQAdQPrMrHmRDsnEsL+Tt05RZdNXTBZTQA0yt+Ib6t/K0WHQvxPbFosE49OZOOVjVn6fZx96F+uP43zN7b7/y8XEy/yyx+/sO7yOluxp6vOlf3t9wNw6nI03cZNJDbhHoaXfJbpf+Ks11MupBA/9u8ts0+LR5JCaSGEEEIIIYR4OUnhtBBCvEYSMhJ4Z9073Ey7CUCAWwCLGy/GQ+9h52RCCIA1a9YwZswY1qxZg4+PD1arlYYNG/LJJ59Qr149ihYtysiRI2ndujUAgwcPRqfTMXr0aI4ePcqaNWto2LAhlStXfmBsmU1aCCGEEC+iWbNm0atXL+Lj4/H09GTRokVcvnyZdevW4ePjQ5kyZdi2bRsBAQFMmzaNnDlzkpSUxObNm6lZsybXrl3j2rVrtGzZEoB58+Yxfvx4qlWrhpOTE5UqVaJ169b07NmT8uXL22avPn36NDdu3ODy5cv07NnzkfkMJgNp5jR+iPyBanmqUS+wnt0LmoT9HY87TqeNnYD7KzqtbLaSgjkK2jmVEPaVkJFA2LowYtNiASicozALGi6w+yy6QryIIm9HMvbwWM7cPZOlv5R3KT6r+BnFcxW3U7K/3Ei5wfB9wzmfeJ4+ZfrQulBrxoYvY/pv68gwGu0d77nRajTodTom9e5B8+pV7R1HvACkUFoIIYQQQgghXg1SOC2EEK+ZqIQoOm3shMFsAKCqf1Wm1Z6GVq21czIhxP+3fv16vv32WzZu3EhMTAzVqlUjISHBtr1bt260bt2aBg0a0KhRI6pWrUqPHj3w9vZ+ZKH0w2a9FkIIIYSwF6vVSp06dahXrx6fffYZN2/eZNGiRaSmplKmTBliYmIoWrQotWvXfujxY8aMIS4ujl69euHj48NPP/1E9+7duXnzJm3atCE4OJhx48Zx9+5d5s6di4eHBydPnmTmzJm22awfxmQ1YbaaWXhmISpUdCzaEUetY3ZdBvGSeX/z+xyKPQRAk+AmfFP9GzsnEsK+zFYzPbf25GDsQQDcHNxY0ngJ+dzz2TmZEC8uq2Jl9cXVTI6czN2Mu1m2vV3gbfqV7Ye3s7ed0mWVkp5O128ncvjc+Vd+lulHcdI78G6Deox4t4NMTPCakUJpIYQQQgghhHg1SeG0EEK8hrZEb+GT3Z/Y2l2KdmFghYGPOUII8TyYzWa02r8eYlAUhaioKIoUKcLWrVsZNWoUv/76K/7+/gCEh4cTFRWFo6MjUVFRzJ49G41Gk2XMXbt28fvvv1O2bFmaNGli609KSuLIkSP4+flRtGhR4P6HdhnmDJkRTAghhBDP1d69e+nVqxcbN24kT548rFmzht9//50PP/yQ4OBg235/PhhmsVhs9zznz59n1qxZBAUF0atXL6xWKwsWLGDKlCl8/PHHXLx4EYPBwPjx49m/fz9LliyhQYMGNGjQ4JF5DCYDh2IPsf/Wft4t9i6+Lr7Zfg3Ey+PArQN039IdAK1Ky5rma6Q4VLz2Jh6ZyJzTc4D7s7BPqz2N6nmr2zmVEC+HVGMqs07NYsGZBZisJlu/s9aZ7iW706loJ/Qavd3yXbkVS+vho4lLvEemyfTPB7zCnPV6yoYUYt6QT3BzlvfOXlVSKC2EEEIIIYQQrwcpnBZCiNfU1GNTmXlypq399Rtf06xAMzsmEkI8TkZGBlOmTGHHjh1MnDiR0NBQxo4dy5AhQxgyZAjdu3cnKCjIVlBkNptZv349X3zxBZ07d2bdunXUq1ePoUOHAjBkyBCuX7/O+fPnGTx4MC1btiTVlEr/Hf3RarSEhYRRPU91NGrNPyQTQgghhHh6/fv3JyYmhuXLl2M2m7FYLOj194uEHrVihslkQqfTsXz5cnbv3k3r1q2pUaMG7733Hp9++imhoaH07duXPXv28Nlnn9G2bdvHZkg3pZOYkcicP+bQpEATSvuUzo6XKl5iiqLQcUNHTsafBKB14daMqDLCzqmEsK/N0ZsZuPuvh/E/LP0hvUr1smMiIV5O15KvMeHIBHbG7MzSn9c1LwPLD+StgLee+wpiESf/oMuY8aRnZGKVjxIB0Ot0eHt6sHzUFwT7ycN1rwIplBZCCCGEEEKI15MUTgshxGvKqlj5eOfHtjfjHdQOzG0wlxLeJeycTAjxpAYMGMCpU6f4+eefCQgIAP4qLDp06BDLly8nNDSUrl27EhUVxbvvvsv27dsZOHAgc+bMYfz48fTu3Ruj0YiDgwP3Mu7x5pI3bR8O+Lr40rpQa1oVbkUup1z2fKlCCCGEeMVdvXqVYcOG8eOPP+Lq6oparbbd1/z/wumNGzcycuRIatasSa5cufjkk0/4/PPPcXR05PPPP6dRo0b4+flRr1495syZQ/fu3WnUqBFOTk4PPbfRYsRsNTPnjznkc8tHkwJNUKtkCXbxoF0xu+izow8AOrWODS03yIzk4rV2MfEi7Te0x2A2AFAjbw1+eOsH+RkqxFPYf3M/4w6P4+K9i1n6K/lWYlDFQRTOUfi55Fi//xAfTpyCwWh8Lud7mahVKlydnVj7zVeEBgbYO474l6RQWgghhBBCCCEESOG0EEK81tJMaXTc0NH2RryPkw+/NvkVb2dvOycTQvx/iqKgKApqtZrFixdz7NgxIiMjmTJlCkWLFn1g/7179zJ//nwGDx5McHAwmzZtYvny5cyePZvw8HC++eYbqlevzptvvklYWBgWxcLW6K0M+n3QAx8WaFVaagXUIiwkjIq+FZ/7DEdCCCGEeH39uZoGQGZmJhcuXODTTz/lm2++4d69e9StW5dz587ZZqtu3bo1ZcqUYeTIkZw7d47PP/+cKlWqPHxsxUqmJZNdMbuISYmhQ2gHXHQuz/HViZeJVbHSdm1bohKjAOgY2pHBFQfbOZUQ9pNiTKH9+vZEJ0cDEOAWQHiTcNwd3O0bTIhXgNlqZtn5ZUw7Po2kzCRbv1qlpk3hNnxU+iNyOObItvOvithLvx9mkCFF04/l5uzEb19/SYngIHtHEY8hhdJCCCGEEEIIIR5GCqeFEOI1F5McQ7v17Ug2JgNQMldJfmnwC3qN3s7JhBCPsnTpUvbs2UO3bt0oWbLkQ/c5fvw4H3zwAYcOHQJg5MiRmEwmRo0aRcOGDencuTPvvPMOFosFjUZjOy4mJYbl55ez6sIqEjMTHxg3yD2ItiFtaVagGR56j+x5gUIIIYR4bf1ZKP3/Z5keM2YMiYmJBAYGkjNnThITE5kzZw4dO3akX79+WK1WvvvuOy5evMjw4cPx9/d/7MNe6aZ0bqXdYs2lNbQu3Jp8bvmex8sTL7FN0Zv4dPenADhpndjQcoOsyiJeW/9/FTMnrROLGi2iUI5Cdk4mxKslKTOJH4//yJKoJVgUi63fzcGNj0p/RNuQtujUumd6zrV7D9D7+2ky0/QTcnNyYt3YkTLz9AtECqWFEEIIIYQQQjwJKZwWQgjB/pv76bWtl+0N+LcLvM2oaqNkVlkhXmJ3796lX79+ZGRkULhwYXbt2sWCBQtwdXWlSpUqHD58mJw5cz7yeKPFyNarW1katZTIuMgHtus1ehoENSAsJIziuYrLzwshhBBCPBN/vk31573F0aNHWbduHefOnSM8PJzffvuNli1b8umnnzJkyBA8PT25fv06iqJgNBo5ceIEzZs3t81S/f9lmDMwWU0sOLOAcrnLUcmv0nN7beLlZbaaabG6hW1m3W4lutGvbD/7hhLCjn46+RNTjk2xtce9OY6G+RvaMZEQr7aLiRcZd3gc+2/tz9If7BHMoAqDqJan2jM5z/ajx+j67USZafpfcndxZst33xDs52vvKK8lKZQWQgghhBBCCPFfSOG0EEIIABaeWcjYw2Nt7cEVBtOxaEc7JhJCPC2LxcLcuXNJS0ujdu3aFCtWjCFDhnDjxg3mz5//wEyOj3I+8TzLopax9vJa0kxpD2wP9QqlbUhbGuVvhLPOOTteihBCCCFeM5cvX2by5Mk4ODhw6NAhypQpw/fffw9A5cqV6dixI71792bv3r18/vnndOnShXffffeR41msFkxWE5uiN2G1WmlWsBlatfb5vBjx0vvt4m98sfcLAFx1rmxqtUlWXxGvrb039tJrWy9bUVrnop35tMKndk4lxKtPURR2xexiwpEJXEu5lmVbjbw1GFh+IEEeQf95/Khr16n/6VDSMzKfLuhrSK1S4Z8rJ7smj8fdRd4Xy25SKC2EEEIIIYQQ4lmQwmkhhBDA/Tffv9j7BasvrQZAo9Iwvc50qvhXsXMyIcR/8aii6Hr16vHxxx/TqFGjfz1muimd9VfWszRqKecSzj2w3VXnStMCTWlbuC0FcxT8T7mFEEII8fqxWCxoNBqsVisqlYrw8HA2bdpE9erV6d69O2PGjCE5OZkePXqQP39+jh49yrBhw3BycuL27dv07duXdu3aPXL8dFM6l5Muc/DWQVoXbi0Fr+JfMVlMNP2tKTdSbwDwUemP6Fmqp51TCWEf11OuE7YujGRjMgDlc5dnVr1Z8iCKEM+R0WJk0dlFzDw5M8vD7Vq1lg5FOtCjVA/cHNz+1ZiJKam82ecT4u7dQz4x/G/0Oh3lixRm+Vefo9E8fOUT8d9IobQQQgghhBBCiOwghdNCCCFsjBYjXTd35eSdkwC4O7gT3jicAPcAOycTQvxXVqv1kUvV/1eKonAq/hRLopawOXozmZYHZyMq61OWsJAw6gTWwUHj8EzPL4QQQohXw59vSf3/h70+/vhjdu/ezaxZsyhfvjxnz55lzJgxNGvWjCZNmuDk5ITJZOLy5cuEhIQ8cnyD2UCGOYPl55dTO6A2wZ7B2fp6xKtpybkljD44GoAc+hxsbLURF52LnVMJ8fwZzAY6b+xse4jWx9mHJU2WkMspl52TCfF6ijfEM+XYFFZdWJWliNTL0Yu+ZfpSM19NBkcMJjEjkTFvjCHE6+H3TGaLhWZDv+TkxcsYzebnFf+V5KzX06l+bUa938XeUV5qUigthBBCCCGEEOJ5kMJpIYQQWdxJv0O7de2IM8QBUMCjAIsaL5IPhoV4BWRHEXVSZhKrL65m2fllRCdHP7Ddy9GL5gWb06ZwG/K65X2m5xZCCCHEq+HIkSN8/fXXlCtXjjfeeIMyZcrQvXt3OnToQIMGDdDr9cyYMYNDhw7x0UcfUa5cuceOZ7aaMVvNrLu8Dl8XX6r5V3voShxC/JMMcwaNVza2/X48sPxAuhSTYijx+lEUhWF7hrH28loAdGodcxvMpaR3STsnE0KcvnuasYfGcizuWJZ+DwcPkoxJAAS5B7Gs6TIctY4PHD94xs/8umM3hswHH4oX/56T3oFJvXvS8s1q9o7y0pBCaSGEEEIIIYQQ9iCF00IIIR7wR/wfdNnYBaPVCECtfLX4vtb3qFWyzKAQ4uEUReFg7EGWRi1lx7UdWBRLlu0qVFTLU42wkDCq56mORq2xU1IhhBBC2JPFYkGj+es+YM+ePXz44Yf07dsXBwcHhg8fzrZt2zhw4AAHDx6kZ8+eFCtWjJSUFL799lt69uxJvnz5Hjl+uimdM3fPcC35Gk0LNEWn0T2PlyVeUfNOz2PCkQkAeDt5s6HlhocWnQnxqgs/F86Yg2Ns7eFVhtOmcBs7JhJC/J2iKGyO3sx3R78jNi32oft0Ld6VAeUGZOn7/cQpOo0eh8FofB4xXxsujo7s+3ESfjm97B3lhSSF0kIIIYQQQgghXgRSOC2EEOKh1l5ay9A9Q23tHiV70LtMbzsmEkK8LOLS41h5YSXLzy/ndvrtB7b7uvjSulBrWhVuJcs6CyGEEK+piIgIqlevzqJFi4iOjmbYsGEATJo0ifXr17Nt2za6du1K6dKleffdd/Hw8HjseOmmdFKMKWy9upWG+RuS0ynn83gZ4hWWZkqj4YqGJGYmAjCs0jDaFWln51RCPH/H4o7x3qb3MCtmAFoUbMFXVb+SmfyFeAEZzAbmnJrDjJMzHihEVaHi53o/U8GvAgCp6QYq9uxLfFKyPaK+0rQaDZWKhrBy1HD5WYkUSgshhBBCCCGEeDFJ4bQQQohHmnB4AvPOzPurXWMC9YPq2zGREOJlYraaibgewZLzS9h3Y98DH4poVVpqBdQiLCSMir4V5cMkIYQQ4hVhMBu4knSFAh4F0Gv1Wbbt3r2bESNGEBAQwLx585g2bRorVqxg586dWK1WDAYDjRo14rfffmPLli2kpKTQtWvXLLNU/53JYsKsmFl/eT3FcxanSM4iz+MlitfAzBMzmXp8KgB5XPOwtvlamcFcvHbupN8hbF0Ydwx3ACiWsxjzGs5Dr9H/w5FCCHuJvB1Jl01dHrrNVefKvnf2oVKp6Dv5R37bs48Mo+kfx7QajaRfPIti+t++KjUaJyd0uXKj9czxQryfY0lPw5KagtbdE7WjI+aUZJL278ZqMuJatBQOvv5YUpLRuHugcXTCkpbKvX27sBozcSlSHOcCIc80j7NezzcfdOWdOrWe6bgvAymUFkIIIYQQQgjxMpDCaSGEEI9ksVr4cPuH7Lu5DwAnrRPzG86niJcUIwgh/p2YlBiWn1/OqgurbLP2/V2QexBtQ9rSrEAzPPSPn1FSCCGEEC+ug7cO8tX+r0g1prKx1UZcdC62bQkJCfTo0YPOnTvTtGlTW39QUBAjR46kc+fO7Nq1i5kzZxIeHv6P5zKYDUTejsRsNfNm3jdfiKId8WpIykyi4YqGpJhSABhVbRTNCza3byghnjOTxcT7W97nWNwxAHLoc7CkyRL8XP3snEwI8TjH447TaWOnR24/0fkEe06eptPocRiMxica0xB9iYq5PAgLCwPAaDRy+fJlNm/ezLnoa7iXq4Quh/1W+1DMZlJ3baJ6tWps37OXnHWbkHHtCi1KhtK8eXPCevSC1GRqVa/O9t8jyFG3CZk3Y6ifPy/vv/8+zTp1wbNqzWeey8XRkX0/TsIvp9czH/tFIoXSQgghhBBCCCFeRlI4LYQQ4rGSMpPosKEDV5OvAuDv4k94k3C8HF/tN3yFENnDaDGy9epWlkYtJTIu8oHteo2eBkENCAsJo3iu4lIAJYQQQrwkkjKTmHh0IisvrLT1dQjtwMdlP8ZR6wjAlStXaNiwIZGRkTg7O5OWloaLiwubN29m2rRpaDQaoqOj+fjjj+nSpQuKojz0XiDdlM7djLtE3o6kflB92/hCPCs/RP7ArFOzgPsP+K16exVatdbOqYR4vr45+A2Lzy0G7he5zaw7k8p+le2cSgjxJPbe2Mvh2MOkmlJJMaZw8d5FEjISaF6wOR+V6k2FD/pwI/7uE4+Xfvk879WqzkcffcSYMWPQ6XSUKFGCtm3bcvDgQdp17IhLtbfQODphzcgg48Y1rIZ0NC6u6P3y3p8BOjUZ0504UKtRjEasmRmgUaNxdAaNGmtaGgAOfnlROziQeeMaVpMJXc5cOPj4oVKpsKSlYoyLxZKWikqnQ+eVC10uH0x37+B8JYqrV6/i4OCAa4mymJPvEaDXEhQUxNZdu3F3cuTevXvodDoci5TAkpaKn8pCkSJF2HLgEJ7VamG8fQtz4l0UiwW1kzMOuf3Qurr95++DVqOhQcXy/PLZgP88xotICqWFEEIIIYQQQrwK5B1/IYQQj+Wh9+CHWj/QfkN70kxp3Ey7ySe7PuGnej+hU8syxUKIf8dB40Dj4MY0Dm7M+cTzLItaxtrLa0kz3f+ALNOSyepLq1l9aTWhXqG0DWlLo/yNcNY52zm5EEIIIR5GURS2XdvGmINjiDfE2/rddG6E5AhBr9Hb+jw9Palbty4RERHUr18fFxcXMjMzqVOnDvXr12fXrl1UqFABF5f7s1T//6LpTHMmZsXM9qvbqehXkbcLvv18XqR4rdw13GXh2YW29kelP5KiafHaWXtpra1oGqBf2X5SNC3ES6RanmpUy1PtodsWbd1BYmrqfxo3NjaWRStW4VSgMAu3bGfkyJEcP36c9zp3Zt7OCDTOLljOnaJdu3YUKVKE06dPsyg8HJcK1Ug9GUmHFm+zc+dOmjVrhr+/PxMmTODtt99mx44ddO3aFavVysyZM0lLS6Nbt254e3sTHh7O5fg49P75UP0RSdsWLQgNDSUxMZFVq1Zx+doVTAnxdOneDY1GQ69evQBYvnw5aqecaLVaFGMmbTrfn4W7Z8+eWCwWfvvtN9QuLmi19/+NTz60l5L5/GnasR2urq5cunSJefPmoa5WG7Xjf3tIz2yxsO1oJKejr1IsKPA/jfEikEJpIYQQQgghhBCvIrW9AwghhHjxBXsGM7b6WFTcL1w4cvsIYw+NtXMqIcTLrnCOwgyrPIwdbXYwvMpwingVybL9bMJZvtr/FbWX1WbMwTFcTLxop6RCCCGEeJi49Dg+3vkxA3YNyFI0XTewLqubr6ZFoRZZip89PT0pVKgQCxcuZP/+/Zw8eZJWrVqxcOH9ItWaNWvaiqb/zmq1kmHO4OCtg1y+d5lmBZvh6+Kb/S9QvJZmn5qNwWwA7t+v1guqZ+dEQjxf5xLOMXL/SFu7bmBduhbrasdEQohnJcNoZOS8RaRnZP7nMdSOjjgFFcC9TEXS3XOwYMEC2rdvj+HSeVQXz3LkyBHeeOMNzp49S9OmTVm1YgUpxw5hzcxgzJgxrF27Fl9fX27evImfnx9Tpkxh1qxZxMfHU6JECdatW8eCBQtwdHREpVKxd+9enBLjMcbFUqVKFUJCQjh58iSKorB7926K+uTEaki33XOq1WrU6vsffVauXJmePXsCPLBdpVJRtmxZ+vbtizkhnuJ5fFm7di137tzh6NGjBAYGkjt3bqzG/36tAIwmM5/PmvtUYzxvSZlJ7Ly2k3GHx9F2bVuq/1qdvjv7suDMAs4mnH2gaFqtUlM8Z3G6FuvKtNrT2NtuL+FNwhlQfgBv5n1TiqaFEEIIIYQQQryQZLoUIYQQT6RGvhr0LduXyZGTAVgStYQQrxDaFG5j52RCiJeds86ZNoXb0LpQa07Fn2JJ1BI2R28m03L/w6lUUyrh58IJPxdOWZ+yhIWEUSewDg4aBzsnF0IIIV5PVsXKigsrmHhkIqmmv2Ys9HbyZlilYdQOrP3Q41QqFR988AFqtZpJkyZx/vx5Pv30Uzp06PDIc6Wb0rmVdouYlBjezPsmapXMASCyT2xaLEujltravUv3lr9z4rWSlJnExzs/JsOSAUCwRzCjqo16YAUAIcTLada6jWQaTc9sPJ1XLk6dOsV7772HYjLSuccHXLhwgffeew+AefPmceHCBcqEFuHo0aMA/PLLL0xf/CtqRycKuLvg6upKt27diNc58csvv5CSksKUKVNYsm0H5sQEatWqxVtvvcXG01Fs2LCBDRs2ZMnQtWtXTl64yNKlSxk/fjzTpk3DtUQZTLq/Vj1R6R1ZunQpP/30Ez/++CP6IsUxq7J+PFquXDmOHj3K1KlTQaUmfPkKHHL54Obq9lTXyKooRF64yIEz56hctMg/H2AHMqO0EEIIIYQQQojXkRROCyGEeGLvF3+fqIQoNkVvAmDMgTEEewRTLnc5OycTQrwKVCoVJb1LUtK7JIMqDGL1xdUsO7+M6ORo2z6RcZFExkXiddiL5gWb06ZwG/K65bVfaCGEEOI1czX5Kl/u+5Ijt49k6W9VqBUDyg/A3cH9scc7OjrSu3dvOnfujKurq21GwP8vw5yB0Wpk/839vJHnDQp4Fnhmr0GIR/np5E8YrUYASuQqQc18Ne0bSIjnyGK1MDhiMDdSbwDgonNhUq1JuOgeXAlACPHySTVkMHHJStIzn24G5b9TTEZcXV0xGO6v1FCjRg2KFi3Kxo0bbQ9ceHh4EBISYiucPnToEC4hxVHpdBAXQ0JCAtdjY8nVsAXxMdHcu3eP48eP41K4GGlRp7l58ya5cuXCGB9BUFAQU6dOpWjRopjNZtzc3Dhw4AAqre6vUCoVTvkLodL89fGnxsUVLH8VjDsFFSRTf/2vQxwcWLt2LZ988glRUVFs2bKFxYsXczjqAiiPLiB+UoZMI8NmzWH7pBdjBUcplBZCCCGEEEIIIaRwWgghxL+gUqkYWW0kV5OvcjbhLGbFzIBdA/i18a/4ufrZO54Q4hXiofegc7HOdCraiYOxB1katZQd13ZgUSwAJGQk8MsfvzDnjzlUy1ONsJAwquepjkatsXNyIYQQ4tVkspqYd3oe049PtxWWAgS4BfBl1S+p4FvhX43n7v7wAmuL1YLJauLQrUMEewZTP6j+U+UW4knFpMSw6sIqW7tPmT4yy654rUw/MZ29N/ba2l9X+5pgj2A7JhJCPEsrdkfAY4pj/y1rRgYZ16Jp+OXnbNu2DYDMzEw2btzIhAkTsux79+5d239nZGSAx1+zOJvNZvhzdQcVKIpyv0+tApUK5X+Fy6Y7t/l+1m8cOnSIpk2boigK/fv3p2bNmv+huDnr/lp3T5LdclC0RAnKlS5N/fr12bBhA+3btyfiejRqR2ewmNHlyo3a4b+tfnbx+k1OXY6mRHDQfzr+aUihtBBCCCGEEEII8SApnBZCCPGvOGmdmFxrMu3WtyMhI4GEjAT67ezHvIbzcNI62TueEOIVo1KpqOxXmcp+lYlLj2PlhZUsP7+c2+m3AVBQ2HNjD3tu7MHXxZfWhVrTqnArcjnlsnNyIYQQ4tVx+u5pvtz3JecSztn6NCoNXYp1oVepXjhqHZ/JedJN6VxLuUamJZM38735TMYU4klNPz4ds2IGoIJvBSr7VbZzIiGen53XdjLz5Exbu3uJ7tQOrG3HREKIZ0lRFKauXENaxtPPNm26l0DC9g04q1X0evddGjduTLVq1dD5+LJmzRpGjx7N0KFDydA6gNWKOiMdRVFQaZ/+48g8efIwf/58NO6ekJZCmzZtuHPnDiqtluTkZHQ6Ha4uLiRGbMeceBdKFwNApdGQlnwPq9VKjhw5SNyzE3PyPSgQcP81xcfhYEhDUak4evoMhw8fJjQ0lJIlS7J51xRCggLx9fVl38kjuJev+p+yG81mZqxZz7SPP3rq6/BPpFBaCCGEEEIIIYT4Z1I4LYQQ4l/zc/VjUs1JvL/lfcxWM2cTzjJ873DGvTlOZuQSQmQbH2cfepbqSbcS3Yi4HsGS80vYd2Of7cOf2LRYph6fyowTM6gVUIuwkDAq+laUn0tCCCHEf2QwG5h+fDrzzszDqlht/aFeoXxV9StCc4b+6zEVRXng32aD2UCGOYPT8aep7F8ZrVrerhLP16V7l1h3eZ2tLbNNi9dJdFI0Q/cMtbWr+lflo9LZX9gnhHh+Dp87z52kpKcep3z58pw8dgwHBwd8fHzYt28f9evX59TNWNzLVmbFmrXUrVuXM2fO8Pvvv6PX66lcuTKVK1fmxo0bT3dylYqffvqJGTNm8PbGjRQvXpybN2/e36TVkaHSsGTJEk6ePElMTAwffPDBX4eq1SgubsybN4/Dhw9z9epV+vTpk2X4vn370rZtWyIjI8mZMyelSpVi2LBhaJxdaNOmDdWqVaNJh07/Ob7FamXt3v18070r7i7O/3mch5FCaSGEEEIIIYQQ4t9TKcq/XsNKCCGEAGDZ+WWM3D/S1u5Xth/dSnSzYyIhxOsmJiWG5eeXs+rCKhIzEx/YHuQeRNuQtjQr0AwPvYcdEgohhBAvp4O3DvLV/q+ISYmx9ek1ej4s/SGdi3b+18XNJouJ8HPhOGmdaFKgCSjYClMjb0dSLFcx+bda2M2AXQPYenUrAG/keYPpdabbOZEQz0e6KZ0OGzpw8d5FAPxd/FnSZAmejp72DSaEeKbeHTOBjYeO8F8/DjTGxaI6dxJvb28AMjMzuX37NlZXd/R58uEYGIxKpcackkTK8SP4OOkpU6YMaWlpREZGkuHshmI2kdfNhVu3b+PyZl1QqUjdvYU8vr7EJKXgWa0W9/buJMDTneu3buFaox6GS+fxSEkkPT0dpXBx0i9FkT9nDgoWLMjJkydJSUnB1dWVRGd39H55SIk8SA4nR3LkyMG1a9fQ6/V/bc+Tj5SjB/DUO+Dl5cX169fRaDR4enoSm5qONT2VkAIFCA4OJikpiUOHDqErFIrx9i2W/zyL+fPns+nsRZwLhvzn74OTXs+wTu34oGmj/zwGSKG0EEIIIYQQQgjxLEjhtBBCiKcy+sBolkQtAUCFih/e+oGa+WraN5QQ4rVjtBjZenUrS6OWEhkX+cB2vUZPg6AGhIWEUTxXcZlBUAghhHiEpMwkJh6dyMoLK7P0V/StyIgqIwhwD/jXY0Zcj2Dc4XFEJ0cDkN89PxX8KlDMqxjlcpcj0CPwWUQX4j85e/csbde1tbWXNFlC0ZxF7ZhIiOdDURQ+/f1TNkdvBu7/zjS/4Xz5+y/EKyY5LZ2iXbpjNJmfahxrhgGr+f4YKrUatYMelfbhD9KZU1OwpKag0mjQunug1juiWK1Y0tNQ6/WodQ73xzSZsGZmoHF2uT8r9J/7ODqi1upQFAVrehoqjRa1oyOKomBJvoclw4DGxQ21TodiNqN2dkGlUqEoCkpmJlazCbVeD1brg9uNmVhNf25XUMwm1M4uoChYUpKxGNJRabVoPTxR6xy4u3Ud/Xr24PvvJ5OzYfNHvuYnFZDbmyM/Tf1Xx0ihtBBCCCGEEEII8exJ4bQQQoinYrKa+GDLBxy5fQQAF50LixstJtgz2M7JhBCvq/OJ51kWtYy1l9eSZkp7YHuoVyhtQ9rSKH8jnHXPdnlUIYQQ4mW29epWxhwcQ7wh3tbnpnNjYIWBtCjY4l8/eHQl6QrjD48n4kZElv5A90AGVRhE9TzV5WEmYXcfbvvQ9ne0bmBdJtacaOdEQjwf807PY8KRCbb26Gqjebvg23ZMJITIDqv37Kf/1BmkGjLsHeWlZLxzG2NcLHr/vOhy5Hzq8fQOOvZOnUhAbp9H7iOF0kIIIYQQQgghRPaTwmkhhBBPLSEjgXfWvcPNtJsABLgFsLjxYllqWwhhV+mmdNZfWc/SqKWcSzj3wHZXnStNCzSlbeG2FMxR0A4JhRBCiBdDXHocYw6OYfu17Vn66wbWZUjFIXg7e/+r8ZKNycw4MYPws+GYlb9mN3TVudKzVE/aF2mPTqN7JtmFeBrH447TaWMn4P4KSiubrZT7QvFaOHTrEN23dseqWAEICwnj88qf2zmVECI7dBkzgY0HD9s7hvgfJwcHPu/cnu5NG9r6pFBaCCGEEEIIIYR4/qRwWgghxDMRlRBFp42dMJgNAFT1r8q02tPQqp9u+UIhhHhaiqJwKv4US6KWsDl6M5mWzAf2KetTlrCQMOoE1sFB42CHlEIIIcTzZ1WsrLiwgolHJpJqSrX1ezt5M6zSMGoH1v5X41msFlZcWMHUY1NJzEy09atQ0bJQS/qU6UNOp6efqU+IZ+X9ze9zKPYQAE2Cm/BN9W/snEiI7BebFkvYujASMhIAKOVdijn158gDLUK8gkxmMwXbv4ch88H3QYT9lCqYn6H96kuhtBBCCCGEEEIIYUdSOC2EEOKZ2RK9hU92f2JrdynahYEVBtoxkRBCZJWUmcTqi6tZdn4Z0cnRD2z3cvSiecHmtCnchrxueZ9/QCGEEOI5uZp8lS/3fcmR20ey9Lcq1IoB5Qfg7uD+r8Y7HHuYsYfGEpUYlaW/XO5yDK4wmNCcoU+dWYhn6cCtA3Tf0h0ArUrLmuZryOeez86phMhemZZM3t34Ln/c/QOAnI45Wdp0KT7OPnZOJoTIDntPnabT1+NJNRieyXhWo5H0i2dRTKYHtmk9cuAUVOCxx2fERJN+8RyWlGRQa/CoWA0HH98Hz2Mycu/37VgMaTjlL4RisZBx7TIaF1dyVK+DSvvoiTrMKclYDeloc3ih1jlgjI8j+cg+sCq4lamI3i/Pv3/hz5pawbtxFGqd9eGbpVBaCCGEEEIIIYTIdlI4LYQQ4pmaemwqM0/OtLW/fuNrmhVoZsdEQgjxIEVROBh7kKVRS9lxbQcWxZJluwoV1fJUIywkjOp5qqNRa+yUVAghhHi2TFYT807PY/rx6RitRlt/gFsAX1b9kgq+Ff7VeNdTrjPx6ES2Xt2apd/fxZ9Pyn9C3cC6qFSqZ5JdiGdFURQ6bujIyfiTALQu3JoRVUbYOZUQ2e/LfV+y4sIK4P4DA7Prz6Zc7nJ2TiWEyC5fzV3I9N/WYX1GHwMaoi9RMZcHYWFhD2wbNGgQ2io1UTvoH3qs8e4dPGIuER4eTlBQENOmTWPS0pW4Fi35wL6mhHiKmNOZPXs2pSpVRrFYuHD6D1q0aEFMjtxoPXI89ByW9DQsh/dQsmRJDpw+i+cbb5F27g8GtG1Jzpw5GTJ5Gm4lyz7dRXgGVFoL7uVv4Oh/f8UXKZQWQgghhBBCCCGev0c/li2EEEL8Bx+W/pDziefZGbMTgK/2fUV+9/yU8C5h52RCCPEXlUpFZb/KVParTFx6HCsvrGT5+eXcTr8NgILCnht72HNjD74uvrQu1JpWhVuRyymXnZMLIYQQ/93pu6f5ct+XnEs4Z+vTqDR0KdaFXqV64ah1fOKx0k3pzD41m3mn52UpwHbSOvF+8ffpUqzLvxpPiOdp9/XdtqJpnVpHj5I97JxIiOy34vwKW9E0wMAKA6VoWohX3P4/zj6zomkAxWqhWLFi1KxZk/Hjx2fZZjKZsNyIARU45PZH4+SM1ZhJ5q3rKCYTaWdPMfjrrzlx4gTVqlUDwKNqTYx3bmO8EwuocPDxRZfTG7j/vo1OpwPAaszk888/5/r166h88mFOTsJ45zZWQxoqBz0O3rnR5ciJ8fZNihUpwpw5cyhUtCiGKxcxJ99jw4YNODo6YklNxnDlImpnZ/S5/QGwZBgwxt5EpdGg98+HoljJvBGDJSUZtZMTDrn90bq6PbNrCKCYNXhmBPBOsUpSKC2EEEIIIYQQQtiJ2t4BhBBCvFrUKjXfVP+Ggp4FATBajXy882PupN+xczIhhHg4H2cfepbqyaZWm/ih1g9Uy1MNFX/NjBmbFsvU41Opu6wuA3YN4OCtg8iiLUIIIV4mBrOBiUcm0n59+yxF06FeoYQ3Dqd/uf5PXORsVaysvbSWpquaMuvUrCxF002Cm7Cm+Rp6lOohRdPihWVVrEw9NtXWDgsJw9fF146JhMh+p+6c4uuDX9vajYMb075IezsmEkJkN0VROHctJlvGvnXrFnPCf+XXg5G2P1YfP3KlJBBWoQzJe7ZjSU3hXsR23i5ehCCVhTq1a1OzZk38/f3p1asXfn5+pBw9QGBaIsPe7cRnnd7BP/E2yYf2olitWU/4vyJqlUpF5q3r6M+doPObVRj9UU96N2uEW/R5Us+cIO2P47Rq1QoPDw96vv8+nd6ohPpeAmq1Go1Ggyk+jrdLhuJx8yqmu/EApBw7TN0CAfinJ5H6xzGStm+gbnA+RvbqTtda1TEf3kNGTPQzv4Y+GYUZUH4Ab+Z9U4qmhRBCCCGEEEIIO5DCaSGEEM+ci86FH2r9gLuDOwBxhjg+3vkxmZZMOycTQohH06q11AqoxYw6M1jfcj3vFX+PHPq/ln81K2a2Xt1Kty3daPZbMxacWUBSZpIdEwshhBD/7OCtg7Ra04o5p+dgVe4Xoeg1evqX68/ixosJzRn6xGOdvHOSThs6MXTPUOIMcbb+4jmLs6DhAr6p/o0UoIoX3parW4hKjAL+N0N6ifftnEiI7JWQkcCA3QMwWU0AFM5RmBFVRqBSqf7hSCHEy+xa3J1se+hbpVJBhgHDmRO2P5aUZGJiYnj33Xf57JNPSNi9ha7vtGPYsGFER0ejVqtRqVSoVCrbfzeuV5ddu3Zx7949MjMzOXDgANWKhpBx9XKW86l1Dnz99dfkzZsXU8Jd6tWrR+7cuTl27Bju7u5ERkbiZUi9v69abfv65383btyYtm3bAlC9enX69OlDRswVLIZ0XEwZLFy4kPT0dIwx0az97Tc++OADzp49S0hICAcPHsR09iSWDMMzvYZnr8bIQ/lCCCGEEEIIIYQdae0dQAghxKspn3s+JtSYQK9tvbAoFk7Gn2TU/lGMqjZKPpwTQrzw8rnlo3+5/nxU+iO2Xt3K0qilRMZF2rZHJ0cz7vA4JkdOpkFQA8JCwiieq7j8fBNCCPHCSMpMYuLRiay8sDJLf0XfioyoMoIA94AnHisuPY7vj37P2strs/TncspF/3L9aRLcBLVKns0XLz6z1cy0Y9Ns7Q6hHcjllMuOiYTIXmarmUG7BxGbFguAm4Mb39f8Hietk52TCSGy28mLl9FoNNky9ptvvonB8Fch8d27d/EPDMStfFXeeecdjh49SkJCAqNGjaJGjRoQUIAtW7YQFhbG+fPnmbV8FcbbN1m/fj0DBw5k4YbNKBYL6enpfPXVV7z55psQkOeh53bwyc38+fOz9OXMmZN33nmHiVOnsWzZMpo3b86Ps2bhElIMi6u7bT+1swtz585l1apVDP3iCzL0jnQKC2Pv3r3ExMRQs2ZNgoODKVasGGazGYB169YRFhbGimN/4BRU4JldQ5PFzK27CfjnyvnMxhRCCCGEEEIIIcSTk8JpIYQQ2aaKfxUGlh/I2MNjAVh9aTVFvIrQsWhHOycTQogn46BxoHFwYxoHN+Z84nmWRS1j7eW1pJnSAMi0ZLL60mpWX1pNqFcobUPa0ih/I5x1znZOLoQQ4nW29epWxhwcQ7wh3tbnpnNjYIWBtCjY4okf9Mm0ZDL/9HxmnZqFwfxXcYxOraNLsS50K9ENF53LM88vRHZZd3kd0cnRALjqXHm32Lt2zSNEdvsh8gcOxh4EQIWKsdXHks89n51TCSGehzPR10jLyMiWsXfv3k3NmjXhb/eUjvmC0Of2Iz72Bh9//DGLFy+mX79+nI9PxL1CVSypybZ9tTm8MMffpmjRokREROASWgLFZGLPnj2MGDHisec2JdylVKlSTJ48mXz58mE2m/Hy8mLx4sWoHf96KESl1eGUvxDWzL9WQHTwzs2hY8dJSkqi7ltvsXHTJt6d/wtTpkxBpXOgRo0auLu7s3btWtv9cpEiRTh58iSWvQef0dX7XxatljPR16RwWgghhBBCCCGEsBMpnBZCCJGtOoR24FzCOVZfWg3AhCMTKOBZgCr+VeycTAgh/p3COQozrPIw+pfrz/or61katZRzCeds288mnOWr/V/x3ZHvaFqgKW0Lt6VgjoJ2TCyEEOJ1E5cex5iDY9h+bXuW/rqBdRlScQjezt5PNI6iKGy7to3vjnzHjdQbWbbVCajDgPIDyOcmhXfi5WKymJhxYoat3aVYFzz0HnZMJET22hy9mTmn59javUr3onre6nZMJIR4nq7ExqIoSraNr8vpjWe1Wln6rJmZmOJi6dixI5cuXaJhw4ZMmzUbxWjMsp9KpcIKZGZmotfrUcwmFLMJvV5Penr6Y8+bGRPNnNWRTJkyhTlz7v+MmzRpElqtFv7p9arU6PMGMnfuXN59910uX75MaGgoq1b9hmO+QDIzMzlx4gQ9evTIclhKSgraoEJPdmGekNliJTYh4ZmOKYQQQgghhBBCiCcnhdNCCCGylUqlYniV4VxJvsLJOyexKBYG7h5IeOPwf7U8uBBCvCicdc60KdyG1oVacyr+FEuilrA5ejOZlvuzGKWaUgk/F074uXDK+pQlLCSMOoF1cNA42Dm5EEKIV5VVsbLiwgomHplIqinV1u/t5M2wSsOoHVj7iceKSohi7OGxHI49nKW/UI5CDK4wmEp+lZ5ZbiGep5UXVtoeBMihz0Gnop3snEiI7HMx8SJf7P3C1q6RtwY9SvZ4zBFCiFfN9bj4f97pKZgSE0jYvtHWVru4gKLQ/6MP8fb2plSpUuzYsYMBvT9i8vyFqBz0WY7XunmwZ88e3nnnHb74+htQrLSfMJ49e/aAWvPYc+fNm5eTJ0+i9cqFPtNAs2bN2LBhAyqtluTkZDw9PVEM6dzbswNTQtbr4JgviAULFvDFF1+QkJDA0qVLsXh64eSXlzVr1jBkyBDUajUx8QmodFos9xJxcnJC7/5sH7bKMBqJTUh8pmMKIYQQQgghhBDiyUnhtBBCiGznoHHg+5rf025dO+IMcSQbk+m7oy+LGi+Spb2FEC8tlUpFSe+SlPQuyaAKg1h9cTXLzi+zLf8OEBkXSWRcJF6HvWhesDltCrchr1te+4UWQgjxyrmafJUv933JkdtHsvS3KtSKAeUH4O7g/kTjJGQkMPXYVFZcWIFVsdr6PfWe9C7dm1aFW6FVy9tI4uWUYc7gp5M/2drvl3hffhcVr6wUYwr9d/XHYDYAEOAWwJjqY1Cr1HZOJoR4nm4nZl9RbsWKFTl35nSWvtatW+Pq6srgwYOpWLEilly+tGvXjkOHDhEREcGBAwey7O9csAgDBw5ky5YtlClTBp1OR8GCBalduzbOhYo88txqJ2dmzJjBqlWr2LlzJ6VKleLSpUsAaFxcuXAlmrNnz3L69Gni4uJ4++23sxyvdffgdpqBiIgIevbsSbVq1XDMF4TOKxfnz5zg66+/5sCBA/z++++YzWYqVqzIBx98wJFUA1qPHM/oCt5f4eVqbNwzG08IIYQQQgghhBD/jkrJzrW6hBBCiL/5I/4PumzsgtF6f3nGWvlq8X2t7+XDOyHEK0NRFA7GHmRp1FJ2XNuBRbFk2a5CRbU81QgLCaN6nupo/mEWJSGEEOJRTFYT807PY/rx6bb7a7hfIPdl1S+p4FvhycaxmAg/F86MEzNIMaXY+rUqLe2KtKNnqZ546J/tDHtCPG/zTs9jwpEJwP2Z2De03ICj1tHOqYR49qyKlY93fszOmJ0AOGmdWNRoEYVyFLJzMiHE8xbc7l1SDYZnOqYxLhbVuZN4e3s/sO3atWt4enqiUqlIcvHAtVgpUs+cwCM1CUVRuB0fT+5cuTAajVgKFcUhtz/pF85iuhRF9erVsVqtROzZg2NIcfR58pG+Zzu+Pj7czDChWMzkdXXm1u3bOFWoRnLkQYoGBZInTx4OHz6MoihoNBoMvvlQO7uQcuwQub1y4ObmxuXLl/Hw8LBtd8pfkIyYaByuXcLLy4vLN2+Ro1YDVGo11swMUo4fwSkjjapVq2I2mzlx4gQJJjMeFauj1usfclX+u6rFi/Lb1yOe6ZhCCCGEEEIIIYR4MlI4LYQQ4rlae2ktQ/cMtbV7lOxB7zK97ZhICCGyR1x6HCsvrGT5+eXcTr/9wHZfF19aF2pNq8KtyOWUyw4JhRBCvKxO3z3Nl/u+5FzCOVufRqWhS7Eu9CrV64kLQiOuRzDu8LgsqyUAVPOvxqAKgwj2DH6WsYWwizRTGg1XNCQx8/7Mm8MqDaNdkXZ2TiVE9vjp5E9MOTbF1h735jga5m9ox0RCCHuwWq34tWxPdnz8Z80wYDWbH+hX6/UoRiOo1WicnG39FkM6WK2onV2wGtLvb3d0+ms8kxFzYgIAOq+cqLQ6W781MxONiwsoYElPQ613RK3ToVitmJMSsRqNaN3cQa0GRbGdV1EUrJkZKGYzGkcnrGZTlu1/5lIsFjROTqg0WVdVsRjSMSffQ6VSoXF1R+OcPatUFMzjz74fJ2XL2EIIIYQQQgghhHg8KZwWQgjx3E04PIF5Z+b91a4xgfpB9e2YSAghso/ZaibiegRLzi9h3419KGS9/daqtNQKqEVYSBgVfSuiUqnslFQIIcSLzmA2MP34dOadmYdVsdr6Q71C+arqV4TmDH2ica4kXWH84fFE3IjI0h/oHsigCoOonqe6/HskXhkzT8xk6vGpAPi7+LOuxTp0Gp2dUwnx7O29sZde23rZft/oXLQzn1b41M6phBD2YDSZCWjTEat8/PdCC8jtw5GfpvzzjkIIIYQQQgghhHjmpHBaCCHEc2exWvhw+4fsu7kPuL907PyG8yniVcTOyYQQInvFpMSw/PxyVl1YZZv18O+C3INoG9KWZgWa4aH3sENCIYQQL6qDtw7y1f6viEmJsfXpNXo+LP0hnYt2RqvWPubo+5KNycw4MYPws+GYlb9mCnTVudKzVE/aF2kvBaXilZKUmUTDFQ1JMaUAMLLqSFoUamHnVEI8e9dTrhO2LoxkYzIAFXwr8FPdn57o3wYhxKsnPTOTgu+8i9li/eedhd3kyZWTYz//aO8YQgghhBBCCCHEa0kKp4UQQthFUmYSHTZ04GryVeD+zF/hTcLxcvSyczIhhMh+RouRrVe3sjRqKZFxkQ9s12v0NAhqQFhIGMVzFZdZP4UQ4jWWlJnExKMTWXlhZZb+ir4VGVFlBAHuAf84hsVqYcWFFUw9NjXLgzsqVLQs1JI+ZfqQ0ynnM88uhL1NjpzM7FOzgfsPqK16e5UUkopXjsFsoPPGzpxLOAeAj7MPS5sslZ/rQrzG0jIyKNS+qxROv+D8c3px/Jfp9o4hhBBCCCGEEEK8lqRwWgghhN1cvneZ9hvak2ZKA6B87vL8VO8ndGqZ5U4I8fo4n3ieZVHLWHt5re3n4d+FeoXSNqQtjfI3wlnnbIeEQggh7GXr1a2MOTiGeEO8rc9N58bACgNpUbDFEz1Yczj2MGMPjSUqMSpLf7nc5RhcYTChOUOfeW4hXgR3DXdpuLIhBrMBgPFvjqdB/gZ2TiXEs6UoCsP2DGPt5bUA6NQ65jaYS0nvknZOJoSwp0yTicC2nbFaHyyctmYYSL8YhWIxo9Y74ly4KCq1GsVqJf38GayZGag0WpwKhmC8eR1zStIDY6h0DjgXCgWrFUP0RcxJiShmM2pHJ3Q5cuKYLxDjnTiMcbdQOznjXCgUlUqFNTOT9IvnUMxmHAOD0XnmyDKuMS6WzFvX/zqPRovWwxMHb1/Ujo62fsVqJSPmCsZbNwEFB988OAbkR6VWA2DJMGC4GIU5+R5qvSNOwYXQ5ciJoihk3riGKT4OS3oaKrUGjbsHTvkLonG6/36LJT0Nw5WLWFKSQK1G6+mFU1BBVFot6RfOYs0wPHA91Ho9TgWKkHkzBlNCPFZDui27U/6CqPWODxwDkM/Hm6Ozpv7zN1QIIYQQQgghhBDPnBROCyGEsKvdMbvps6MPCvf/OQoLCePzyp/bOZUQQjx/6aZ01l9Zz9KopbbZ4v7OVedK0wJNaVu4LQVzFLRDQiGEEM9LXHocYw6OYfu17Vn66wbWZUjFIXg7e//jGNdTrjPx6ES2Xt2apd/fxZ9Pyn9C3cC6sqKBeKWNPTSWhWcXAlA4R2GWNV2GWqW2cyohnq3wc+GMOTjG1h5eZThtCrexYyIhxIvAYrHi1/Kdh25Lv3COmsH5aNasGfPnz+dEWiZOAcFkxFylmF5F165dWb9+PVtOnsYtLZnRo0c/MMaCBQuIjEvAdD2a9zt3pm7dunh4eHD16lWWL1/OztPnyLx9i0ljv2XatGnc8Q1AlyMnhisXqOKbi2LFivFj+BI8KlXPMm7Cjo2MGjqEnDnvFzknJydz4MABtm/fTqaHF64lyoJKRdL+3VQvVYI+ffqgUqmYOnUquyOP41G1BuaUZDKP7OOjXr2oX78+UVFRfPPNNyR5+aB2csEv6Q59+/alUKFCZGRkEBERwdQfp6MvXwUVKjKO7KNv74+oXr06RqORdevWMffXJbgWLUk+QzJ9+/Z94Hr89NNPnLp+kxJ5/enRowf58+cnNTWVrVu3MnvuPFyr1EDj4vrAcfn9fDk4Y/J//C4LIYQQQgghhBDiacjalEIIIeyqRr4a9C3bl8mR998kXhK1hBCvEPmgTwjx2nHWOdOmcBtaF2rNqfhTLIlawubozWRaMgFINaUSfi6c8HPhlPUpS1hIGHUC6+CgcbBzciGEEM+KVbGy4sIKJh6ZSKop1dbv7eTNsErDqB1Y+x/HSDelM/vUbOadnofRarT1O2mdeL/4+3Qp1gVH7cNnvRPiVRGbFsvSqKW2du/SvaVoWrxyjsUdY9yhcbZ2i4ItaF2otR0TCSGepzN3z3D27lkq+lYkn3u+LNs0GjWODg5kGI0PHKdYLZQtW5Z33nkHb29vwrr3+F/h9BUG/DiVBg0acPv2bTYfPY6bmxsffPABffr0ISMjwzbGnTt3SD8fxcSJE3nrrbcYMWIEcXFxFC9enNKlS7P92EmwWOjSpQsrV64kzmy5f26LhZIlS1K/fn2mLQy/32c2ASpUWi2K1Uq7du1Yu3YtkZGReHp68t577zFnzhy6dOnCpmPH0HnlolqJYixdupSePXuiKAqLFy+mXbt2HL5+jYwb15g+eTL58+fn888/p0WLFkRERFCkaFEcQorj5eXFuXPnWLVqFe7u7nz++ecUKVKEnp8NRaXRMHnCeMqUKcPgwYNxdXVl+vTp6PV6Zi9fRZJey+HDh23XITAwkKFDhzJ69GjUekdy5sxJZGQkv/76Kz4+PowcORJ/f39GzZyNe5mKD3wvvNzcnsVfBSGEEEIIIYQQQvwHUjgthBDC7t4v/j5RCVFsit4EwJgDYwj2CKZc7nJ2TiaEEM+fSqWipHdJSnqXZFCFQay+uJpl55cRnRxt2ycyLpLIuEi8DnvRvGBz2hRuQ163vPYLLYQQ4qldTb7Kl/u+5MjtI1n6WxVqxYDyA3B3cH/s8VbFyvrL6/n+6PfEGeKybGsS3IR+Zfvh6+L7zHML8SKaeXKm7cGBErlKUDNfTfsGEuIZu5N+hwG7BmBWzAAUy1mMYZWHyUoCQrwm7mXco+OGjpisJgBKeZeiaXBTGuRvgIfeA4Acbq7cupvwyDG2b99OlSpV8FApGO/cxs1q5s0332TLli0P7DtnzhwIKohKrQFA7ZYTlYOe1q1b89FHH7El8jhOQQU5ue8Qxls3cAouhCn+b/ejioJitcL/WwA3/eI5lOiLWBUFXdHStv4dO3aw5eRp1I5OTJszj65hbZg7dy65/fww3Eug39w5TJkyhTV7D6BSqQj94Qc+/vhjmrd7hxxOjnTs2JGiRYsS5+LBgc+/oHnz5jRr0oRN5y5x/HYyJ7ftQuPuSebZI5hGjGDq1KlYUnqj0mioUaMGX375JYdibmJJTWX+/PnUqFGDn39bQ3Ke/Px6+BgAGVcvM3xAf7Zu3cqt5FQ8Klcn4vxZ9t64jcbVnYwdu3B3n8B7773Hl+O/e+j3wD9Xzn/+ZgshhBBCCCGEECJbyFQrQggh7E6lUjGy2khCvUIBMCtmBuwawK3UW3ZOJoQQ9uWh96Bzsc6sab6GWfVmUTewLhqVxrY9ISOBX/74hUYrG9FrWy92xezCYrXYL7AQQoh/zWQ1MfvUbFqubpmlaDrALYBf6v/Cl1W//Mei6ZN3TtJpQyeG7hmapWi6eM7iLGi4gG+qfyNF0+K1EZMcw28XfrO1+5TpI8Wk4pVispj4ZPcnxBviAcihz8GkmpPQa/R2TiaEyG6pxlQuJl5kU/QmW9E0wIk7Jxh9cDRv/PoGn/3+GQA+OTwfO1ZmZibLly+nffv2JEce5J133mHVqlUYDIYH9tVqtWSc+wPDmRMYzpwg9fRxVGo1N27coEOHDvioIenIfsz3EnEJLYneP1+WY1MP7SFx4yoyzp9Bo/nrPQ1TQjyLFi1i9KhRmBPvZjmnLldunAuF4lGtJvMWLACgUYMGmJPuUaFCBfbu3YtjQH4cA/KzZ88eypcvjzU9jZIlS5KYmMiV6zdwDCqIg4+vbbvFkI5L0ZJkXL9G+tH9eJozadeuHdu2bUPj6obG1Y3du3fTtGlTLNev4mw0ULt2bXbt2oXW1R19bj+cAgvgmDcQJT2dd999l19++QXHgPyo9Y44FymG4fIF0o/uJ7deR4sWLdi+fTsa14fPLB3km/vx33AhhBBCCCGEEEJkG5lxWgghxAvBSevE5FqTabe+HQkZCSRkJNBvZz/mNZyHk9bJ3vGEEMKuVCoVlf0qU9mvMnHpcay8sJLl55dzO/02AAoKe27sYc+NPfi6+NK6UGtaFW5FLqdcdk4uhBDicU7fPc2X+77kXMI5W59GpaFLsS70KtULR63jY4+PS4/j+6Pfs/by2iz9uZxy0b9cf5oEN0Gtkmfmxetl+onptll4K/hWoLJfZTsnEuLZmnBkAsfi7s94qlapGVdjHH6ufnZOJYR4WiaLidvpt7mVdovYtFjbn1tpt4hNjyU2NZYUU8o/jrMpehPfvvkt/jm9OHHx8mP3nTt3LrNmzeKHH36ga9eufPjhh/Tp0+eB/eLj41H+Nlt01apVOXU7nu7duzNr1iyuXbvG1atXWb9+PaNHjyYlNY9t3y1btmC1Wm1tjUbD9u3bAVDpHJg9ezZJSUmoHBwemlGtc8Dq6ERUVBQFCxZEpVKRO3du7t69i9otFyqVirt3b+Hj44NKpcLX15f4+HjUej0qlQq1g567d+/i5+eHNTMDa2YGvu6unI+9ibOzM3/88Qd16tRBm8MLjd6JQYMGsX37dtLS0tBqtSxdupSZM2fi8cZbtkyZt25Q961aODs789uatbjVqg+AJTWV0qFFiIiIwNnZmX379vHtt9+iCw554HXpdTr8c3k99vsjhBBCCCGEEEKI7COF00IIIV4Yfq5+TKo5ife3vI/ZauZswlmG7x3OuDfHyQxhQgjxPz7OPvQs1ZNuJboRcT2CJeeXsO/GPhTuf4gZmxbL1ONTmXFiBrUCahEWEkZF34ryc1QIIV4gBrOB6cenM+/MPKzKX4UkoV6hfFX1K0Jzhj72+ExLJvNPz2fWqVkYzH/NCqhT6+hSrAvdSnTDReeSbfmFeFFduneJdZfX2doy27R41ay9tJbF5xbb2v3K9pOHA4R4CVgVKwkZCVmLof/2NTYtlnhDvO33+qdRya8SAIFPMJvx0aNH0el0dOzYEWdnZw4dOvTQ/Tw9PUlLT7e1Nc6ueNaoQ/SNGN6oU5fcHu5Uq1aN/v37s3v3boqXKoXyv9Ww3nrrLX7/PQJUgKLwySefUL/+/UJj19CS7L52HdRqnPIXIuPalQfOrSgKVqMRNzc3DAYDiqJgMBjQ6/VgtaCoVDg6OpKRkYGiKKSnp+Po6IhiuX+PrVit6PV60tLSUGk0qB0duW3IxMXdHRdHR77++ms2bdpEucpVUGm1rFu+jJMnT1K3bl1cXFxYuHAh33zzDSN+mIqufFUAMq5d4b3PPmHRokWocnqj1t0v+ta6uXHi+GFc3NzxdHdjypQpLF26lCZt2+EUGJzldTlotfjkyPGP3yMhhBBCCCGEEEJkDymcFkII8UIpm7ssQysNZeT+kcD9WVJCvELoVqKbnZMJIcSLRavWUiugFrUCahGTEsPy88tZdWEViZmJAJgVM1uvbmXr1a0EuQfRNqQtzQo0w0PvYefkQgjxejt46yBf7f+KmJQYW59eo+ej0h/RqWgntOpHv1WjKArbrm3juyPfcSP1RpZtdQLqMKD8APK55XvE0UK8+qYdn2YrOnsjzxuU8Slj50RCPDvnEs7Z3isBqBtYl67FutoxkRDiT6nG1CyzQ99KvfXA7NEmq+mpz+OgdsDXxRc/Fz9O3z1NqinVti2HPgdDKg6hYXBDAELy5cVZryc9M/OxY86ZM4cZM2YwcuTIx+6Xq2FzVFqdrW26l4Ba50COWg3IMKSz4cx5Ilq25NatWxTMn58zZ87Y9vWoWgOHXD6kXzyXdVCNBrXeEdRqVOoHV0lRFAXjrevk885FaGiobabq69evExgYyOmoy6BSEVggkOvXr9u2+fv7o7GYUMwmLKnJBAYGcvDgQdR6PZbkZDyr1UKlUmFKiOfbb7+lX79++OTwJDU1lQYNGlC4cGEoWpqk5CSmTp3K+PHjGfrV/etjSUvFAytvv/02FSpUwPF/BdGKxYIlPZ0cNeuhUqnIvHmdiRMncuTIEUhPRbFas7xGq6JQKK//Y6+5EEIIIYQQQgghso8UTgshhHjhtCnchqiEKJZELQHgh8gfKOhZkJr5ato3mBBCvKDyueWjf7n+fFT6I7Ze3crSqKVExkXatkcnRzPu8DgmR06mQVADwkLCKJ6ruMzAKIQQz1FSZhITj05k5YWVWfor+lZkRJURBLgHPPb4qIQoxh4ey+HYw1n6C+UoxGcVPqOiX8VnnlmIl8nZu2fZenWrrd2nTB87phHi2UrKTOLjnR+TYckAINgjmFHVRsn9vBDPgclieqAI+u9F0rGpsaSYUp76PCpUeDt72wqjfZ198XO9/9XX1RdfZ1+8HL1s/99/tf8rlp9fDkDzgs0ZWH5glgelSxYIRq1+/M8Irbsn8+fPR6vVMnfuXLQej54BOXH3Vu5PGw0qrRZzUiIVK1bk8Kbf0OXywWowUKFMKUwmE/Hx8U/0mtPOnKBcXj9SU1O4eDk5y7bUP46hnDhCkQLBTJ83j23bthF1NQbHwGCWL19Ou3btWBrWDlQq2g0bxPLly9HnDeTYqT+4ffs2zZo04bet2/DSO/DWW28xaNAgTHcT0N+J5W5qGrocOTGnJtOkZQvu3LlDQuI9TMZMkpKSKF26NKu2bkMxmSjTrhXXr1+/X+ANZMRc4YOOHTl58iR/XLyEV+2Q+3lPHsUpNYkEQwZad0/Myfeo06c3Fy5cwKrVwf/7eW00mymUJ88TXSchhBBCCCGEEEI8e1I4LYQQ4oU0uOJgLt27xJHbR1BQ+CziMxY3WkywZ/A/HyyEEK8pB40DjYMb0zi4MecTz7MsahlrL68lzZQGQKYlk9WXVrP60mpCvUJpG9KWRvkb4axztnNyIYR4tW29upUxB8cQb/iriMRN58bACgNpUbDFYwvfEjISmHpsKisurMCqWG39nnpP+pTpQ8tCLR87S7UQr4spx6bY/rtuYF2K5ixqxzRCPDsWq4XBEYNtKw246FyYVGsSLjoXOycT4uVnVawkZCRkLYb+29fYtFjiDfG21QyehruD+19F0S6+tj9/tn2cfdCpdf880P98Wv5TSuYqSQHPApT0LvnA9iIBeck0Pn6Wa42rG8Z8QUxbuxFNUGE0N649dL9jx45htf51Hzp16lSmTp3KrFmzcHV15fjx47i6ulK5cmW++OILEq2qLLNTP4o1M4OBAwdy6dIlvvjxJ1v/Dz/8wOjkZLy8vMjIyGDVqlWMHDUKt5JlUTs6MXnyZLZu3cqenTtQFAUXFxd69eqFc9EyZDg58fHHHzN79mzCdu2icuXK/Pjjj1yKjUPj5s7Y4cOoWrUqly9fxs/Pj6CgID788EPUfnnQWyz069ePWbNm0WHXLlxdXSlVqhTNmzdHnzcARVHIuBbN+++/z48//ohjQH7bfbzFkM7cuXPJly8fN27cIF++fHh7e9OlSxecggo8cL8f7O+LRvPgLNtCCCGEEEIIIYR4PlSKojz9Oz5CCCFENkjISOCdde9wM+0mAAFuASxuvDjL7ClCCCEeL92Uzvor61katZRzCece2O6qc6Vpgaa0LdyWgjkK2iGhEEK8uuLS4xhzcAzbr23P0l83sC5DKg7B29n7kceaLCbCz4Uz48SMLLMYalVa2hVpR89SPeW+WIj/OR53nE4bOwH3Z+xc2Wyl3NeIV8bUY1OZeXKmrf19ze+pHVjbjomEeHmkGlPvF0Cn3y+GvpV664HZo03WxxcXPwkHtYOtCDq3S278XPxsBdF/frXHA8tVP+zPxRs3s/Rl3oxBezkKvV5PkrsXLiHFbNvSL5zFLfEOJpOJzLz5MV48S6C//wPj3r17l2QFrGlpFMofRIECBUhNTeX06dOkaB1wLVWe5MP7CPTy5GZsLE5Va6Fxcibz9k0050/j7OxMgt4ZlUaLZ1oSRqORjLxBGG/dII+zI1qtFkVRSE5O5k5SMg4+vjgXKIzW3ROAjBvXSDt1jDcqV0KlUhGx/wAuxcvgmDcAxWIh9VQkzqlJVKpUiYsXL3LlbiLuZSpiTk4i7fhhioUWISAggPj4eE6dOoUlly+uxUuhWBVSjh/Gw5xJiRIlMBqNHD9+HIuPPy7FSgEKiVvXE5wvLzE3b+L8v9cFYLh6mYwzJyhZogT+/v7cvn2bk3/8gTpPIC5FiqNSZy2S7ly/DhM+7P5sv+FCCCGEEEIIIYR4YlI4LYQQ4oUWlRBFp42dMJgNAFT1r8q02tNkVj0hhPiXFEXhVPwplkQtYXP0ZjItmQ/sU9anLGEhYdQJrIODxsEOKYUQ4tVgVaysuLCCiUcmkmpKtfV7O3kzrNKwfyx4i7gewbjD44hOjs7SX82/GoMqDJJVWIT4f97f/D6HYg8B0CS4Cd9U/8bOiYR4NnZe20nfnX1t7e4lutO3bN/HHCHE68NkMT1QBG2bLTo9ltjU2CwPn/1XKlR4O3nj6/q/ImhnX/xc73/1dfXF19kXL0evx64gYi/9fphO+PZdD/RbMgxgtaJ2cn4gtyU9DVQqNE7OWM0mrBkZDxyv0mrRODqhKFYsyclYDOn3+1xcbYXEitWKJT0NtYMetcNf7y9YMgxgsaB2vj9rvjU9DdRqNE7O98dLS7Ptq9ZqUekdH3ptFbMZU+JdUBR0XrlQabO+V2xJT8OckoRa74jWI4dtDMVqwZychDXDgNpBj8bVDbWD/oFjLakpoFajdXNHrXf823lNWDIyUOv1qHVZ3zdRLGbMSUlYjRmo9Y73x9Y9+N6Ki6Mj3/Z4j7C3ajywTQghhBBCCCGEEM+HFE4LIYR44W2J3sInuz+xtbsU7cLACgPtmEgIIV5uSZlJrL64mmXnlz1QlAfg5ehF84LNaVO4DXnd8j7/gEII8RK7mnyVL/d9yZHbR7L0tyrUigHlB+Du4P7IY68kXWH84fFE3IjI0h/oHsigCoOonqf6C1mUI4Q9Hbh1gO5b7s/YqFVpWdN8Dfnc89k5lRBPLzopmnfWv2N7AKeqf1V+rP0jGrXGzsmEyH5WxUpCRkLWYuj/fb2ddr9YOt4Qj8LTf7zl7uCeZWboP//82fZx9kGn1j2DV/X8/RaxjwHTfiLVYLB3FPE3egcde6dOJCC3j72jCCGEEEIIIYQQry0pnBZCCPFS+P9L0379xtc0K9DMjomEEOLlpygKB2MPsjRqKTuu7cCiWLJsV6GiWp5qhIWEUT1PdSnSEEKIxzBZTcw7PY/px6djtBpt/QFuAXxZ9Usq+FZ45LHJxmRmnJhB+NlwzIrZ1u+qc6VnqZ60L9IeneblLNgRIjspikLHDR05GX8SgNaFWzOiygg7pxLi6aWb0mm/vj2Xki4B4O/iz5ImS/B09LRvMCGekVRj6v2i6PT7xdC3Um89MHu0yWp66vM4qB1sRdC5XXLj5+JnK4j+86uzzvkZvKIXU3JaOkU7d8doNv/zzuK5CfDx5sisqfaOIYQQQgghhBBCvNa0/7yLEEIIYX8flv6Q84nn2RmzE4Cv9n1Ffvf8lPAuYedkQgjx8lKpVFT2q0xlv8rEpcex8sJKlp9fzu302wAoKOy5sYc9N/bg6+JL60KtaVW4Fbmcctk5uRBCvFjO3D3DiH0jOJdwztanUWnoUqwLvUr1wlHr+NDjLFYLKy6sYOqxqSRmJtr6VahoWaglfcr0IadTzmzPL8TLavf13baiaZ1aR4+SPeycSIinpygKw/cNtxVN6zV6JtWaJEXT4qVhspgeKIK2zRqdHktsaiwpppSnPo8KFd5O3vi6/q8I2tkXP9f7X31dffF19sXL0eu1Xq3D3cWZYvkDOXbhkr2jiP/RajS8/UYVe8cQQgghhBBCCCFeezLjtBBCiJdGmimNjhs6cvHeRQB8nHz4tcmveDt72zmZEEK8OsxWMxHXI1hyfgn7bux7YOljrUpLrYBahIWEUdG34mv9IbQQQhjMBqYfn878M/OzzNof6hXKV1W/IjRn6COPPRx7mLGHxhKVGJWlv1zucgyuMPixxwohwKpYabu2re3/oY6hHRlccbCdUwnx9OadnseEIxNs7dHVRvN2wbftmEiIv1gVKwkZCVmLof/39Xba/WLpeEP8A79H/hfuDu5ZZob+88+fbR9nH3RqWZHj77Zt28bSpUtt7Vy5cnEPDevOXyEx6gypZ0+i1jngUbUmWle355JJMZsxJd5F7aBH6+H5VGNZDOnc27MDa2YmLiHFcC5U5OHntJhJv3AWa2Zm1g0qFU5BBdC6//sciqJgvpeAYrGg88qJ6j+uyOXi6MiKUV9QtnDB/3S8EEIIIYQQ/8fefcc3Ve9/HH9ltmm6oSVlljLKKJuyp4KADGUWUeTei4gbGYqbKYoiAg7EdQUVBARFmbL3LlBmgULLalPaQkeSphnn90cl0B942YTxeT4efdDzPeP7OSlN2uZ9PkcIIcStIcFpIYQQ95STOSfpvag3OQU5ANQsXpPv23+Pj8bHy5UJIcT952TuSeYensvvR34v0gn1gsjASHpF96JLhS4E+QR5oUIhhPCeralbGbV5FCdzT3rGfDQ+vFj7RfpW64tWfeWbfJ3KPcXEnRNZnrK8yHhJY0mG1h9K23Jt5aIUIa7B0uSlvLb2NQAMWgOLuy2Wu2KIe9621G0MWD4At+IGIC46jncavePlqsSDxOKwkJpX2Bn60o7Rl37ucDtueh69Wu8JQZcwlvCEoSOMEZ7P/XR+t+CMHizVqlXjqaeeonjxwtfD9PR0Fi1aRPyRJBRg3n+/Y/bs2fxx4Ai+ZSLvSE05OzdTs6SJEydOYK8Ugy70xu+mYk89RauI4gwaNIh2PeMIafbQP2x3msqKnQEDBhQZ3717N98vWEhg/evv+GxPPUVQ2klCQkI4kpePf0ztGzkFAv38OPzzd6jV6hvaXwghhBBCCCGEELfGld/FE0IIIe5SZQLLMKHlBJ5f8TwuxUVCRgJjNo9hTNMxEjARQohbrExAGYbUG8JLtV9iecpy5iTOIT493rM+OSeZj7Z/xOT4ybSPbE9cdBwxxWPk+VgIcV/LtmczcedE5h+ZX2S8gakBIxqPoGxg2SvuZ3VY+Xbvt0zfP50Cd4Fn3KA10D+mP/2q98NX63tbaxfifuF0O/li1xee5T5V+khoWtzz0ixpvLbuNU9oulZYLYbHShd1ces4XA7MVnORELQnFG1NIy0vjVxH7k3Po0JFmCEMk78Jk9/fYWj/CEx+Js9YqG+o/N54G+Tn59O7d28WLlxIfHw8lSpVYvXq1Tz11FPMmzcPnU6HWq3GdvwozpzzaIwB+JYui0pb2Lnb7XRgP30SV24OaoMBnxIl0fgH4Mq3UZB2BlQqFJcTt82Kxj8A31LlUGkL32Z05+eTfzqlcJ3RH59SZUGtxn76JBNm/sTkyZNZvGMXBempqLRa1AY/fEqWQaVS4XYUYD9zCgCN0R9Xbg6oVLjt+ShOJ/qwEujCSqDS6dmzZw+ffvopuAvv9qK4nNhTz+DMzgKVGl1IMRSnk6hKUXTp0oV3333X8/ikpKSg0mpxFxRgP30ClyUPtZ8fPqZSaPyMhV2lszIoyDyLUlBQ5DHIP3Gcvj260bx5c54a+By240cLa7XkoTYY0JcoCYqCPfUUitOBj6kUztwcXLk5qDQaXFYLKsVN16ee5siRI8ydO5ecnBxiYmLo0aMHfn5yoYAQQgghhBBCCHEnSXBaCCHEPadxycYMqz+M8dvHA7AgaQFVQqvwVLWnvFyZEELcn/QaPR2jOtIxqiOHzx1mbuJc/jz2JxaHBQC7y86CpAUsSFpA1dCq9IruxaPlH5UOYUKI+87ylOWM2zqODFuGZyxAF8Cw2GF0rdj1igEgt+Jm0bFFTNo5iXRbepF1naI6MajuIExG022vXYj7ycJjC0nOSQbAX+fPv2P+7d2ChLhJdpedwasHk5WfBUAx32JMbDURnUbn5crEvcKtuMnKz7qsQ3SqJRWzpTAsnWHLQOHmb0AaqA/0dIc2GU2ejwvL4X7h6NTyf9ebVq9eTalSpfjjjz8IDAykX79+zJs3DwCVSkXPDu2oXbs2W7duZcFfywlu/jCunGwsOzbTueOjNG7cmJSUFH744QdUlatTkHaGR+rVJjExkfr161OrVi02b97MnytXENzsIRwZZ3Hu38UTTzxBtWrViI+P59f583EbA2nSpAklS5akffv2lChRgt27d1OsWDGOHz/OiVMp+JaJxHIggWaVojh//jw7Nq1h4MCBLFq0iCeeeILQ0FB+/PFHkk4cx7dcFGq1Gq1WC6hwZp8jd/tGHm7enId7d8Nut7N48WI2x++ESuU4f/483834EWN0tcIHRq1BVyyc3FVL6N69G3Xr1uXIkSPMmDEDfc36OM5lEKlV0bFTR0wmE8ePH2fGjBnklyxLsOKiRYsWVKxYkQF9niAvL48ff/yRXr16sWnTJvJ8/XBbLZS2ZlOuXDlW7d6BrzWP3r16sWTJEv71r3+RlpbG1yPe4vcvJvHkk08SHh7OnDlzeP/991m+fDlly175AkwhhBBCCCGEEELcehKcFkIIcU96suqTHMo6xIKkBQBM2DGBCsEVaFzy+m+1KIQQ4tpVDqnM243eZnC9wSw6vog5iXM4lHXIs/5g1kFGbR7FJzs+oXOFzvSq3IuKIRW9WLEQQty8dGs647aOY+WJlUXG25Zry5sN3iTML+yK+yWcTWD8tvEkZCQUGY8pFsPwBsOpHV77dpUsxH3L4XLw1Z6vPMv9qvcjyCfIixUJcfM+2PoB+zL3AaBVafmk1SeE+4V7uSpxN7E4LKTmFXaGvrRj9KWfO9yOm55Hr9Z7QtAljCU8YegIY4Tnc7lA9t6g1+vRarW43e4iF/e9/vrrLFu2jOPHjzN58mSC3nuP2Ru2UHAqmYULfsftdvPrr79St25dtm7dSt26dXHqfXj55ZcpWbIkS5cuJSUlhS+++ILAN99k7qatOE6fYPO6dZw+fZqFCxfSv39/+vbtS/v27VFFV0SlUqFSqVCr1ajVaipUqMCzzz5Lt37/Rm8qhdt8hp+2bqJz584ATJkyhWeffZYff/yRvLw8Nm3axMMPP8y+E8eoFVuPIUOGsHDtenJ2bObn778nOjqar7/+GkVReOSRR9i8eTMAarUaHQoFifsBcDqdaLVa1q5dy6lTp1iyZAnNmzfn3//+N81atkIdEEjPF5/HarWyZ88eWrZsyfPPP0/t2rVRFSvmeRzVarXn8zfffJNhw4axw1qA22GnadOmPProoyzv92+KhxXn888/Z9u2bSxYsIDz589TtWpVVq1axQ8//MDRo0d59913Wbp0Ka+88gq///77HfwfIoQQQgghhBBCPNgkOC2EEOKepFKpeK/xexzPOU7C2QRciotha4cxq+Osf7w9uhBCiFvHT+dHz8o96VGpB3sz9jI7cTbLkpdhd9kByHPkMevQLGYdmkXd8LrERcfRplwb9Bq9lysXQohr51bczDsyj4k7JpLnyPOMhxnCeLvh2zxc7uEr7pduTWfSzkn8eezPIuPFDcUZXG8wnaI6oVapb2vtQtyv5h+Zz+m80wAE+wTTt1pfL1ckxM2Zd3ge847M8ywPix1GvRL1vFiRuNMcLgdmq7lICNoTiramkZaXRq4j96bnUaEizBCGyd+Eye/vMLR/BCY/k2cs1Df0infQEPeWZs2asX37dh5++GGeffZZ/vOf/3jWrV69mtfeHYE2KBin08njjz/Of//7Xx566CHKlStHTEwMLpeL77//nsWLF9OrVy9+/PFHAFasWMHwEaPQBATidrt5/PHHmTFjBt27dyc4OJhGTZvhE1WJn3+eyYkTKbRo0YJ1fweqlyxZwuIdu1Ab/Ng/fTpjxozBZDSQcTCBLp06cebMGXbu2w8U/v/77LPPmLlsBYqjALVazRtvvEHPnj0htvD50Xkuk1q1atGuXTvKly9Pgak0Ko2GgrQz6MML7+ZSuXJlsrOzPefeq1cvfHx8Crtu9+wJwPfff8+WLVto1+ZhVuzcxejRoz3b//jjj2zfvp1mzZqxZt061q5di9vtZtpPP+NbtjyoNVf9Wvj4+PDKK6+QlGcj92gi33//PVOnTvXM88cff5CSkkJISAhWqxU/P7kwQQghhBBCCCGEuBMkOC2EEOKepdfomdRqEr0X9ibdlk5OQQ6vrHqFnzv+jFFn9HZ5QgjxQFCpVNQMq0nNsJq8Hvs6C44uYO7huSTnJHu2iU+PJz49ntDtoTxe8XF6Vu5J6YDS3itaCCGuQUpOCiM3jWSHeUeR8e6VujOk/hAC9YGX7WN32Zmxfwbf7P0Gm9PmGdepdfSr3o9najwjP6cKcRPynfl8nfC1Z7l/TH/5nhL3tL1n9/L+1vc9yx2jOtKnSh8vViRuNbfiJis/67IO0amWVMyWwrB0hi0DBeWm5wrUB3q6Q5uMJs/HheVwv3B0at0tOCtxt6tXrx5hYWGYzWY6dOiA1WqlYePCu/TFx8fjV6kKah8fTp06RXh4YXf7li1bEhQUxMKFCz3h+SpVqhAdHe057oV9VTpdkX1jYmLYtGkT2rASGCtX43xGOjt37qRGjRqsW7fOs78+PAKfkqXJPn+OOXPm0L9/f0aNGsWzX09l2rRp+JaLwpp4AIDNmzdjrFIdt83K5s2befLJJy87z+bNm7Nz504sai3BlasB4FchmvzTJwA4dOgQVatWBfXfFyy63Xz++edERESwZMkSz3mWKVOGKlWqsHjxYjp37szo0aMJCAjA6XRSunRpypQpgzYw2DOvxhiAoXwlbCnHr/q1sNvt7N6TQOU+/yLUkU+rVq3IysqicePGnvm1Wi2RkZGkpKQU1iuEEEIIIYQQQojbToLTQggh7mlhfmFMfmgy/Zb0o8BdQFJ2Em+uf5NJrSdJFz8hhLjDgnyCeLr60/St1petaVuZkziHVSdW4VJcAGTlZ/H9vu/5777/0rRUU+Ki42heqjmaa+jSJIQQd4rD7WD6/ulM3T2VAneBZ7xsQFlGNhlJrCn2sn0URWHFiRV8suMTTyfcC9qUbcOQ+kMoE1DmttcuxP1uduJs0m3pQGHn995Venu5IiFuXKYtk8FrBuNwOwCoHFKZEY1HSLffe4zFYSE1r7Az9KUdoy/9/MLX+Gbo1XpPCLqEsYQnDH1pSFouJBEXTJ48mXPnzlGvXj2ee+45evToQadOnQBwOp2o1GpAhaJcDOzb7Xb27NnDwIEDixwrJyfH87nT6fw7hFx0X5vNho+PD4rTCYDidOLj44PVav1/lRXu4xtZgalTp/Lbb78xc+ZMGjZsSPfu3fFt3MoTnL5wvMJjBWKz2fj/bDYbvr6+uJ0Xv8cUl6vINhr/AEIf6gBA3t5d2O12Nm7cyBtvvFFku/Pnz+Pn58cvv/xCkyZN2LNvH7hcrF+/HrVaDcqlFzcUfq5SgcvlQqvVorgLUByOyzpG2+12VBoN7zzdh9Fb12G325k2bRrLli0rsl16ejoRERGXnaMQQgghhBBCCCFuDwlOCyGEuOfFFI9hZJORvLXhLQBWn1zNl7u/5KU6L3m5MiGEeDCpVCoaRTSiUUQj0q3pzD8yn18P/4rZagZAQWHD6Q1sOL0Bk9FEj0o96F65O8UNxb1cuRDiQXcg8wAjNo3gUNYhz5hGpaFf9X48X+t5fLW+l+2TmJXI+O3j2Z62vch4pZBKvBH7Bg0iGtz2uoV4EFgcFr7b+51n+dmaz17xe1KIe4HT7eT1da97fj4O0AcwqdUkDFqDlysTl3K4HJit5suC0KmWwqB0Wl4auY7cm55HhYowQxgmfxMmv8IwdIR/BCY/k2cs1DdUQvXiugwaNIiuXbte8/Z//PEHr7/+OiqVilNZ51BptbjOn8NgMKDS+/zPfTds2MAbb7xBgNPO+U1rKB0cSIMGDXj++edR6fTk5OQQGhpK3qLF2E4cx79qTXZtjyctLY2ZM2fyyy+/YDcG4ut78TmwR48ejBz3AQA9X5rKxo0bL3aOBlR6H5YsWcIXX3xB9chyHNy0BpVagzMzHXR6qFD2sjp1xcP4448/mD17NjabjXN2B6hVKLk56HQ6wsPDUalUHD58GH2xMMoG+hMbG8u3336LSqslJyeHkJAQ7KmnOb9xNc7s85w4cYIaNWqwYtrXKJY8Ok2aQF5eXpF5VSp44uFWrGvVij/++INOnTrx3Xff0aRJE06fPs3Zs2cpV64cwcHB1/z1EkIIIYQQQgghxM2R4LQQQoj7QucKnUnMSmT6gekATEuYRqWQSrSLbOflyoQQ4sEW7hfOc7We45kaz7D+1HpmH57NptObPLeiTrOk8fnuz/lqz1e0LtuauOg4GpgaSChACHFH2Zw2pu6eyowDMzxd8gGqhlZlVJNRVC12+S2zs/Kz+HzX58w7Mg+34vaMB/sE83Kdl+lWqRtatfzZRYhb5acDP3HOfg6AksaSdK/U3csVCXHjpsRPYVvaNqAwNDu++XjKBMqdCe4kt+ImKz/rsg7RqZZUzBYzqZZUMmwZnt9bbkagPvCy7tCXLof7haNT627BWQlxbXRaDc5LlrXBoRw6dYYPP/yQrVu3sm7dOpxOJw0aNOCZZ55hzZo1/3gsbUgoW/fuY+bMmezcuZPNmzfTokULPv74Y5LOZmKIqsRPP/3EZ599Rr9+/Zg5cyY/LF+Fb9nyTJ06le+//56BAwdiiKxQ5Lh16tTht9m/YDQaKV++PM2aNcNQobJnvcY/gLMON0OHDmXFihWsXbsWALfbTVxc3BVr1ZeIYMOav/jhhx/Ys2cPa9euLbzwu1EjHnvsMfbs2cPq1avZvHkze/fupWrVquzfv9/zGP3111+MHTuW7du2cezYMeLi4pgyZQq///47jRs3pnTp0qSlpV02r49Oh1aj4eWXX6ZFixbMnz+fvXv3sn37dooXL05UVBTVq1e/xq+eEEIIIYQQQgghbgWVoig3/5c/IYQQ4i7gcrt4YeULbDqzCQCD1sCMDjOoElrFy5UJIYS41Mnck8w9PJffj/zuCUBdKjIwkl7RvehSoQtBPkFeqFAI8SDZmrqVUZtHcTL3pGfMR+PDi7VfpG+1vpeFnx0uB7MOzeKrPV8V6TKpVWnpXaU3z9V6Tp67hLjFsu3ZdJjXwfM9N7rJaLpWuvYumkLcTZYlL2PY2mGe5Rdqv8DztZ73YkX3J4vDQmpeYWfoS7tFXxqSdrgdNz2PXq33hKBLGEt4wtCXhqSNOuMtOCMhrq5z587s27ePzMxMNm/eXCSMO3ToUGbPnk1OTg7GBk2xK1CwbQOhISGcVWkxVqlB7p7t+NltNG7cGKfTyZ49e8hyuNAY/SmuOMnJyUFTpyEqjYaC7RsL91XrMFSoTO7OrZQrHkqVKlVISEggzZpPQN2GqHU6cuK3oc05R0REBNnZ2VhDwnAXFPBYo/oMGzaMhi1bEfrwo6hUKs7++Sv2fBsVKlSgRIkShIaGsmbtWnyiY9AVC8OxYyPBwcFkaPQYq9YsrNlmoXHjxthsNrZt24a7eAm0WWcpXrw4Z+wOgmKbeh4Hl9VC7u7tBOGmQYMG2O12du3aRa5ai1/FKuTt3k7DunUwGAxs2rSJkJAQ8vLyUNeMxXEuk/zEfZSMiECr1XIqz4pa70NxXMTExLB///7Cx9do5LzBH1faGcpEmAgLC2Pz5s0ALFu2jBdffBGdTkfFihXJyMggPj6e1157jbFjx97x/zNCCCGEEEIIIcSDSoLTQggh7ivZ9myeXPwkKTkpQGEnslmdZhHqG+rlyoQQQvx/Ba4ClqcsZ07iHOLT4y9b76PxoX1ke+Ki44gpHiNdqIUQt1S2PZuJOycy/8j8IuMNTA0Y0XgEZQMvv733+lPr+Wj7RyTnJBcZb1qyKa/Hvk5UcNTtLFmIB9bk+Ml8u/dboPACq98e+006uot70tFzR+mzuA82pw2AlqVbMuWhKahVai9Xdm9xuByYreYiIWjP59Y00vLSilzcdKNUqAgzhGHyN2HyKwxDR/hHYPIzecZCfUPl9xRx13C5XCQlJVGsWDGKFStWZJ2iKBw/fpyAgABmr9/MhF9+JS83B6WgALXR3/P/2GWz4sw5j0qlRhMQiMbgh6IouK0WVFotah9fANwF9iL7KoqCK+c8LpsNjdGINqDohYSK04E7Px93gR13wg6aNm3KxIkTee+991i8PxG/ioWNLy4Ep6OiosgpUQaVTocupBhqvf7ivA4Haj9j0Zqzz6PSaNAGBaPW++C223E7CtAYjaiu8Bzrslpw5mSjUqvRBAah8TX8XacTx/kscLvRBoegOBxFzltxu3Hn21Dcbs+xnXm5uCx5aPyMqPV6FKcTtZ8RH7Waic/2o2vbNuh0F7vKK4pCfHw8p0+fJiQkhDp16uDv73/TX38hhBBCCCGEEEJcOwlOCyGEuO8cO3+MPov7YHFYAKhfoj5fP/K13PZUCCHuYofPHWZu4lz+PPan5/n7UlVDq9IruhePln8UP52fFyoUQtxPlqcsZ9zWcWTYMjxjAboAhsUOo2vFrpcFoI5nH+fj7R+z/vT6IuORgZG8FvsazUs1l9CUELdJpi2TDvM7eIKmH7f4mPbl23u5KiGuX25BLn0W9fFcfFM2oCyzOs0iUB/o3cLuMm7FTVZ+1mXdoVMtqZgtZlItqWTYMlC4+bc1AvQBhWHoS7pDX9otOtwvXP6WJO5LLpebh4cM51DKSdx3+C1Cx/lzFD9znPfee48tW7YwbfoMQlq2RaUt/F47u2g+07//jsGDB6OKbeYJLN9rfPV6erVuzoQXnvV2KUIIIYQQQgghhLgCCU4LIYS4L609uZaXV73seSMtLjqOdxq94+WqhBBCXI3VYWXR8UXMSZzDoaxDl6331/nTuUJnelXuRcWQil6oUAhxL0u3pjNu6zhWnlhZZLxtuba82eBNwvzCioznFOTw1Z6vmHVwFk7F6Rn31/nzXK3n6FOlDzqNBKqEuJ3GbxvPTwd/AqBySGXmdp4r3XnFPcetuHl19ausPrkaAIPWwM+P/kylkEperuzOszgspOYVdoa+tFv0pSFph9tx0/Po1XpPCLqEsYQnDH1pSNqoM96CMxLi3nT01BkeGjyc/IKCOzqvoihYD+3DZbWgMfpjKF+xSDg6/2QyBelpaINC8KsYfUdru5XCQ4LZ+tVkjL73ZvBbCCGEEEIIIYS430lwWgghxH3r273fMjl+smf5vcbv0bNyTy9WJIQQ4lopisLejL3MTpzNsuRl2F32y7apG16XuOg42pRrg16j90KVQoh7hVtxM+/IPCbumEieI88zHmYI4+2Gb/NwuYeLbO9yu5h3ZB6f7/qcc/ZznnEVKrpV6sbLdV6mmKHo7c+FELdemiWNjvM7UuAuDHVNaT2F1mVbe7kqIa7f1wlf89muzzzLH7X4iA7lO3ixotvD4XJgtpqLhKA9n1vTSMtLI9eRe9PzqFARZgjD5G/C5GcqGor+eyzUN1TuBiHEVUz5dQET58zDar/8921x43z1emaPfJPG1at5uxQhhBBCCCGEEEL8AwlOCyGEuG8pisLr615nafJSALQqLd+2+5Z6Jep5uTIhhBDXI9uezYKjC5h7eK7n1uaXCvUN5fGKj9Ozck9KB5S+8wUKIe5qKTkpjNw0kh3mHUXGu1fqzpD6QwjUBxYZ3562nfHbxpN4LrHIeL0S9RgeO5yqxare9pqFEIVGbR7Fr4d/BaBG8Rr8/OjPEoQU95yNpzfy/IrnPXfEerra07wW+5qXq7p+bsVNVn7WZd2hUy2pmC1mUi2pZNgyPOd5MwL0AUQYI4p0h760W3S4Xzg6tdzxQYib5XK5aTv0TQ6dOInT5fJ2OfcFX72e3g+15KPnn/F2KUIIIYQQQgghhPgfJDgthBDivmZz2ui3pB8Hsw4CheG6Xzr+QoR/hJcrE0IIcb0URWFr2lbmJM5h1YlVuJSib+yqUNG0VFPiouNoXqo5GrXGS5UKIe4GDreD6funM3X3VE+3WoCyAWUZ2WQksabYItufyj3FxJ0TWZ6yvMh4SWNJhtYfSttybSWwKcQddDLnJF1+74JTcQLwdduvaVyysZerEuL6nMo9RdzCOHIKcgCINcXydduv0aq1Xq7schaHhdS8ws7Ql3aLvjQcfenr6Y3Sq/WeEHQJY4mi3aL/DkgbdcZbcEZCiGthzjpHi1eGcS437+obi/9Jp9FQLbIci8aPQa+7+57nhRBCCCGEEEIIcZEEp4UQQtz3UvNS6b2oN1n5WQBUDa3K9A7TMWgNXq5MCCHEjUq3pjP/yHx+PfwrZqv5svUmo4kelXrQvXJ3ihuKe6FCIYQ3Hcg8wIhNIziUdcgzplFp6Fe9H8/Xeh5fra9n3Oqw8u3eb5m+f3qRQJhBa6B/TH/6Ve9XZHshxJ3x1vq3+PPYn0Bh2PS7R76TixfEPcXmtPH0kqc9r0XhfuHM6TSHYoZid7wWh8uB2Wq+GIK2mknNSy0MSFvTSMtLI9eRe9PzqFARZgjD5G/C5GcqGor+eyzUN1S+l4XwMkVROJV3ij3pe3io7EMkJp/h8bdGYSu4+YsjHmTFgwJZ99knFA8KvPrGQgghhBBCCCGE8CoJTgshhHggxJvj6f9Xf5zuwm5l7SPb81GLj+TNOiGEuMc53U7Wn1rP7MOz2XR602W3BteqtLQu25q46DgamBrI874Q9zmb08bU3VOZcWBGka70VUOrMqrJKKoWq+oZcytuFh1bxKSdk0i3pRc5TqeoTgyqOwiT0XTHahdCXJR0PomuC7p6XtdndJhBnfA6Xq5KiGunKApvb3jbE/7XqXX80P4HaobVvOVzuRU3WflZRbpDX9olOtWSSoYt47Kfk29EgD6ACGNEke7Ql3aLDvcLR6fW3YKzEkLcaidyTrDyxEoSziYQnx7vaTARZghjVa9V/LpmPUO//BqbXcLTN8Lg48Pij8ZQPbKct0sRQgghhBBCCCHENZDgtBBCiAfG3MNzGb15tGd5UN1BPFPjGS9WJIQQ4lY6mXuSuYfn8vuR3zlnP3fZ+sjASHpF96JLhS4E+QR5oUIhxO20NXUrozaP4mTuSc+Yj8aHF2u/SN9qfdGqL94uO+FsAuO3jSchI6HIMWKKxTC8wXBqh9e+U2ULIa5gyJohLE9ZDkCzUs2Y2maqlysS4vrMOjSLcVvHeZbfa/wePSv3vKFjWRwWUvMKO0NfCEVfGpI2W8xF7phwo/RqvScEXcJYomi36L8D0kad8abnEULcecnZyXT7oxsOt+OydVqVll1P7wJgxPc/Mn3pcqx2+50u8Z5m0Ov5YshLdGrc0NulCCGEEEIIIYQQ4hpJcFoIIcQDZeyWscxOnA0U3kJ2ykNTaFWmlXeLEkIIcUsVuApYnrKcOYlziE+Pv2y9j8aH9pHtiYuOI6Z4jHShFuIel23PZuLOicw/Mr/IeANTA0Y0HkHZwLKesXRrOpN2TvJ0AL2guKE4g+sNplNUJ9Qq9R2pWwhxZQcyDxC3MM6zPLvTbKoVq+bFioS4PrvSd/Gfpf/BqRTe8aprxa6MajLqij9zOlwOzFbzxRC01UxqXmphQNqaRlpeGrmO3JuuSYWKMEMYJn8TJj/TFUPRob6h8nOxEPepbanb6P9X/yuua1uuLRNbTQQKu+W/+tlX/L5hMzYJT18Tg17P+wP+xVOPPOztUoQQQgghhBBCCHEdJDgthBDigeJwO3j2r2fZYd4BgFFnZOajM4kKjvJyZUIIIW6Hw+cOMzdxLn8e+xOLw3LZ+qqhVekV3YtHyz+Kn87PCxUKIW7G8pTljNs6jgxbhmcsQBfAsNhhdK3Y1RMAs7vszNg/g2/2foPNafNsq1Pr6Fe9H8/UeEa6aApxl3hhxQusP70eKBrmEncfp9PJX3/9hdVqpUePHjidTrRa7dV3vI+dtZ6l18Jentel6JBo3mr4Fln5WZ5u0Re6RKdaUsmwZaBw83+eD9AHXDEMfeHzcL9wdGrdTc8jhLg3Zedn03lBZ87lF70zk0alYWn3pZiMJs+Y2+3mxUlfsHjLdglPX4WvXs/Ifz/Ffx5t5+1ShBBCCCGEEEIIcZ0kOC2EEOKBk5WfxRMLn+CM5QwAZQPKMrPjTIJ8grxcmRBCiNvF6rCy6Pgi5iTO4VDWocvW++v86VyhM70q96JiSEUvVCiEuB7p1nTGbR3HyhMri4y3LdeWNxu8SZhfGFDYNW/FiRV8suMTTuedLrJtm7JtGFJ/CGUCytyxuoUQ/9vu9N30XdIXKOyQO7/LfHldvkNsNhsGgwG3241afbHz/v9fvpTdbmfixIkcP36cr7/++rJ1e/bsoUGDBre1bm+yOCyk5hV2hk61pHI69zS/Hf2NrPysWzqPXq33hKBLGEtcMSAtF/8IIf5JcnYyg1YP4lj2scvWdY7qzLjm4y4bd7vdDP58Ggs2bMYq4ekr8tXref+Zf9G3nXSaFkIIIYQQQggh7kUSnBZCCPFASsxKpO+Svp6Og01KNuGLh79Aq36wu2MJIcT9TlEU9mbsZXbibJYlL8PuuvxN4LrhdYmLjqNNuTboNXovVCmE+Cduxc28I/OYuGMieY48z3iYIYy3G77Nw+UuBhcSsxIZv30829O2FzlGpZBKvBH7Bg0i7t8wnxD3qv7L+rMtbRsAnaI68UHzD7xc0f3JbDZz6tQp6tWrB8DSpUtZsWIFEyZM+J/7uVwuUlNTycrKolq1aqjVan7++Wc2bdrEuHHjeOyxx1i3bh0A+/fvp2PHjiQnJ6MoiucOAPcKh8uB2Wq+2CHaai4Skk7LSyPXkXvT86hQEWYIw+RvwuRnumIoOtQ39J57/IQQd4f1p9YzfN3wIs9XWpUWp+IE4NfOvxIdGn3FfRVFYeR/f+KHpX9hsxfckXrvFQYfPZ++OJBuLZt5uxQhhBBCCCGEEELcIAlOCyGEeGD9lfwXQ9cO9Sz3q9aPYbHDvFiREEKIOynbns2CowuYe3guyTnJl60P9Q3l8YqP07NyT0oHlL7zBQohikjJSWHkppHsMO8oMt69UneG1B9CoD4QKLy7yOe7PmfekXm4Fbdnu2CfYF6u8zLdKnWTi+WEuAttSd3CgL8GAKBRafjz8T8pEygd4a+V233x+U5RFDQazT9ue/DgQcaNG8ePP/5YZB9FUYiPj6du3bqo1WosFgujR4/mxRdfJCgoiGeffZaMjAyCg4Np2rQpQ4YM4Y8//uCnn35izpw5DBw4kNjYWJ555hl+/PFH9u7dy0cffXRbz/tGuBU3WflZpFnSPMFoT0DaYibVkkqGLQOFm/+zeYA+4Iph6Aufh/uFo1PrbsFZCSHERYqi8N2+75gSP8XzXOaj8WFE4xGUCSjDf/f9l1ZlWtG1UterHmvu6nUM/fIb8gskPK3VqPE3GPhlxFvUrSx3xBBCCCGEEEIIIe5lEpwWQgjxQPt81+dMS5jmWX6/2ft0qdDFixUJIYS40xRFYWvaVuYkzmHViVW4FFeR9SpUNC3VlLjoOJqXao5G/c9BJCHEredwO5i+fzpTd0+lwH0xsFE2oCwjm4wk1hRbuJ3LwaxDs/hqz1eXddXrXaU3z9V6jiCfoDtevxDi6hRF4anFT5GQkQAUXhAxsslI7xZ1l3C73ahUKk/H4f+/fC37m81mzGYzVapUQafT8c477/D555/TunVrGjVqRM+ePencuTOHDh2ifv36fPzxx7Ru3Zq8vDyqVq3K0aNHmTBhApGRkXTv3p3k5GRq1arFkSNHOHnyJB988AELFizgzJkzdO3ala1bt9K1a1feeOMNmjRpcjsfniuyOCxFu0P/HZC+NBx96evJjdKr9ZiMJgL1gRzMOuj5GbJOeB3ea/QeEf4RGHXGm55HCCGuh9VhZcSmESxNXuoZK+FXgskPTaZ6seo3dMxdR47Se+QH5NpsOF2uq+9wH/LV6ylXIpy5o97GVCzU2+UIIYQQQgghhBDiJkmLJSGEEA+0F2q/wOFzh1l9cjUAozaNonxgeWqE1fByZUIIIe4UlUpFo4hGNIpoRLo1nflH5vPr4V8xW80AKChsOL2BDac3YDKa6FGpB90rd6e4obiXKxfi/ncg8wAjNo3gUNYhz5hGpaFf9X48X+t5fLW+QOFtyD/a/tFl3eOblmzK67GvExUcdSfLFkJcp7Wn1npC0zq1judqPefliu4earX6fy5DYfB8wYIFJCYmEh0dzYwZM5g/fz55eXk8/vjjOBwOjEYjDRs2ZMSIEURFRVG8eHFef/11qlWrht1uR6/XU1BQwLhx4/jqq69o1qwZ+/bto2nTpvj4+LBx40Z+/vlnJk2aREBAAHFxcbhcLvz9/QHIyMigTJkylClThoULF3L8+HHKlSt3yx8Ph8uB2Wq+GIK2mouGpPPSilw8c6NUqAgzhGHyN2HyM12xa3Sobyg5BTnELYzzhKajgqKY2maqBKaFEF5xOu80g1YNIvFcomesbnhdPmn1yU39/lqnUkXWTvmY3qM/IDnVjNVuvxXl3jMMPj60rV+Xzwa9gMFH7+1yhBBCCCGEEEIIcQtIx2khhBAPPIvDwlOLn+Lo+aMAhBvC+aXTL4T5hXm5MiGEEN7idDtZf2o9sw/PZtPpTZfdql2r0tK6bGviouNoYGpwzV0fhRDXxua0MXX3VGYcmFGkC3zV0KqMajKKqsWqAnA8+zgfb/+Y9afXF9k/MjCS12Jfo3mp5vL9KcRdzq246fVnL0/I66mqTzG8wXAvV+V92dnZnD9/nn379uF2u+ncuTNOp5Pnn3+eAwcOoFKpmDRpEvXr12fDhg2MGTOGevXq4efnx3vvvUdmZiYhISHk5uai0+nIyMggJiaGHTt2ULFiRerXr8/KlSsJCgoiLy+Pli1b8uuvv1K+fHlq1arF/PnzmTp1KlWqVOGZZ56hffv2vPDCC3TpUvQOTceOHWP48OGMHDmS6tWrs23bNp555hmqV6/OV199RVDQjXf6tzgsfLn7S0+X6FRLKhm2jMt+LrsRAfqAK4ahL3webghHp9H9z2O43C5eXPUiG09vBMCoMzKr4yzKB5W/6fqEEOJ6bUvdxtC1QzlvP+8Zi4uOY3js8Ks+n10rp8vF5/P/YOKc+dgdDu73txf1Wi2+PnomvfwcnRo39HY5QgghhBBCCCGEuIWk47QQQogHnlFnZErrKfRe1JucghzSbem8uvpVvm//PT4aH2+XJ4QQwgu06sJgdOuyrTmZe5K5h+fy+5HfOWc/B4BTcbI8ZTnLU5YTGRhJr+hedKnQhSCfGw8HCSEKbU3dyqjNoziZe9Iz5qPx4cXaL9K3Wl+0ai05BTl8tecrZh2chVNxerbz1/nzXK3n6FOlzy0LiAghbq+/Uv7yhKYNWgP9a/T3ckXed/78eWJjY2natClut5uEhASCgoLYsGED3bp1Y/LkyZw+fZp+/fqxbNkyxo8fz7PPPkv37t05f/48X375JSkpKYSEhPDll18ye/ZsSpYsiaIoHD58mKioKPz8/Ni/fz9NmjTBx8eHwMBATp06Rfny5Wnfvj2rV69m9erVPPzwwwA89thjzJo1i8DAQEqXLs2ff/5Jly5dCA4OJicnh1OnTlG9enUaNGhAZGQkNWrUICgoCEVRbvgCFq1Ky4wDM657P71a7wlBlzCWuGJA+lZ0hJ66Z6onNA3wftP3JTQthLjjFEVh5qGZfLz9Y88Fh1q1lrcbvk2Pyj1u6VxajYZXe3bl0Uax9B//KSfTz9633acNPj60rFWDT18eSLHAQG+XI4QQQgghhBBCiFtMgtNCCCEEUCawDBNaTuD5Fc/jUlwkZCQwZvMYxjQdI10KhRDiAVcmoAxD6g3hpdovsTxlOXMS5xCfHu9Zn5yTzEfbP2Jy/GTaR7YnLjqOmOIx8vohxHXKtmczcedE5h+ZX2S8gakBIxqPoGxgWVxuF3MS5/D5rs89FzIAqFDRrVI3Xq7zMsUMxe506UKIG+R0O/li1xee5T5V+lDcUNyLFd0dAgMDsVqtdOnShW7dujFhwgR27tzJDz/8wJ9//klgYCA5OTmkpKQAkJmZSWhoKADBwcGULFmS1NRUgoOD2bZtGz/++CPVq1enU6dOJCYm8uijj6LX67FYLADodDqCg4M5ceIEAC+88AIvvvgiycnJmEwmAJ5//nmCg4MZM2YM+fn5lC5dmrZt21KhQgXGjh1LZGSkp/6IiAjKly8MEN9McFqj1uCn9cPqtHrGVKgIM4Rh8jdh8jNdMRQd6ht6238OW31iNdMSpnmWB9QYwMPlHr6tcwohxP9nd9kZs3kMC5IWeMaK+Rbj09afUie8zm2bt3KZ0qye/BFf/PYHE+f8htvtxu5w3Lb57iQ/Hx98ffRMeGGAdJkWQgghhBBCCCHuYxKcFkIIIf7WuGRjhtUfxvjt4wFYkLSA6NBo+lbr6+XKhBBC3A30Gj0dozrSMaojh88dZm7iXP489icWR2HoyO6ysyBpAQuSFlA1tCq9onvxaPlH8dP5eblycau4Lfm4z5zDZT6P23wed9p5nKczUXJt4HChuNyotBrQaVCH+qMpVQxNiWDUJYJQm4LRmEJQ+UgX5CtZnrKccVvHkWHL8IwF6AIYFjuMrhW7olKp2J62nfHbxns6015Qr0Q9hscOp2qxqne6bCHETVp4bCHJOclAYcf4f8f827sF3SXUajXVqlXDz6/wZ4ioqCgSExNxOBx069aN/v37o9FoCAoqvNNFqVKl2L59O61bt0ZRFPLy8sjMzCQ/Px+j0ciJEydQqVQkJCR4As0PPfQQQ4cOpXLlyrzzzjtER0eTm5sLQLly5fjPf/7DE088QdWqF59bn3jiCZ544onL6o2NjQUgKSmJgQMHUqJECXr06OE5l6v5p3C1S3ExLHYYBq3BE4wON4R7/Y4CydnJvLXhLc9yk5JNeLH2i16sSAjxIDJbzAxeM5i9GXs9YzHFYpjUehIljCVu+/xajYZBPbryZNuH+WjWXH5ZuRqny43T5brtc98Ovno9Wo2aYb178J9H2+Gr13u7JCGEEEIIIYQQQtxGKkVRFG8XIYQQQtwtFEXh3Y3vejq1qFVqvmrzFY1LNvZyZUIIIe5GVoeVRccXMSdxDoeyDl223l/nT+cKnelVuRcVQyp6oUJxo9y5NhwJKTgTkinYnIhjTzLuzDxUPlpQq8HtRrE7wfk/ggF6LSq9FtQqcLpRCpxoSoWiq1cBfcNK6GpGoq1W+oEOU6db0xm3dRwrT6wsMt62XFvebPAmYX5hnMo9xcSdE1mesrzINiWNJRlafyhty7WVDu9C3IMcLgedf+/M6bzTALxY+0Weq/Wcl6u6ezz99NM0a9aMZ599lhUrVrBjxw7mz59Pu3btGDNmDACHDh2iZMmSnq7SwcHBmEwmfvnlF7p168aIESOYMmUKn332GU2aNKF48eI0adKE7t27k5WVRVJSEsWLF6dcuXKegPO1dIh2u90oioJarUalUnn2cblcFBQUYDAYrnp+iqKQnJxMZmYm9evXx+FwoNVq7/rnc6vDSp9FfUjKTgIKX4tmd5pNsG+wdwsTQjxQdqfvZvCawUUuOuxSoQvvNX4PH42PV2o6mX6WUT/8zF/bd+ByKzicTq/Ucb0MPnpQYEDnDrzS/XECjXLhsxBCCCGEEEII8SCQ4LQQQgjx/xS4Cvj3sn+TcDYBgEB9ILM6zqJsYFkvVyaEEOJupSgKezP2MjtxNsuSl2F32S/bpm54XeKi42hTrg16jXSvuhs5j5vJX7qL/PlbcCaeQeWjQ7E7oOA2vOlv0KPSqFEcTvQNKuPbvRG+bWqiLh546+e6C7kVN/OPzGfijonkOnI942GGMN5u+DYPl3sYq8PKt3u/Zfr+6RS4CzzbGLQG+sf0p1/1fvhqfb1RvhDiFph9aDZjt44FINgnmKXdl2LUGb1c1d1j6NCh6HQ6PvzwQzZu3Mgvv/xCpUqVcDgczJo1i/z8fCIiIhg5ciRNmzZly5YtbNiwgWrVqrFgwQJCQkL48MMPcblcaDSaa5rz/4emr2fffzpWYmIiP//8M6NHj+bgwYMkJCQQFxeHy+Vi4sSJ7N27lxkzZtzQHHeaoii8tu41liUvA8BH48OMDjOoVqyalysTQjxI5h+Zz9gtY3G4HQBoVBqG1R/Gk1WfvCsuPjmemsa3C5cwc8UaACz5+d4t6B/4G3wx+PjwXJeOPNn2IUIDA7xdkhBCCCGEEEIIIe4gCU4LIYQQV3DWepbeC3uTbksHoEJQBX7u+LO8kS+EEOKqsu3ZLDi6gLmH55Kck3zZ+lDfUB6v+Dg9K/ekdEDpO1+gKMJ5IgPb9FXYftuKOysPFMDuuPOFGH3A4UJbvgSGPs0xxDVFHXx//tyRkpPCyE0j2WHeUWS8e6XuDKk/BH+dP4uOLWLSzkmen8Uu6BTViUF1B2Eymu5kyUKIWyzfmU/H+R093+ND6w3lXzH/8m5Rd5kvvviC06dPM27cONLS0tizZw81atQgJCSE06dPExYWRlBQEAAFBQUkJSWxb98+9u/fz4kTJ3j77bepUKGC53hut9vz+fV0l77A5XJx8uRJIiMji4xf7Rg5OTmcOnWKatWqsW3bNoYNG8a6des4deoUO3bsYObMmbRv354NGzbQqFEjnn322Wt9iO646funM2HHBM/y2KZjeaziY16sSAjxIHG4HYzfNp7ZibM9Y8E+wUxoOYGGEQ29WNmV2ewFLNi4mc/mLeDU2bMoikJ+gRd+z7qEn68PTpeb2CqVeblbF1rVrul5TRRCCCGEEEIIIcSDRYLTQgghxD/Yl7GPfkv6eTocti7TmkmtJ6FWyR/UhRBCXJ2iKGxN28qcxDmsOrEKl+Iqsl6FiqalmhIXHUfzUs3RqG+so6O4forLTcHqfeR9sQRH/DFwu8HhuvqOd4pBD24F3471MD7XDl3Nct6u6JZwuB1M3z+dqbunFukgXTagLCObjCTWFEvC2QTGbxtPQkZCkX1jisUwvMFwaofXvsNVCyFuh0sDqGGGMBZ3Wywd5P/BtYSb3W43K1as4LfffqNSpUo0atSIJk2aXPdcF8LVl4bILnSdPnLkCDExMdjtdtxu9xWDZm63m+zsbEJCQkhPTyc+Pp5HHnmEt956i3feeYd+/fqxZMkSatasSZcuXWjYsCEvvPACAwcOJDAwkGnTpvH9999To0aN6679dtuWuo0BywfgVgofo7joON5p9I6XqxJCPCgybZkMXTuUneadnrHKIZWZ3HryPXEx7tFTZ1i6bQfz1m3gyMnT6LTaO9KJWqUCo6+BAqeD2CrR9GjZjDb161IiJPi2zy2EEEIIIYQQQoi7mwSnhRBCiP/hz6Q/eWvDW57lgTUH8lKdl7xYkRBCiHtRujWd+Ufm8+vhXzFbzZetNxlN9KjUg+6Vu1PcUNwLFT4YFLsD64w1WCYvQrHZUSx2b5f0v2nUoNeiKVOcgLe649Ou9l1x++0bcSDzACM2jeBQ1iHPmEaloV/1fjxf63lyCnKYtHMSfx77s8h+YYYwXq33Kp2iOsnFa0LcJywOCx3mdeCc/RwAbzd8m95Venu5qrvTpQHl6+kO/f9d+POvSqXC6XSya9cuIiIiKF362sN2586do2LFimRmZhYZ//nnn9HpdPTq1YtXXnmFzZs3s337dubOncuiRYv44YcfCA4O5uDBg5w/f56ePXuyb98+ALZv30737t05dOgQfn5+DBgwgEaNGvGvf/0LjebuuaAszZJG3MI4svKzAKgVVov/tvsvOo3Oy5UJIR4EBzIPMGj1INIsaZ6xdpHtGN1kNH46Py9WdmOycnJZviOeVTt3s/PwEc5kZmHQ63G4XOQXFFz9AP+D0dcHUFHgdFI+wkTDqtG0a1CP5jVrYPDR35oTEEIIIYQQQgghxH1B6+0ChBBCiLtZ5wqdScxKZPqB6QBMS5hGpZBKtIts5+XKhBBC3EvC/cJ5rtZzPFPjGdafWs/sw7PZdHoTCoVBpjRLGp/v/pyv9nxF67KtiYuOo4GpwT0bkr3bKC43+b9tJXfkL7itBWC9ywPTF7jcYCvAdfgM2S98jaZcGIHjnkTfONrblV0zm9PG1N1TmXFgRpGu61VDqzKqySiigqOYsX8G3+z9BpvT5lmvU+voV70fz9R4BqPO6I3ShRC3yU8HfvKEpksaS9K9UncvV3TrXRpUvhmXdnX+p2MpioKiKKjValwuF9988w2+vr7861//uuK+Wq2W3377jQ4dOhQJTu/fv58jR46QmZnJU089hY+PDzabjd69e5OUlMRjjz2GzWbDarXi53cxqBcSEsLMmTPp0aMHp06dIj8/n6ysLOLj4+nQoQMA5cqVw2w2U6NGDfR6PcnJyURGRuLr60udOnXIzMzEz8+PMmXKcO7cOfLz8zEa747nfrvLzuDVgz2h6WK+xZjYaqKEpoUQd8SiY4sYsWkEdlfh7y8qVLxS9xX6x/S/Z39XDA0MIO6hlsQ91BIAm72AA8kp7Ek6xv7jKZxMP0tqZhYZ2Tmcz8tDpQK1Su05X0VRcLndaDUagv2NhAUHU7JYKGVN4dSsEEWtCuWpVLoU2rvoAhwhhBBCCCGEEELcfSQ4LYQQQlzF4HqDOXL+CJvObALg3Y3vUi6wHFVCq3i5MiGEEPcarVpL67KtaV22NSdzTzL38Fx+P/K7J0DmVJwsT1nO8pTlRAZG0iu6F10qdCHIJ8jLld+77CsSyHnrJ9wZuSj3SmD6ChSrHefBU2T1+RRd7UgC338SXbUy3i7rf9qaupVRm0dxMvekZ8xH48OLtV/kqapPsebUGgavGczpvNNF9mtTtg1D6g+hTMDdfX5CiOuXbc9m+v7pnuXnaj13TwZQLQ4LqXmppFnTSLWkkmZJ83ykWlIxW8z88fgflAoodVPzXAhFq1Qqz7//Pyh36ZhGo+HMmTMYDAbcbjeKopCcnMyJEydwOBw88sgjnDx5krlz5zJ//nx0Oh0//fQTfn5+TJ48GT8/P3x9ffnwww956623mDRpEjExMcyePZt169YxadIkUlNTqVChgqeeRx99lPfee4/jx48TERFBQEAA+/fvZ8OGDbRp0wYAo9HImTNnqF27Nv7+/pjNZiIjI/H398fHxwez2UyZMmUICgoiJyfnrgpOf7D1A/ZlFnbI1qq0fNLqE8L9wr1clRDifudyu5gUP4kf9v/gGQvQBfBhiw9pUbqF9wq7DQw+eupFV6JedKXL1imKgiXfjsvlwuFyoVap0Go06LRa6SAthBBCCCGEEEKImyLBaSGEEOIqNGoNH7X4iCcXP0lKTgo2p41BqwYxq9MsQn1DvV2eEEKIe1SZgDIMqTeEl2q/xPKU5cxJnEN8erxnfXJOMh9t/4jJ8ZNpH9meuOg4YorH3LOdxe40d0YO2a9+T8GmQyjWm7vl813FVoBjyxEyHx2L338eJmB4V1Q+d1foMNuezcSdE5l/ZH6R8QamBoxoPAKb08bAFQPZnra9yPpKIZV4I/YNGkQ0uJPlCiHuoB/2/0CuIxeAyMBIOlfo7OWKLudwOTBbzRdD0FbzZSHp3ILcqx4n3Zb+j8Hp/9+R2u12A0U7TF9Yf2GbS1//XS4XGo2Go0ePcvDgQdLS0ujevTuhoaEUK1aMc+fO4XK5WLp0Kd9//z3+/v7k5+fjdDpp1qwZTZo0oXTp0gwcOJCyZcvSqVMnHnvsMRo1asSuXbsYOHAgAwYMYOXKlbz66qv4+vryyCOPEBUVRVJSEhUqVChSR82aNfnhhx8oXbo0FStWZO/evZw4ccJTc8mSJTl5svAiGn9/f/bu3UudOnXIz88H4Pjx49SvXx+tVktaWhp5eXkUK1bs2r5gt9G8w/OYd2SeZ3lY7DDqlajnxYqEEA+CbHs2r6973dPAAaB8UHmmtJ5CZFCk9wrzApVKhb/B19tlCCGEEEIIIYQQ4j4kwWkhhBDiGgT5BDGl9RT6LO6DxWHhjOUMQ9cM5etHvkanvrvCSkIIIe4teo2ejlEd6RjVkcPnDjM3cS5/HvsTi8MCFN4ifkHSAhYkLaBqaFV6Rffi0fKP4qfz83Lld6/8P7aTPfQHFLsDCpzeLufWUxTId2D97yryF+4g5JsX0NWK9HZVACxPWc64rePIsGV4xgJ0AQyLHUbL0i35YvcXzDsyD7fi9qwP9gnm5Tov061SN7Rq+TOFEPerTFsmPx/82bP8Yu0X7/j3vKIoZOZnYraYPSHoVEuqp0t0qiWVDFsGCspNz5VuTf/Hdf//Iqj/H5gGSE5O5vz582zcuBFFUXA4HDidTpYtW4bJZGLo0KH89NNP2O12/P39+fTTTxk2bBhhYWGcOXOGnJwc2rVrR8uWLcnPz2f8+PH88MMPtG7dmtjYWKxWKyEhIQA4HA4++eQTGjRoQGBgIGPGjKFkyZJoNBqysrI8NYWEhHDixAnPY3nhPLp168a7775LixYtePPNN3nuuefIz8/HYDAAYDAYSEhIAKBv375MmDCBRYsWMXjwYHr27ElkZCQAvXr1wu12ExYWdoOP+q2z9+xe3t/6vme5Y1RH+lTp48WKhBAPgiPnjjBo9aAid2xpVboVHzT/AH+9vxcrE0IIIYQQQgghhLi/yDuSQgghxDWKCo5ifPPxvLzqZRQUdph3MH7beN5p9I63SxNCCHGfqBxSmbcbvc3geoNZdHwRcxLncCjrkGf9wayDjNo8ik92fELnCp3pVbkXFUMqerHiu4s7K4/sV77FvukQ3E9dpv+JrQD3iQwyH/ugsPv0m91Q6bzza366NZ1xW8ex8sTKIuNty7VlWL1hrDixgs6/dfZ0mgXQqrT0rtKb52o9R5BP0J0uWQhxh32791tsThtQ+Hr3SOQjt3wOi8NyWXfoCx8XwtEF7pt/fdCr9ZiMJs9HhDGiyL8mowmjznjZfoqikJSUxJEjR8jJyaFt27aEhobywQcf8Mcff+ByuRg5ciSPPvoo33//PWvWrKFWrVr07NmTpUuX8tdffzFu3DgeeeQR/vOf/1CxYkW6du3Kvn37GDhwIK1bt8ZkMrF161by8vJwOp0MHTqUM2fOEBISQn5+PikpKZ4AdHZ2NgEBAQQHB/PYY4/xwgsvFKm3RYsWrF+/nm7dupGWlsaJEyc4fvw4UNglW6stfM1p3rw5fn5+5OXlefYLCAigXLlyALz99tuebZ944gmeeOKJKz42d0NgGgpD/oPXDMbhdgCF/19HNB4hd/0QQtxWK1NW8uaGNz2vlQADaw7khdovoFZdfoGNEEIIIYQQQgghhLhxEpwWQgghrkPLMi15pe4rTI6fDMDsxNlEh0bTs3JPL1cmhBDifuKn86Nn5Z70qNSDvRl7mZ04m2XJy7C77ADkOfKYdWgWsw7Nom54XeKi42hTrg16jd7LlXuP4+ApzvWagPu8BRwub5dzZ/3dfdqxOZGQnwejDr1z3ejcipv5R+YzccfEIqHoMEMYbzd8G71Gz8AVA0nOSS6yX9OSTXk99nWigqPuWK1CCO9Js6QxJ3GOZ/ml2i9ddwjM4XJgtpovhqCt5stC0rkFuVc/0FWoUBFmCMPkb8Lkd+VQdKhv6A2FaFetWsWECRPw9fWlXLlyPPzwwyxdupQjR44wdepUrFYr77//PqGhocTGxrJ582YGDRpExYoVOXbsGGfPnqVy5cpAYdD4iy++IDExEYPBwPDhw6lXrx67du3C5XLh6+vL1KlTMRgMrFq1ipMnT/LKK69w7tw5SpQogc1mQ1EKO2t37NiRRYsWoVar0el0HD58mO7duzN8+HDGjx9PlSpVaNu2Lc2aNcPPr/COFxqNxnNeQUFB/PXXXxiNRhRFoU+fPvTpc7E7c5UqVa7+uN8loWSn28nr617HbDUDEKAPYFKrSRi0Bi9XJoS4X7kVN1P3TOWrPV95xgxaA+OajaNNuTZerEwIIYQQQgghhBDi/iXBaSGEEOI69Y/pT2JWIkuTlwIwbss4ooKiqFeinpcrE0IIcb9RqVTUDKtJzbCavB77OguOLmDu4blFQqjx6fHEp8cTuj2Uxys+Ts/KPSkdUNp7RXtB/tJdnH9+GuQXgOLtarzEVoBj3wkyWr1DyOxh6Kre/v8DKTkpjNw0kh3mHUXGu1fqTvdK3Zm6ZyrrT68vsi4yMJLXYl+jeanmd01ITghx+01LmObp9FyjeA1alWlVZL2iKGTmZ2K2mD0h6FRLqqdLdKollQxbBsoteJIP0AdcMQxt8jMR4R9BuCEcnUZ30/P8fxeCzt27d+eZZ57xjC9ZsoSwsDBq164NQMmSJdmwYQONGjWiatWqnk7NBoPBE0wGKFasGH369OHjjz8uMk9QUGEH/7y8PEqXLs327ds5dOgQP//8M0lJSRw8eJCnn36aZcuWUbt2bZ5++mk+/fRTIiMj+frrrzEajcTExGAymdBqtQwbNoxXX30Vo/FiB21FUS57Dr+w/l5/bp8SP4VtaduAwhD9+ObjKRNYxstVCSHuV3kFeby54U3WnFzjGSvtX5opD02hUkglr9UlhBBCCCGEEEIIcb+T4LQQQghxnVQqFaObjiYlJ4WDWQdxKk6GrBnCLx1/IcI/wtvlCSGEuE8F+QTxdPWn6VutL1vTtjIncQ6rTqzCpRR2V87Kz+L7fd/z333/pWmppsRFx9G8VHM0as1VjnzvUhSFvI8XYPlyCeQ7vF2O9zlcuM/mkPnoWIKnDsS3fZ3bM43bwfT905m6e6onCAlQNqAsr8W+xra0bTy95GmcitOzzl/nz3O1nqNPlT63JZAohLh7ncw5yW9HfvMs1wqrxee7PyfNknaxe7TFXOT55Ebp1fqLQWjjlbtFG3XGqx/oNjh79izly5cnOjoaAIvFgtFoJCQkhFOnTnm2K1euHKdOnSI8PBybzYbNZgOgRIkS5OfnY7VaAWjbti1Tp07liy++ICAggIMHD9K+fXuioqLIzc3l8OHDPPXUUyQnJ9OnTx8effRRxo4dS6lSpdBqtbz11lsMHjwYk8kEQIsWLWjRosVldfv4+ODj41Nk7F4PR/+TZcnL+O/+/3qWn6/9PM1LN/diRUKI+1lydjKDVg/iWPYxz1jjiMZ83PJjgnyCvFiZEEIIIYQQQgghxP1PgtNCCCHEDTBoDUxuPZnei3qTlZ9FVn4Wg1YPYnqH6XILXyGEELeVSqWiUUQjGkU0It2azvwj8/n18K+eW8orKGw4vYENpzdgMproUakH3St3p7ihuJcrv7UUl5vsV74lf3G8hKYvpQC2As4/9xUBI+Mw/uuhW3r4A5kHGLFpBIeyDnnGNCoNT1d7mhLGEry38T3O2c951qlQ0a1SN16u8zLFDMVuaS1CiLuDw+XAbDVfDEFbzaTmpZJmLVw+nn3cc5EPwE8Hf7qheVSoCDOEYfL/uzv0FULRob6hd22o12AwoNFoOHz4MM2bN/d0aK5bty4bNmwgKyuL0NBQzp49S0xMDBqNhszMTLKzswEIDAwkLS2NvLw8ANq1a4fJZOKTTz7Bx8eHSpUqUaZMGUqVKsUnn3xCcHAwWq2WsWPHMnbs2MvqCQkJISQk5M49AHe5o+eO8u7Gdz3LLUu3ZGDNgV6sSAhxP1t/aj3D1w0n15HrGetXrR+v1nsVrVrethNCCCGEEEIIIYS43VTKhfs7CiGEEOK6xZvj6f9Xf5zuwo6K7SPb81GLj+7aN+uFEELcn5xuJ+tPrWf24dlsOr0JhaK/5mlVWlqXbU1cdBwNTA3u+dcpxeni/HPTKFiZgGK7+Q6l9y2DnoDhXTE+1+6mD2Vz2pi6eyozDswoEoCsGlqVXtG9+OXQLySeSyyyT70S9RgeO5yqxare9PxCCO9QFIXM/EzMFjOpllRPOPpCl+hUSyoZtozLXnduRIA+4IphaJOfiQj/CMIN4fd8x/qffvqJb7/9ljFjxpCUlETx4sXp1KkT33zzDV9//TUOh4O6devy/fffk5aWxi+//EKXLl2IiorCbrdz5swZSpUqhV6v9/ap3FdyC3Lps6gPyTnJQOEdFGZ1mkWgPtC7hQkh7juKovDdvu+YEj/F89rpo/FhROMRdK7Q2cvVCSGEEEIIIYQQQjw4JDgthBBC3KS5h+cyevNoz/KguoN4psYzXqxICCHEg+xk7knmHp7L70d+L9L594LIwEh6RfeiS4Uu9+QtoBWXm/MDp2JfuRckNH11Bj0Bb3XDOOCRGz7E1tStjNo8ipO5Jz1jPhofnqr6FMk5yaw8sbLI9iWNJRlafyhty7W950P6QtzvLA5Lke7QaZY0z8eFcHSB+9Y81/pqfKkZVrNIMPrSgLRRZ7wl89zNnE4nc+bMYfr06URFRdGmTRu6d++O0+kkJSWF0NBQ6QJ9h7kVN6+ufpXVJ1cDhXeX+vnRn6kUUsnLlQkh7jdWh5URm0awNHmpZ6yEXwkmPzSZ6sWqe7EyIYQQQgghhBBCiAePBKeFEEKIW2DslrHMTpwNFN5CespDU2hVppV3ixJCCPFAK3AVsDxlOXMS5xCfHn/Zeh+ND+0j2xMXHUdM8Zh7IuCqKArZL31L/uKdEpq+Hr46AsY8gbFvq+vaLduezcSdE5l/ZH6R8Xol6lEhqAK/H/29SKDSoDXQP6Y//ar3w1freysqF0LcBIfLgdlqvhiCtpovC0nnFuTe9DwqVIQZwjD5/90d+u8wtNPt5JOdn3i2+6XTLxIME3edrxO+5rNdn3mWP2rxER3Kd/BiRUKI+9HpvNMMWjWoyB1a6obX5ZNWn1DcUNyLlQkhhBBCCCGEEEI8mCQ4LYQQQtwCDreDZ/96lh3mHQAYdUZmPjqTqOAoL1cmhBBCwOFzh5mbOJc/j/2JxWG5bH3V0Kr0iu7Fo+UfxU/n54UKr03exD+xfL4IxSqh6evmqyNkxiv4tLi20OLylOWM2zqODFuGZyxAF0Dbcm1Zf2o9Z/PPFtm+U1QnBtUdhMlouqVlCyGuTFEUMvMzMVvMnhB0qiXV0yU61ZJKhi0DhZv/s1+APuCKHaJNfiYi/CMIN4Sj0+gu2++FFS+w/vR6ANqUbcOnrT+96VqEuJU2nt7I8yue93yfPF3taV6Lfc3LVQkh7jfbUrcxdO1QztvPe8biouMYHjv8iq+fQgghhBBCCCGEEOL2k+C0EEIIcYtk5WfxxMInOGM5A0DZgLLM7DiTIJ8gL1cmhBBCFLI6rCw6vog5iXM4lHXosvX+On86V+hMr8q9qBhS0QsV/rP8v3ZzfuBX0mn6JqiMvhRbMQJt+RL/uE26NZ1xW8ex8sTKIuOxpljyCvI4mHWwyHhMsRiGNxhO7fDat6NkIR5YFoflsu7QFz4uhKMv7fh+o/Rq/cUg9CXB6EsD0kad8bqPuzt9N32X9AUKO1LP7zL/rntdEQ+2U7mniFsYR05BDlD4Ovd126/RqrVerkwIcb9QFIWZh2by8faPcSkuALRqLW83fJselXt4uTohhBBCCCGEEEKIB5sEp4UQQohbKDErkb5L+mJz2gBoUrIJXzz8hbz5KoQQ4q6iKAp7M/YyO3E2y5KXYXfZL9umbnhd4qLjaFOuDXqN3gtVXuRMPE1GhzEgnaZvjlqFumQoxVePRh1gKLLKrbiZf2Q+E3dMJNeR6xkv5luM8kHlPXfVuCDMEMar9V6lU1Qn1Cr1HSlfiPuFw+XAbDVfDEFbzZeFpHMLcq9+oKtQoSLMEIbJ/+/u0FcIRYf6hqJSqW7BWV2kKAr9/+rP9rTtQGFH+g+af3BL5xDiZticNp5e8rTnIrJwv3DmdJpDMUMxL1cmhLhf2F12xmwew4KkBZ6xYr7F+LT1p9QJr+PFyoQQQgghhBBCCCEESHBaCCGEuOX+Sv6LoWuHepb7VevHsNhhXqxICCGE+GfZ9mwWHF3A3MNzSc5Jvmx9qG8oj1d8nJ6Ve1I6oPQdr8993kJGi3dwn80G+e315vlo0cVWJHTOMFTqwsBzSk4KIzeNvCwcXb1YdZLOJ5HvyveM6dQ6+lXvxzM1nrmhLrRC3O8URSEzPxOzxewJQadaUj1dolMtqWTYMlBuwRNagD7gimFok5+JCP8Iwg3h6DS6W3BW12dL6hYG/DUAAI1Kw5+P/0mZwDJ3vA4hrkRRFN7e8DZ/HvsTKHxd+6H9D9QMq+nlyoQQ9wuzxczgNYPZm7HXMxZTLIZJrSdRwvjPd34RQgghhBBCCCGEEHeOBKeFEEKI2+DzXZ8zLWGaZ/n9Zu/TpUIXL1YkhBBC/G+KorA1bStzEuew6sQqz+2kL1ChommppsRFx9G8VHM0as0dqevcvz/DvnIvFDjvyHwPBD89AW/1QP+flkzfP52pu6dS4L7Yzbu4oTgokJGfUWS3NmXbMKT+EMoESABSPLgsDstl3aEvfFwIR1/6/XSj9Gr9xSC08crdou/GixcUReGpxU+RkJEAQPdK3RnZZKR3ixLiErMOzWLc1nGe5fcav0fPyj29WJEQ4n6yO303g9cMJsN28efoLhW68F7j9/DR+HixMiGEEEIIIYQQQghxKQlOCyGEELeBW3Hz6upXWX1yNVAYfPih/Q/UCKvh5cqEEEKIq0u3pjP/yHx+PfwrZqv5svUmo4kelXrQvXL3wpDtbZK/JJ7sF75Gsd18CFEUpfhqGfXeeTZqDnrG1Co14X7hpFnSimxbKaQSb8S+QYOIBne6TCHuKIfLgdlqvhiCtpovC0nnFuTe9DwqVIQZwjD5/90d+gqh6FDfUFQq1S04qztrzck1vLzqZaCwk+/ibosxGU3eLUqIv+1K38V/lv4Hp1J4MVbXil0Z1WTUPfm9JoS4+8w7PI+xW8fidBc+x2hUGobVH8aTVZ+U5xkhhBBCCCGEEEKIu4wEp4UQQojbxOKw8NTipzh6/igA4YZwfun0C2F+YV6uTAghhLg2TreT9afWM/vwbDad3oRC0V8ftSotrcu2Ji46jgamBrc0EODOyuNsozdQcqyXrTviPM/agjOe5RCVDzG6YkRrg696XEVROOu24afS4a/WATAmdzsbClJprDcxMuDGw8EL85P50rKXULUvnwW1IER9e7vKjcjdxpaCNJrrI3gnILbIutOuPIbkbMSiOBhirM1DPqWLrHepFY6UtPDKiwdR1BDsE0y2PbvI1zjYJ5iX67xMt0rd0Kq1t/VchLjdFEUhMz8Ts8XsCUGnWlI9XaJTLalk2DIue567EQH6gCuGoU1+JiL8Iwg3hKPT6G7BWd1d3IqbXn/2IvFcIgBPVX2K4Q2Ge7kqIQqdtZ6l18Jeni6w1YtVZ3qH6dIBVghx0xxuB+O3jWd24mzPWLBPMBNaTqBhREMvViaEEEIIIYQQQggh/okEp4UQQojb6GTOSXov6k1OQQ4ANYvX5Pv238ubs0IIIe45J3NPMvfwXH4/8jvn7OcuWx8ZGEmv6F50qdCFIJ+gm57v3L8/w75yLxQ4L1vXNnMB9Z7sTGBgIABnz55l3bp1NM4yMDmwGRqV+h+POyJ3G/P9zBTkWfnD+AiRmkAqn/+FjRs30qJFC/YFdMdPdWOBxh5ZS+j72UjmzJlDn50KHX0jb+g418LidlDTMp+1a9fSpEkTjoY8gV6l8az/2XqYjW3Cady4MWvf/YJvgx+67Bg2vYv/tj/D4ubnsLvtnnGtSkvvKr15rtZzt+RrKcSdYHFYioSh0yxpno8L4egC9813r9er9ReD0MYrd4s26oy34IzuPUuTl/La2tcAMGgNLO62+LbelUCIa+VwOej/V392pe8CIMQnhNmdZhPhH+HlyoQQ97pMWyZD1w5lp3mnZ6xySGUmt55M6YDS/2NPIYQQQgghhBBCCOFN0jJKCCGEuI3KBJZhQssJPL/ieVyKi4SMBMZsHsOYpmPkNp1CCCHuKWUCyjCk3hBeqv0Sy1OWMydxDvHp8Z71yTnJfLT9IybHT6Z9ZHviouOIKR5zQ6939g0Hsa/Zf8XQNEC2u4ARI0aQkJDA0aNHadmyJd999x2dO3dm+vZD/MevGoqisMORTpIrh1JqI/X14fii4UdrIksWr+Dzzz9n4ZKjtNSXwu12s2nTJlwuFy5FYZvDTJDah0y3jZOuPCpqgqirC/Oci1Nxs6EglVS3hUhNIA11JVCrVKhUKvbv309mZiY+qsI7TOQrTtYXpHLWbaOE2o/G+hJXDGanOHPZ7TyLXXERpQmijq54kQB4pjufDQVnsCkuymsCidGG4nK52LRpE263GxUqFEUh3nGWw67zbCg4Q1jxalSoUIHV/9BB11Cg4T9LSrK6VgZ2/8KxpiWb8nrs60QFR133102I28XhcmC2mi+GoK1mUvNSSbOmeULSuQW5Nz2PChVhhjBM/n93h75CKDrUN1R+jr8Cp9vJF7u+8Cz3qdJHQtPirjFhxwRPaFqtUvNRy48kNC2EuGkHMg8waPUg0ixpnrF2ke0Y3WQ0fjo/L1YmhBBCCCGEEEIIIa5GgtNCCCHEbda4ZGOG1R/G+O3jAViQtIDo0Gj6Vuvr5cqEEEKI66fX6OkY1ZGOUR05fO4wcxPn8uexP7E4LADYXXYWJC1gQdICqoZWpVd0Lx4t/yh+Oj+y7dlMS5hGZGAkPSv3vGL4UFEUct78CWxX7wz73//+F9uSeA67znN+2qe8+OKLTHviVZrpSzIwezWa6FLUq1ePeceOcWzTPJrpS2IqX4bg4GCqVavGarOZ+acP4jrv4tdff8XpdPJW7hYSK/mRlpZGqTKliImJYer27UQmJ/BN0EPsd2Yy4PwaSsVWp2rVqvwQH499/2a+C36ILHc+a9eu5cyZMwSoSvGrLYm3LFuIbdmMyMhoFh4/Tv/1s1kX/BhlNQGe83g5ex0bgi00bdUUg8HAN7t3ozu0le+DHyZcbWBs3g5+UJJo3749QUFBzNizh5yEjThx8uuvv+J2u8lXnAzMXsPJsgaaNm1KSoKVsGv4eqrdKvotK8WCf6t4LfY1mpdqLqFQcUcpikJmfiZmi9kTgr7QNfrCWIYtA+UfLgC4HgH6gCuGoU1+JiL8Iwg3hKPT3FjH+QfdwmMLSc5JBsBf58+/Y/7t3YKE+NufSX8y89BMz/KguoNoFNHIixUJIe4Hi44tYsSmEdhdhXdtUaHilbqv0D+mv/wsLYQQQgghhBBCCHEPkOC0EEIIcQc8WfVJDmUdYkHSAqCw41XF4Io0LtnYy5UJIYQQN65ySGXebvQ2g+sNZtHxRcxJnMOhrEOe9QezDjJq8yg+2fEJnSt0Jjk7mc2pmwFIt6bzUp2XLjumfeFOXKezrrmGstoAzil2zp8/T5kyZTivFND3/HLemzaJhg0bsnz5cgYOHMipU6eIi4uje93uhIeH07x5c0qWLMmKFSs4ffo069atw9/fnyR7Np9+Og2VSoXdbufUqVN8/vnndOvWjZ+2JzLVso9PZ/+XKlWqsGrVKt59910WLVrES0NGE6DS8+HkyXz++ecsW5LI/ICzbN4UT2ZmJtu2baNLly4YDAYObMwqEpz+NT+JLb9vYceOHTgcDkaPHs1XX33Fe5PnUF8Xzp7agZxYcILVq1eTkpLCgAED6Ny5M4YCA+vWrcPHx4fxefGYurdg7mefMXPmTJ566in8/AoD4P+L3qXm0d0mnqo1Gt/SJa/5cRfiWlkcliJh6DRLmufjQji6wH31CyWuRq/WXwxCG6/cLdqoM96CMxL/n8Pl4Ks9X3mW+1XvR5BPkBcrEqLQoaxDjN482rPctlxb/l1dQv1CiBvncruYFD+JH/b/4BkL0AXwYYsPaVG6hfcKE0IIIYQQQgghhBDXRYLTQgghxB2gUql4r/F7HM85TsLZBNyKm2FrhzGr4yzKBpb1dnlCCCHETfHT+dGzck96VOrB3oy9zE6czbLkZZ4ObHmOPGYdmlVkn2kJ0yjpX5Julbp5xhSni5x3Z4HVfk3ztmjRgp1GI+2ionjmmWfo168fTtyUb1aPVq1aERMTQ35+Pmq1mt27d/PQQw8xb948Xn75ZaZNm4b5j42U1wRe8dinT5/m6aefpqa2GCkpKfTv358nVz1J27ZtadasGRUrVuRhZxgffPABR48e5ZtvvmHH3n2e/X+0JTJ67HgOHjzIi3FP85hveeY5Mkly5fBeSMciczXWmWjU6GL3ywkTJpCYmEjwhE9IcGYyd9JKxo4dy8ovfqSx3sQ39vcJxEWG4eIxfrQf5tjHy3nyySfJX72XdY5UVq9efU2Po9oNtvd/w/e7F69peyEucLgcmK3miyFoq5nUvFTSrGmekHRuQe5Nz6NCRZghDJP/392hrxCKDvUNlQ6PXjL/yHxO550GINgnWO6sI+4K2fZsXl39KvmufACigqIY03SMPE8IIW5Ytj2b19e9zqYzmzxj5YPKM6X1FCKDIr1XmBBCCCGEEEIIIYS4bhKcFkIIIe4QvUbPpFaT6L2wN+m2dHIKcnhl1Sv83PFn6X4nhBDivqBSqagZVpOaYTV5PfZ1FhxdwNzDc0nOSb7i9iM3jcRH40PHqMIgsW32RpRc6zXPV7t2bcLCwqhTpw7bt29nyZIltFaXoHWHDuTn5zN69GhPQEqlUlGnTh1WrVrl2b+vIZq2PmWYnX15fStXruSTwKYEqHT8lZhImzZtAGjQoAErVqzgIWcY04Jb0zlzIdu2bSM2Npa9e/d69s9THLRr1453332Xd/1j6WGocMVzcCluVEDnzp0ZMGAApUqVQqvVYjAYKBFhIsdqJTY2lk6dOrEw+CHKaAIgAPLcDurYfvccp0SpkoSHh7Ny+QqOFn+SLyx7Wbx4MQ0bNrz6A+l0Y1+ZgOPgKXRVS199e/FAUBSFzPxMzBazJwR9oWv0hbEMWwYKyk3PFaAPuGIY2uRnIsI/gnBDODqN7haclbjV8p35fJ3wtWe5f0x/+d1GeJ3L7WL4uuGeQL9RZ2RS60nyf1MIccOOnDvCoNWDOJl70jPWqnQrPmj+Af56fy9WJoQQQgghhBBCCCFuhASnhRBCiDsozC+MyQ9Npt+SfhS4C0jKTuLN9W8yqfUk1Cq1t8sTQgghbpkgnyCerv40fav1ZdOZTQxaPcjTgfoCBYU3179JrCmWMEMYeRP/QLFcW7dpgClTprD8j0Wg1bBq/VreeustRo4cySM6HWfOnGHt2rWebdesWcPhw4ev+dj5+fn4qbSoUeFyuVCrC1+ntVotLpcL7d+v21rUuN1utNrLf73WaDS4XC50/6O75RaHGVtMBNOmTaNHjx7s3bsXh8NBTk4OOp0OjUYDUGTOK9FoNCiKgkpR0KBCp1Jjd7mu+XxxuLB8vpjgL5699n3EPc3isBQJQ6dZ0jwfF8LRBe6Cm55Hr9ZfDEIbr9wtWsKM967ZibNJt6UDEGYIo3eV3l6uSAj4cs+XbDyz0bP8ftP3KR9U3osVCSHuZStTVvLmhjexOW2esYE1B/JC7Rfkb3lCCCGEEEIIIYQQ9ygJTgshhBB3WEzxGEY2GclbG94CYPXJ1Xy5+0teqvOSlysTQgghbj2VSkVkUORloekLFBRO554mePc5lPOW6z7+54EtyFUcDBs2jCVLlvDZZ5+xYsUKunbtysqVKynvNKBHwx5nBgBVtSFYrVYMBgNTLfvYUmC+rvni4+P517/+xcuuM7yTs4WDfvnUr1+fN954o8h2etSsWrWKLl26MGbhq5xw5bHXkclRVzY/B7clQlMYFD3hyqVGjRokJCSwa9M2muhNuJpURKcr7K6bkZHB3r176dKlCy//tISWPqVYaz9NAW7wuTjfyZMnycnJoUGTxryycz0L85P5/aHR5OfnX9uJudzkL9qJe5wVdZDfdT0m4u7jcDkwW80XQ9BWM6l5qaRZ0zwh6dyC3JueR4WKMEMYJv+/u0NfIRQd6hvq6fwu7i8Wh4Xv9n7nWX625rP4an29WJEQsPrE6iJd0AfUGMDD5R72YkVCiHuVW3Ezdc9UvtrzlWfMoDUwrtk42pRr48XKhBBCCCGEEEIIIcTNkuC0EEII4QWdK3QmMSuR6QemAzAtYRqVQirRLrKdlysTQgghbj2Tn4mHyz7M6pOrMWgNBPsEo1FpcLgdNC3ZlDol6pA1dBKK9dq7TV+qu28UUzb/ztatWxk2bBhvv/02u3fvZsuWLfz666+43W4+bN6c999/n9wth1ixYgXvvfceK5o0Yfny5bDo2DXNE6MNZdvilSQPSWbRyr9YunQpq3v0YPHixeTsOkqsLtyzbR9DZcaPH8/GjRsJ/OV7tmzZQqfKlZkzZw57dmR4gtPVtKFMWbeOzz77jNEff4DFYqFNmzaewPMTvpV4/fXX+eWXX/ixbl1SUlIY2qQJ/fv3B8fF2nrpohgxYgRz5sxh6tSp9KxWjbJly15Xl21UKmyzN2B89pFr30fccYqikJmfidli9oSgL3SNvjCWYctAQbnpuQL0AVcMQ5v8TET4RxBuCEen0d2CsxL3op8O/MQ5+zkAShpL0r1Sdy9XJB50ydnJnguUAZqUbMKLtV/0YkVCiHtVXkEeb254kzUn13jGSvuXZspDU6gUUslrdQkhhBBCCCGEEEKIW0OlKMrNv5MmhBBCiOvmcrt4YeULbDqzCSjsWjOjwwyqhFbxcmVCCCHE7eFW3Fe8nbXLfJ6zDV4Hu/OajtMpayHFH6pLQkIC3+TXpZ4+nN9sx/i42AkqVarEX3/9RUm1kbINatCiRQsKCgrYsWMH+zZt59fg9jyXvQZjTCSRkZEcO3aM/fv389hjj7H2z6U01ZTgXGxpkpOTmWyJQYea5wy7qVixIkFbT9DXEM2AvLW0fPQRqlatSnx8PHtXbWR60MN8adlHVoPSJCUl8aWtNrsdGXzk3kfXrl0pW7YsSUlJLFy4kKWGdlTSBnvO562czWwo7aJjx47k5eUxd+5cWrRoweqVq9hs7MLI3G1sDLbQrVs3/P392bVrF9tXrsOtUfFwpw6s+2Mpa0If58lzf+FXvxItWrRgz549JCYmUqJECaokZPNhYONremzVpmDC4iegUsttx73F4rAUCUOnWdI8HxfC0QXugpueR6/WXwxCG6/cLdqoM96CMxL3o2x7Nh3mdSDXUdi5fHST0XSt1NXLVYkHmdVhpc+iPiRlJwGFYf7ZnWYT7Bvs3cKEEPec5OxkBq0exLHsixdXNo5ozMctPybIJ8iLlQkhhBBCCCGEEEKIW0WC00IIIYQXZduzeXLxk6TkpACFb+7O6jSLUN9QL1cmhBBC3Dl5n/5J3qSFYHdcfWMgw21ja4GZEmo/6unCUKlUKIrCZkca59x2auqKE6H2Y23BGQ44s9ChJlobQhO9CR+VBqfiJsGZidllxUeloYzGn8PO81TThlJc7cvGglRC1L40+LuD9A5HOpnufJroIwhU67G4HSy2p5DqthKpCaCdT1l8VBpy3AVsKkilmNqX+rpwVCoVGW4bS/JPkOnOp6TGSGt9KcI0hsvOaWuBmXhHOr4qLVW1IWS686moDSJaGwLAEed5VttPY8dFBU0QrXxKYXZZOeDMIkZbjHLaAFyKm+X2kxxxZVNa7U+QWo8TN830Efiprq0rsMroS/CMV/BpKhdy3Q4OlwOz1XwxBG01k5qXSpo1zROSzi3Ivel5VKgIM4Rh8v+7O/QVQtGhvqGoVKpbcFbiQTQ5fjLf7v0WgMjASH577De0armxnfAORVF4bd1rLEteBoCPxocZHWZQrVg1L1cmhLjXrD+1nuHrhnsuDALoV60fr9Z7VV7nhBBCCCGEEEIIIe4jEpwWQgghvOzY+WP0WdwHi8MCQP0S9fn6ka/RqeW250IIIR4MZ5u9hetomrfLEABqFYa+LQka/7S3K7nnKIpCZn4mZovZE4K+0DX6wliGLQOFm/8zTIA+4IphaJOfiQj/CMIN4eg08rOkuD0ybZl0mN8Bm9MGwMctPqZ9+fZerko8yKbvn86EHRM8y2ObjuWxio95sSIhxL1GURS+2/cdU+KneH5W89H4MKLxCDpX6Ozl6oQQQgghhBBCCCHErSaXyAshhBBeFhUcxfjm43l51csoKOww72D8tvG80+gdb5cmhBBC3HYu83lcJzK8XYa4wK2Qv2gngR/2lW7E/4/FYSkShk6zpHk+LoSjC9wFNz2PXq2/GIQ2XrlbtFFnvAVnJMSN+Xbvt57QdOWQyjwS+YiXKxIPsm2p25i4c6JnOS46TkLTQojrYnVYGbFpBEuTl3rGSviVYPJDk6lerLoXKxNCCCGEEEIIIYQQt4sEp4UQQoi7QMsyLXml7itMjp8MwOzE2USHRtOzck8vVyaEEELcXvble1BpNSgFTm+XIi6wFuA8dBpd1dLeruSOcbgcmK3miyFoq5nUvFTSrGmekHRuQe7VD3QVKlSEGcIw+f/dHfoKoehQ31AJrYu7VpoljTmJczzLL9V+CbVK7cWKxIMszZLGa+tew624AagVVovhscO9XJUQ4l5yOu80g1YNIvFcomesbnhdPmn1CcUNxb1YmRBCCCGEEEIIIYS4nSQ4LYQQQtwl+sf0JzEr0dPhZtyWcUQFRVGvRD0vVyaEEELcPrZ5m1Gsdm+XAUC+4uSc204JtR/qBzi4qjhd2JfG3zfBaUVRyMzPxGwxe0LQF7pGXxjLsGV4bst+MwL0AVcMQ5v8TET4RxBuCEen0d2CsxLCO6YlTPN0Vq9RvAatyrTybkHigWV32Rm8ejBZ+VkAFPMtxsRWE+U5VghxzbalbmPo2qGct5/3jMVFxzE8drg8lwghhBBCCCGEEELc5yQ4LYQQQtwlVCoVo5uOJiUnhYNZB3EqToasGcIvHX8hwj/C2+UJIYQQt5xS4MSxI8nbZQCQ53bQJPs3NKEBVMnSMCvkEW+X5D0FTvL/2IH/4C7eruSaWByWImHoNEua5+NCOPpC0PNm6NX6i0Fo45W7RRt1xltwRkLcnU7mnOT3I797ll+u87J0Rxde88HWD9iXuQ8ArUrLJ60+Idwv3MtVCSHuBYqiMPPQTD7e/jEuxQWAVq3l7YZv06NyDy9XJ4QQQgghhBBCCCHuBAlOCyGEEHcRg9bA5NaT6b2oN1n5WWTlZzFo9SCmd5iOQWvwdnlCCCHELeU8dBqVjw5LgZ0ERwbF1QZOufJIdVuI1ZWggiaQ7Y50jrlyKKU2Ul8fjkF18dfYNJeVTQWpOHATrQ2mprY4apUKRVHY6jCT4sqllMZIfV04viotNsXJHkcGoWpfTrnySHfbqK0rThVtCAedWRSvUJa1a9dSoUQpNhekEakJIEJjJMudz7qCMxQobhrpS1BWEwBAqstCsiuXkmojCc4MbIqLDj5lCVDri5xnmsvK+oIz+Ko0VNeGYnbbqKQNprjal3NuOzsc6WS4bUSojcTqwjGqdSiKwiHnOayKEz+Vlr3OTELUvrTUlyRHKWBjQSpa1DTRRxCi9qFAcbHbkUGQWs9Zt43TLgvR2hBq64pzwMhGKw4AAQAASURBVJHFPmcWJTV+NNKZ0KrUAKQ4c9ntPItdcRGlCaKOrjiav9c5j6aiOF2otJo79L/hyhwuB2ar+WII2momNS+VNGuaJySdW5B70/OoUBFmCMPk/3d36CuEokN9QyUkKh5oU/dMxak4Aahfoj6NIhp5uSLxoJp3eB7zjszzLA+LHSZ3ahJCXBO7y86YzWNYkLTAM1bMtxiftv6UOuF1vFiZEEIIIYQQQgghhLiTVIqi3Py9aIUQQghxS8Wb4+n/V3+c7sJgQvvI9nzU4iMJ6wghhLivWH9cQ857v/DkmYVk1zBx9OhRqlevTuXKlfnhhx+orAlGV6UU9erVIykpieTNu/k++CGqaEN4M2czC/Vm2rdvj6+vL9u3bycsKZuR/rE8m70GQ7Wy1KlTh6NHj3JqawLfBT3EJ5bdmKsVIzk5merVqxMVFcWKFStommXgz/xkuj/Zmy+++ILOnTsDsGf7Tv6lqcjXrsN06NABPz8/lixZwiPWYrwbUJ9GuQuoUbc28fHxtGvXjry8PEI3JjMlqIXnHKda9vKJcpDOnTtjsVhYvnw5sbGxJG7eyWuG2ox076FZs2ZERESQnJzM3nVb+TqoJXmKgzf9DhIYGEh2djYPP/wwJ06cYN26dRgMBjp06IDD4WDL0lVMD2jNj9ZE9lXyJS0tjbJly1K9enU2bNjAsWPHKFOmDC1btuTgwYOoE04yM/gR3szdzIZgC02bNsVgMLB79250h9L4PvhhTBo/VEYfQhe+ja5q6dv29VcUhcz8TMwWsycEfaFr9IWxDFsGCjf/Z4sAfcAVw9AmPxMR/hGEG8LlluxC/A9J55PouqCr5/txRocZEjATXrH37F76Le2Hw+0AoGNURz5o9oH8riyEuCqzxczgNYPZm7HXMxZTLIZJrSdRwljCi5UJIYQQQgghhBBCiDtNgtNCCCHEXWru4bmM3jzaszyo7iCeqfGMFysSQgghbq3zL39D/tzNtMz4jfl7NpCRkYHFYiEtLY0BAwbw7bffUr9+fVasWEGjRo1ISUnh9ScH0M63LKmty/Pjjz+ycOFCzp49S9OmTWnUqBGlNP58+MNUatasycqVK2nSpAmHDx9mxL9fRI+GmdtWYrPZMJvNnD17lt69e9OlSxfWrVvHjz/+SI8ePZg+fToA7777LkajkY0bN7JlyxbOnTtH9+7d6datG+W2pLK+pIM9e/awfft2UlJSSEhIYP8Xc/khuA0Aux0Z9Pfdyfbt29m8eTPp6elUqlSJNm3aYDQaaegMoeektzEajaSlpdGkSROsVitPP9qVAYZqnOvXkGeeeQar1cru3bvp2rUrn332GW3atOHw4cM0bNiQgwcP8lG/QQSqdby3aAY6nY68vDwyMjLo2rUrgwcP5t///jd79+6lZ8+evPTSS0QuPMJ4Szxbtmxhx44dOBwOHnvsMb766isOTp7D18GtURl9CBz3FIa4pjf89bU4LEXC0GmWNM/HhXB0gbvgpv8f6dX6i0Fo45W7RRt1xpueR4gH2ZA1Q1ieshyAZqWaMbXNVC9XJB5EmbZM4hbGYbaaAagcUpmfHv1J7s4khLiq3em7GbxmMBm2DM9YlwpdeK/xe/hofLxYmRBCCCGEEEIIIYTwBu3VNxFCCCGEN/Ss3JPErERmJ84GYEr8FCoGV6RVmVbeLUwIIYS4RRw7koos79u3j7deHoILN61at6J58+bExMRgt9tRq9UkJCRQoUV9vlu7luQvl/Dcc89x/Lc11NQWY0rBSABi2jSlfv361KpVi4KCAjQaDfv376dko5ps3LgRgKSkJF761zNEa4PZvXs348ePp3HjxowbN4527dox6LkX6WmowFnbWT766CP+/PNPPnzxNULVhZ2tJ02aRK1atahABYxGI++//z72dfvxV+noa4j2nM906yFee/c1li1bxqgBgzCp/ajc+xHatCkMVtfXhfPCCy94tler1ezZs4dKjeuyY/sJKgDh4eFUqlSJmo4AVq5cybx586hduzbBB8/yToCd9PR0nnvuOcrbCq+JTklJ4d/9/kVZjT8qlYo33niD6tWrU4tgduzYwYABA3h3/lM01plo1KiRZ+4JEyaQmJhI8IRPcCputBY7BTuO/mNw2uFyYLaaL4agrWZS81JJs6Z5QtK5Bbk3+18EFSrCDGGY/P/uDn2FUHSob6h0GhXiNjqQecATmgZ4qc5LXqxGPKicbievr3vdE5oO0AcwqdUkCU0LIa5q3uF5jN061nNXN41Kw7D6w3iy6pPyM6QQQgghhBBCCCHEA0qC00IIIcRdbHiD4SSdT2KHeQcKCm+sf4OZj84kKjjK26UJIYQQN0VxuXGdyCgytnTpUj4NbMZWh5mK7duTn5/PmDFjPIEGlUpF7dq1SU9PJyIigt/mzedQsd74qXSMBd7O2UKN9u2x2+2MHTvWs5+iKNSuXdsTnF60aBHvBzSivi6c3osXM2XKFDQajacOo0rLx4FN2VyQRoMGDRg2bBjv+ccSowuly4IFfPXVV/j5+QHgcDhYu2o1R4s/iV6lKXI+Sa5sXqhXjy+//JIhxto000fQYdkyz3qb4qR69eq8/vrrVKlSBV9fX8qWLUvFihXZseUAFYBt27bRxBnK8IC6DEtK4vz58xxN2M+RsKeocnYmOTk5REREkHH0FACrV6/mo4AmpLktJCUl4Xa76awpw5OGykxJSqJkyZKkuS1EqI107tyZAQMGUKpUKbRaLQaDgRIRJsx2K6U0/uRtPcD2lBWecPSl3aIzbBko3PwNrAL0AVcMQ5v8TET4RxBuCEen0d30PEKIG/f5rs89n7cp24bqxap7sRrxoJoSP4VtaduAwotqxjcfT5nAMl6uSghxN3O4HIzfPt7TkAAg2CeYCS0n0DCioRcrE0IIIYQQQgghhBDeJsFpIYQQ4i6mU+v4pNUnPLHwCc5YzmBxWHh51cvM7DiTIJ8gb5cnhBBC3DB3Zi7oNOBye8Zyc3MJVhtwKW50Oh2nTp1i7dq1nvVr1qwhMTERg8GAoiigKGhQe9Y7+ef9Dh065Fl2uVxoUaNVqXG5XKjV6it2m3OhoNVqcbvdaFVqtKhxuwvrVasL57Varfgq6stC01AY7LpwfBduXLiLBLSn2g9wcvlJ3nrrLYYMGUJubi4LFy5Ep9Ph+juUbLfb8VNp0fx9LLvdjkGlRaVSecZUKpUnwly4XoP6ku39VFrPslqt5rgrl+CaFZk2bRo9evRg7969OBwOcnJyCue2Fx4t9/QZBq8ZfM1f0/9Pr9ZfDEIbr9wt2qgz3vDxhRC33+703aw/vR4ofE57sfaLXq5IPIiWJS/jv/v/61l+vvbzNC/d3IsVCSHudpm2TIauHcpO807PWOWQykxuPZnSAaW9WJkQQgghhBBCCCGEuBtIcFoIIYS4y4X6hjLloSn0XdIXm9PGidwTvL7udb54+Au0ankpF0IIcW9ym8+j0mlQ8h2XraulK85fK1fSuXNnVq5cSZTTgA4Ne5yFHarVajVZWVk8/Ehbnl21mjq6MFYWnGSH4yy5K1fy4Ycfsnz5ciq5/dGgIsGZCUBJdWGX6IceeogPfhtOZW0wrXu1Zu/evTidTqxWKwaDgSzFzhs5m0l25RIfH0+bNm34aOUHhKsNtOnRhiNHjpCXl0eJEiX+5zlGa4PZsmULjz/+OC/90o9glQ+PDejtWR8eHk7x4sX58ccf6aaLZJmvg3r16jF37txb9TD/oxo1apCQkMCuTdtoojfhalIRna5oZ2d/mwYU4Ap3MFehIswQhsn/7+7QVwhFh/qGyu3PhbiHKYrClF1TPMsdozpSMaSiFysSD6Kj547y7sZ3PcstS7dkYM2BXqxICHG3O5B5gEGrB5FmSfOMtYtsx+gmo/HT+XmxMiGEEEIIIYQQQghxt5C0lRBCCHEPiA6NZmzTsQxdOxSATWc2MWnnJIbFDvNyZUIIIcSNcaWd54qJXKCjbzneX/Yb+/btY/Pmzfz6668AfNSiBaNGjeL8toMMGzaMWbNm8d1335Gens57zZrRpUsXNi5azpH+/dm8eTPz5s1DpVIxoWVL3n77bbZv3w5As2bNePPzjzh79iyvvPIKffv25XVjHb4+fZDTp0+zYMECTp06xaIRIxg9ejQbN27EaDSSlZXFSy+9RL9+/ejhW4FdVznH//hVpecnn7BhwwbmrFpCeno6vr6+hefvcpFjzmD//v3MnTuXrVu3svSxxzh79uwteoT/t3Xr1vHZZ58x+uMPsFgstGnThvz8/KIbqdU8EtqckPCSFztH+5mI8I8g3BCOTqO78sGFEPeFrWlb2Z5W+LypUWl4odYLXq5IPGhyC3IZvGYwNqcNgLIBZRnXfBxqlfoqewohHlSLji1ixKYR2F12oPBiv1fqvkL/mP5yQZ8QQgghhBBCCCGE8JDgtBBCCHGPeCTyEQaeG8i0hGkATD8wncqhlelSoYuXKxNCCCGunzs9G8XpAiBcY+DVV19l//79hKmb46fS8UNAa/p360O5hrVo3rw5drudMWPGcGhLPEtDO/HW3LXU3lCbxx57DL1ez4QJE6iuDeVDY2Oe6dKLqEa1ad68OTabjZEjR3I8fh+l1f4ADB8+HKPRSIUKFWjWrBlhR87zfPBDlNQYqVevHg0bNiQoKAi7LZ+axx1UrlyZHj164OfnR926dSl/qoCPA5vQPG0Rffv2JVxtuOI5VtGGUPWcjpiYGFq1aoXFYiE3N5eGDRviVwAfBjalZcuW9O7dG6PRSN++fSlevDhms5lYbShLlixh+/bt1FAbKKb25cSJE/znP//xzBemNtCvXz9Onz5NfW0Io0aNIjk5mW6a6tgUF9/8+it+fn60VvsRpjZw8OA2Xn75ZRrpSlDV7Ev9+vXp2LEjeXl5dOzYkRYtWpCRfvb/2LvzAJvqxo/j77vOypgZY6Kx7/u+VrZEsoVEVAgtyJLtIVTIUmQpaxQlS1LJnm0QIlmzL43sy2DG7Hc5vz883efxq55Wc2bM5/WX73fOuefzJbpz53O+h5AgJwAOf3/GFnsVR4n70+G/CBHJSAzD4N097/rGjxd5nLzZ85qYSLIar+Hl1W9eJSY+BoAAewCT6k0iuzO7ucFEJEPyeD1M2jOJuYfm+uayObIxtvZYakfVNi+YiIiIiIiIiIhkSBbDMAyzQ4iIiMgf4zW89NnUh01nNwHgtDqZ++hcykaUNTmZiIjIn5PwzlckjF8GXoNYbwo70y6TxxZEBUdO3zEuw8uWtPMcdt/AgZUS9lBqOu/Dz2ID4KArlm1pF/FgUNyeg9rOPDgtNlyGl81p5zny7/NK/vu8JtdXMG/nOgYPHkzQlpOUtIdSwZ6TB525fTvQXfUkc9h9nQTDRWF7CCXsofzojmd92lnSDC+1nPdR0REBwFH3DU6546jkiCC3LegXa3QZXopeX0CrNk+wdetWwsLCmDhxIj/88AOrB07gwxwPE+OOZ1PaeVIMN6Xt4aTgJtjipJojFztdl0ky3DzgzE2gxc5h13V+9MRTxZGLSFsglzxJfO+6QiFbdqJswWxLu0io1Z9qjlx4MNiedgkXHh5w5sbfYmef6xoXPIlUd0YSbvVnZ9pl9riu4G+xU9IeSqw3hSL2EIrbQwGwZA8gx5we+D1U6m7/5yAiGUz02Whe3vgyAA6rg1WtVnFf0H3mhpIsZdaBWby79z/l/bdrv82jBR81MZGIZFRxqXEM3DKQ7Re2++YKhhRkSr0pFAgpYF4wERERERERERHJsFScFhERyWQSXYk8veppTt48CUCugFwsarqIiMAIk5OJiIj8cfEjl5A0dXW6XrNh7Fe8On8qkydPpteRbNT1u7s7KbsMLwVj5zN79mxKlSqF2+1m9erVvDdhEl8GNvAVlDMqS7YAQqZ2w79hBbOjiEg68hpe2ixvw/EbxwF4uuTTDKo2yORUkpVsO7+Nl9a/hMHtj62fLfUsA6oOMDmViGREJ26coPem3py9ddY3VzeqLmMeGkOwM9jEZCIiIiIiIiIikpHZzQ4gIiIif06QI4gp9abQbmU74tPiuZJ8hT6b+vDBox/gZ/MzO56IiMgf43Kn+yU7B5Zg1NPdyWUNoEpIvbt+PYfFyrxs9Vny4ggmeW5hs1io4sjFysCGFLKH3PXr/30GuD1mhxCRdPb1ma99pekAewBdynYxOZFkJedunWPgloG+0nTV+6rSt3Jfk1OJSEa04cwGBn8zmGR3sm/uhXIv0L1Cd6wWq4nJREREREREREQko1NxWkREJBPKmz0v4+uM56X1L+ExPBy4doCRO0Yy8oGRWCwWs+OJiIj8LsPjTfdrPhVQjKcCiqXrNR/2i+Jhv6h0veY/xgA8ekiVSFbi9rqZuneqb9y+RHtyBuQ0MZFkJcnuZPpG9yU+LR6AXIG5eLv229it+ghbRP7Da3iZvn86M/bP8M0F2AMY/eBoGuRvYGIyERERERERERHJLPSps4iISCZVM09N+lfpz7jvxgGw7NQyiocV55lSz5icTERE5PdZ7Lbf/FqMO54NaecItfjRzL8gDosVr2GwMjWGy95k6jjzUNSe4zfPj/Wm0DtuK9e9KfQIKks+WzZ2ui7fvi4QYQ2goiMneW3Z/nRut+HlqjeZcKs/Tsuvr2FD6jl+9NwufdmwkNsaSHXnfYRabz8Z4ooniQPuWM54bhFscdDMvyCBltvfnh9z32Rb2gViPLdwYKWYPQfN/QsSYPnPt+/x3jQ+SznJaXc82a1Oajnv4wFHbmKNFDamnuOEO44UPERZg2nuX4DctiAAXIaX4+6bHHTHkmC4qOyIoKIj4rcXa7GA47f/nETk3rPi9Api4mMACHYE07lMZ3MDSZZhGAYjd4zk6PWjADisDibWnUh4QLjJyUQkI0lIS2DwN4OJPhvtm4sKjmJK/SkUDS1qWi4REREREREREclc9LwyERGRTKxDyQ60KNzCNx6/ezw7LuwwMZGIiMgfY/Fz/ObXXonfxqGmhXjv/qtsSD0LwE7XZcaEneFU65K8FLf5f7729rSLWOuUpNuUEXyUfIxnb67nwtOVuNKpGpc6VmXdIzlp6F7P2ITv/3TuptdX0tT5DQ/d+JI0w/OLr5/zJNDbtocrnapxpVM1zj5dkSUP+PNA3JcsSznNG7d2Uc+7jo+qWrj4bBU+LprMkuSTABxwXaM1WzjzVHlKjOxC3mEd2Fg3jIdiv+CM+xYAq1POUOXmUg41K0zZMS8Q1LcZg8NPsTTlNLWuf872xveTZ+hTlBrVlQvtK1AnaSUrU2K45EmiyvUlvBx5nO+bF+BKp2q0u/k1XuN3dpS26WMDkazC5XHdsXtnx9IdCfELMTGRZCWLji1i+enlvvHg6oMpF1HOxEQiktHExMXQYVWHO0rTNXPXZFHTRSpNi4iIiIiIiIjIn6KfgIqIiGRiFouF4TWH+36g7DW89N/cn5/ifzI5mYiIyP9mDQmE39h1Os5IZdCgQVSrVo04I+32nDeVsmXL8vrrr3PTm8oNbyo70i4R445nTcoZliaf4pQ7DgAnNq5du8ahQ4ewADe9qYwfP54aNWpQsGBBnn/+eU6dOsWaqFQ+TT7he53VKWdYlHyCq55kEr0uVqTEsDj5BMfcNwBIMdzsd1/j7NmzpIYFsD71nO+aP4v3ppEnTx6mTJlC/vz5KV68OKNHjyb6ux286t7Lp8knWbVqFePGjWPo0KE88sgjvjVe9CRRunRpqlevzrlz50hISODdd99lwIRRDL61g5PuOHp7dhH97Ta6dOnCuXPnCAgIoEqVKvzkuYXLYeWpp57i1q1bnD17lqeffpot275hQPJO9rmuUrZOTTZv3kz37t2ZMmUKCbgx+B/Facu//5xEJEv4/MTnnE84D0AOvxx6ko2km71X9vLWrrd845ZFWvJE0SdMTCQiGc3Wc1tpv7I9p+NO++Y6lurItAbTdJOPiIiIiIiIiIj8afbfP0REREQyMqfNyaS6k2i3oh1Xkq8QnxZPr429+KTJJwQ5gsyOJyIi8qus9+XA4mfHcP9y1+Y/4tHrX5G/VkV27dpI7dq1CQuL4I2NG+mWmI/KjgjOnTvHli1bsHhTfee8++675Np7iTGuSyxY8xU9evSgd+/ePPjgg+zatZF69erh55eNvssWEWBzULdhAyIi8vL2hg2UvGrBi0GFChWwWq3UrFmTubGxHD68mXyxFi57k4myBTM0uLLvev3796djQAleNQbz409naNSiKasWfkbtBx7E8HhZ+tWXd6yplvM+Pvo2muU7R1HOEc5e1zWe372bTz75hOF9B/JR8lFeGdCP69ev07BhQyItAdxnDcRhsfJC9lrEJ6cx5ckeVHbkws9ioeH06cTFxVGgdHGsP1rYF72dfLlyU6BEUY4cOfK7v8eG24s1UkUUkawgxZ3CrAOzfOMuZbroewlJF1eTrvJK9Cu4DTcApcNL82qNV7FYLCYnE5GMwDAM5vwwhyl7pvhu+POz+fFazddoVriZyelERERERERERCSz0o7TIiIi94CIwAgm15+M0+oE4FTcKQZvHYzX8JqcTERE5NdZI3OA9a9/S3rOk8imTZv4/PPPeeaZZ2jTpg0HDx5kpl8M36Zdpl69ekycOJHs//5/488e9stLYVsI586dIyQkBLvdzpYtW1ixYgUdO3akSpUqhISE8P3B/bzyyitUr16d/fv3c9+TddmYdp5GjRoB0KpVKzp06EBUVBR73dfY8eNhqJifg+7YO67XLqAI/qkG165dIyQkhAHBFTkd3oG6zvt/saZsViefhDYk0Orgk+QTLE+NoXLlyhw9epQIawAbUs/RsmVL5s2bx5NPPkmLbs+QUiQnOSx+5LNl4/Vs1WjiX4BlKT/yYdIRypUrh8vl4uzZs5Syh7E//EnWhDf/47/JqS5suXL86T8bEcl8Fh9bzJXkKwBEBETQrkQ7kxNJVuDyuOi3uR/Xkq8BEOoXysS6E/Gz+ZmcTEQygiRXEgO3DGTynsm+0nRkYCTzGs9TaVpERERERERERP4WFadFRETuEWVyluH1Wq/7xpvObmLavmnmBRIREfkfbJE5wPv3b/BZunQpbz/Xlx5PPsOBAwdo3bo1W9Mu/OqxhQoV4v18Nyj0RH3atGnDmjVrfF9btGgRo5/pybBhw+jTpw8//fQTTzVqxuK+b9KhQwcmTpyI0+lk3LhxeL1eBgwYwLo+b9PgpAULsGbNGm7cuIHffz3YqXTp0vwr71m6DepD4cKF2bhxI2Xs4dgsv/2t+C1vGl/ZLrD84A4uXrxIp06deOqpp6jlvI8Yzy1Kly7N66+/TpMmTShRogQ7duwgpHl1JibsA2B+0jFGLpjJjpOHWLduHU888QTXrl0jyhaMzWLlT+3f6bBhCXD+/nEikqkluhKZc3COb/x8uefxt/ubmEiyivG7x7P3yl4ArBYrb9V5i9zBuU1OJSIZwfmE8zy7+lnWxPzn/XqlXJVY1HQRpcNLm5hMRERERERERETuBfbfP0REREQyi2aFm3Hs+jHmHZ4HwMwDMykaWpRGBRqZnExERORO1vtyYKS6/+cxFovl33vLgfHv8f+3YcMGFobUZVbSIY4dO0aePHnY4E0m36+83muvvcatW7e4ePEiL7/8Mts+Xe67nXjNmjV8nqMeA+O3U61aNZYtW0bPwHJ0DixB0a8/ITg4mEKFCnH06FHf6w0PrkIuWyBF7SFs6TOBVtZslPcLB+IB+Pjjj3G5XJw5c4ZHHnmEojGpVA3J9T/XHGCxE55ioWnTpoSFhTFo0CDmzp3L0w2b48XAYrEQHR3N6BdeIY8tiEOHDvHmm29S7/NKvJqtCiXtofTt25fQ0FBatGjBvHnzqFChAodTr1PKEfY/r/3/WUOD/9TxIpI5zT88nxupNwDIE5SH1kVbm5xIsoLlp5az4OgC37h3pd7UyF3DxEQiklHsuriLfpv7cTP1pm+ubfG2DKo6CIfNYV4wERERERERERG5Z6g4LSIico/pW7kvJ26eYPuF7QAM2zaM/NnzUyKshMnJRERE/sMS7I/Facdwe37xNSc2UlJSCAkJ4bo3BYDr3lRCQ/ORkpKCn8XmOzY1NZVAix0bFjweD1ar1Ve2/v86duzI1e8Ok9+WjSqOXKwMa0alm58BkJCQQIjTiRcDu92O1+vFbrFgw4LF4PbY/uvfQjf0y0cJeyg5rQFc9iT55itVqkR5e05y2wJp4ZeXJ0Pq/Gr5+78ZQHTY41yKS+JY7E26dOlCXFwcgQXug1OnOHnyJHv27KFzYEkqOyIYumcPhQoV4pKRRKrhYXz2BziXlsDNi2k8O3YSLVq0oEWLFuz8ZN+fLk7b8kf8qeNFJPOJS41j3qF5vvGL5V9UKU3uuqPXjzJixwjf+JH8j9C5dGcTE4lIRmAYBguOLuDt797GY9z+HsFutfNq9Vd5otgTJqcTEREREREREZF7iYrTIiIi9xib1cZbtd+iw6oOnIk/Q7I7md4be7Ow6ULC/P9cYUpERORusVgs2Irnwb33x198rbQjjG+++Yb69evz/LuzuOFN5cuUH3mz3vNs3bqVMvYwYjy3/tJ1J2V/iCrO27s+pxm/LG0XtoWwZ88eGjRowCvvf8L3rqtUrlUdt9vNj6dOA5CUlERAQACvXtxJSXson6acJKh4Xi7E/MS7zjt3y1wd1vSOsvQPrlimJh5kn/uab25p8inOeG5RxJadUYnf86AjN2XtYRx3x1G8fHFcLhc3b97kIWduNm3aRLly5ZiYtIANtnOUL9+Q06dP4zUMSl1bSD5rELWd95NiuLnlD1FRUVy9epWSFgfvJh7gm7SLEJHdd+1ucZt41C8fTwYUvfM3wmbBWbPYX/o9FpHMY+6hudxy3f73tED2AjQr3MzkRHKvi0uNo8+mPqR4bt8YVSikECMfGPm7NxaJyL0t1ZPKyB0jWXZqmW8u3D+cifUmUjFXRROTiYiIiIiIiIjIvUjFaRERkXtQiF8IU+pNof2q9iS6ErmQeIF+0f2Y1XAWDqt2kBMRkYzBWbM47v0x4L1zj+gn/AvT59132b59Ox+uWMru3bt5t2xZHnzwQWrXrs3ggCKsSD1zVzI9E1Ccdu+8w759+xj78UyOHTvGtJdeYujQoTQz7ueo/Qbr16/n448/5sCBA8ycOZMzB25hHDpE7dq1+Wnf/y50f5B0hLzPN2V6nTpUrVqVQoUKUaVKFWbNmsUXX29k9NgxFC5cmJMnT1IhZ05atWrFW2+9RelbfvQKKke/sWPZtm0bNpuNa9eu0a1bN7p160ZJeyiFGtWif//+7N69G4fDwauNG3Pq1Ck2frWKgSFNaORez+y5s8me/XZxesmSJSQlJdHr2a6/KE5bAv1xVCx0V36PRSRjiE2O5ZMjn/jGPSr0wG7VR4Vy93i8HgZtGcT5hPMABDmCmFRvEkGOIJOTiYiZLidepm90Xw5eO+ibKxNehkn1JhEZFGliMhERERERERERuVfppyEiIiL3qEI5CjHuoXG8vPFlDAx2X97NuF3jGFpjqNnRREREAHBWKkRykB/GrZQ75ms476Nj7FWKFi1K06ZNKVy4MJ999hnPPvss3byFeSQ4L7msAbRp04aUuFtky+Ygly2QDz74AJfLRRl7GNu2bePChQtEWAPIZQvgqaee4vjx40RY6/uuY8NCNo+NVq1aYUt24e9np5QjjJ6JBSlevDhPPPEEuXLlolGjRlgPX2B+6CMcd9/k2TbtKF+jKhEREVy9ehWAVq1acfjwYfrYq3H2zFFatWpFhDXgF2sOtfqxfft2zp07xyef/KeweOLECer73c/48eNp0KABBQoU4PTp00yaNAnHscvMylGPvLZgnom9RokSJXjqqafw8/PjwQcfJP+PiUzNXpvm67/G6/VSunRpXC4X3bt354dN23kv+4PktPpjpKT5rjl9+nQA3G43oVa/X+Q00lw4yuX/+3/IIpJhzT44m2R3MgDFQovRsEBDkxPJvW7a/mlsu7DNN37zgTcpGFLQxEQiYrZ9V/bRN7ov15L/8zSW5oWbM7zmcPxsv3yPKiIiIiIiIiIi8k+wGIZh/P5hIiIiklnNPjibyXsm+8bDaw6nTbE2JiYSERG5zf3TNa7VGQrJab/69VhvCutSz3LZm0ROSwCP+EWRyxYIwFlPAgdc1yhmz0FRew7SDA9b0y5iw8IDztzsdV3lujeFB5y5iTfS2Oe6Rl5bMOUcOe+4xhn3LX5wx97esdke4pu/5EliTeoZbhkuKjpy8oAjNxaLBYAEr4sD7mvc8KYSaQ0k0hbAAVcs99uCqeDIySHXdWI88ZRzhJPXlu2O6yUbbralXSTV8NwxH2r1o4bjPs57E9iRdpmL3kRyWPwobs9BdUek79oA5zwJrE39CS8G5ew5qebIhcViIc6byva0S5z2xGPHSn5bMHX97sffcvue6RPumxx33/zF73NFRwR5bHfu9mnJHkDk8an/649PRDKxS4mXaPJ5E9K8t//9nVJvCvXy1TM5ldzLNv20iV6bevnG3cp2o1elXv/jDBG51y09vpRRO0fh9roBsFls9K/Snw4lO9zx3ldEREREREREROSfpuK0iIjIPc4wDAZuGciamDUA2C12ZjeaTeXIyiYnExGRrM4wDK6UeBkjLsnsKPL/OOuWJmxRP7NjiMhd8saON/js+GcAlM1Zlk8e+0QlNblrYuJieGrlUyS4EgColacW0x6ehs1qMzmZiJjB5XEx7rtxLD622DeXwy8H4+uMp3ru6iYmExERERERERGRrMJqdgARERG5uywWCyMeGEHJsJIAuA03r0S/wsWEiyYnExGRrM5iseD/aEVQWS9jCfIjoFUNs1OIyF1yNv4sX5740jd+ueLLKk3LXZPkSqLPpj6+0nSeoDyMe2icStMiWVRscixdv+56R2m6WGgxFjZZqNK0iIiIiIiIiIikGxWnRUREsoAAewCT600mzD8MgOsp1+m9qTfJ7mSTk4mISFbn36wqlmA/s2PIf3N58Hu4nNkpROQumb5/Om7DDUCVyCrUyK0bJeTuMAyD4duHcyruFAB+Nj8m1ptIDv8c5gYTEVMcjj1Mu5Xt2HNlj2+uUYFGfNz4Y6KyRZmYTEREREREREREshoVp0VERLKI3MG5mVh3InarHYAj148wfNtwDMMwOZmIiGRlzgdLYqS50/26KYabT5NPMjvpMLOTDvNx0jG2pF4gzfD8pde76U3lmjflDx171ZNM+xtf0+T6CtaknPlL17ub7EXuwxqezewYInIXnLp5ihWnV/jGvSr10m7TctfsuLCDtTFrfeNhNYZRKryUiYlExCwrT6/k2dXPcinxEgAWLPSu1Ju3a79NoCPQ5HQiIiIiIiIiIpLVqDgtIiKShVSKrMSQ6kN84zUxa5jzwxwTE4mISFZn8XfgrF4s3a/7VUoMHxSM50qnalzpVI3jbUsxsUQcdWK/4Kj7xp96rY2p56iW/BUPuVYzJ+nw7x6/Ne0C/g+Xo9OEYXycfOyvLuHu8LPj30q7z4rcq6bum4rB7RsnH7z/QSrmqmhyIrmXVYysSL8q/bBgoW3xtrQo0sLsSCKSzjxeDxN2T+BfW/9FqicVgGyObLz38Ht0LdtVN++IiIiIiIiIiIgp7GYHEBERkfTVplgbjl0/xuJjiwGYsmcKRXIUoW7euuYGExGRLCugfW1ce05jJPyxHZv/CXFGKnXq1KF///4sXryYoKAgRo0axYoVK+j+4gAmZX8QDwZObBxyxxJhDaSuMw9H3TfY744lm8VBPb/7CbQ4WJ16hpde7k6JEiX4+MVhlLaHUc6Rk0CLnQueRHakXcLPYqOiIyf324JxWmxcvXqVw4cPY8XCVU8yJz1x5LEGcdAdi8vwUsUZQV6bGbs+W/BvXs2E64rI3XY49jDrzqzzjXtW7GliGskKAuwBPFnsScrlLEfZnGXNjiMi6SwuNY6BWway/cJ231zBkIJMqTeFAiEFzAsmIiIiIiIiIiJZnsUwDMPsECIiIpK+XF4Xz3/9PLsv7wYgyBHEgscWUChHIZOTiYhIVmSkublSujfGreR0u+b7SYe41rkGLVu2pMPDTSjvyMmVMhHs3r2bPHny4HA4cDqdpKamUrduXbZu3crZmDPkyRtF/fr1uXTpEt9s2ERPvzLMsJ9i3Lhx5MuXjzFjxpCcnIz/gfPkt2VjhfMyjz76KCkpKWzevJnu7sKUsYfTx7mPXLlyYTt6iQuWZErUqMS3335Lw4YNCQwMZN26dQz2lOTZwBLp9nsC4KhVnPDPB6XrNUUkfXRf352t57cC0CBfAybWm2hyIskqvIYXq0UPPhTJSk7cOEHvTb05e+usb65uVF3GPDSGYGewiclERERERERERERAn1iLiIhkQQ6rgwl1J5AnKA8Aia5EXt74MnGpcSYnExGRrMjitBPYsR44zXkoUoQ1kFb+hTl37hwAISEhdOrUiQULFvDFF19Qq1YtoqKi6PhcZ/bs2UO1atUYNGgQO/bsZqrlOJGRkVSoUIFChQrRoUMHmjZtyjdpF4mtU4hjx47x8MMP06JFC/bt28eS3PF8lnKSRx55hLfffhsr4ApysGXLFj777DNatWpFp06d2LNnD6M9B7nsSUq33wdLkB/BPRqn2/VEJP3su7LPV5q2YKFHhR4mJ5KsRKVpkaxlw5kNdFjV4Y7S9AvlXmBy/ckqTYuIiIiIiIiISIZgzk+lRURExHRh/mFMqT+FZ1Y/Q7I7mZ9u/cTALQOZ+vBU7Fa9RRARkfQV2Lk+ie9/ne7XDQoKwlUsF7OCEpjcbzKnTp3i5MmTAERGRlK8eHHqGbn43nqVr776ipYtW2LZcZKD7ut8tmEVL7/8MmPGjOHzzz+nRIkSvN1jINUdkQBMmzaNZ555hnXr1gEwYMAAhg8fzjPPPEMHav4iy+zZs7m25juOuK+z8ftvqd/oEXZtvEwzW8F0+b2wBPjhrFcmXa4lIunHMAym7J3iGzcp1IQioUVMTCQiIvcir+Fl+v7pzNg/wzcXYA9g9IOjaZC/gYnJRERERERERERE7qRWlIiISBZWPKw4ox4YRb/N/QDYfmE7k76fRP+q/U1OJiIiWY3t/jCc1YuRtvUwGOl33ZIlS/Lxxx+TnJzMoUOHeOSRR8jhvf2t8ubNm2lk5KZ7UBnOR53BarWya/M2jufqwPSkH/jqq6+oXbv2Ha9XxZGL54NK831+KwULFqRRo0Y0bNgQgLx581K6dOnfzLJx40b25HicAfHbOH78OHny5OGK98LdW/x/83cS+PwjWKzaFVTkXrPz0k6+u/QdADaLje7lu5ucSERE7jUJaQkM/mYw0WejfXNRwVFMqT+FoqFFTcslIiIiIiIiIiLya1ScFhERyeIaFmjICzdeYOaBmQDMOzyPYmHFaF64ucnJREQkq8k2uDWxu05Aiivdrrl7926a1H+EUvZQ8tqy8VZAMXYGhACQkJBAiNWJFwO73Y7X68VqASsWHFhJ9Hqx23/5bbXbMHA4HLjdbrZs2YLH4/F9LTk5+TezpKSkEBhkx2ax4vF4sFqt6dYht9gsBHaql05XE5H0YhgG7+551zd+vMjj5M2e18REIiJyr4mJi6H3pt6cjjvtm6uZuyZv13mbEL8QE5OJiIiIiIiIiIj8OhWnRUREhO4VunP8xnE2nd0EwBvb36Bg9oKUjShrcjIREclKHBUL4qxVgrTNh8DjTbfrlrfn5POwxr7xzrTLd3y9gC07J45H43Q6KV6xHL0Pb2V72iVmNhjO3r17sWIhKSmJgIAANqadx4qFI0dOc/XqVVJTU/l67VqqOyI54I4lyXBTwp4j3db2hwQ6CerXHGv2QLOTiMg/bPO5zRy4dgAAh9XBi+VfNDmRiIjcS7ae28qgLYO45brlm+tYqiN9KvfBbtWPn0REREREREREJGPSM3hFREQEq8XKmIfGUCRHEQDSvGn02dSHq0lXTU4mIiJZTfYR7cBhMzvGHXJY/WjgzsVrr73GV199RckB7XlnwRzKly/PxIkTGZmtGlu2bKFRo0aMff89igxoh8fjoU+fPixYsIB3Jk6k1ssdmDRzGhMmTOCEO87sJd3B4uck6LkGZscQkX+Y1/Dy7t7/7Dbdtnhb7gu6z8REkpn899MS/qpDhw5x9OhREhMT/4FEIpKRGIbB7IOz6bGhh6807WfzY/SDo+lftb9K0yIiIiIiIiIikqGpOC0iIiIABDmCmFJvCtmd2QG4knyFPpv6kOpJNTmZiIhkJfYiufFvWuWul6dzWQNYuXIlw4cPJ5c14I6vRVgD+PTTT5k1a5bva28EV2Pt5A9p2rQpqamprFq1ipIlSzLAXZzOASUpfDyBcuXKsXTpUnbs2EElRwSJy3ZSunRpjh07htPpZN26dYwcOZLH/QuxZcsWRo4cSQF7dixJabRq1YpQnFixEGENYNKkSaxateoX2f5xQX5kG94Gi7/j7l5HRNLd12e+5viN4wAE2APoUraLyYkkM7HZbv9/eMGCBX/qvHnz5gFw5MgRnnjiCZ555hlGjhzJli1b8HrT72kSInL3JLmSGLhlIJP3TMbAACAyMJJ5jefRrHAzk9OJiIiIiIiIiIj8PothGIbZIURERCTj2HFhBy+tfwmPcXuHsRaFWzDygZFYLBaTk4mISFbhuXiDqw8MhqS0u3cNw8u3rsvc8qZRy5mb7Fan72tuw8u2tIu4MXjQmRs/y+3ymNcw2Jp2gQPuWLJbnDT2y0cuW6DvvBPum8R4buEyvFR3RhJu9eeE+yab0y6QaLiIsgbzgDM3kdYAdrouE+dN4wFnbq54kzjivkFZRzj5bNlIMtxsS7tIoMVOTcd9WO/i/4Nt+SPIuW00FnvG2uVbRP4et9dNy2UtiYmPAaBLmS70qdzH1EySuRiGQWpqKlWqVKF79+507979d885efIkvXv3pmDBgty4cYOePXtSvHhx3n77bVJTU2nYsCG1a9cmMDDwd19LRDKm8wnn6b2xN8duHPPNVcpViQl1J5AzIKeJyURERERERERERP44FadFRETkF+Yfns+478b5xgOrDuSZUs+YmEhERLKaxLmbSBjxKUaSnnxw1/g7CF82GEf5AmYnEZF/2Jcnv2TYtmEABDuCWdN6DSF+ISankszA7XZjt9t94+joaFavXs2YMWOwWq0YhvE/b6rdv38/K1euZPbs2Xz55ZeUK1eOmzdvMmPGDI4ePUqLFi14/PHHdWOuSCa06+Iu+m3ux83Um765tsXbMqjqIBw2Pb1EREREREREREQyD6vZAURERCTj6VCyAy0Kt/CNx+8ez44LO0xMJCIiWU1gx7rYS94PNn3belcEOAns0kClaZF7kMvjYsb+Gb5xx9IdVZqW3/Xz3hp2u51vv/2WH3/8kUuXLvHggw+yZ88epk2bBvCrheezZ89y/fp1AHbu3EmjRo2oV68eAwcOZNeuXeTIkYN//etfVKlShQoVKqg0LZLJGIbBJ0c+4fl1z/tK03arnddqvsbQGkNVmhYRERERERERkUxHO06LiIjIr0rzpNF5bWcOXD0AQHZndhY2WUi+7PlMTiYiIlmF5+w1rtYZCklpZke559jyR5Bz65tYnPbfP1hEMpXFRxczaucoAHL45WB1q9UEO4NNTiUZ3eTJk9m+fTuzZ89m+vTpbNu2DX9/f2rXrk2+fPl49913+fjjj4mMjPzFrtObN29m+PDhZM+encKFCzNp0iQuXrzIkiVLWL9+PZ07d6Zly5Ymrk5E/qpUTyojd4xk2allvrlw/3Am1ptIxVwVTUwmIiIiIiIiIiLy12nrLhEREflVTpuTSXUnkSsgFwDxafH02tiLRFeiyclERCSrsOXNSbbhbSHQaXaUe4u/gxyzXlJpWuQelOJOYdaBWb5xlzJdVJqW32UYBvXq1SMqKoqXX36Zrl278sUXXzBy5Ei2bdvGypUr2bhxI59//jnwn12nz507x40bN6hTpw6FCxdm69atlCpVCoDcuXPz9NNP06ZNGyZPnszevXtNW5+I/DWXEy/TeU3nO0rTZcLLsLjpYpWmRUREREREREQkU1NxWkRERH5TRGAEk+tPxmm9XVg7FXeKwVsH4zW8JicTEZGsIrBjXfzqlwN/PQL8n2AJcJJt+JM4yhcwO4qI3AWLjy3mSvIVACICImhXop3JiSSj+3n36HLlytG7d2/y5ctH586d2b59O8WKFWPBggWMHz+e5cuXM2PGDE6cOOE7d+HChRw9epS0tDQ6d+7MnDlz+OCDDxg2bBgAYWFhREREMGPGDCpWVMlSJDPZd2Uf7Va24+C1g7655oWbM7fxXCKDIk1MJiIiIiIiIiIi8vdZDMMwzA4hIiIiGdvyU8sZ8s0Q3/iFci/Qs2JPExOJiEhWYqS4iG30Bu5Tl8HtMTtO5uXvIKBFNUImdzE7iYjcBYmuRBovbcyN1BsAvFr9VRWn5X/yer1Yrbf31UhKSsLf35+0tDQ++OADVq5cSefOnXniiSd8xz/99NN07dqVunXr+uaSkpKoUKECkyZN4rHHHmP//v306dOHAgUKEBERgdvt5p133knvpYnI37D0+FJG7RyF2+sGwGax0b9KfzqU7ODbcV5ERERERERERCQz047TIiIi8ruaFW5Gx1IdfeOZB2ayNmatiYlERCQrsfg7CF3cD0uwv9lRMi+HDXuxPGR/u+PvHysimdL8w/N9pek8QXloXbS1yYkko/u5ND1o0CBeeeUVatSowbfffkvbtm159tln+fDDD5kwYQIAZ86c4ebNm5QsWdJ3/o0bN0hMTGTcuHH06dOH999/n/Lly/PFF1/g7+/P5cuXeeutt0xZm4j8eS6Pi1HfjuL1Ha/7StM5/HIw85GZPF3qaZWmRURERERERETknmE3O4CIiIhkDn0r9+XEzRNsv7AdgGHbhpE/e35KhJUwOZmIiGQFtvtCCV3Ql+ut34LkNLPjZC4WC9aQIMIW9MXi1McAIveiuNQ45h2a5xu/WP5FHDaHiYkks5g/fz4//PADK1eupGDBguzbt4+6devSunVrAgICSEpKAiB//vzMnz+fkJAQ37mrVq0iOjqa999/n/vuu49OnTpx7tw53njjDaZPn47L5cJu1/93RDKD2ORYXol+hT1X9vjmioUWY3K9yURlizIxmYiIiIiIiIiIyD/PYhiGYXYIERERyRziUuPosKoDZ+LPALd3slvYdCFh/mEmJxMRkawidf0BbnSbpvL0H2UBS0gQ4auGYi8UaXYaEblLJu+ZzOyDswEokL0AX7T4ArtVhVX5fWPHjqVWrVps3bqVAwcOsHjxYi5evMjly5epUKHCHccahuHbcTYpKYnU1FSGDRtG06ZNefTRRzlz5gyPPfYYlSpV4uOPPzZhNSLyVxyKPUSfTX24lHjJN9eoQCNG1BpBoCPQxGQiIiIiIiIiIiJ3h9XsACIiIpJ5hPiFMKXeFIIcQQBcSLxAv+h+uLwuk5OJiEhW4degHDmmPQ/+2kn1d1nAki2A8K8GqzQtcg+LTY7lkyOf+MY9KvRQaVp+17Vr10hKSuL+++9nxIgR7Nq1i8WLFwMwbtw4Jk+e/Itzfi5NT548mcaNG5OYmEi5cuXo378/3333Hfnz52fv3r28+OKL6boWEfnrVp5eScfVHX2laQsWelfqzdu131ZpWkRERERERERE7lkqTouIiMifUihHIcY9NA4Lt39ovvvybsbtGmdyKhERyUr8G1cix6yXIMBpdpSMy2rBkiOI8JVDsRfLY3YaEbmLZh+cTbI7GYBiocVoWKChyYkko/N6vfTr148JEybw1FNP4XA4yJs3L5s2beKtt95i27ZtTJkyBbi9y/T/53A4OHjwIK+99hoFCxYkZ86cjBo1iuPHj+N0OnnggQfSe0ki8id5vB4m7J7Av7b+i1RPKgDZHNl47+H36Fq2q+9GCRERERERERERkXuRitMiIiLyp9XJW4delXr5xouPLWbJ8SUmJhIRkazGv2EFQj/oCYFOUK/jTg4b1vBshK8air1obrPTiMhddCnxEp8e+9Q37lmhJ1aLPu6TX/J4PL5fW61WhgwZwpo1a9i/fz8LFiwAYPny5Zw+fZpFixaRLVs2PB7PHeXJw4cPs2rVKrp3786YMWOIjY3F7XZTq1Ytli9fzsmTJ9N9XSLy58WlxtF9Q3fmHprrmysYUpAFTRZQO6q2ecFERERERERERETSicX4tW1DRERERH6HYRgM3DKQNTFrALBb7MxuNJvKkZVNTiYiIlmJ68g5bjw5Hu/NRHB5fv+Ee12AE0eJ+wn9pC/WsGCz04jIXfbGjjf47PhnAJTNWZZPHvtEu4TK/5SQkIDFYiEoKIipU6cSHx/P4MGDfV/3eDzYbDa8Xi9W639K+C6Xi/fff59Dhw5x/vx5XnvtNTZu3EjNmjWpVasWq1at4rHHHjNjSSLyJ5y4cYLem3pz9tZZ31zdqLqMeWgMwU69dxQRERERERERkaxBxWkRERH5y5LdyXRc3ZEj148AEOYfxqImi8gdrN0tRUQk/Xhjb3Hj6Um4jp6H5DSz45gnwElAy+pkH/cMFofd7DQicpedjT9L8y+b4zbcAMx6ZBY189Q0OZVkND/88APLli3j1Vdf5fPPP+e9996jRo0a1K1bl6JFi9K8eXNee+01nnjiCeD2DbL/Xb7/uUgNt8vTNpuNd955h6+++gq3201aWhq7d+82ZW0i8udsOLOBwd8MJtmd7Jt7odwLdK/QXU8rEBERERERERGRLEXFaREREflbLiZcpN3KdlxPuQ5AybCSzGs8jwB7gMnJREQkKzFcbuIHfUzyFzuzXnnaAvg5yPZ6O4I61TM7jYikkyFbh7D89HIAqkRW4YNGH2i3afmFq1evcuvWLeLi4ihTpgzHjh3jwIEDjB49mk6dOrF161bi4+P5/PPPCQ0N9Z03evRoHnjgAerUqYNhGHi9Xl+BGuDQoUN88803zJ07l+XLl5MzZ04zlicif4DX8DJ9/3Rm7J/hmwuwBzD6wdE0yN/AxGQiIiIiIiIiIiLm0DYCIiIi8rfkDs7NxLoTsVtv72x55PoRhm8bju7NEhGR9GRx2Al5pzM5ZryAJSQQnFlkx+UAJ7YCkYSvfFWlaZEs5NTNU6w4vcI37lWpl0rT8qsiIiK4//77+eCDD6hduzaBgYG0b9+eTZs2kTNnTooUKULu3LnvKE0DhIaG0rhxYz777DMsFgs2mw2Px+P7Pq906dK88MILbN68WaVpkQwsIS2B3pt631GajgqOYv5j81WaFhERERERERGRLEs7TouIiMg/YsnxJYzYMcI37l2pN13LdjUxkYiIZFXeGwnE9Z9H6saD9+7u0//eZTropUcJfqUZFkcWKYqLCACvRL/CujPrAHjw/geZ3mC6yYkko9myZQuVK1cmNTWVGTNm0KtXL6ZMmcKnn37K22+/zSOPPPKLc7xeLwBW6+29NsaNG8frr7/OqFGj6NevHwAej+eOnadFJOOKiYuh96benI477ZurkbsG4+uMJ8QvxMRkIiIiIiIiIiIi5tKO0yIiIvKPaFOsDW2Lt/WNp+yZQvTZaNPyiIhI1mUNDSZ0To/bu0/nCIIAp9mR/lGWQD9she8jfOWrZBvUUqVpkSzmcOxhX2kaoGfFniamkYzI6/Vy69YtKlWqRLVq1ahWrRrBwcEMGTKEvn37MmjQIGbMmPGL86xWq680PXLkSM6fP8/LL7/M+PHj6dSpEwA2mw23252eyxGRv2Drua20X9n+jtJ0x1Idmd5gukrTIiIiIiIiIiKS5WnHaREREfnHuLwunv/6eXZf3g1AkCOIBY8toFCOQiYnExGRrMpISiVx1joSp6zE8Hgh1WV2pL/MEuiHJdifbCPa4d+8Khar7oUWyYq6r+/O1vNbAWiQrwET6000OZFkVLVr1+bUqVNMmTKF1q1b++bXrl3L2LFj+fzzzwkNDf3FeWfPnqVJkyYsX76c/Pnz43K5qFq1KgUKFODLL79MxxWIyJ9lGAZzfpjDlD1TMLj9ox8/mx+v1XyNZoWbmZxOREREREREREQkY9BPWUVEROQf47A6mFB3AnmC8gCQ6Erk5Y0vE5caZ3IyERHJqiyBfgT3aUrEnvEEdqoH/g5wZrIdmgOdWLIHEDzsCSJ2v03A49VVmhbJovZd2ecrTVuw0KNCD5MTSUbi9XrvGM+aNYslS5YwduxYhg0bBsDly5fx8/Nj1apVhIaG8mt7atx3332UKVOGtLQ0ABwOB2PGjOHrr7+mT58+d30dIvLXJLmSGLhlIJP3TPaVpiMDI5nXeJ5K0yIiIiIiIiIiIv9FP2kVERGRf1SYfxhT6k8hwB4AwE+3fmLgloG4vXqcs4iImMeaI4jsb7Qj4tuxBD3fEEu2ACxBfmbH+m0WsAT5Yb0/jGxDniBi7zsEdX4YS2YrfYvIP8YwDKbsneIbNynUhCKhRUxMJBmJYRhY/31Tzfz585k+fTo3b96kVq1azJkzh+joaFq1akWLFi24efMmAQG3v1+zWCx4PB4AUlJSSE1NxWazUaFCBZo0acLZs2cB+PHHH3nrrbeYOFE7nItkROcTzvPs6mdZE7PGN1cpVyUWNV1E6fDSJiYTERERERERERHJeCzGr20rIiIiIvI3fR3zNf029/ONO5bqSP+q/U1MJCIi8h9GmpuUVXtIfG8V7pMXwWtAWga4ySfACV4vzodKEdy9MY6axbBYLGanEpEM4NuL39Lt624A2Cw2vnr8K/Jlz2dyKslopk6dymeffUbbtm3p06cPkyZN4sUXXyQxMZF33nmHvHnz0qlTJ9/xXq8Xq9VKamoqTZo0oVq1akRHRxMdHc3o0aNZsmQJ1apV45tvvuGbb74hMjLSvMWJyK/adXEX/Tb342bqTd9c2+JtGVR1EA6bw7xgIiIiIiIiIiIiGZSK0yIiInLXvLf3PWYemOkbv/ngmzQv3NzERCIiIr/kPn6BlFXfk/z5t3hirmKx2zCSUtPt+pZgf4w0N44KBQhoXRO/xpWw5QpJt+uLSMZnGAZPr3qaA9cOANC6aGter/W6uaEkw9m/fz9du3Zl48aNvPvuu2zdupXTp0/z8MMPM23atDuO/bkw/bPWrVvz0EMP8fDDD9OgQQM2bdpEqVKlOHHiBA6HA7vdTlRUVHovSUT+B8MwWHB0AW9/9zYe4/bO8XarnVerv8oTxZ4wOZ2IiIiIiIiIiEjGpWf8ioiIyF3TvUJ3jt84zqazmwB4Y/sbFMxekLIRZU1OJiIi8h/2YnkILpaH4D7N8FyJI3X9flK+3IVrfwxGchoWPwdGciq4vX//Yk77v18vDWt4MI7qxQhoUQ1n3dJYg/z//uuLyD1p87nNvtK0w+rgxfIvmpxIMgq3243dfvsj3vLlyzN//nx27drFmjVr2LJlC9HR0dSvX5+yZcvy0ksv+c77+WkGhmGQlpZGmTJleOGFF2jcuDFjxoyhVKlSbNy4kTx58lC0aFFT1iYivy3Vk8rIHSNZdmqZby7cP5yJ9SZSMVdFE5OJiIiIiIiIiIhkfCpOi4iIyF1jtVgZ89AYnl71NCdvniTNm0afTX1Y1HQREYERZscTERH5BVuuEALb1yawfW0APFfjcO8/Q9q+H3HtPI7n3HW8129h3Eq+XYJ22ODf5bM7eA2MNDd4vFhCArFGZMdeIBfOmsVxlCuAvWw+rNkC0nl1IpIZeQ0v7+591zduW7wt9wXdZ2IiySi8Xi92u53r168zefJk3njjDYoXL87x48d9u0NfuHCBvn370rlzZ995qampxMXFkStXLnbt2kXRokXZtWsXRYoUYcSIETz33HMAjBw5kkGDBlGiRAlT1iciv+5y4mX6Rvfl4LWDvrky4WWYVG8SkUGRJiYTERERERERERHJHCyGYRhmhxAREZF729n4s7Rb2Y74tHgAyuUsxwePfoCfzc/kZCIiIn+N4fHijb2F9/JNjOQ0cHsxvF4sNivYbViC/bHdlwNLjiDfrp4iIn/Fmpg1DNg8AIAAewCrWq0iZ0BOk1OJ2TweDzabDYD33nuPXr160bp1a5YsWUJsbCz9+/cnISGBPXv2sHHjRvLnz+87Z8uWLRw6dIiLFy/y5ZdfcuDAAY4ePUrz5s1p0aIF7dq1Y+TIkeTPn5/JkyebvFIR+W/7ruyjb3RfriVf8801L9yc4TWH6zMWERERERERERGRP0jFaREREUkXOy7s4KX1L+ExPAC0KNyCkQ+MVJlMREREROQ3uL1uWi5rSUx8DABdynShT+U+pmaSjKVFixZUqFCBypUrM3XqVC5dusS2bdtISUnh+PHjZMuWjbJly+L1erFarcDtHaefe+45vvzyS8aPH89LL70EwMWLF+nevTtFixbFarUyduxYM5cmIv/P0uNLGbVzFG6vGwCbxUb/Kv3pULKDPlsRERERERERERH5E1ScFhERkXQz//B8xn03zjceWHUgz5R6xsREIiIiIiIZ15cnv2TYtmEABDuCWdN6DSF+ISankozi/PnzdOrUieXLl+Pv7w9Aq1at+OGHH1i2bBklS5YEwDAMLBbLHeXp6Oholi1bhsvlok6dOtSpU4dcuXJx48YNQkNDTVuTiPySy+Ni3HfjWHxssW8uh18OxtcZT/Xc1U1MJiIiIiIiIiIikjlZzQ4gIiIiWUeHkh1oUbiFbzx+93h2XNhhYiIRERERkYzJ5XExY/8M37hj6Y4qTcsdwsLCcDgcbNmyxTf3r3/9i/vvv5+2bdty4sQJACwWCx6PB6vVisvl4uDBgxQoUICJEydSq1YtvvzyS9avX8/IkSPp1q0baWlpZi1JRP6f2ORYun7d9Y7SdLHQYixsslClaRERERERERERkb/IbnYAERERyTosFgvDaw7nx/gfOXD1AF7DS//N/VnYZCH5suczO56IiIiISIbx+YnPOZ9wHri9s+jTJZ82OZGY7ecdo48ePYphGGTLlo1+/frRunVrpk6dSsOGDZk0aRLPPPMMJ0+eJC4uzneezWYDoG3btmTLlg2v10v58uXp2bMnuXPnZsWKFfzwww+MGDECp9Np5jJF5N8OxR6iz6Y+XEq85JtrVKARI2qNINARaGIyERERERERERGRzE07TouIiEi6ctqcTKo7iVwBuQCIT4un18ZeJLoSTU4mIiIiIpIxpLhTmHVglm/cpUwXgp3BJiYSsxmGgdVqZd++fbRp04ZVq1ZRpkwZSpYsyWeffcb06dPp168ffn5+PPfcc2zZsoWLFy/6ytYAAwYMoHDhwkycOJGdO3eyZ88eBg4cSJkyZZgwYQJLly6lenXtYCuSEaw4vYKOqzv6StMWLPSu1Ju3a7+t0rSIiIiIiIiIiMjfZDEMwzA7hIiIiGQ9P1z7gY6rO5Lmvf0Y6Hp56zGp3iSsFt3XJSIiIiJZ27xD8xi/ezwAEQERrGq1Cn+7v8mpxGyJiYk8+uijvPXWW8TFxTF06FDWr19Pjhw5cLlcOBwO0tLSeO6554iIiGDQoEF89dVXtGjRgvDwcD7++GPatWtHp06dKFWqFM2aNaNjx44ULlyYadOmkSdPHrOXKJLlub1uJn0/iXmH5/nmsjmyMbb2WGpH1TYxmYiIiIiIiIiIyL1DzSQRERExRZmcZXi91uu+8aazm5i2b5p5gUREREREMoBEVyJzDs7xjZ8v97xK01mY1+v1/TooKIjmzZtjGAZDhw5l5syZ5MiRgw8//JBt27YBcO3aNR577DEmTpzIt99+y65du1i4cCFXrlyhc+fOJCUlYbfbee2116hUqRKlSpWia9euKk2LZABxqXF0X9/9jtJ0wZCCLGiyQKVpERERERERERGRf5B2nBYRERFTjf9u/B0/FBxfZzyNCjQyMZGIiIiIiHlm7p/Je/veAyBPUB5WtFyBw+YwOZWYwTAMLBYLAOvXr6dQoUI899xzfP/996xdu5ZatWpx7NgxWrVqxaJFiyhbtuwvXmPVqlWsW7eO0NBQWrRoQenSpalUqRJVqlTBMAwSEhJYsmRJei9NRP6fEzdO0HtTb87eOuubqxtVlzEPjSHYGWxiMhERERERERERkXuPitMiIiJiKo/XQ/cN3dl+YTsAAfYAPmr8ESXCSpicTEREREQkfcWlxtF4aWNuuW4BMKLWCFoWbWlyKjHDf5em+/fvz4oVK6hTpw6FCxfm/fffp0SJEjRs2JAPPviAV155hWeeeQav14vVasXj8WCz2XyvdfjwYT788ENsNhudOnUiKiqKN998k4CAAIYPH27WEkXk3zac2cDgbwaT7E72zb1Q7gW6V+iO1aKHhoqIiIiIiIiIiPzTVJwWERER08WlxtFhVQfOxJ8Bbu+st7DpQsL8w0xOJiIiIiKSfibvmczsg7MBKJC9AF+0+AK71W5yKjHTF198waZNm5gyZQpr1qxh//79JCUlcejQIZ599lksFgvNmjXzHf9zaTo5OZl3330Xq9VK/fr1yZs3L1OnTuXWrVs89thjPPzwwyauSkQAvIaX6funM2P/DN9cgD2A0Q+OpkH+BiYmExERERERERERubdpuwIRERExXYhfCFPqTSHIEQTAhcQL9Ivuh8vrMjmZiIiIiEj6uJZ8jU+OfOIb96jQQ6XpLC42NpZhw4Zx5MgRAB599FHq1q1LYGAgkZGRlCpVylea/nlvjJ93mm7fvj1ut5srV67Qpk0bIiIi6NatG2FhYSxbtoy4uDhzFiUiACSkJdB7U+87StNRwVHMf2y+StMiIiIiIiIiIiJ3mYrTIiIikiEUylGIcQ+Nw8Ltx1HvvrybcbvGmZxKRERERCR9zDk4h2R3MgDFQovRsEBDkxOJ2cLDw5k7dy4XL16kR48eAFSvXp0mTZpQv359ihQp8qvnrVmzhsKFCzNgwAB2797NqFGjAHA6nfTv35/+/fsTEhKSbusQkTvFxMXQYVUHos9G++Zq5K7BoqaLKBZazLRcIiIiIiIiIiIiWYWK0yIiIpJh1Mlbh16VevnGi48tZsnxJSYmEhERERG5+y4lXuLTY5/6xj0r9MRq0cd2AlWqVGHNmjVcuHCBNm3akJSURJkyZWjdujXwn52mLZbbN6Bu2rQJp9OJ1WqlTZs2NG3alKeeeor4+Hj+9a9/ERsbS758+Uxbj0hWt/XcVtqvbM/puNO+uY6lOjK9wXRC/HRDg4iIiIiIiIiISHrQT2BEREQkQ+lSpguPFnjUNx797Wi+v/y9iYlERERERO6umQdmkuZNA6BszrLUzVvX3ECSoURFRfHRRx/h7+/PE088gcfjuaMw/fOvv/jiC9555x1Kly7N7t272bNnD6+88gqGYdCxY0dCQ0PJkyePmUsRybIMw2D2wdn02NCDW65bAPjZ/Bj94Gj6V+2P3Wo3OaGIiIiIiIiIiEjWYTF+/mRdREREJINIdifTcXVHjlw/AkCYfxiLmiwid3Buk5OJiIiIiPyzzsafpfmXzXEbbgBmPTKLmnlqmpxKMiKPx8PFixeJioryzRmGgcVi4ccff+TNN9+kXr16dOjQgYSEBNq3b8+VK1eIiooiW7ZsfPjhhyamF8m6klxJvLb9NdbErPHNRQZGMrn+ZEqHlzYxmYiIiIiIiIiISNak4rSIiIhkSBcTLtJuZTuup1wHoGRYSeY1nkeAPcDkZCIiIiIi/5whW4ew/PRyAKpEVuGDRh9gsVhMTiWZgcfjwWazcf78ecaPH8/evXspVqwYr776Kvnz5wfg22+/JSoq6o6ytYikn/MJ5+m9sTfHbhzzzVXKVYkJdSeQMyCniclERERERERERESyLqvZAURERER+Te7g3EysO9H3uNoj148wfNtwdM+XiIiIiNwrTt08xYrTK3zjXpV6qTQtf4jX68Vms5GamkrXrl1p1aoVr776KklJSSxfvpwTJ04AUKNGDZWmRUyy6+Iu2q1od0dpum3xtsxuOFulaRERERERERERERPZzQ4gIiIi8lsqRVZiSPUhjNgxAoA1MWsoHlacrmW7mpxMREREROTvm7pvKga3bwx88P4HqZirosmJJLOwWm/vh/H+++8THh7OQw89BIDNZmP+/PlcvXqVNm3aUKZMGTNjimRJhmGw4OgC3v7ubTyGBwC71c6r1V/liWJPmJxOREREREREREREtOO0iIiIZGhtirWhbfG2vvGUPVOIPhttWh4RERERkX/C4djDrDuzzjfuWbGniWkkMzp+/Dhr167l1KlTbNmyBa/XS/369enTpw8xMTE4HA6zI4pkOameVIZtG8bYXWN9pelw/3A+aPSBStMiIiIiIiIiIiIZhMXQ8+5FREQkg3N5XTz/9fPsvrwbgCBHEAseW0ChHIVMTiYiIiIi8td0X9+dree3AtAgXwMm1ptociLJTDweDzabjfj4eIYNG4bT6aRly5ZUqVIFp9NJUlISgYGBZscUyVIuJ16mb3RfDl476JsrE16GSfUmERkUaWIyERERERERERER+W/acVpEREQyPIfVwYS6E8gTlAeARFciL298mbjUOJOTiYiIiIj8efuu7POVpi1Y6FGhh8mJJDP4ef+LTz75hHbt2tG6dWs+/PBDJk+eTHBwMB9//DFr164lLS2NgIAAk9OKZC37ruyj3cp2d5SmmxduztzGc1WaFhERERERERERyWBUnBYREZFMIcw/jCn1pxBgv10A+OnWTwzcMhC3121yMhERERGRP84wDKbsneIbNynUhCKhRUxMJJmFxWJhx44djBs3jhdffJEBAwbw/vvv89JLL/Haa68RHh7OuXPncDqdWCwWs+OKZBlLjy+l89rOXEu+BoDNYmNQ1UGMemAUfjY/k9OJiIiIiIiIiIjI/2cxft6qRERERCQT+Drma/pt7ucbdyzVkf5V+5uYSERERETkj/v24rd0+7obcLtc99XjX5Evez6TU0lm8emnn7J7927eeust4HYRv2HDhowePZqqVauanE4ka3F5XIz7bhyLjy32zeXwy8H4OuOpnru6iclERERERERERETkf9GO0yIiIpKpNCzQkBfKveAbzzs8j69OfWViIhERERGRP8YwDN7d865v/HiRx1Walv/J4/EA4HK5MAyD++67j23btpGQkADc3oW6ZMmSnDhxwsyYIllObHIsXb/uekdpulhoMRY2WajStIiIiIiIiIiISAan4rSIiIhkOt0rdKde3nq+8Rvb3+Dg1YMmJhIRERER+X2bz23mwLUDADisDl4s/6LJiSQj83q92Gw2ADp16sRnn31G7dq1qVy5MmXLlmX58uUsWLCAzZs3U6lSJZPTimQdh2IP0W5lO/Zc2eOba1SgER83/piobFEmJhMREREREREREZE/wmIYhmF2CBEREZE/K9GVyNOrnubkzZMA5ArIxaKmi4gIjDA5mYiIiIjIL3kNL22Wt+H4jeMAPF3yaQZVG2RyKskMOnfujNVqZc6cOb65GTNmsHPnTmw2G08++SQNGzY0MaFI1rHi9Ape3/46qZ5UACxY6FWpF13KdMFisZicTkRERERERERERP4IFadFREQk0zobf5Z2K9sRnxYPQLmc5fjg0Q/ws/mZnExERERE5E5rYtYwYPMAAALsAaxqtYqcATlNTiUZjWEYd5Qv4+LieOGFF5g3bx5+fn4kJiYSFBRkYkKRrMntdTPp+0nMOzzPN5fNkY2xtcdSO6q2iclERERERERERETkz7KaHUBERETkr8qbPS/j64zHZrn9+OoD1w4wcsdIdF+YiIiIiGQkbq+bqXun+sbtS7RXaVp+wTAMZh6YSaIrEa/XC0D27NlJSUlh3LhxpKWlERQUhGEYdO/encOHD+t7H5F0EJcaR/f13e8oTRcMKciCJgtUmhYREREREREREcmEVJwWERGRTK1mnpr0r9LfN152ahnzj8w3MZGIiIiIyJ1WnF5BTHwMAMGOYDqX6WxuIMmQPjr8EVP3TaX9yvZcT72O1/BisVgYMGAAiYmJTJw4kR9//JEXX3yR1NRUSpUqdcfu1CLyzztx4wTtVrRjx8Udvrm6UXVZ8NgCCoQUMC+YiIiIiIiIiIiI/GUqTouIiEim16FkB1oUbuEbj989nh0XdvyPM0RERERE0ofL42LG/hm+ccfSHQnxCzExkWREuy7u4p3v3wHgdNxpPj78MVbL7Y9ua9WqRcOGDTl//jy9e/fG6/UyZ84cM+OKZAkbzmygw6oOnEs455t7odwLTK4/mWBnsInJRERERERERERE5O+wGHqeo4iIiNwD0jxpdF7bmQNXDwCQ3ZmdhU0Wki97PpOTiYiIiEhWtvjoYkbtHAVADr8crG61WoU7ucOlxEu0XdGW6ynXASgfUZ4PG32Iw+b4xbFJSUn4+/tjtWo/DJG7xWt4mb5/+h03vQTYAxj94Gga5G9gYjIRERERERERERH5J+gTdhEREbknOG1OJtWdRK6AXADEp8XTa2MvEl2JJicTERERkawqxZ3CrAOzfOMuZbqoNC13SPWk0ndTX19pOtw/nHfqvvOrpWmAwMBAlaZF7qKEtAR6b+p9R2k6KjiK+Y/NV2laRERERERERETkHqFP2UVEROSeEREYweT6k3FanQCcijvF4K2D8Rpek5OJiIiISFa0+NhiriRfASAiIIJ2JdqZnEgymjE7x/BD7A8A2C12JtSdQK7AXCanEsmaYuJi6LCqA9Fno31zNXLXYFHTRRQLLWZaLhEREREREREREflnqTgtIiIi95QyOcvweq3XfeNNZzcxbd808wKJiIiISJaU6EpkzsE5vvHz5Z7H3+5vYiLJaJYeX8rSE0t94/5V+1M5srKJiUSyrq3nttJ+ZXtOx532zXUs1ZHpDaYT4hdiYjIRERERERERERH5p6k4LSIiIvecZoWb0bFUR9945oGZrI1Za2IiEREREclq5h+ez43UGwDkCcpD66KtTU4kGcnBqwd5c+ebvnGTQk1oX6K9iYlEsibDMJh9cDY9NvTglusWAH42P0Y/OJr+Vftjt9pNTigiIiIiIiIiIiL/NBWnRURE5J7Ut3JfauWp5RsP2zaMo9ePmphIRERERLKKuNQ45h2a5xu/WP5FHDaHiYkkI4lNjqVvdF9cXhcAxUKL8VrN17BYLCYnE8laklxJDNwykMl7JmNgABAZGMm8xvNoVriZyelERERERERERETkblFxWkRERO5JNquNt2q/Rf7s+QFIdifTe2NvrqdcNzmZiIiIiNzr5h6a69u5tED2AirgiY/b62bgloFcTroMQDZnNibVnUSAPcDkZCJZy/mE8zy7+lnWxKzxzVXKVYlFTRdROry0iclERERERERERETkblNxWkRERO5ZIX4hTKk3hSBHEAAXEi/QL7qfb2c3EREREZF/2rXka3xy5BPfuHuF7titdhMTSUYyZc8Udl3aBYAFC+MeGkfe7HlNTiWStey6uIt2K9px7MYx31zb4m2Z3XA2OQNymphMRERERERERERE0oOK0yIiInJPK5SjEOMeGoeF24+93n15N+N2jTM5lYiIiIjcq+YcnEOyOxmAYqHFaFSgkcmJJKNYG7OWDw996Bu/VOElHop6yMREIlmLYRh8cuQTnl/3PDdTbwJgt9p5reZrDK0xFIfNYW5AERERERERERERSRcqTouIiMg9r07eOvSq1Ms3XnxsMUuOLzExkYiIiIjciy4lXuLTY5/6xj0r9MRq0cdvAidvnGTYtmG+cZ2oOrxQ7gUTE4lkLameVIZtG8bYXWPxGB4Awv3D+aDRBzxR7AmT04mIiIiIiIiIiEh60k9uREREJEvoUqYLjxZ41Dce/e1ovr/8vYmJREREROReM/PATNK8aQCUzVmWunnrmhtIMoRbabfoG93XtxN5vmz5GP3QaJXqRdLJ5cTLdF7TmWWnlvnmyoSXYXHTxVTMVdHEZCIiIiIiIiIiImIGfTovIiIiWYLFYmHEAyMoGVYSALfh5pXoV7iYcNHkZCIiIiJyLzgbf5YvT3zpG/es2BOLxWJeIMkQvIaXV795lZj4GAAC7AFMqjeJ7M7s5gYTySL2XdlHu5XtOHjtoG+ueeHmzG08l8igSBOTiYiIiIiIiIiIiFlUnBYREZEsI8AewOR6kwnzDwPgesp1em/q7dv5TURERETkr5q+fzpuww1Alcgq1Mxd0+REkhHMPjibTWc3+cYjao2gaGhRExOJZB1Ljy+l89rOXEu+BoDNYmNQ1UGMemAUfjY/k9OJiIiIiIiIiIiIWVScFhERkSwld3BuJtadiN1qB+DI9SMM3zYcwzBMTiYiIiIimdWpm6dYcXqFb9yrUi/tNi1sO7+N9/a+5xs/W+pZHi34qImJRLIGl8fFqG9H8fqO13F7b9/QksMvBzMfmcnTpZ7Wv88iIiIiIiIiIiJZnIrTIiIikuVUiqzEkOpDfOM1MWuY88McExOJiIiISGY2dd9UDG7fiPfg/Q9SMVdFkxOJ2c7dOsfALQN9/11Uva8qfSv3NTmVyL0vNjmWrl93ZfGxxb65YqHFWNhkIdVzVzcxmYiIiIiIiIiIiGQUKk6LiIhIltSmWBvaFm/rG0/ZM4Xos9Gm5RERERGRzOlw7GHWnVnnG/es2NPENJIRJLuT6Rvdl/i0eAByBebi7dpv+556IyJ3x6HYQ7Rb2Y49V/b45hoVaMTHjT8mKluUiclEREREREREREQkI1FxWkRERLKsQdUGUSWyCgAGBv/a+i9O3zxtcioRERERyUze2/ue79cN8jWgdHhpE9OI2QzDYOSOkRy9fhQAh9XBxLoTCQ8INzmZyL1txekVdFzdkUuJlwCwYKF3pd68XfttAh2BJqcTERERERERERGRjETFaREREcmyHFYHE+pOIE9QHgASXYm8vPFl4lLjTE4mIiIiIpnBviv72Hp+K3C7pNejQg+TE4nZFh1bxPLTy33jwdUHUy6inImJRO5tbq+b8d+NZ/DWwaR6UgHI5sjGew+/R9eyXbFYLCYnFBERERERERERkYxGxWkRERHJ0sL8w5hSfwoB9gAAfrr1EwO3DMTtdZucTEREREQyMsMwmLJ3im/cpFATioQWMTGRmG3vlb28test37hlkZY8UfQJExOJ3NviUuPovr478w7P880VDCnIgiYLqB1V28RkIiIiIiIiIiIikpGpOC0iIiJZXvGw4ox6YJRvvP3CdiZ9P8m8QCIiIiKS4e28tJPvLn0HgM1i46XyL5mcSMx0Nekqr0S/gtu4fQNm6fDSvFrjVe12K3KXnLhxgnYr2rHj4g7fXN2ouix4bAEFQgqYF0xEREREREREREQyPBWnRURERICGBRryQrkXfON5h+fx1amvTEwkIiIiIhmVYRi8u+dd3/jxIo+TL3s+ExOJmVweF/029+Na8jUAQv1CmVh3In42P5OTidyb1p9ZT4dVHTiXcM4390K5F5hcfzLBzmATk4mIiIiIiIiIiEhmoOK0iIiIyL91r9Cdennr+cZvbH+Dg1cPmphIRERERDKizec2c+DaAQAcVgcvln/R5ERipvG7x7P3yl4ArBYrb9V5i9zBuU1OJXLv8Rpepu6bSt/oviS7kwEIsAcwse5EelbsidWiH3eIiIiIiIiIiIjI79MniSIiIiL/ZrVYGfPQGIrkKAJAmjeNPpv6cDXpqsnJRERERCSj8Bpe3t37n92m2xZvy31B95mYSMy0/NRyFhxd4Bv3rtSbGrlrmJhI5N6UkJZA7029mbF/hm8uKjiK+Y/Np0H+BiYmExERERERERERkcxGxWkRERGR/xLkCGJKvSlkd2YH4EryFfps6kOqJ9XkZCIiIiKSEXx95muO3zgO3N7ptEvZLiYnErMcvX6UETtG+MaP5H+EzqU7m5hI5N4UExdDh1UdiD4b7ZurkbsGi5ouolhoMdNyiYiIiIiIiIiISOak4rSIiIjI/5M3e17G1xmPzWID4MC1A4zcMRLDMExOJiIiIiJmcnvdTN071TduX6I9OQNymphIzBKXGkefTX1I8aQAUCikECMfGInFYjE5mci9Zeu5rbRf2Z7Tcad9cx1LdWR6g+mE+IWYmExEREREREREREQyKxWnRURERH5FzTw16V+lv2+87NQy5h+Zb2IiERERETHbitMriImPASDYEUznMtpdOCvyeD0M2jKI8wnngdtPrZlUbxJBjiCTk4ncOwzDYPbB2fTY0INbrlsA+Nn8GP3gaPpX7Y/dajc5oYiIiIiIiIiIiGRWKk6LiIiI/IYOJTvQonAL33j87vHsuLDDxEQiIiIiYhaXx8WM/TN8446lO2q30yxq2v5pbLuwzTd+84E3KRhS0MREIveWJFcSA7cMZPKeyRjcfvJTZGAk8xrPo1nhZianExERERERERERkcxOxWkRERGR32CxWBheczjlIsoB4DW89N/cn5/ifzI5mYiIiIiktw1nNvh2GM7hl4OnSz5tciIxw6afNjHrwCzfuFvZbjyc/2ETE4ncW84nnOfZ1c+yJmaNb65SrkosarqI0uGlTUwmIiIiIiIiIiIi9woVp0VERET+B6fNyaS6k8gVkAuA+LR4em3sRaIr0eRkIiIiIpJeDMOgXr56jKg1gjD/MLqU6UKwM9jsWJLOYuJiGPLNEN+4Vp5a9KjQw8REIveWXRd30W5FO47dOOaba1u8LbMbziZnQE4Tk4mIiIiIiIiIiMi9xGIYhmF2CBEREZGM7odrP9BxdUfSvGkA1Mtbj0n1JmG16D40ERERkawi1Z2KFy92ix2HzWF2HElHSa4k2q9sz6m4UwDkCcrD4qaLyeGfw9xgIvcAwzBYcHQBb3/3Nh7DA4DdaufV6q/yRLEnTE4nIiIiIiIiIiIi9xo1fURERET+gDI5y/B6rdd9401nNzFt3zTzAomIiIhIuvOz+xFgD1BpOosxDIPh24f7StN+Nj8m1puo0rTIPyDVk8qwbcMYu2usrzQd7h/OB40+UGlaRERERERERERE7goVp0VERET+oGaFm9GxVEffeOaBmayNWWtiIhERERERuds+OvzRHe/7h9UYRqnwUiYmErk3XE68TOc1nVl2aplvrkx4GRY3XUzFXBVNTCYiIiIiIiIiIiL3MhWnRURERP6EvpX7UitPLd942LZhHL1+1MREIiIiIiJyt+y6uIt3vn/HN25bvC0tirQwMZHIvWHflX20W9mOg9cO+uaaF27O3MZziQyKNDGZiIiIiIiIiIiI3OsshmEYZocQERERyUziUuPosKoDZ+LPAJAnKA8Lmy4kzD/M5GQiIiIiIvJPuZR4ibYr2nI95ToA5SPK82GjD3HYHCYnE8nclh5fyqido3B73QDYLDb6V+lPh5IdsFgsJqcTERERERERERGRe52K0yIiIiJ/wembp2m/qj2JrkQAqkRWYVbDWTisKlGIiIiIiGR2qZ5UOq3uxA+xPwAQ7h/Op80+JVdgLpOTiWReLo+Lcd+NY/Gxxb65HH45GF9nPNVzVzcxmYiIiIiIiIiIiGQlVrMDiIiIiGRGhXIUYtxD47Bwezes3Zd3M27XOJNTiYiIiMjdor0HspYxO8f4StN2i50JdSeoNC3yN8Qmx9L16653lKaLhRZjYZOFKk2LiIiIiIiIiIhIulJxWkREROQvqpO3Dr0q9fKNFx9bzJLjS0xMJCIiIiJ3i8Vy+4a5OXPm8Nlnn7F7927i4uJMTiV3w9LjS1l6Yqlv3L9qfypHVjYxkUjmdij2EO1WtmPPlT2+uUYFGvFx44+JyhZlYjIRERERERERERHJiiyGtssRERER+csMw2DgloGsiVkD3N6Nbnaj2SpWiIiIiNxDkpKSCAwMZOzYsSxfvpywsDDy5ctHyZIlqVmzJmXKlMHPz8/smPIPOHj1IB3XdMTldQHQpFATxjw4xlecF5E/Z8XpFby+/XVSPakAWLDQq1IvupTpor9XIiIiIiIiIiIiYgoVp0VERET+pmR3Mh1Xd+TI9SMAhPmHsajJInIH5zY5mYiIiIj8XXv27KF///506tSJFStWsHjxYiwWC59//jmbN28mOTmZxx57jMcff9zsqPI3xSbH0nZFWy4nXQagWGgx5j82nwB7gMnJRDIft9fNpO8nMe/wPN9cNkc2xtYeS+2o2iYmExERERERERERkazOanYAERERkcwuwB7A5HqTCfMPA+B6ynV6b+pNsjvZ5GQiIiIi8t88Hs8d4z+yn0BkZCTt27dn165d7N27l8WLFwPQqlUrXnvtNcqUKUOxYsXuSl5JP26vm4FbBvpK09mc2ZhUd5JK0yJ/QVxqHN3Xd7+jNF0wpCALmixQaVpERERERERERERMpx2nRURERP4hey7vocvXXXB73QA8WuBR3qr9lh4/LCIiIpKBGIZB+/btGTlyJEWKFPlD55w5c4azZ8/y9ddfs3nzZipXrsyLL76owvQ95J3d7/DhoQ8BsGBh6sNTeSjqIZNTiWQ+J26coNfGXpxLOOebqxtVlzEPjSHYGWxiMhEREREREREREZHbtOO0iIiIyD+kUmQlhlQf4huviVnDnB/m/OHzR40axbFjx+5GNBERERHhdmnaYrFw//33M3HiRGJjYwHwer2/ONbtdhMdHQ3AO++8Q0pKCq+99hpvv/02QUFB9O7dm+HDh//quZK5rI1Z6ytNA7xU4SWVpkX+gvVn1tNhVYc7StMvlHuByfUnqzQtIiIiIiIiIiIiGYZ2nBYRERH5h436dhSLj91+hPvzZZ+ne4Xu2Ky23zze4/Gwd+9ewsPDKViwYHrFFBEREckyfi5M/yw5OZn+/ftz//33M2TIkF89Jy4ujmnTpvHee+/h7+/PqVOngNuF6oSEBLZv347L5aJFixbpsga5O07eOEn7Ve1JdicDUCeqDlPqT8Fq0X4TIn+U1/Aybd80Zh6Y6ZsLsAcw+sHRNMjfwMRkIiIiIiIiIiIiIr+k4rSIiIjIP8zldfHC1y/wWKHHeKzgYwQ6An/z2OTkZMqWLcuTTz7J6NGjgdtlHLvdnl5xRURERLKM/fv3ExYWhtVqxel00rJlSzp06MBLL72E1+vFar1dlr116xbZsmUDoF69esTHxxMeHk6vXr1o2rQpycnJTJ06lb59+2Kz/fYNcpKx3Uq7RfuV7YmJjwEgX7Z8LGy6kOzO7OYGE8lEEtISGPzNYKLPRvvmooKjmFx/MsVCi5mWS0REREREREREROS3qDgtIiIichekedLwGB4C7AG/ecy1a9coX748b7zxBl27duW7774jT5483H///XcUd0RERETkr9u2bRslS5YkLCyMcuXKUbt2bfbu3UuFChWIi4sjOjqaJUuWULNmTd85PXv25JlnnqFMmTIkJiaSK1cupk2bxty5c7n//vtJTEzkscceo0+fPuYtTP4Wr+Glz6Y+bDq7Cbi9O+4nj31C0dCiJicTyTxi4mLovak3p+NO++Zq5K7B+DrjCfELMTGZiIiIiIiIiIiIyG9TcVpERETEBEePHqV+/frMmTOHxo0bs27dOrp3706pUqWYNWsWkZGReDwe7WAoIiIi8je4XC769u3L6dOn6dGjB02aNAEgJSWFL774gly5crFp0yaWL1/O4sWLKVGixB3nly9fnkqVKjF69Ghy587NjRs3eP/990lISGDEiBFmLEn+IbMOzOLdve/6xm/VfovGBRubmEgkc9l6biuDtgziluuWb65jqY70qdwHu1VPUBIREREREREREZGMS8VpERERkXSWnJxM8eLF+fzzz6lSpQpLly5l9uzZFCxYkOrVq/PBBx+wevVqAgMDzY4qIiIikqkZhsG5c+f49ttvWbJkCU6nk2eeeYZGjRrdcdywYcMICQmhf//+uFwuHA4HFy5cICgoiMGDB/P111/z3HPPMXDgQOx2FQIzu23nt/HS+pcwuP2x6LOlnmVA1QEmpxLJHAzDYM4Pc5iyZ4rv75CfzY/Xar5Gs8LNTE4nIiIiIiIiIiIi8vv0/HcRERGRdBYQEMCpU6eoUqUKM2bMYN68ebRv355p06bRsWNHrFYrS5YsMTumiIiISKZnsVjImzcvrVu3ZuLEidSsWZOZM2fSvXt39u3b5zsuPj6ekiVLAuBwOLh16xa9e/dm586dTJs2jQULFhAdHU2hQoVYu3atSauRf8K5W+cYuGWgr/BZ9b6q9K3c1+RUIplDkiuJgVsGMnnPZN/focjASOY1nqfStIiIiIiIiIiIiGQa2nFaRERE5C4yDAOLxfKrXzt27Bgvvvgiffv2pXnz5gDMmjWLxYsX8+GHH5IvX74/9DoiIiIi8ksejwebzcZPP/3E0aNHKViwIDlz5uTMmTOsXLmSFStWMGnSJKpXr87Vq1eJiIi44/xly5bx9ddf06lTJ6pWrQrAggULqFixoq9kLZlLsjuZZ1c/y9HrRwHIFZiLT5t+SnhAuMnJRDK+8wnn6b2xN8duHPPNVcpViQl1J5AzIKeJyURERERERERERET+HBWnRURERO6i+Ph4smfPjtfrxWr95cM+Ll68SO7cuTEMg3fffZcTJ05Qu3Zt2rRpw7lz5wgNDSUoKAhQeVpERETkj/r5fdP169d59NFHqVWrFu+99x67d++mQoUKpKWlceDAAapUqeI75+f3awcPHmTfvn089dRTTJgwgZkzZzJ48GC6dOnyq+/nJHMwDINXv3mV5aeXA+CwOpj76FzKRZQzOZlIxrfr4i76be7HzdSbvrm2xdsyqOogHDaHecFERERERERERERE/gL9tEdERETkLvnxxx958skniYmJwWq14vF4fnFMZGQkqampDBkyhCNHjlC/fn3Kli3L6NGjqVevHs888wxjx44FUGlaRERE5A/6+X3T2LFj6dSpE/3796datWpUqFCB06dPs3//fl9p+uc9BX4uRS9ZsoRu3brRu3dvKleuTM2aNXnjjTeYN28e2n8g81p0bJGvNA0wuPpglaZFfodhGHxy5BOeX/e8rzRtt9p5reZrDK0xVKVpERERERERERERyZTsZgcQERERuZcYhsFPP/3EyZMnKVKkCC+++CKPP/4433zzDcHBwb843mq14ufnR+nSpQkJCaFZs2YMGDCAs2fPsmLFCrJnz07z5s2JjIykc+fOJqxIREREJHPyeDw4nU7KlSvHc889x4ABAwBYuHAhR48e5eOPPwZul6z/+8kePXv2JC4uju3bt/vOPX78OElJSbqRLZPae2Uvb+16yzduWaQlTxR9wsREIhlfqieVkTtGsuzUMt9cuH84E+tNpGKuiiYmExEREREREREREfl7VJwWERER+Qft3LmTESNG4Ofnx08//cQ333zDd999x+bNm2nSpMlvnvf000/j9XpZu3Yta9euZfv27b6i9dSpU7lw4YKv0PPfxR4RERER+XU2m426desydOhQQkNDadmyJbGxsXz66ae+0rTX68VqtfreY82YMYPw8HDGjRvHhg0bOHHiBA8//DDfffedyauRv+pq0lVeiX4Ft+EGoHR4aV6t8areT4v8D5cTL9M3ui8Hrx30zZUJL8OkepOIDIo0MZmIiIiIiIiIiIjI36fitIiIiMg/6NNPP6V06dK8/fbbbNq0iWLFiuFwOGjTps0dx/1a+dlqtZKamsrDDz9McHAwLpcLm81GtWrVuHnzJp988gn169cnT548vpKPiIiIiPzS7t27+fTTT3nrrbc4c+YMkyZNokuXLly+fJkWLVpQrly5X7yfOnXqFElJSRw9epQhQ4bw4IMPsmfPHnbu3MnChQv1/isTcnlc9Nvcj2vJ1wAI9QtlYt2J+Nn8TE4mknHtu7KPvtF9fX9vAJoXbs7wmsP1d0dERERERERERETuCSpOi4iIiPyDihUrxqJFi0hISODChQtERUXRq1cvKlSoQGJiIjabDX9//9/cObp69eqMHDmSOXPm0KVLFwDOnj3LihUrmDBhAl999RWTJ08md+7c2nlaRERE5DdERESwY8cOevXqxZQpU6hfvz5Hjx6lUqVKhIeH33Hsz4XoIkWK0Lt3b+x2O/369WPlypVERkZy8uRJAJWmM6Hxu8ez98peAKwWK2/VeYvcwblNTiWScS09vpRRO0fh9t7eod1msdG/Sn86lOyg7z1FRERERERERETknmExDMMwO4SIiIjIveTdd99l1qxZXLhwgZkzZ1KoUCEOHTrE6NGjqVKlCiVKlODVV1/9zfP379/P6NGjmTt3Lj/99BOrVq1i7969lClThrCwMObNm8fGjRtxOBwqT4uIiIj82/9/X5SSksLAgQN56KGH7nj6x6+9f/r5SR9Wq/WOnaU9Hg+GYWC3a++BzGb5qeUM+WaIb9y3cl+eK/OciYlEMi6Xx8W478ax+Nhi31wOvxyMrzOe6rmrm5hMRERERERERERE5J+nn/qIiIiI/EN+Ltm8/PLLBAcHExoayuOPP857773HkSNHGDFiBHXr1qVFixZERkbStWvXO877Wfny5Zk/fz4xMTEsXLiQq1ev0rFjRx5++GEAcubM6TveYrHg8Xiw2Wzpv2ARERGRDMRiseB2uzl16hS3bt2iSpUqPPnkk3Tr1o3Lly/TvXt3rFarrzT95ptvsnfvXhYsWIDT6QTA7XZjt9t95Wq9x8qcjl4/yogdI3zjR/I/QufSnU1MJJJxxSbH8kr0K+y5ssc3Vyy0GJPrTSYqW5SJyURERERERERERETuDj1jVEREROQf8vMOhQCdO3emadOm7Nu3j7Fjx9KxY0fatGlDREQEkyZN4sqVKyQlJbF582Z27tzJ/38IiMPhICkpiXPnztG5c2dfaXro0KF89dVXDB06lBdffBEAm832i/NFREREspLNmzcDsHbtWp577jlmzpxJhQoVOHLkCA899BAjRozg7Nmzd5zTtWtX3G43+fPnZ9q0aQC+naV/fk8nmU9cahx9NvUhxZMCQKGQQox8YKSe0iLyKw7FHqLdynZ3lKYbFWjEx40/VmlaRERERERERERE7lkWQy0bERERkbvm22+/Ze7cucyYMQPDMHC5XDidTuLj4+nQoQNWq5UePXpQq1YtgoODf3F+XFwcISEhuFwuunXrxvHjx/F4PCxfvpyhQ4cSHh7OmDFjTFiZiIiISMZw8uRJlixZQt++fblw4QKFChUCYMeOHWzYsIFcuXKxfft25s6d6zsnLS0Np9PJTz/9xMCBA1m3bh05cuRg/PjxtGzZEsC367RkHh6vhx4be7Dt/DYAghxBLGyykIIhBU1OJpLxrDi9gte3v06qJxUACxZ6VepFlzJd9G+fiIiIiIiIiIiI3NO047SIiIjIXVSsWDFfedpiseB0Orl58yaff/45KSkp7Nu3j9y5cxMcHExSUtIvzg8JCQHg5s2bpKSksHLlSurXr8+oUaPo3bs3DodDOyKKiIhIllakSBEGDx7Mzp07eeCBB3j55Zc5f/48NWvWZOjQoTz//PO+0rTH4wHA6XQC0LRpU1566SWOHz/Om2++yUsvvUS9evU4duyYioOZ0PT9032laYA3H3hTpWmR/8ftdTP+u/EM3jrYV5rO5sjGew+/R9eyXfVvn4iIiIiIiIiIiNzzVJwWERERuUs8Hg9hYWF88sknzJ07lytXrnD+/HlmzpzJ/v376d+/P71792bbtm14PB62bdvG559//quvdenSJW7cuEFoaChjxowhLi6OsmXLkjNnTqxWK2lpacDtnRFFREREsoqfbyA7evQowcHB7NixA6vVyqOPPsqIESN8Remf2Ww236/37dtHeHg4derUISwsjHbt2jFz5kzOnTvHli1b0nUd8vdt+mkTMw/M9I27le3Gw/kfNjGRSMYTlxpH9/XdmXd4nm+uYEhBFjRZQO2o2iYmExEREREREREREUk/Kk6LiIiI3CU2mw2v10vp0qX58ssvyZUrF6tXryY2NpbatWvTqFEjXnnlFcqVK8enn37KI488Qr58+X71tcqWLUtAQABDhw4FYN68eXz55Zf06tWLW7duMWzYMNauXYvFYtEO1CIiIpIlpKam8sEHH7Bx40YGDx5McnIyBQoUYNKkScyZM4cDBw5QtWpVkpOTf/X8ChUqkCdPHkaOHOnbYdXpdPLUU0/RrVu39FyK/E0xcTEM+WaIb1wrTy16VOhhYiKRjOfEjRO0W9GOHRd3+ObqRtVlwWMLKBBSwLxgIiIiIiIiIiIiIunMYmhbQhEREZG7zuv1kpycTNu2bWnRooWvjLN3714+//xzrly5Qu/evSlVqpTveKv1znvcUlJSaNSoEfXq1eP111/n6NGjvnJ2cnIyXbp04f3336dSpUrpvj4RERGR9ObxePjmm2945plnSE1NZfv27RQuXNj39cuXL5OYmEihQoV8760Mw/CVpBMSEoiPj6d169YkJCTQsmVLlixZwtixY2nRooVZy5I/KcmVRPuV7TkVdwqAPEF5WNx0MTn8c5gbTCQDWX9mPUO+GUKy+z83krxQ7gW6V+iO1aK9VURERERERERERCRrUXFaREREJB2NHj2aQ4cO8cknn/DNN9/w1Vdf4XQ66datG1euXGHnzp307NnzN8+/fv06KSkpeDwe/vWvf+Hv78++ffuYMGECSUlJbN26lTFjxqTjikRERETM1aNHDzweDzt37qRGjRpMnTqVy5cvM3LkSKZNm+Y77ufy9KFDh5gzZw6HDh2iatWqjBo1iqVLl5KSkkLRokWpVq2aiauRP8MwDAZsGcDamLUA+Nn8+KjxR5QKL2VyMpGMwWt4mbZvGjMPzPTNBdgDGP3gaBrkb2BiMhERERERERERERHz2M0OICIiIpIV/Ly74ZAhQzh06BALFizg+++/JywsjCeeeIKQkBCeeuopHn/88f/5OmFhYQCsX7+eoKAgJk2aRGxsLG3atCFHjhw0aHDnD79/bedqERERkcz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\n", 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" + "
" ] }, "metadata": {}, @@ -1224,245 +5970,333 @@ } ], "source": [ - "f = plot_path(ind[518])\n", - "f.set_size_inches(40, 30)" + "source =[]\n", + "target =[]\n", + "\n", + "for val in all_parings:\n", + " val = val.split(\" - \")\n", + " source.append(val[0])\n", + " target.append(val[1])\n", + "sankey(source, target, aspect=15, fontsize=7)\n", + "# Get current figure\n", + "fig = plt.gcf()\n", + "\n", + "# Set size in inches\n", + "fig.set_size_inches(6, 6)\n", + "\n", + "# Set the color of the background to white\n", + "fig.set_facecolor(\"w\")\n", + "\n", + "# Save the figure\n", + "#fig.savefig(\"DMDB_relations_sankey.png\", bbox_inches=\"tight\", dpi=500)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "#### Metaedge use" ] }, { "cell_type": "code", - "execution_count": 16, + "execution_count": 30, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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\n", 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" + "
" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], "source": [ - "sns.histplot(basic_stats['longest_path'],binwidth=1)\n", - "plt.title('Distribution of longest path per record')\n", - "plt.xlabel('Length of longest path')\n", - "plt.ylabel('Number of Records');" + "me_counts = pd.Series(all_metaedges).value_counts()\n", + "count_plot_h(me_counts.head(10))\n", + "plt.title('Most common Metaedge in DrugMechDB')\n", + "plt.xlabel('Number of times Metaedge appears');" ] }, { "cell_type": "markdown", "metadata": {}, "source": [ - "#### Metanode parings" + "#### Metaedges per record" ] }, { "cell_type": "code", - "execution_count": 17, + "execution_count": 31, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", + "image/png": 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\n", 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" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], "source": [ - "pair_counts = pd.Series(all_parings).value_counts()\n", - "count_plot_h(pair_counts.head(10))\n", - "plt.title('Most common Metanode Pairings in DrugMechDB')\n", - "plt.xlabel('Number of times metanode pairing appears');" + "#Unique metaedges\n", + "ume_counts = pd.Series(unique_metaedges).value_counts()\n", + "count_plot_h(ume_counts.head(10))\n", + "plt.title('Most common Metaedge in DrugMechDB')\n", + "plt.xlabel('Number of records containing Metaedge');" ] }, + { + "cell_type": "code", + "execution_count": 32, + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "data": { + "text/plain": [ + "870" + ] + }, + "execution_count": 32, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "len(set(unique_metaedges))" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, { "cell_type": "markdown", "metadata": {}, "source": [ - "#### Metaedge use" + "#### Metapaths" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "Only nodes" ] }, { "cell_type": "code", - "execution_count": 18, + "execution_count": 33, + "metadata": {}, + "outputs": [], + "source": [ + "mp_nodes = []\n", + "for id_ in all_metapath_nodes:\n", + " for p in all_metapath_nodes[id_]:\n", + " mp_nodes.append(p)\n", + "freq_mp = dict((x,mp_nodes.count(x)) for x in set(mp_nodes))\n", + "freq_mp_sort = sorted(freq_mp.items(), key=lambda x: x[1],reverse = True) \n", + "\n", + "mp_nodes_df = pd.DataFrame()\n", + "mp_list = []\n", + "mp_count = []\n", + "\n", + "for mp in freq_mp_sort:\n", + " mp_list.append(mp[0])\n", + " mp_count.append(mp[1])\n", + "\n", + "mp_nodes_df[\"meta_path\"] = mp_list\n", + "mp_nodes_df[\"count\"] = mp_count" + ] + }, + { + "cell_type": "code", + "execution_count": 34, "metadata": {}, "outputs": [ { "data": { - "image/png": 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" + "
" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], "source": [ - "me_counts = pd.Series(all_metaedges).value_counts()\n", - "count_plot_h(me_counts.head(10))\n", - "plt.title('Most common Metaedge in DrugMechDB')\n", - "plt.xlabel('Number of times Metaedge appears');" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "#### Metaedges per record" + "\n", + "sns.set(rc={\"figure.dpi\":300})\n", + "sns.set_style(\"ticks\") \n", + "g = sns.barplot(x=\"count\", y=\"meta_path\", data=mp_nodes_df.head(10), orient = \"h\")\n", + "g.set_xlim(0,700)\n", + "\n", + "for container in g.containers:\n", + " g.bar_label(container,size= 10)" ] }, { "cell_type": "code", - "execution_count": 19, - "metadata": {}, + "execution_count": 35, + "metadata": { + "scrolled": true + }, "outputs": [ { "data": { - "image/png": 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\n", "text/plain": [ - "
" + "313" ] }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" + "execution_count": 35, + "metadata": {}, + "output_type": "execute_result" } ], "source": [ - "ume_counts = pd.Series(unique_metaedges).value_counts()\n", - "count_plot_h(ume_counts.head(10))\n", - "plt.title('Most common Metaedge in DrugMechDB')\n", - "plt.xlabel('Number of records containing Metaedge');" + "#Number of metapaths\n", + "len(set(mp_nodes))" ] }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, { "cell_type": "markdown", "metadata": {}, "source": [ - "#### Metapaths" + "With edges" ] }, { "cell_type": "code", - "execution_count": 20, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "Text(0.5, 0, 'Number of records using metapath')" - ] - }, - "execution_count": 20, - "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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- "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, - "output_type": "display_data" - } - ], + "execution_count": 36, + "metadata": { + "scrolled": true + }, + "outputs": [], "source": [ - "mp_counts = pd.Series(basic_stats['metapath']).value_counts()\n", - "count_plot_h(mp_counts.head(20))\n", - "plt.title('Most common metapaths (node types only)')\n", - "plt.xlabel('Number of records using metapath')" + "mp_edges = []\n", + "for id_ in all_metapath_edges:\n", + " for p in all_metapath_edges[id_]:\n", + " mp_edges.append(p)\n", + "freq_mp = dict((x,mp_edges.count(x)) for x in set(mp_edges))\n", + "freq_mp_sort = sorted(freq_mp.items(), key=lambda x: x[1],reverse = True) \n", + "\n", + "\n", + "mp_nodes_edges_df = pd.DataFrame()\n", + "mp_list = []\n", + "mp_count = []\n", + "\n", + "for mp in freq_mp_sort:\n", + " mp_list.append(mp[0])\n", + " mp_count.append(mp[1])\n", + "\n", + "mp_nodes_edges_df[\"meta_path-edges\"] = mp_list\n", + "mp_nodes_edges_df[\"count\"] = mp_count" ] }, { "cell_type": "code", - "execution_count": 21, + "execution_count": 37, "metadata": {}, "outputs": [ { "data": { + "image/png": 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"text/plain": [ - "" + "
" ] }, - "execution_count": 21, "metadata": {}, - "output_type": "execute_result" - }, - { - "data": { - "image/png": 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\n", - "text/plain": [ - "
" - ] - }, - "metadata": { - "needs_background": "light" - }, "output_type": "display_data" } ], "source": [ - "count_plot_h(basic_stats['metapath_with_edges'].value_counts().head(20))" + "sns.set(rc={\"figure.dpi\":300})\n", + "sns.barplot(x=\"count\", y=\"meta_path-edges\", data=mp_nodes_edges_df.head(10), orient = \"h\")\n", + "sns.set_style(\"white\") " ] }, { "cell_type": "code", - "execution_count": 22, + "execution_count": 38, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "Drug - treats - Disease 53\n", - "Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - positively regulates - BiologicalProcess - has output - CellularComponent - occurs in - OrganismTaxon - causes - Disease 53\n", - "Drug - increases activity of - Protein - increases activity of - Protein - decreases activity of - Protein - negatively regulates - Protein - increases abundance of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease 28\n", - "Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - BiologicalProcess - causes - Disease 24\n", - "Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease 20\n", - "Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease 17\n", - "Drug - negatively regulates - Drug - negatively regulates - GeneFamily - positively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease 16\n", - "Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease 15\n", - "Drug - decreases activity of - Drug - decreases activity of - Protein - participates in - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease 15\n", - "Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease 14\n", - "Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease 14\n", - "Drug - decreases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease 14\n", - "Drug - increases activity of - Protein - increases activity of - Protein - decreases activity of - Protein - negatively regulates - Protein - increases abundance of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease 14\n", - "Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease 14\n", - "Drug - increases activity of - Protein - increases abundance of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease 13\n", - "Drug - negatively regulates - GeneFamily - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease 13\n", - "Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease 13\n", - "Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - BiologicalProcess - positively correlated with - Disease 12\n", - "Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease 12\n", - "Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease 12\n", - "Name: metapath_with_edges, dtype: int64" + "1500" ] }, - "execution_count": 22, + "execution_count": 38, "metadata": {}, "output_type": "execute_result" } ], "source": [ - "basic_stats['metapath_with_edges'].value_counts().head(20)" + "#number of meta_paths (with edges)\n", + "len(set(mp_edges))" ] }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, { "cell_type": "markdown", "metadata": {}, @@ -1472,7 +6306,7 @@ }, { "cell_type": "code", - "execution_count": 23, + "execution_count": 39, "metadata": {}, "outputs": [], "source": [ @@ -1484,19 +6318,17 @@ }, { "cell_type": "code", - "execution_count": 24, + "execution_count": 40, "metadata": {}, "outputs": [ { "data": { - "image/png": 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hhx7K3bwaMEPSfOAOtp9GvwPoL2l2KL+1sDgq+jVziEakF5tZTtxM+1PA02G6eyvQ18w2xdXpDzwfDuZ64OJQfj/wqqQLiaapvwXWxG5oZuMkZQCZkjYD/wHuBu4FPgO+D/+WaI7azFZKuhN4P/TxbTMbA3nXs0cq+hOHVUR/8vAX4DFgdihfDHQjOim5UNKW0I//I5rCf0TSNmALcHVJYnTOuYrusMMOY9asWTuUL1myhEGDBgFQs2ZN3njjjfw232xm6fmtMLOviS6dFovC7fFuJ0iqAeSY2VZFfwP+dPgzskppr/0PtbQL7090GM45t1uV9kErkqab2Y7fMlMCFXVkvqsdDLweRribgSsSHI9zzrlKzJN5CZjZIuDoRMfhnHPOQSW4Ac4555yr6Hxk7kqtWUoDMkt57cg551zJ+cjcOeecS3KezJ1zzrkk58ncOeecS3J+zdyV2uaVc/nmz0clOgzn3C5w8J+yi67kEs5H5s4551yS82TunHPOJTlP5s4551yS82TunHPOJTlP5s455wq1ceNG2rZtS6tWrWjRogX33XffDnVmzZrF8ccfz1FHHcXvfvc7fv3117x1s2fP5vjjj6dFixYcddRRbNy4cbttu3fvTsuWLXd5PyoyT+blnKQcSVmS5kh6I/f56MXcNkPSmcWo10bS4NJF6pyrqGrUqMHEiROZNWsWWVlZjBs3jk8//XS7OpdffjkPPfQQ2dnZ9OzZk0ceeQSArVu38oc//IGhQ4cyd+5cJk2aRPXq1fO2GzlyJLVr196t/amIPJmXfxvMLMPMWhI9oe2q2JWSCvvzwgygyGRuZplmdkOponTOVViS8hLuli1b2LJlC5K2q/P5559z8snR47c7d+7Mm2++CcC7775Leno6rVq1AqBBgwZUrVoVgLVr1zJo0CDuueee3dWVCsuTeXKZDDSR1EHSZEljgXmSakp6QVK2pJmSOkraA/gz0DuM7HtL2kvS85KmhnpnA4T23grL/UOdSZK+kuRJ3jlHTk4OGRkZNGrUiM6dO9OuXbvt1rdo0YIxY8YA8MYbb7B06VIgSvKSOP3002ndujUPP/xw3jb33nsvt956K7VqFXvC0RXAk3mSCCPwrkDuNzi0Bm40s6bAtYCZ2VHABcCLRO/tn4DXwsj+NaAfMNHM2gIdgUck7ZXP7tKA04G2wH2SqsdXkHSlpExJmT+tyynTvjrnyp+qVauSlZXFsmXLmDp1KnPmzNlu/fPPP89TTz3FMcccw5o1a9hjjz2AaJr9o48+4pVXXuGjjz5i1KhRTJgwgaysLL788kt69uyZiO5UOP4NcOXfnpKywvJk4DngBGCqmS0O5e2BJwDMbIGkr4Gm+bTVBegu6Y/hdU3g4HzqvW1mm4BNklYB+wHLYiuY2TPAMwDpjfe0EvbNOZdk6tWrR8eOHRk3btx2N62lpaXx7rvvAtFo/O233wYgJSWFk08+mX333ReAM888kxkzZlC7dm0yMzNJTU1l69atrFq1ig4dOjBp0qTd3qeKwEfm5V/uNfMMM7vezDaH8nUlaEvAOTHtHWxm8/OptylmOQc/6XOuUvv+++9ZvXo1ABs2bGD8+PGkpaVx1113MWrUKABWrVoFwLZt23jggQe46qro9p7TTz+d7Oxs1q9fz9atW/nggw9o3rw5V199NStWrGDJkiV89NFHNG3a1BN5KXgyrxgmA30AJDUlGm0vBNYAdWLqvQNcr3DniqSjd3OczrkktHLlSjp27Eh6ejrHHnssnTt3plu3bmRnZ7P//vsD8Oqrr9K0aVPS0tI48MADueSSSwCoX78+t9xyC8ceeywZGRm0bt2as846K5HdqZBk5jOk5ZmktWZWO66sA/BHM+sWXtcEngbaAFuBW8zsfUn7ECXw6sAAYCzwGNE0fRVgsZl1i21PUn9grZn9NbQ9B+hmZksKijG98Z721v82KaMeO+fKk8IetHL66afzzjvv7MZoKhZJ082sTZm05cnclZYnc+cqLn9q2q5Tlsncp9mdc865JOfJ3DnnnEtynsydc865JOd/cuRKbY8DWnDwnzITHYZzzlVaPjJ3zjnnkpwnc+eccy7JeTJ3zjnnkpxfM3eltmDVAk584sREh+Fc0ppy/ZREh+CSnI/MnXPOuSTnydw555xLcp7MnXPOuSTnydw558qBjRs30rZtW1q1akWLFi247777dqhz7733kp6eTkZGBl26dGHFihXbrZ82bRrVqlVjxIgRALz//vtkZGTk/dSsWZPRo0fvju643cwftOJKrfbBta3Vba0SHYZzSWvK9VMwM9atW0ft2rXZsmUL7du35/HHH+e4447Lq/frr7+y9957AzB48GDmzZvH0KFDAcjJyaFz587UrFmTSy+9lF69em23j59++okmTZqwbNkyatWqtfs65wrkD1pxO5CUIylL0lxJsyTdKsnfX+eShCRq146edrxlyxa2bNmCpO3q5CZygHXr1m23/oknnuCcc86hUaNG+bY/YsQIunbt6om8gvJf9hXHBjPLMLMWQGegK7DDPJ0k/3NE58qpnJwcMjIyaNSoEZ07d6Zdu3Y71OnXrx8HHXQQr7zyCn/+858BWL58OaNGjeLqq68usO3hw4dzwQUX7LLYXWJ5Mq+AzGwVcCVwnSJ9JY2VNBGYIKmDpLdy60saIqlvWD5T0gJJ0yUNjq3nnNu1qlatSlZWFsuWLWPq1KnMmTNnhzoPPvggS5cupU+fPgwZMgSAm266iYEDB1KlSv6/0leuXEl2djann376Lo3fJY4n8wrKzL4CqgK5c26tgV5mdkpB20iqCfwd6GpmxwANC6l7paRMSZlb1m4pw8idc/Xq1aNjx46MGzeuwDp9+vThzTffBCAzM5Pzzz+f1NRURowYwTXXXLPdjW6vv/46PXv2pHr16rs6dJcgnswrj/Fm9lMRddKAr8xscXj9akEVzewZM2tjZm2q1/ZfEM6V1vfff8/q1asB2LBhA+PHjyctLY277rqLUaNGAbBo0aK8+mPGjCEtLQ2AxYsXs2TJEpYsWUKvXr146qmn6NGjR17dV1991afYKzi/flpBSToMyAFWhaJ1Mau3sv2JXM3dFZdzLn8rV67k4osvJicnh23btnHeeefRrVs3hg4dSvfu3QG48847WbhwIVWqVOGQQw7Ju5O9MEuWLGHp0qWcckqBk3KuAvBkXgFJaggMBYaYmcXfEQt8DTSXVAPYEzgV+AhYCBwmKdXMlgC9d1/UzlVu6enpzJw5c4fyLVu2cPzxxwPkTasXZtiwYdu9Tk1NZfny5WUSoyu/PJlXHHtKygKqE428/wkMyq+imS2V9DowB1gMzAzlGyRdA4yTtA6YtjsCd84V7J133kl0CC4JeDKvIMysaiHrhgHD4spuB27Pp/r7ZpamaDj/JJBZhmE655zbBfwGOBfvijDCnwvUJbq73TnnXDnmI3O3HTN7FHg00XE455wrPk/mrtTSGqUx5fopiQ7DOecqLZ9md84555KcJ3PnnHMuyXkyd84555KcJ3PnnHMuyfkNcK7U1ixcyAcn+1dFOrczTvnwg0SH4CoQH5k755xzSc6TuXPOOZfkPJk755xzSc6TuXPOJcjGjRtp27YtrVq1okWLFtx333071LnttttIS0sjPT2dnj175j3zfPPmzVxyySUcddRRtGrVikmTJu2wbffu3WnZsuUu7oUrDzyZlyOSciRlSZoraZakWyVVCevaSBqc6Bidc2WnRo0aTJw4kVmzZpGVlcW4ceP49NNPt6vTuXNn5syZw+zZs2natCkDBgwA4NlnnwUgOzub8ePHc+utt7Jt27a87UaOHEnt2rV3X2dcQnkyL182mFmGmbUAOgNdgfsAzCzTzG5IaHTOuTIlKS/hbtmyhS1bthA9sPA3Xbp0oVq16A+PjjvuOJYtWwbAvHnz6NSpEwCNGjWiXr16ZGZGDzlcu3YtgwYN4p577tldXXEJ5sm8nDKzVcCVwHWKdJD0FoCkU8IIPkvSTEl1QvltkqZJmi3p/ty2JI2WND2M+K8MZVUlDZM0R1K2pJtD+eGSxoX6kyWl7f7eO1d55OTkkJGRQaNGjejcuTPt2rUrsO7zzz9P165dAWjVqhVjx45l69atLF68mOnTp7N06VIA7r33Xm699VZq1aq1W/rgEs//zrwcM7OvJFUFGsWt+iNwrZlNkVQb2CipC3AE0BYQMFbSyWb2IXCpmf0kaU9gmqQ3gVSgsZm1BJBUL7T9DHCVmS2S1A54CugUH1s4KbgSYL8aNcq0385VJlWrViUrK4vVq1fTs2dP5syZk+917gcffJBq1arRp08fAC699FLmz59PmzZtOOSQQzjhhBPy2vryyy959NFHWbJkyW7ujUsUT+bJaQowSNIrwEgzWxaSeRdgZqhTmyi5fwjcIKlnKD8olC8EDpP0BPA28G44MTgBeCNmqi/fTG1mzxAlfo6sU8fKuH/OVTr16tWjY8eOjBs3bodkPmzYMN566y0mTJiQNw1frVo1Hn30t6cVn3DCCTRt2pQPPviAzMxMUlNT2bp1K6tWraJDhw753iDnKg6fZi/HJB0G5ACrYsvN7CHgcmBPYEqYChcwIFxzzzCzJmb2nKQOwGnA8WbWiijZ1zSzn4FWwCTgKuAfRJ+H1TFtZJhZs93RV+cqo++//z7v7vQNGzYwfvx40tLSuOuuuxg1ahQA48aN4+GHH2bs2LHbTZuvX7+edevWATB+/HiqVatG8+bNufrqq1mxYgVLlizho48+omnTpp7IKwFP5uWUpIbAUGCImVncusPNLNvMBgLTgDTgHeDSMLpGUmNJjYC6wM9mtj4k/ePC+n2BKmb2JnAP0NrMfgUWSzo31JGkVrulw85VQitXrqRjx46kp6dz7LHH0rlzZ7p160Z2djb7778/ANdddx1r1qyhc+fOZGRkcNVVVwGwatUqWrduTbNmzRg4cCD//Oc/E9kVl2A+zV6+7CkpC6gObAX+CQzKp95NkjoC24C5wH/NbJOkZsAnYRpuLfAHYBxwlaT5RFPruX/30hh4IfdP34C7wr99gKcl3RPiGA7MKtNeOucASE9PZ+bMmTuUb9myheOPPx6AL774It9tU1NTWbhwYaHtp6amMmfOnNIH6so9xQ36nNtpR9apY88c3TrRYTiXVPxBK07SdDNrUxZt+TS7c845l+Q8mTvnnHNJzpO5c845l+T8BjhXanWOPNKv/znnXAL5yNw555xLcp7MnXPOuSTnydw555xLcp7MnXPOuSTnN8C5Ulu17BeG3PrvRIfhYlz3t98lOgTn3G7kI3PnnHMuyXkyd84555KcJ3PnnHMuyXkyd66CuvTSS2nUqBEtW7YssM7rr79O8+bNadGiBb///e/zys844wzq1atHt27dtqs/ZMgQmjRpgiR++OGHXRa7c27nJEUyl7S/pOGSvpQ0XdJ/JF0p6a1dtL+PS7hdf0l/DMvHSfpMUpak+ZL6F7FtqqRiP6tQUg9JzUsSp6sc+vbty7hx4wpcv2jRIgYMGMCUKVOYO3cujz32WN662267Ld/nY5944om89957HHLIIbsiZOdcCZX7ZK7o4dyjgElmdriZHUP07O39dtU+zeyEMmjmReBKM8sAWgKvl0GbsXoAnsxdgU4++WT22WefAtc/++yzXHvttdSvXx+ARo0a5a079dRTqVOnzg7bHH300aSmppZ5rM650in3yRzoCGwxs6G5BWY2C5gM1JY0QtICSa+ExI+kYyR9EEbx70g6IJRPkvSopMwwWj5W0khJiyQ9kNu+pLUxy3dIypY0S9JDoewKSdNC2ZuSauUTdyNgZYg3x8zmhW3zRu/h9RxJqeFltdCP+aFftUKdhyTNkzRb0l8lnQB0Bx4JI//DC4pJ0jBJgyV9LOkrSb2K6NvhksaFYzdZUloJ3zdXzn3++ed8/vnnnHjiiRx33HGFjuKdc+VbMvydeUtgegHrjgZaACuAKcCJkj4DngDONrPvJfUGHgQuDdtsNrM2km4ExgDHAD8BX0p61Mx+zG1cUlfgbKCdma2XlDvMGWlmz4Y6DwCXhX3GehRYKGkSMA540cw2FtHXI4HLzGyKpOeBayS9APQE0szMJNUzs9WSxgJvmdmIEMfqQmI6AGgPpAFjgRGF9O0Z4CozWySpHfAU0Ck+UElXAlcC1K/TsIhuufJo69atLFq0iEmTJrFs2TJOPvlksrOzqVevXqJDc87tpGQYmRdmqpktM7NtQBaQSpQQWwLjJWUB9wApMduMDf9mA3PNbKWZbQK+Ag6Ka/804AUzWw9gZj+F8pZh1JoN9CE6odiOmf0ZaAO8C/yeKKEXZamZTQnLLxMl4F+AjcBzkv4HWF/AtoXFNNrMtoXZgdzLEzv0TVJt4ATgjXDs/k50IrADM3vGzNqYWZvateoWo2uuvElJSaF79+5Ur16dQw89lKZNm7Jo0aJEh+WcK4FkSOZziUbP+dkUs5xDNNMgoiSdEX6OMrMu+WyzLW77bRR/pmIYcJ2ZHQXcD9TMr5KZfWlmTwOnAq0kNQC2sv1xj93WdmzCtgJtgRFANwo+KSgspth+quBuUQVYHXPsMsysWSH1XZIZMmQIQ4YMAaBHjx5MmjQJgB9++IHPP/+cww47LIHROedKKhmS+USgRpjWBUBSOnBSAfUXAg0lHR/qVpe0w8i5mMYDl8Rcf86diq4DrJRUnWgUvANJZ+VewweOIDrZWA0sAVqHOq2BQ2M2Ozg3bqLR/EdhtFzXzP4D3Ay0CuvXhDhyFRlTUX0zs1+BxZLODWWS1KqwRlz5dcEFF3D88cezcOFCUlJSeO6551iwYAENGjQA4PTTT6dBgwY0b96cjh078sgjj+StO+mkkzj33HOZMGECKSkpvPPOOwAMHjyYlJQUli1bRnp6OpdffnnC+uec+025v2YerhP3BB6TdAfRlPMSYHQB9TeHm7wGS6pL1MfHiEb4O7vvcZIygExJm4H/AHcD9wKfAd+Hf3e87RcuBB6VtJ5oNN7HzHIkvQlcJGlu2PbzmG0WAteG6+XzgKeBusAYSTWJRtW3hLrDgWcl3QD0KmZMxelbH+BpSfcA1cN+ZhXjcLly5tVXX92hrFu3bgwaNAgASQwaNCjvdazJkyfn2+YNN9zADTfcULaBOudKTWbxM7vO7ZyD9z/Cbu+zY0JwieMPWnGu/JM03czalEVbyTDN7pxzzrlCeDJ3zjnnkpwnc+eccy7Jlfsb4Fz51yilrl+jdc65BPKRuXPOOZfkPJk755xzSc6TuXPOOZfk/Jq5K7WVi7/kwT/0Krpikuv38ohEh+Ccc/nykblzzjmX5DyZO+ecc0nOk7lzzjmX5DyZO7cTHn/8cVq2bEmLFi147LHHALjttttIS0sjPT2dnj17snr16u22+eabb6hduzZ//etfd3/AzrlKwZO5c8U0Z84cnn32WaZOncqsWbN46623+OKLL+jcuTNz5sxh9uzZNG3alAEDBmy33S233ELXrl0TFLVzrjJI2mQuKUdSlqQ5kt6QVEtSqqQ5u3i/qZJ+X4rtD5RU6G3RkiZJWhj6lxUe6bqz+8mQdGZJ43Q7mj9/Pu3ataNWrVpUq1aNU045hZEjR9KlSxeqVYv+MOS4445j2bJleduMHj2aQw89lBYtWiQqbOdcJZC0yRzYYGYZZtYS2AxctZv2mwqUOJmb2QozK05y7hP6l2FmJfmbqAxgp5K5Isn8mdilWrZsyeTJk/nxxx9Zv349//nPf1i6dOl2dZ5//vm8UfjatWsZOHAg9913XyLCdc5VIhXlF/dkoElYrirpWUlzJb0raU8ASYdLGidpuqTJktJC+TBJgyV9LOmr3FFwSGyPhJF/tqTeof2HgJPCiPlmSR9KysgNRNJHklpJ6i/pn5I+kbRI0hVhfd7sgaSqkv4a9jFb0vUFdVBSQ0lvSpoWfk4M5W3DPmaGPhwpaQ/gz0DvEGfvEM8fY9qbE2JJDbMALwFzgIMk3Rb2MVvS/WXw/lQIzZo144477qBLly6cccYZZGRkULVq1bz1Dz74INWqVaNPnz4A9O/fn5tvvpnatWsnKmTnXCWR9F8aI6ka0BUYF4qOAC4wsyskvQ6cA7wMPANcZWaLJLUDngI6hW0OANoDacBYYATwP0Sj21bAvsA0SR8CdwJ/NLNuYf8/AX2BmyQ1BWqa2SxJPYF04DhgL2CmpLfjwr+SaKSfYWZbJe0Ts+4VSRvC8qnA48CjZvaRpIOBd4BmwALgpLD9acD/mdk5kv4EtDGz60Kc/Qs5jEcAF5vZp5K6hNdtAQFjJZ1sZh/GHfcrQ/zUrbVnIU1XLJdddhmXXXYZAHfffTcpKSkADBs2jLfeeosJEyYgCYDPPvuMESNGcPvtt7N69WqqVKlCzZo1ue666xIWv3OuYkrmZL6npKywPBl4DjgQWGxmueXTgVRJtYETgDdyf9ECNWLaGm1m24B5kvYLZe2BV80sB/hO0gfAscCvcXG8Adwr6TbgUmBYzLoxZrYB2CDpfaIEmRWz/jRgqJltBTCzn2LW9TGzzNwXIVE3j4l/79CvusCLko4ADKiez7Eqytdm9mlY7hJ+ZobXtYmS+3bJ3MyeITpBonGD+laCfSalVatW0ahRI7755htGjhzJp59+yrhx43j44Yf54IMPqFWrVl7dyZMn5y3379+f2rVreyJ3zu0SyZzMN5hZRmxBSHSbYopygD2JLiesjq8fI3YbFVAnX2a2XtJ44GzgPOCY2NXx1Xem7ThVgOPMbGNsoaQhwPtm1lNSKjCpgO23sv1llZoxy+timwQGmNnfSxFrhXXOOefw448/Ur16dZ588knq1avHddddx6ZNm+jcuTMQ3QQ3dOjQBEfqnKtMkjmZF5uZ/SppsaRzzewNRVk/3cxmFbLZZOB/Jb0I7AOcDNwGNAbqxNX9B/BvYLKZ/RxTfrakAUTT7B2Ipuj3iFk/Puzj/dxp9rjReax3geuBRyC6Wz3MQNQFloc6fWPqr4mLcwmQe2mgNXBoAft5B/iLpFfMbK2kxsAWM1tVQP1KJXa0neuLL74ocrv+/fvvgmiccy5SUW6AK44+wGWSZgFziUbShRkFzAZmAROB283s21CWI2mWpJsBzGw60fT7C3FtzAbeBz4F/mJmK+LW/wP4Bpgd4irsLvkbgDbhprR5/Hb3/sPAAEkz2f7k7H2iafmscPPem8A+kuYC1wGf57cTM3sX+BfwiaRsovsH4k9enHPOlSMyqzSXO3cZSQcSTW+nhWvvuTecrTWzCv+1X40b1Ldrup6a6DB2OX9qmnOuLEmabmZtyqKtyjQy3yUkXQR8BvTLTeTOOefc7lQprpnvSmb2EvBSPuX9d380zjnnKiMfmTvnnHNJzkfmrtQOOPRwv57snHMJ5CNz55xzLsl5MnfOOeeSnCdz55xzLsn5NXNXahtXrmH+gxMTHUaRmvXrVHQl55xLQj4yd84555KcJ3PnnHMuyXkyd84555KcJ3NX6axevZpevXqRlpZGs2bN+OSTT+jduzcZGRlkZGSQmppKRkZGXv0BAwbQpEkTjjzySN55553EBe6ccwXwG+BcpXPjjTdyxhlnMGLECDZv3sz69et57bXX8tbfeuut1K1bF4B58+YxfPhw5s6dy4oVKzjttNP4/PPPqVq1aqLCd865HVTqkbmkFEljJC2S9KWkxyXtUfSWpdpnd0l3lrKNJ8OjTedJ2hCWsyT1Kqs4K6pffvmFDz/8kMsuuwyAPfbYg3r16uWtNzNef/11LrjgAgDGjBnD+eefT40aNTj00ENp0qQJU6dOTUTozjlXoEqbzCUJGAmMNrMjgKZAbeDBuHplOnthZmPN7KFStnGtmWUAZwJfmllG+PHvVC3C4sWLadiwIZdccglHH300l19+OevWrctbP3nyZPbbbz+OOOIIAJYvX85BBx2Utz4lJYXly5fv9ridc64wlTaZA52AjWb2AoCZ5QA3A5dKukbSWEkTgQmSakl6PYyER0n6TFIbAElPS8qUNFfS/bmNS1oi6X5JMyRlS0oL5X0lDQnL50qaI2mWpA9j1o+WND60cZ2kWyTNlPSppH3y64ykVEmTw/5mSDohlPeUNEGRAyR9Lmn/UH+ipNlh/cGh/jBJgyV9LOmrijba37p1KzNmzODqq69m5syZ7LXXXjz00G/nVq+++mreqNw555JFZU7mLYDpsQVm9ivwDdG9BK2BXmZ2CnAN8LOZNQfuBY6J2axfeLh8OnCKpPSYdT+YWWvgaeCP+cTwJ+B0M2sFdI8pbwn8D3As0UzBejM7GvgEuKiA/qwCOof99QYGhz6NAlYC1wLPAveZ2bfAE8CLZpYOvJJbPzgAaA90A/KdRZB0ZTiJyfxp3eoCQip/UlJSSElJoV27dgD06tWLGTNmAFGiHzlyJL17986r37hxY5YuXZr3etmyZTRu3Hj3Bu2cc0WozMm8KOPN7Kew3B4YDmBmc4DZMfXOkzQDmEl0gtA8Zt3I8O90IDWffUwBhkm6Aoi9o+p9M1tjZt8DvwD/DuXZBbQDUB14VlI28EZcHNcDdwGbzOzVUHY88K+w/M/Qx1yjzWybmc0D9stvZ2b2jJm1MbM2++xVr4CQyp/999+fgw46iIULFwIwYcIEmjePDtV7771HWloaKSkpefW7d+/O8OHD2bRpE4sXL2bRokW0bds2IbE751xBKvPd7POA7aaQJe0NHAxsBdblt1Fc/UOJRtzHmtnPkoYBNWOqbAr/5pDPsTazqyS1A84Cpks6Jm47gG0xr7fl105wM/Ad0IroJG1jzLqUsO1+kqqY2bYiuha7fxVRN+k88cQT9OnTh82bN3PYYYfxwgsvADB8+PAdpthbtGjBeeedR/PmzalWrRpPPvmk38nunCt3KnMynwA8JOkiM3tJUlXgb8AwYH1c3SnAecD7kpoDR4XyvYmS/i+S9gO6ApOKG4Ckw83sM+AzSV2Bg4raphB1gWVmtk3SxYSRfriB73ngAuBi4Bbgr8DHwPlEo/I+wORS7DupZGRkkJmZuUP5sGHD8q3fr18/+vXrt4ujcs65kqu00+xmZkBP4FxJi4DPiUazd+dT/SmgoaR5wAPAXOAXM5tFNL2+gGjKespOhvFIuDluDlFynVWizvwW48WSZgFp/DazcDcw2cw+Ikrkl0tqRjT1fomk2cCFwI2l2LdzzrkEUpTTXGHCqL26mW2UdDjwHnCkmW1OcGjlQsvGR9ob1zyd6DCK5E9Nc86VJ5KmhxuoS60yT7PvjFpEU+zVia4hX+OJ3DnnXHnhybwYzGwNUCZnT84551xZ82TuSq3mAXV8Cts55xKo0t4A55xzzlUUnsydc865JOfJ3DnnnEtynsydc865JOc3wLlSW7FiBf379090GAUqz7E551xZ8JG5c845l+Q8mTvnnHNJzpO5c845l+Q8mbtKY/Xq1fTq1Yu0tDSaNWvGJ598krfub3/7G5L44YcfAHjkkUfIyMggIyODli1bUrVqVX766aeCmnbOuYTyZF4GJO0n6V+SvpI0XdInknqW8T6GSVosKSv83FAGbX4c/k0NT26r0G688UbOOOMMFixYwKxZs2jWrBkAS5cu5d133+Xggw/Oq3vbbbeRlZVFVlYWAwYM4JRTTmGfffZJVOjOOVcoT+alJEnAaOBDMzvMzI4hek54yi7Y3W1mlhF+Bpe2MTM7oSyCSga//PILH374IZdddhkAe+yxB/Xq1QPg5ptv5uGHHyZ6K3f06quvcsEFF+yuUJ1zbqd5Mi+9TsBmMxuaW2BmX5vZE5KqSnpE0jRJsyX9L4CkDpImSRohaYGkV8JJAZKOkfRBGOG/I+mAgnYs6U+h7TmSnolpY5KkRyVlSpov6VhJIyUtkvRAzPZr82nzQ0kZMa8/ktSqLA5UIi1evJiGDRtyySWXcPTRR3P55Zezbt06xowZQ+PGjWnVKv8url+/nnHjxnHOOefs5oidc674PJmXXgtgRgHrLgN+MbNjgWOBKyQdGtYdDdwENAcOA04Mj1h9AugVRvjPAw/GtPdIzDT7UcAQMzvWzFoCewLdYupuDs/JHQqMAa4FWgJ9JTUopD/PAX0BJDUFaprZrPhKkq4MJwuZ69evL6S58mHr1q3MmDGDq6++mpkzZ7LXXnvRv39//u///o8///nPBW7373//mxNPPNGn2J1z5Zon8zIm6UlJsyRNA7oAF0nKAj4DGgBHhKpTzWyZmW0DsoBU4EiihDs+bHMP20/Xx06zZwMdJX0mKZtohqBFTN2x4d9sYK6ZrTSzTcBXwEGFdOENoFs4sbgUGJZfJTN7xszamFmbWrVqFXlcEi0lJYWUlBTatWsHQK9evZgxYwaLFy+mVatWpKamsmzZMlq3bs23336bt93w4cN9it05V+75N8CV3lwgbw7WzK6VtC+QCXwDXG9m78RuIKkDsCmmKIfovRBR4j2+qJ1Kqgk8BbQxs6WS+gM1Y6rktr8tbl/bKOR9N7P1ksYDZwPnAccUFUsy2H///TnooINYuHAhRx55JBMmTKB169ZMmDAhr05qaiqZmZnsu+++QHSd/YMPPuDll19OVNjOOVcsPjIvvYlATUlXx5TlDlXfAa4Oo1wkNZW0VyFtLQQaSjo+1K8uqUUBdXMT9w+SagO9StyDHf0DGAxMM7Ofy7DdhHriiSfo06cP6enpZGVlcffddxdaf9SoUXTp0oW99irsLXPOucTzkXkpmZlJ6gE8Kul24HtgHXAH0ZR1KjAj3Jz2PdCjkLY2S+oFDJZUl+j9eYxo9B9fd7WkZ4E5wLfAtDLs03RJvwIvlFWb5UFGRgaZmZkFrl+yZMl2r/v27Uvfvn13bVDOOVcGZGaJjsGVM5IOBCYBaeGafqEOPPBAu/LKK3d5XCXlD1pxzpVHkqaHG5VLzafZ3XYkXUR0s16/4iRy55xziefT7G47ZvYS8FKi43DOOVd8PjJ3zjnnkpxfM3el1qZNGyvsxjLnnHM78mvmzjnnnMvjydw555xLcp7MnXPOuSTnd7O7Uvv55/m8/kbbXbqP886dukvbd865ZOYjc+eccy7JeTJ3zjnnkpwnc+eccy7JeTJ3zjnnkpwnc5d0cnJyOProo+nWrRsAixcvpl27djRp0oTevXuzefNmAIYOHcpRRx1FRkYG7du3Z968eYkM2znndpliJXNJ+0n6l6SvJE2X9ImknrsqKEkZkkzSGaVsp4ek5mUY18cl3K6/pD+G5eMkfSYpS9J8Sf1DeQdJJ5RhrGXa9/Lk8ccfp1mzZnmv77jjDm6++Wa++OIL6tevz3PPPQfA73//e7Kzs8nKyuL222/nlltuSVTIzjm3SxWZzMNzuEcDH5rZYWZ2DHA+kBJXryz/zO0C4KPwb2n0AMosoZlZWSTbF4ErzSwDaAm8Hso7APm2X8Jj24Od7HsZv4e7xLJly3j77be5/PLLATAzJk6cSK9evQC4+OKLGT16NAB777133nbr1q0j+ig751zFU5yReSdgs5kNzS0ws6/N7AlJfSWNlTQRmCBpH0mjJc2W9KmkdABJp4SRaJakmZLqSDpA0oehbI6kk0JdAecCfYHOkmqG8tQwkn1W0lxJ70raM6y7QtI0SbMkvSmpVhjldgceCfs4PIz4Pw3xjZJUP2w/SdKjkjLDPo6VNFLSIkkP5PZb0tqY5TskZYd9PlRQHPkcz0bAynAcc8xsnqRU4Crg5hDrSZKGSRoq6TPg4djRfdjXnLAdki4KfZol6Z8F9H2SpDah/r6SloTl+PdwL0nPS5oa3quzi/EZ2W1uuukmHn74YapUiT66P/74I/Xq1aNateg8JCUlheXLl+fVf/LJJzn88MO5/fbbGTx4cEJids65Xa04ybwFMKOQ9a2BXmZ2CnA/MNPM0oG7+e1Rmn8Erg2j0ZOADcDvgXdCWSsgK9Q9AVhsZl8Ck4CzYvZ1BPCkmbUAVgPnhPKRZnasmbUC5gOXmdnHwFjgNjPLCO29BNwR4ssG7otpe3P4wvuhwBjgWqKRc19JDWI7LKkrcDbQLuzz4YLiyOd4PQosDCcT/yupppktCft9NMQ6OdRNAU4wswLnhyW1AO4BOoX93lhA3wsT+x72AyaaWVugI9EJwV757PfKcPKT+euvW4tovmy89dZbNGrUiGOOOabY21x77bV8+eWXDBw4kAceeKDoDZxzLgnt9A1wkp4MI8BpoWi8mf0UltsD/wQws4lAA0l7A1OAQZJuAOqZ2VZgGnBJuGZ8lJmtCW1cAAwPy8PZfqp9sZllheXpQGpYbilpsqRsoA/RCUh83HXDvj8IRS8CJ8dUGRv+zQbmmtlKM9sEfAUcFNfcacALZrY+9DW3/0XGYWZ/BtoA7xKd0IyLrxPjDTPLKWQ9RDMnb5jZD3Gx7IzY97ALcKekLKKTqZrAwfEbmNkzZtbGzNrsvffumZ2fMmUKY8eOJTU1lfPPP5+JEydy4403snr1arZujU4oli1bRuPGjXfY9vzzz8+bfnfOuYqmOMl8LtHIDQAzuxY4FWgYitYV1YCZPQRcDuwJTJGUZmYfEiXT5cCwMFVclWi0/acwDfwEcIakOqGpTTHN5vDb19EOA64zs6OIZgdqFqNf8XLb3ha3n20U/2tvixWHmX1pZk8THcdW8SP/GLHHdivbv18728fY7eO3jd2PgHPCiD7DzA42s/k7ua9dYsCAASxbtowlS5YwfPhwOnXqxCuvvELHjh0ZMWIEAC+++CJnnx1dGVi0aFHetm+//TZHHHFEQuJ2zrldrTjJfCJQU9LVMWX5XQsGmEw0IkVSB+AHM/tV0uFmlm1mA4lG5GmSDgG+M7NngX8QnTCcCsw2s4PMLNXMDgHeBIq6c74OsFJS9dz9B2vCOszsF+Dn3GvzwIXAB5TMeKJZhVqhr/sUEUceSWeF+wIgumyQQ3TJIC/WAiwhnFRJag0cGsonAufmnhDExBLf3hIgd366VyH7eQe4PjdGSUcXUrdcGDhwIIMGDaJJkyb8+OOPXHZZdHVjyJAhtGjRgoyMDAYNGsSLL76Y4Eidc27XKHLEaWYmqQfwqKTbge+JRnJ3EI20Y/UHnpc0G1gPXBzKb5LUkWiUOxf4L9Ed8bdJ2gKsBS4C/gSMimvzTeBq4MNCwrwX+CzE9hm/JbHhwLNher9XiGdoSMJfAZcU1f/8mNk4SRlApqTNwH+I7hEoKI5YFxIdy/VEo+U+ZpYj6d/AiHDD2fX5bPcmcJGkuaHtz0MscyU9CHwgKQeYSXTzYHzf/wq8LulK4O1CuvcX4DFgtqQqwGKgW7EOzG7UoUMHOnToAMBhhx3G1Kk7Pojl8ccf381ROedcYsjMEh2DS3KHH76XDXhoh9sDypQ/Nc05V9FImh5uvC41/wY455xzLsl5MnfOOeeSnCdz55xzLsmV+6/vdOVf/frN/Jq2c84lkI/MnXPOuSTnydw555xLcp7MnXPOuSTn18xdqc37+VdajXinzNud1ev0Mm/TOecqIh+ZO+ecc0nOk7lzzjmX5DyZO+ecc0nOk7kr1zZu3Ejbtm1p1aoVLVq04L777gOgb9++HHrooWRkZJCRkUFWVtZ2202bNo1q1arlPRrVOecqMr8BzpVrNWrUYOLEidSuXZstW7bQvn17unbtCsAjjzxCr147Ps01JyeHO+64gy5duuzucJ1zLiEq5Mhckkl6OeZ1NUnfS3qriO36ShpSxrH0l/THEm47WtKnxaiXKun3Ma/bSBpcxDZXSbooLPeVdGBJYtzVJFG7dm0AtmzZwpYtW/jtcfD5e+KJJzjnnHNo1KjR7gjROecSrkImc6LnrbeUlPu89c7A8gTGU2ySqoV/6wHHAHUlHVbEZqlAXjI3s0wzu6GwDcxsqJm9FF72BcplModopJ2RkUGjRo3o3Lkz7dq1A6Bfv36kp6dz8803s2nTJgCWL1/OqFGjuPrqqxMZsnPO7VYVNZkD/Ac4KyxfALyau0LSPmHUO1vSp5LS4zeW1FDSm5KmhZ8TQ3ltSS9Iyg7bnxPK18Zs20vSsHzavCK0NSu0XSuUD5M0VNJnwMOh+v8A/waGA+fHtNFE0nuhjRmSDgceAk6SlCXpZkkdJL0lqYqkJeHEIHf7RZL2y50xkNQLaAO8ErY/S9LomPqdJY3aieNe5qpWrUpWVhbLli1j6tSpzJkzhwEDBrBgwQKmTZvGTz/9xMCBAwG46aabGDhwIFWqVOSPtnPOba8i/8YbDpwvqSaQDnwWs+5+YKaZpQN3Ay/ls/3jwKNmdixwDvCPUH4v8IuZHRW2n7gTMY00s2PNrBUwH7gsZl0KcIKZ3RJe556AvBqWc70CPBnaOAFYCdwJTDazDDN7NLeimW0DxgA9ASS1A742s+9i6owAMoE+ZpZBdBKUJqlhqHIJ8Hx8RyRdKSlTUubWX3/ZiUNQcvXq1aNjx46MGzeOAw44AEnUqFGDSy65hKlTowe9ZGZmcv7555OamsqIESO45pprGD169G6JzznnEqXCJnMzm000/XwBUYKK1R74Z6g3EWggae+4OqcBQyRlAWOBvSXVDuVPxuzn550Iq6WkyZKygT5Ai5h1b5hZDoCk/YAjgI/M7HNgi6SWkuoAjc1sVNj3RjNbX8Q+XwN6h+Xzw+sCmZkRHZs/hBH98cB/86n3jJm1MbM21fauW0QIJff999+zevVqADZs2MD48eNJS0tj5cqVuXEwevRoWrZsCcDixYtZsmQJS5YsoVevXjz11FP06NFjl8XnnHPlQUW/m30s8FegA9BgJ7etAhxnZhtjCwu5+cpilmsWUGcY0MPMZknqG+LKtS5m+TygPrA47G9vopOSh4oX+nY+AZqEkXYP4IFibPMC0RT/RqKTjK0l2G+ZWLlyJRdffDE5OTls27aN8847j27dutGpUye+//57zIyMjAyGDh2aqBCdcy7hKnoyfx5YbWbZkjrElE8mGhn/JZT/YGa/xiXqd4HrgUcAJGWYWRYwHrgWuCmU1w+j8+8kNQMWEk1rr8knnjrASknVw/4LuinvAuAMM/sk7ONQ4D0z6ydpmaQeZjZaUg2gathXnfwaMjML17wHAfPN7Md8qm23vZmtkLQCuIdoJiJh0tPTmTlz5g7lEycWfXVj2LBhuyAi55wrfyrsNDuAmS0zs/z+RKs/cIyk2USj3YvzqXMD0Cbc5DYPuCqUPwDUlzRH0iygYyi/E3gL+JjoOnZ+7iW6dj8FWJBfBUmpwCFA3p+kmdli4JdwzftC4IYQ+8fA/sBsICfcFHdzPs2+BvyBgqfYhwFDww1wuX8B8Aqw1MzmF7CNc865ckLRJVLnthf+3n6mmT1XVN1ahze1IwY+UeYx+FPTnHMVmaTpZtamLNqq6NPsrgQkTSe6hn9romNxzjlXNE/mbgdmdkyiY3DOOVd8FfqauXPOOVcZ+MjclVrz+nuT6de3nXMuYXxk7pxzziU5v5vdlZqkNUR/X18Z7Qv8kOggEqCy9hsqb98ra79h1/X9EDNrWHS1ovk0uysLC8vqzyuSjaTMytj3ytpvqLx9r6z9huTou0+zO+ecc0nOk7lzzjmX5DyZu7LwTKIDSKDK2vfK2m+ovH2vrP2GJOi73wDnnHPOJTkfmTvnnHNJzpO5c845l+Q8mbsSk3SGpIWSvpB0Z6LjKQuSnpe0StKcmLJ9JI2XtCj8Wz+US9Lg0P/ZklrHbHNxqL9IUn6P2C1XJB0k6X1J8yTNlXRjKK8Mfa8paWp4hPBcSfeH8kMlfRb6+JqkPUJ5jfD6i7A+Naatu0L5QklJ8bWIkqpKminprfC6svR7iaTs8OjnzFCWvJ93M/Mf/9npH6Aq8CVwGLAHMAtonui4yqBfJwOtgTkxZQ8Dd4blO4GBYflM4L+AgOOAz0L5PsBX4d/6Ybl+ovtWRL8PAFqH5TrA50DzStJ3AbXDcnXgs9Cn14HzQ/lQ4OqwfA0wNCyfD7wWlpuH/wc1gEPD/4+qie5fMfp/C/Av4K3wurL0ewmwb1xZ0n7efWTuSqot8IWZfWVmm4HhwNkJjqnUzOxD4Ke44rOBF8Pyi0CPmPKXLPIpUE/SAcDpwHgz+8nMfgbGA2fs8uBLwcxWmtmMsLwGmA80pnL03cxsbXhZPfwY0AkYEcrj+557TEYAp0pSKB9uZpvMbDHwBdH/k3JLUgpwFvCP8FpUgn4XImk/757MXUk1BpbGvF4Wyiqi/cxsZVj+FtgvLBd0DJL62ITp06OJRqiVou9hqjkLWEX0C/lLYLWZbQ1VYvuR18ew/hegAcnZ98eA24Ft4XUDKke/ITphe1fSdElXhrKk/bz717k6txPMzCRV2L/nlFQbeBO4ycx+jQZekYrcdzPLATIk1QNGAWmJjWjXk9QNWGVm0yV1SHA4idDezJZLagSMl7QgdmWyfd59ZO5KajlwUMzrlFBWEX0XptQI/64K5QUdg6Q8NpKqEyXyV8xsZCiuFH3PZWargfeB44mmUnMHPLH9yOtjWF8X+JHk6/uJQHdJS4guk3UCHqfi9xsAM1se/l1FdALXliT+vHsydyU1DTgi3Pm6B9ENMWMTHNOuMhbIvUv1YmBMTPlF4U7X44BfwhTdO0AXSfXD3bBdQlm5Fa59PgfMN7NBMasqQ98bhhE5kvYEOhPdM/A+0CtUi+977jHpBUy06G6oscD54a7vQ4EjgKm7pRMlYGZ3mVmKmaUS/f+daGZ9qOD9BpC0l6Q6uctEn9M5JPPnPRF33flPxfghusPzc6Lri/0SHU8Z9elVYCWwhej612VE1wUnAIuA94B9Ql0BT4b+ZwNtYtq5lOhGoC+ASxLdr2L0uz3RNcTZQFb4ObOS9D0dmBn6Pgf4Uyg/jCgpfQG8AdQI5TXD6y/C+sNi2uoXjslCoGui+7YTx6ADv93NXuH7Hfo4K/zMzf39lcyfd/86V+eccy7J+TS7c845l+Q8mTvnnHNJzpO5c845l+Q8mTvnnHNJzpO5c845l+Q8mTtXhiSZpL/FvP6jpP5l1PYwSb2Krlnq/Zwrab6k9+PKUyX9PuZ1G0mDd3U8ZUFSX0lDdqJ+hqQzd2VM5dGu7rekSZLa7Kr2KzNP5s6VrU3A/0jaN9GBxIr5Rq/iuAy4wsw6xpWnAnnJ3MwyzeyGMgivPMog+jv7yiaDnez3Tn623C7iydy5srUVeAa4OX5F/Mha0trwbwdJH0gaI+krSQ9J6qPoGdvZkg6PaeY0SZmSPg/frZ37kJBHJE0Lz1r+35h2J0saC8zLJ54LQvtzJA0MZX8i+gKZ5yQ9ErfJQ8BJip7/fHNoP/cZ2P0lvRj297Wk/5H0cGh/XPiqWCQdE/o6XdI7MV+deYOiZ6nPljQ8n1j7ShoZ2lok6eHC+hHKLwnHaSrRV5fmljeU9GY4XtMknRi3rz2APwO9Q197h302DOurKHqudcPwng4t7nuST7/+EN7nLEl/l1Q197Mh6UFFz1j/VNJ+oXw/SaNC+SxJJ4TyW0L/50i6KZSlSpoTs6+8WaIwQh4Y9v25pJMK6Pdekp4P9WZKOjvm/RgraSIwoZB6e0oarmimZxSwZ37HwZWBRH8Tj//4T0X6AdYCexM9K7ku8Eegf1g3DOgVWzf82wFYTfRM8RpE3+18f1h3I/BYzPbjiE7CjyD6hrqawJXAPaFODSCT6LnSHYB1wKH5xHkg8A3QkOiBSxOBHmHdJGK+4Spmmw6EbwmLfw30Bz4ienxoK2A94ZvAiL73ukdY9zHQMJT3Bp4Pyyv47ZvG6uWz775Ez4quG/r8NdF3Yufbj3Asc8v3AKYAQ0Jb/yJ6yAbAwURfYZvf/obEvL6P6OEzEH1l55sleU/i9tEM+DdQPbx+CrgoLBvwu7D8cExbr8XEUTUcj2OIvpVsL6A20TeaHU00kzInZn+xn8VJwN/C8pnAewX0+/+AP+S+L0Tf+LhXqLeM374hraB6t8S8x+lEJ7s7fLb8p/Q/Pj3iXBmz6GljLwE3ABuKudk0C49elPQl8G4ozwZip7tfN7NtwCJJXxE93asLkK7fRv11iRLLZmCqRc+YjncsMMnMvg/7fAU4GRhdzHjz818z2yIpmyjRjIvpQypwJNCS6AlVhDq5j5ucDbwiaXQhMUwws19CvPOAQ4i+fjO/fhBX/hrQNJSfBjTXb0+E21tSbfvtmeb5eZ7oe7ofI/r6zhdi1u3MexL7XpxKlIinhVj25LcHe2wG3grL04m+Lx6ih6FcBHlPevtFUntglJmtC30dCZxE0c9KyH2YznSi9yc/XYgexvLH8Lom0QkQhOd4F1HvZGBwiHe2pNlFxORKyJO5c7vGY8AMtv+lv5VwaUtSFaIRY65NMcvbYl5vY/v/p/Hfv2xE3xt9vZlt94AHRY+1XFeS4EtoE4CZbZO0xcJwjN/6IGCumR2fz7ZnEf3i/x3QT9JR9tsztbdrP8ih5L+/qgDHmdnG4m5gZkslfSepE9HTtfrEro6vTgHvSRwBL5rZXfmsiz1+Je1r3uctqBm3Pvd4Fta+gHPMbOF2hVI7tv9sFVRvZ2N2JeTXzJ3bBcKI5XWim8lyLSEaiQF0J5p23lnnhmu2hxM9LGIh0VOartZv16WbKnoSVGGmAqdI2jdcp70A+KCIbdYAdUoQc66FQENJx4c4q0tqEU5sDjKz94E7iEaxtYvZZkH9+CyUNwjH5dyYbd4Frs99ISkjn3bz6+s/gJeBN8KoOFdJ35MJQC9Fz9NG0j6SDimivxOAq0P9qpLqApOBHpJqhX30DGXfAY3CMagBdCui7fz6/Q5wvUJWlnR0AdsVVO9Dwk2TkloSTbW7XcCTuXO7zt+A2LvanyVKMLOInpddklHzN0QJ7L/AVWF0+Q+iG9xmhBue/k4RI7kwpX8n0eMuZwHTzWxMYdsQTYXnhBuvdrjBryhmtpno0ZkDwzHIAk4gmm5/OUzPzwQGW/Rc8eK0mW8/Qnl/4BOi6+XzYza7AWgTbkybB1yVT9PvE03FZ0nqHcrGEp1kvBBXt0TviZnNA+4B3g3Tz+OJrvUX5kagYzhW04HmZjaD6Nr9VKKTmH+Y2Uwz20J0Q9vU0PaCItrOr99/ITrpnC1pbnidn4LqPQ3UljQ/xDK9GDG4EvCnpjnnXDEo+vvoR83spJiyYUQ3AY5IWGDO4dfMnXOuSJLuJJre7lNUXecSwUfmzjnnXJLza+bOOedckvNk7pxzziU5T+bOOedckvNk7pxzziU5T+bOOedckvt/qkwh2bTHcREAAAAASUVORK5CYII=\n", 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Fcmx5SpUqJdi+d++eVvoxNTUVbKtTuKHtQoLr168Ltrt3765SoUdERIRo2vyiJL30UWGSnvEkj7u7u2D7xYsXSE5O1to4dO3zzz8XLN3z+vVrXL58WbCP9O+qZcuWcHR0LJLxFRYPDw/BLADZ2dk4cOCAZPvly5e4ePGioE3Pnj2LbHxE2pSYmIghQ4YIZvEBAHt7e2zevBmVKlXSWt8XLlzAuXPn1G5/4MABzJ07VxTv1q2bzCWniIiIiIiIiIiIiLSBxR5EJUy3bt1kxps0aSK4m1wT0kvB3Lp1S63j3Lx5U7Bdq1YtdYckUr9+fcH2+fPnC+3YskjPGnLt2jWtzA4hvdyHOrOqSBfZFLb8S1IAUPnO7WvXrhXmcFQSGhoqKl7aunUr7t+/r9a/X375RXCs06dPC2bFySP9fM3JyUFISEjh/4DFhKOjo2iGk6CgIMn/k5OTcerUKcHj2l7CxcDAQCvH7dOnj2B7//79kpk+8v8f+JAr9erV08o4iIpScnIyhg0bhjt37gjieYUeVapU0Wr/jx49wvDhw+Hv74+tW7ciKipK6XZfffUVvv/+e9FruL29Pb766istjJaIiIiIiIiIiIhINi7jQlTCNGrUCO7u7nj9+rUgLq8IRB316tXD1q1bJdsREREIDQ1VqVjj+vXriIyMFMTq1q1baGNs2rSp4K7ec+fO4e3bt6JZSQqLr68vVq1aJdmOiYlBcHBwoU/3Lr1EjaozloSHhyM6OrowhySSlpYm2DY2Vu2lKP/MB0VNejYJFxcXNGzYUO3jtWrVCubm5nj//j2ADzOxHD16FH379hXs5+npidKlS+PVq1eS2J49e9CyZUu1+5ZHenYYXc2i4u/vLyjoOHnyJJKTk2FtbY2//vpL8DxycnKSufxNYZL+vQAf/l6y4qpo2bKl4G/78uVL/Pvvv2jatKnoud6rVy+N+iIqLrZt2yazENTIyAhTpkzR6NitW7fGhAkTlNr37t27uHv3LubNmwcfHx9UqVIFFSpUgIODA2xsbGBgYID4+Hg8f/4cISEhuH37tmBWtDwWFhZYt25doRXNEhERERERERERESmDxR5EJYyhoSFmzpyJ+/fvC+KFWXTQvHlzWFtbC5aZWLduHX799Velj7F27VrBto2NjWC5A0116tQJS5cuRXp6OgDg/fv3WLFiBebMmVNofeTn6+uLsmXLIiIiQhJbsWIFWrRoofHF4vwqV64s2H716hWePn2q9LTymzZtKrSxyGNnZyfYfvr0KZo3b65U24sXL+psRouMjAwcO3ZMEOvQoQMMDdWfJMvKygotWrTAiRMnJLGDBw+Kij2AD8vdrFy5UrL9zz//ICQkRDRrjKakZ4eJi4sr1OMrq2XLlnBycsK7d+8AfCgSOn78OHr06CEquvn8889VLhpSlfTvBfjwu9H04q6hoSF69uyJ5cuXS2L79u1DZmamYLYBMzOzQltqi0jXsrKyZMbfvXsnyXl1Va1aVeU2ubm5ePToER49eqRy21KlSmHx4sWoXbu2ym2JiIiIiIiIiIiINMFlXIhKoBYtWmDEiBGCfxYWFoV2fCsrK9GSCidPnhRdKJfn0KFDOHv2rCDWvXt3WFlZFdoYXV1dRXfJ79u3D3v27FH7mHFxcXKXZjE0NMTQoUMFsQcPHmD27Nky7xJWV/ny5WFvby+IbdmyRam2p0+fxuHDhwttLPL4+PgItg8ePKjU7+Dt27f4/vvvtTWsAp0+fRrx8fGCWIcOHTQ+7meffSbYvnXrFh4/fizab8CAAbC0tJRs5+TkYNKkSXjz5o3GY8ivdOnSgm3pZRaKirGxMbp06SKIHTp0CM+fPxct5aPtJVyAD3fuS8+cU1i/m549ewqKVYKDg7Fu3TrBPh06dBAVShGR7hgbG6Nbt244cuSIRjM8EREREREREREREamLxR5EpBXDhw8XXZicNGlSgQUfR44cwQ8//CCI2dvbY8iQIYU+xtGjR4subP/0009YsGABUlNTlT7OvXv3MGPGDLRq1UqyHIcsAQEBojt/9+7di6+++gqxsbEF9pOTk4Pg4GBMnz5d7j4GBgbo1KmTILZnzx789ddfCo999OhRTJw4scAxFAbpGVru3buHuXPnIicnR26bhw8fYsCAAaLlh4qS9GwSbm5uqF+/vsbHbdmypaCIQ1ZfwIc8kP4bvXz5Er1791Z6tpOIiAj89NNPCu9er1GjhmD7zJkzuH79ulLHL2wBAQGC7ZCQEKxYsUIQq169umhGG22pXr26YHvdunWCGYzU5eLigjZt2ki2MzMzcePGDcE+XMKFqPD06NEDa9asweDBg1G3bl3ROVgeQ0NDVKpUCaNGjUJwcDAWLlzIIiwiIiIiIiIiIiLSGS7jQkRa4ebmhhkzZgguTmdmZmLixIk4ePAgAgICUKNGDTg4OCA+Ph5hYWHYv38/Lly4IDrWrFmzNF4qQRZHR0esXr0affv2RVpamiT++++/IygoCF27dkXjxo1RsWJF2NnZwcjICImJiXj37h3u37+Pu3fv4uzZs4iMjFSqPxMTEyxbtgz+/v6CGSKOHz+O8+fPw9/fH82bN0f58uXh4OCAzMxMxMbG4v79+7h+/TpOnDiBt2/fokqVKgr76d+/P/bu3YvMzEwAH4pEvv76a5w7dw7dunVDhQoVYGpqinfv3uHGjRsICgrClStXAHwoKKhcuTIuX76s4m9TeX5+fvD09MSLFy8ksW3btuH27dsYOHAg6tSpA3t7eyQmJuLRo0c4fvw4Dh06JJn2v3Hjxnj+/DlevXqltTFKi46OFj03P/vsMxgYGGh8bAsLC7Rs2VJQCHX48GFMnDgRRkZGgn0DAwNx7do1HD9+XBJ78+YN+vfvj08//RTt27dH3bp14eTkBFNTUyQmJiIiIgJhYWEIDg7GzZs3kZubK3OZmDwtWrSApaWlpOApMzMT/fv3R506dVCpUiVYWVkJlq6xtbXFiBEjNP49yFK5cmVUr15dMoNGbm4u/vjjD8E+0gUh2tShQwfB8+DGjRto1aoVGjVqBHd3d5iZmQn2b9q0KZo2barUsfv27StYzic/Hx+fQl+uh0gTZcqUES0Hp4px48Zh3LhxhTgi1VhbW6N169Zo3bo1gA+vk5GRkXj58iXevHmDhIQESfGmjY0NbG1t4erqiho1ahTqLGNEREREREREREREmmCxBxFpTceOHfH69Wv8/PPPgmU6zp07h3PnzhXY3sDAAFOmTEH79u21NsaqVati48aNmDBhAqKjoyXxhIQEbN26FVu3bi3U/kqXLo0tW7Zg5MiRglkqUlJSsH37dmzfvl3jPnx8fDBq1CjBDAg5OTkICgpCUFCQ3HampqZYtmyZ1pdyMTY2xpw5czB06FBJAQfw4cK59GwG0jw8PLB48WL07t1bq2OUdvjwYdESPdLLr2iiY8eOgmKPt2/f4t9//0Xz5s1F+y5atAiGhoaiWXIuXLggs1hKVdbW1hg6dChWrlwpieXk5OD69esyZ/jw8PDQWrEH8GGJFnnLpZiYmIhmstGmLl264Pfffxcss5OYmIiTJ0/K3N/MzEzpYo/GjRvD29sbz549Ez3GWT2ItMvQ0BBeXl7w8vLS9VCIiIiIiIiIiIiIlMZlXIhIq4YOHYrFixfD3t5epXYODg5YsmQJBg0apJVx5Ve/fn0EBQWhVatWah/DwMAADRs2hImJSYH7VqlSBXv37pV5IV8ZxsYF1+mNHj0aX3zxhdLHdHBwwIYNG9CkSRO1xqSqxo0b4+eff4a5ubnSbapVq4YdO3bAxcVFiyOT7dChQ4JtDw8P0ZI8mmjevLnobnFZS7kAHwoIlixZgq+//lrppQekFfQcGj16NAYNGlQoM5doqnPnznLzqnXr1nBwcCiysZibm2Pt2rWi5VwKg4GBgcwiJlNTU3Tt2rXQ+yMiIiIiIiIiIiIiIv3GYg8i0rrOnTvj1KlTGDlyJMqUKaNwX09PT4waNQqnTp1Cx44di2iEgKurK9auXYuDBw/i888/h5OTU4FtzMzM0KRJE3zzzTc4efIktm/fDlNTU6X7W79+PXbs2IG2bdsWOC28iYkJfH19MWPGDGzZsqXA4xsYGOD777/Hb7/9hmrVqsndz8LCAn379sXRo0fRqFEjpcZeWDp27IgDBw7Az89PsCyINE9PT0ybNg379u2Du7t7EY7wg7CwMDx8+FAQa9++faEWQpiZmaFNmzaC2OnTp5GYmChzfwMDA3z55Zc4deoUhgwZAk9PzwL78Pb2xpAhQ3Ds2DFUrFhR4b6GhoaYOnUq/vrrL4wZMwaffvopSpcuLVrCpSg4ODhIllqQ5u/vX6RjAQAvLy/s27cP69atQ8+ePVGzZk04OTmpVLgkT0BAgOgc4ufnV6QFLUREREREREREREREpB8McvOvrUBEVAQeP36MBw8eIDY2FomJibC1tYWjoyMqV66M8uXL63p4Eg8fPsTjx48RHx+PhIQEGBgYwNraGs7OzvDx8YGXl5dSM3koIzMzE6GhoXj16hViY2ORkpICS0tL2Nvbo1y5cqhYsaLaszgAwMuXL3Hjxg3ExMQgLS0N1tbW8PHxQb169QrlIrWmEhIScPXqVbx+/RpJSUkwMzODm5sbqlatCh8fH10PTy9ERETg/v37iI2NRXx8PIyMjGBtbQ1PT09UrFgRbm5uuh4iFeD169do3bo1cnJyJLGtW7cWeSFWYYuKipI5k1GbqQthbsdCFm2yMjXB7E7KLSVEREREREREREREJZu873LPnTvHawzFVMFrARARFTIfHx+9uIBfsWLFAmdAKCwmJiaoX78+6tevr5Xje3h4wMPDQyvHLgx2dnZo27atroeh18qWLYuyZcvqehikgaCgIEGhh7e3t94XehARERERERERERERkXZwGRciIiIiHcvJycH+/fsFsV69euloNEREREREREREREREVNyx2IOIiIhIx06dOoVXr15Jts3MzBAQEKDDERERERERERERERERUXHGYg8iIiIiHcrKysLKlSsFsc6dO8PBwUFHIyIiIiIiIiIiIiIiouLOWNcDICIiIiqpMjIysGDBAjx48EASMzIywogRI3Q4KiIiIiIiIiIiIiIiKu5Y7EFERERURPbs2YMXL14gNzcXUVFRCAkJwevXrwX79OjRA97e3roZIBERERERERERERER6QUWexAREREVkT///BNXrlyR+7i7uzu+++67IhwRERERERERERERERHpI0NdD4CIiIiIgNKlS2Pjxo2wsbHR9VCIiIiIiIiIiIiIiKiY48weRERERDpgYGAAGxsb+Pj4oE2bNujbty+sra11PSwiIiIiIiIiIiIiItIDLPYgIiIiKiLbtm3T9RCIiIiIiIiIiIiIiOgjwGVciIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9IixrgdARERERCWPhYkJLE1NdD2Mj5qVGX+/RERERERERERERB8rFnsQERERUZGb1LYB3NzcdD0MIiIiIiIiIiIiIiK9xGVciIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPSIsa4HQEREREQfr+zsbJnx6OjoIh4JEREREREREREREckj7ztbed/xku6x2IOIiIiItCY2NlZmvHv37kU8EiIiIiIiIiIiIiJSVWxsLEqXLq3rYZAMXMaFiIiIiIiIiIiIiIiIiIiISI+w2IOIiIiIiIiIiIiIiIiIiIhIj7DYg4iIiIiIiIiIiIiIiIiIiEiPsNiDiIiIiIiIiIiIiIiIiIiISI8Y5Obm5up6EERERET0ccrIyMCDBw9EcUdHRxgZGelgREREREREREREREQkLTs7G7GxsaJ4pUqVYGpqqoMRUUFY7EFERERERERERERERERERESkR7iMCxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeYbEHERERERERERERERERERERkR5hsQcRERERERERERERERERERGRHmGxBxEREREREREREREREREREZEeMdb1AIiIiIjo4/T27VuEhoYiMjISqampMDc3h7u7O2rUqAFPT09dD49Ib8THx+PmzZt4/vw5UlJSYGpqCldXV1SrVg0+Pj5a6TMlJQU3b97Es2fPkJiYCGNjYzg7O6Ny5cqoWrUqDAwMCr3PjIwM3Lx5E0+ePEFCQgIMDAzg4OCAihUrombNmjAyMir0Pkm/vHnzBg8ePMDr16+RkJAAALCzs4OzszNq1qwJV1dXrfTLHGQO0gfp6el4+vQpXr16haioKKSmpiI9PR2WlpawtbWFl5cXqlWrBktLy0Lvm3nIPCTdYg4yB0n3mIfMQ5ItKSkJt2/fRkREBBITE5GTkwNLS0u4u7ujbNmyqFChAgwNNZ/7gDnIHCyuWOxBRERERIUqODgY69evx40bN5CbmytznypVqmDw4MHo2rWrVj6YEBWmuLg43L59G2FhYQgNDcXt27cRHR0t2Gfs2LEYN25cofYbEhKCtWvX4uLFi8jOzpa5T9myZTFgwAD07dsXJiYmGvd5//59rFmzBqdOnUJmZqbMfVxdXdG7d28MGTKkUC7oRUZGYu3atTh69ChSU1Nl7mNnZ4eAgACMGDECjo6OGvdJ+iEmJgbBwcG4dOkSLl++jHfv3inc38vLCz169ECvXr3g4OCgcf/Mwf9hDpZML168wLlz53D9+nXcuXMHz58/l5sLeYyMjFC/fn10794dnTp10jgvmIf/wzwkRS5duoRBgwaJ4r6+vti2bZvax2UO/g9zsOSqXLmyxseoXr06goKC1GrLPPwf5iHlyc3NxV9//YXdu3cjJCRE4XtUS0tL1KtXDy1btkTv3r1hamqqUl/Mwf9hDhZPBrnyvoEnIiIiIlJBSkoKpk6dihMnTijdxtfXF0uXLoWzs7MWR0akut9//x1hYWEICwvD8+fPC9y/MIs9MjMzMX/+fOzYsUPpNpUqVcLKlSvh7e2tVp+5ublYs2YNVq1ahaysLKXalC5dGsuXL0etWrXU6hMA9u3bhzlz5uD9+/dK7W9vb49FixahRYsWavdJxV9YWBh+/vlnXL16FTk5OSq3t7a2xg8//AB/f3+1+mcOysccLFnmzp2LrVu3qt2+YsWKmDNnDurUqaNyW+ahfMxDkpaeno4uXbogIiJC9Ji6xR7MQfmYgyWProo9mIfyMQ9LtvDwcEydOhV3795Vue3Zs2dRqlQppfZlDsrHHCxeNJ+3hoiIiIhKvOTkZAwePFilQg8AuHLlCvr164e3b99qaWRE6lmwYAGOHj2qVKFHYcrKysL48eNV+jIBAB48eIA+ffrg8ePHavU7a9YsLF++XOkvEwDg1atXGDhwIK5evapWn+vXr8cPP/yg9JcJwIdpU0eOHIljx46p1Sfph9u3b+Py5ctqFXoAH16TpkyZglmzZqncljmoGHOQVPHw4UMMGDAAwcHBKrVjHirGPCRpv/76q8xCD3UxBxVjDlJRYB4qxjwsuf766y/07NlTrUIPVTAHFWMOFi+c2YOIiIiINDZ+/HhRoUfp0qUxaNAgNGnSBKVKlUJ0dDSuX7+O33//XfShp27duti+fTuMjbnKIBUPqt69VVgzeyxcuBCbNm0SxBwcHDBgwAC0bdsW7u7uiI+Px+3bt7F582aEhoYK9vXy8sLBgwdhbW2tdJ87duwQXRS3tLREnz598Nlnn8HT0xMpKSl48OABtm/fjn///Vewr729PQ4dOgR3d3el+zxz5gxGjRolWOrJxMQE3bp1g7+/P7y9vZGZmYknT55g9+7d+PvvvwX7mpqaYvfu3ahevbrSfZL+2LVrF2bMmCGIlS1bFk2bNoWvry98fHzg5OQEMzMzREdH48aNG9i7dy9u3rwpOta4ceMwduxYpftmDjIH6X/yz+xRrlw5NGzYELVq1UK5cuXg7u4Oa2trGBkZITExEY8fP8bFixdx8OBBxMXFCY5jYmKCAwcOKP3ayjxkHpLywsPD0b17d7kXhdSZ2YM5yBwkIenXrz59+sDGxkalY5QqVQoDBgxQen/mIfOQxI4dO4ZvvvlGdFNAgwYN0L59e9SvXx/Ozs6wsrJCUlISIiIicPv2bZw7dw7Xrl1DVlaW0jN7MAeZg/qExR5EREREpJHg4GCMGjVKEPP19cXq1atlfgGSkZGB7777DsePHxfEf/zxR5W+/CDSJukv9CwtLVG9enXUrFkTNWvWxMSJEwWPF0axR3h4OLp16yb44FyxYkVs3LgRbm5uov1zc3Mxf/58bNmyRRAfMmQIJk+erFSfMTExaNu2LdLS0iQxNzc3bNy4ERUrVpTZZtOmTVi0aJFgnO3bt8eKFSuU6jM9PR3t2rVDVFSUJGZjY4PVq1fD19dXZpujR49i8uTJgrVqa9SogQMHDijVJ+mXvGIPY2NjdOjQAb1795b73Mhv9+7dmDNnjuB5YmxsjMOHD6NChQoFtmcOMgdJ6MCBA0hJSUG7du2U/tI4MTERP/zwg6gIuF69eti1a1eB7ZmHzENSXk5ODnr37i25wOTk5ARnZ2fcv39fso+qxR7MQeYgiUl/Njx9+jTKlCmjtf6Yh8xDEnv48CECAgKQkZEhibm5uWHGjBlo3bp1ge1jYmKwe/du9OvXD46Ojgr3ZQ4yB/UNl3EhIiIiIrXl5uZi+fLlgljp0qWxdu1auXe6mJqaYsmSJaKq77Vr1wo+1BDpUs2aNdGvXz/Mnz8ff/75J65du4bt27dj8uTJ6Nixo1b6XLZsmeBDupWVFTZs2CDzywQAMDAwwPfff482bdoI4jt37hR8WFdEOu+MjIywZs0auV8mAB++sBg4cKAg9vfff+POnTtK9SlrfAsXLlR4Mb9Tp0749ttvBbHbt2/j5MmTSvVJ+sXQ0BCdOnXC0aNH8csvvyhV6AF8uMty5syZglhWVhZWrVqlVHvmIHOQhLp3747AwECV7g60tbXF0qVLUb9+fUH8+vXrSk1nzTxkHpLytm3bJriTePLkybCzs9PomMxB5iDpHvOQeUhCOTk5+PHHH0WFHjt27FCq0AMAnJ2dMXbs2AILPQDmIHNQ/7DYg4iIiIjUdvr0aYSHhwti06ZNg5WVlcJ2RkZGmDNnjiAWHR2NvXv3FvoYidSxf/9+TJ8+HQEBAahYsSIMDbX70enevXs4c+aMIDZ+/HilphedMWMGzM3NJdvv37/Hxo0bC2yXd2dLfv3791dq+s2JEyfC1dVVsp2bm4vVq1cX2C4zMxPr1q0TxNq0aSP6UkSWwMBAVKtWTRBT9iI+6ZcePXpgyZIl8Pb2Vrlt9+7dRV9OnT17VvDFoCzMQeYgFR4jIyNMmDBBFD9//rzCdsxD5iEp7/Xr11i2bJlku3HjxujatatGx2QOMgdJ95iHzEMS27VrF27cuCHZNjQ0xK+//gpPT89C74s5yBzURyz2ICIiIiK1/fXXX4JtDw8Ppavqq1WrJrrrU3ppF6KSQjqXLC0t0aNHD6Xaurq6ws/PTxCTnj5fltOnTwum3jQwMBDdFSKPpaUlunfvLoidO3cOKSkpCttdvnwZsbGxglhgYKBSfRoaGqJfv36C2L179xAREaFUe9IfRkZGGrXv1q2bYDslJUUwpb0szMGCMQdJFQ0aNICJiYkgVtCdjczDgjEPKc/MmTORmpoK4MPMiTNmzND4mMzBgjEHSduYhwVjHpYs2dnZoqKEnj17olatWlrpjzlYMOZg8cNiDyIiIiJSS2ZmJs6dOyeIde3aVaUZEPz9/QXbN2/exLt37wplfET65PTp04Ltdu3awdraWun2AQEBgu03b97g9u3bKvVZv359eHl5qd1nRkYGLly4oFKfpUuXRqNGjZTus1OnTjAzM1N4TKIqVaqIYtHR0QrbMAeVwxwkZRkZGcHe3l4QK+hLZ+ahcpiHdOzYMcFdxyNGjEC5cuU0Pi5zUDnMQdIm5qFymIclx/nz5/HmzRtBbOjQoVrrjzmoHOZg8cJiDyIiIiJSy82bN5GYmCiIKVrXURbpDxI5OTkFTvFN9LF59eoVHj16JIipmkt169YV3UH9zz//yN0/IyMDly5d0qhPLy8v0VSmivoEICoQa9iwIQwMDJTu09LSEjVq1FCpTyp58k+dmyf/+sfSmIPMQdKO5ORkwbaDg4PcfZmHzENSTmJiIubNmyfZ9vb2xpdffqnxcZmDzEHSPeYh85DE9u3bJ9iuV68eypYtq5W+mIPMQX3FYg8iIiIiUov0lPhGRkaoXbu2Ssfw8vKCs7OzwuMSfexkPefr1aun0jHMzc1Fa6Y+ePBA7v7Pnj1DRkaGRn3KaqOoz5SUFERGRhZpn1QyvXr1ShRzdHSUuz9zUHt9Usl19+5dUZGVoum2mYfa65M+LgsXLhTMVjV9+nSYmppqfFzmoPb6JFIW81B7fZJ+ysnJERVCtGzZUmv9MQe11ydpl7GuB0BERERE+unJkyeCbXd3d1haWqp8nPLlyyMmJkay/fTpU43HRqRPpHPJ2NgY3t7eKh/Hx8cHt27dkmwryiXpPvPaq9NnfrroMy4uDnFxcQrvGKeS5cqVK6KYoru/mIOa9ckcJFnWrl0r2HZ2dkazZs3k7s881KxP5mHJcOXKFRw4cECy3blzZzRt2rRQjs0c1KxP5mDJkpGRgWvXruHhw4eIjY1FTk4O7O3t4eDggOrVq6uVOwDzUNM+mYcfn6dPn4qWAZQuHn737h2uXLmC58+f4/3797Czs4OTkxNq1aql8gwgzEHN+mQO6g6LPYiIiIhILY8fPxZsly5dWq3juLu7C7Zlfegg+phJ55KbmxsMDVWfhFF62s5nz54hOzsbRkZGBfZpZGQENzc3jftMSUlBVFSUzGNJ9wmI81+dPoEP54369eurfCz6+GRnZ+OPP/4QxCpVqqTwNYo5qFmfAHOQ/iczMxOLFy/GiRMnBPHvvvtO4ewDzEPN+gSYhx+7jIwM/Pjjj8jNzQUA2NraYurUqYV2fOagZn0CzMGSpEuXLsjKypL7uIuLCzp06IAhQ4ao9D0J81CzPgHm4ccmLCxMFMtbOuTx48f4+eefcfbsWeTk5Mhs7+npif79+6Nfv34wMzMrsD/moGZ9AsxBXeEyLkRERESklrdv3wq2Zb3JV4b0B4qoqCi1x0Skjworl6S/SMzIyEB8fLxSfbq4uMj84kHVPgH5OSzdp4GBgVpfYqjSJ5U8+/btw+vXrwWxjh07KmzDHNRen/Txy87ORkJCAkJDQ7FhwwZ07twZmzdvFuwzbNgwdOvWTeFxmIfa65M+DqtXr8azZ88k219//bVoOUxNMAe11yd9fBQVegBAdHQ0tm3bBj8/PyxevLjA/fMwD7XXJ+kn6aIEa2tr2NjYYMeOHQgICMCZM2fkFnoAwIsXL7BgwQJ06NABd+7cKbA/5qD2+iTt4sweRERERKSW1NRUwba1tbVax5Fu9/79e+Tk5KhVPU+kjworl6ysrGQe28nJSWt9ymonPc2qvD7Nzc1hYmJSKH1KH5tKpjdv3mDx4sWCmL29Pfr376+wHXNQ8z6ZgyVHQECAUl+WA4CrqysmT56Mzp07F7gv81DzPpmHH6+HDx9iw4YNku3atWujd+/ehdoHc1DzPpmDJC0zMxPr16/HjRs3sHbtWtjY2Cjcn3moeZ/Mw49LQkKCYNvV1RU7duzArFmzVDrOq1evMGDAAPz666/45JNP5O7HHNS8T+agbrDYg4iIiIjUIuvDgTpktUtNTVX7Aw6RvtFmLin74V6ZKU1lkdVO3od7XfRJJUdWVha++eYbJCUlCeLffPMNbG1tFbZlDmqvTyqZ7O3tMWHCBPTo0UPh0i35MQ+11yfpt5ycHPz444/IzMwE8GF695kzZxZ6YTxzUHt90sfB0NAQtWrVQosWLVCjRg34+PjA3t4epqamSExMxIsXL3DlyhUcOHBAMAsPAISEhGD8+PFYv349jI3lX5JjHmqvT9JPiYmJgu13795h7ty5km0zMzP0798fHTp0QLly5WBqaoo3b97g33//xaZNmxAZGSnZNzU1FV9//TUOHjwod3kl5qD2+iTtYrEHEREREaklLS1NsK3sl/nS5H0IYrEHlRTazCV5H7Sl+1T3w31x75NKjnnz5iEkJEQQa968OXr16lVgW+ag9vqkkik+Ph5z5szBxYsXMWbMGFStWrXANsxD7fVJ+m3Xrl24ceOGZDswMFCpnFIVc1B7fZL+Gzp0KPr27QtPT0+Zjzs5OcHJyQl16tTBsGHDsGvXLixYsAAZGRmSfS5evIhVq1ZhwoQJcvthHmqvT9JP0oX8+Wf68PDwwKZNm+Dt7S3Yx9vbG97e3ujevTsmTZqEEydOSB6Lj4/HTz/9JJgtKz/moPb6JO1isQcRERERFQoDAwO12uXm5hbasYj0kXQOFEUu6XOfsvCcUbJt27YNO3bsEMRKlSqFhQsXKtVen/OBOUhFLSAgAE2bNpVsZ2ZmIjExEQ8fPkR4eLhk9oHs7GycPHkSZ86cwddff42hQ4cqPK4+5wTzkLQlKioKS5YskWy7u7tj3LhxWulLn/OBOUjaNmnSJKX3NTQ0RP/+/eHj44Nhw4ZJXhcBYPPmzRgwYIDMpRwA/c4J5iFpQ05Ojsy4hYWFzEKP/MzNzbF06VL069cPN2/elMTPnz+Pu3fvolq1aqI2+pwPzMGSjcUeRERERKQWCwsLwRcX6enpah1HVjtLS0u1x0Wkb6Sf74WZSxYWFkr1+f79e73pU1Y7eX3Sx+/YsWOYN2+eIGZjY4PffvsNjo6OSh2DOaga5mDJNmDAALmPJSQkYP/+/Vi1apVkquqsrCwsWrQIubm5GDZsmNy2zEPVMA9LhpkzZyI5OVmy/cMPP8DKykorfTEHVcMcpII0btwYEydOxKJFiySx1NRU7Nq1C2PHjpXZhnmoGubhx0/ed4PDhg1TWOiRx8jICDNmzEC3bt0E8b1792LGjBkF9sccVIw5WHwU7uJ+RERERFRiaPPDAYs9qCTRZi7JuyCgzS8x5OWvLvqkj9u5c+cwadIkwR1f5ubmWLt2LapUqaL0cZiD2uuTShY7OzsMHToUhw8fhoeHh+CxpUuX4u7du3LbMg+11yfppxMnTuD06dOS7VatWqFt27Za6485qL0+qeQaOHAgXF1dBbELFy7I3Z95qL0+ST/J+nsaGhqid+/eSh+jatWqqFu3riB29epVpfpjDhZen6RdLPYgIiIiIrVIv4HPf9eZKqTbmZubw9CQb1Op5CisXMq7i1rRsQu7T1ntlP0S4/3798jKyiqUPvmFQskTEhKC8ePHC2aYMjExwfLly9GgQQOVjsUc1LxP5iDl5+npiXXr1sHExEQSy8rKwpo1a+S2YR5q3ifz8OORlJSE2bNnS7YtLS3x448/arVP5qDmfTIHSZqpqSlatWoliIWGhsq9gMw81LxP5uHHRdbfs0KFCnBxcVHpOI0aNRJsP378WKnnD3NQ9T6Zg7rBb9GJiIiISC3Sd6i8efNGreNIt5M+LtHHrrBy6fXr14JtU1NT2NvbK9VndHQ0srOzNe5T1rHlxXNzc9X6WVXpkz5Od+7cwciRI5GWliaJGRoaYuHChWjZsqXKx2MOaq9PKrkqVKiALl26CGLBwcFITU2VuT/zUHt9kv755ZdfEB0dLdkeM2aMaLacwsYc1F6fVLLVqVNHsJ2dnY2YmBiZ+zIPtdcn6adSpUqJYhUqVFD5OBUrVhRs5+bm4t27d6L9mIPa65O0y1jXAyAiIiIi/VS+fHn8999/ku1Xr16pdRzpdj4+PhqNi0jflC9fXrAdFRWFnJwclWe4kf6g7e3tDSMjI6X6zM7ORlRUFEqXLq1Rn1ZWVjK/kJHVZ177MmXKaNQnwPNGSfLw4UMMGTIESUlJgvjMmTPRqVMntY7JHGQOkna0adMGQUFBku2srCzcvXtX5uw7zEPmIf3PjRs3JP83NjbGu3fvsHjxYqXavnjxQrQt3bZp06Zo2rSpIMYcZA6Sdjg5OYlisbGxMp9zzEPmIQnJ+nva2tqqfBxZbRISEkQx5iBzUF+x2IOIiIiI1CL9Bv7169dITU1Vecq+p0+fCrbLlSun8diI9Il0LmVlZeHZs2cyP4Ar8uTJE8G2olyS9QH88ePHKn+hUBh9NmzYUKM+HRwc4ODgoNIxSD89f/4cgwcPRnx8vCA+efJk9OrVS+3jMgeZg6Qdsr4wzj9bQX7MQ+YhyZaVlYVNmzap3f7169dYv369IGZmZiYq9mAOMgdJO3Jzc0UxAwMDmfsyD5mHJCTruSIrpwqibBvmIHNQX3EZFyIiIiJSS+XKlQXb2dnZCA0NVekYz58/F33pL31coo+drOd8/js6lZGeno47d+4IYpUqVZK7v7e3N0xNTTXqEwCuX7+udJ9WVlaiC3/q9Hnt2jWl+6SPx+vXrzFo0CDRa8a4ceMwZMgQjY7NHFQNc5CUZWJiovS+zEPVMA+psDEHVcMcJGXJWirC0dFR5r7MQ9UwDz9+ZcuWhYWFhSCWmJio8nFktZFVlMAcVA1zsPhgsQcRERERqaVOnTqiqRCvXLmi0jGk9zc0NESzZs00HhuRPildurRo3VlVc+n69evIzMwUxFq2bCl3f1NTUzRp0kSjPl+8eCGatlNRnwDQvHlzwfbVq1dV6jMtLQ23b99WqU/SfzExMRg0aBBevnwpiA8ePBhjx47V+PjMQeUxB0kVb9++FcVcXFxk7ss8VB7zkLSBOag85iCpQvoCqpGRkcylXQDmoSqYhyWDsbExPv30U0Hs4cOHKh/nwYMHgm0jIyM4OzuL9mMOKo85WLyw2IOIiIiI1GJiYiL6cHD48GGVplQ8dOiQYLtOnTpyv/gg+pi1adNGsP33338jJSVF6fbSuVSqVCnUqFFDpT5DQkJE67wrcvDgQcG2qamp6IuYgvp8+fIlLl++rHSfx44dQ3p6usJj0sclISEBgwcPxrNnzwTx3r17Y8qUKYXWD3NQOcxBUoWsL6oVrQXOPFQO8/Djd/jwYdy/f1+tf76+voJj+fr6ivYZN26czH6Zg8phDpKy0tPT8c8//whiNWvWhLm5udw2zEPlMA9LjrZt2wq2Hz9+jKioKJWO8d9//wm2q1atKpoxJA9zUDnMweKFxR5EREREpLbPPvtMsB0ZGYng4GCl2oaHh4sqxzt06FBoYyPSJ9LP/dTUVBw4cECpttHR0Th+/Lgg1r59+wLbtWnTRjDFfm5uLrZv365Un2lpadi/f78g1rx5c1hZWSls16hRI9G0xdu2bVOqz5ycHOzYsUMQq1q1KsqWLatUe9I/KSkpGDZsmOhOrM8//xwzZswo1L6YgwVjDpIqUlNTERQUJIhVqlQJpUqVktuGeVgw5iFpE3OwYMxBUsWWLVtESxAWNJMp87BgzMOSpXXr1rC0tJRs5+bmYteuXUq3DwsLEy053bRpU7n7MwcLxhwsfljsQURERERqa9OmDapUqSKIzZ07t8Cq9+zsbPzwww+CmIuLC3r16lXoYyTSB9WqVUOrVq0EsRUrVih1x8qsWbPw/v17ybaZmRmGDh1aYDtnZ2f07t1bENu+fTvu3r1bYNtly5YJxmZgYIDRo0cX2M7ExATDhw8XxE6ePIkzZ84U2Hb79u2itW/HjBlTYDvST+np6Rg5cqToizk/Pz8sWLAAhoaF+3UGc5A5SEJv3rxRu21OTg5mzpwpOkbnzp0VtmMeMg9Jt5iDzEESio6ORnZ2tlptL1y4gOXLlwtiFhYWoue7NOYh85CEbG1tERgYKIht2rQJjx8/LrBtZmYmpk+fLoiZmJigb9++ctswB5mD+ojFHkRERESkNgMDA0yYMEEQe/nyJUaNGoXk5GSZbTIyMvDdd98hLCxMEB85cqTcaRSJSoKvvvoKBgYGku2kpCQMGzZM7pcKubm5WLhwIf7++29BvH///nBzc1Oqz1GjRgnyLisrC6NHj8ajR4/kttm8eTO2bNkiiPn5+aF69epK9SlrfJMmTUJISIjcNseOHcPPP/8siNWoUQPt2rVTqk/SL1lZWZgwYYJoCYjmzZvjl19+gZGRkVb6ZQ4yB+l/Nm7ciO7du+PkyZPIyMhQut3r168xevRo0RTWHh4e+OKLLwpszzxkHpJuMQeZg/Q/R48eRceOHXHgwAGll3HIysrC5s2bMXLkSGRlZQkeGzRoEFxcXAo8BvOQeUhCw4cPh729vWQ7PT0dQ4YMUfj8TE1Nxbhx40RFCQEBAShdurTC/piDzEF9Y5CryqLqREREREQyjB8/HidOnBDEPDw8MHjwYDRp0gSurq6IiYnB9evX8fvvv4s+rNStWxfbt2+HsbFxUQ6bSK7bt2+Lpt/Mb/369YLtevXqoX79+jL3tbW1xYgRI5Tqd+HChdi0aZMg5ujoiIEDB6J169Zwd3dHYmIiwsLCsHnzZty6dUuwr5eXFw4ePAhra2ul+gM+3JUxe/ZsQczKygp9+vRBx44dUaZMGaSmpuL+/fvYvn07Lly4INjX3t4eBw8eLPALk/yCg4MxatQoQczExAQBAQHo1q0bvL29kZmZiSdPnmDPnj04fvw48n90NTU1xe7du5X+EoP0y9KlS7F27VpBzNjYGH379lW4xrki1atXFy09JgtzkDlIH8ydOxdbt24F8OF1rFWrVqhVqxaqVKkCNzc32NjYwMTEBMnJyYiOjkZ4eDjOnj2LM2fOIDMzU3Asc3NzrFu3Do0aNVKqb+Yh85DUN3DgQEGxpK+vr9LTsudhDjIH6YPNmzdj/vz5AD68ljVr1gz16tVD1apV4eHhAWtra5iZmSExMREvXrzAlStXEBQUhJcvX4qO9emnn2Lt2rWCpRoUYR4yD0nor7/+wldffSWImZiYoE+fPujQoQO8vb1hamqKqKgoXLhwAZs3bxbNMufj44N9+/YVuMQJwBxkDuoXFnsQERERkcaSk5MxePBg0XT7yvDy8sKOHTvg6uqqhZERqScoKAhTp04tlGN5eHggODhYqX2zsrIwduxYpabOlObg4IDt27ejQoUKKredMWOGSuve5jE3N8f69evh6+urctt169bhl19+UbmdoaEhFi9ejE6dOqnclvTDlClTcPDgwUI9pr+/PxYsWFDgfszBgjEHS4b8xR6asLS0xMqVK/Hpp58q3YZ5WDDmIclTGMUezMGCMQdLhvzFHppo3LgxVq1apdJFX+ZhwZiHJc9vv/2GJUuWqNXWw8MDGzduRLly5ZTanzlYMOZg8cFlXIiIiIhIY9bW1vj999/h5+enUruGDRti165dLPQg+n/GxsZYuXIl+vXrp1K7SpUqYffu3Wp9mQAA06dPx/jx41VaHsPd3R1bt25V68sEABgxYgTmzJmj0kwN9vb2WLNmDb9MIK1hDirGHCw58k9dra7mzZvjzz//VKnQA2AeFoR5SNrGHFSMOUjKsrCwwLfffovff/9dpUIPgHlYEOZhyfTll19i/vz5sLS0VKldo0aNsH//fqULPQDmYEGYg8ULZ/YgIiIiokJ1+vRprF+/Hjdu3JC7T+XKlTF48GB069atUC4mEBU2Xc3skV9ISAjWrFmDixcvIicnR+Y+np6eGDhwIPr166f0lMCK3L9/H6tXr8bp06dF0/DncXFxQZ8+fTB48GClpj8tSGRkJNasWYOjR48iLS1N5j52dnbw9/fHl19+CUdHR437pOJNlzN75Mcc/B/mYMmTkZGBy5cv49y5c7h27Rru37+PrKysAtu5ubmhTZs26N69O2rUqKHxOJiH/8M8JGUUxswe+TEH/4c5WPK8ffsWp06dwuXLlxEWFiZzeRZphoaGqFSpErp06YKePXvCzs5O43EwD/+HeUgAEBUVhXXr1uHw4cNISkqSuY+xsTHq1q2LYcOGoWXLlhr1xxz8H+Zg8cRiDyIiIiLSiqioKNy6dQsvX75EamoqzM3N4e7ujpo1a8LT01PXwyPSG3Fxcbh58yaeP3+OlJQUmJiYwNXVFdWrV1f7bpGCJCcn48aNG4iIiEBSUhKMjIzg5OSEKlWqoFq1alop0kpPT8fNmzfx+PFjJCYmwsDAAA4ODqhYsSJq1qwJY2PjQu+TSBnMQeYgAe/fv8fTp08RGRmJt2/fIiUlBVlZWbCysoK1tTVcXFxQrVo1ODs7a6V/5iHzkHSLOcgcJCAxMRFPnjzB69evERMTg7S0NGRlZcHa2hq2trYoVaoUatSoofIsHspiHjIPSSgrKwthYWF49OgRYmNjJc8VV1dX1K9fv9BzkTnIHCyuWOxBREREREREREREREREREREpEcMdT0AIiIiIiIiIiIiIiIiIiIiIlIeiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPQIiz2IiIiIiIiIiIiIiIiIiIiI9AiLPYiIiIiIiIiIiIiIiIiIiIj0CIs9iIiIiIiIiIiIiIiIiIiIiPSIsa4HQERERERERKRvBg4ciCtXrki2fX19sW3bNh2OiIqD9PR0HD16FBcvXsSdO3cQGxuLpKQkZGdnS/axsbFBSEiIDkep2JQpU3Dw4EHJtoeHB4KDg3U4IqKPR+vWrfHy5UvJtr+/PxYsWKDDEREREVGey5cvIzAwUBDbunUrGjVqpKMREREVjMUeREREREREREQaOnXqFH788UfExsbqeihEREREREREVAKw2IOIiIiIiEiLIiMj0aZNG5mPaTobREhICPr37y+IjR07FuPGjVP7mESkukOHDmHy5Mm6HgYRERERERERlSAs9iAiIiIiItKRK1eu4J9//kHLli11PRQiUlNUVBRmzJgh8zE3NzfY2dnB0NBQErOysirU/leuXIlff/1VELt//36h9kFEpA4uC0VEHyNZxfzz589HQECAjkZEREQlGYs9iIiIiIiIdOiXX35B8+bNBReDiUh/7Ny5E2lpaYJY9+7dMWHCBLi5ueloVERERERERET0seO3iURERERERDr04MEDHDp0SNfDICI1nTp1SrBdq1YtzJ07l4UeRERERERERKRVLPYgIiIiIiLSsRUrViA9PV3XwyAiFSUnJ+PJkyeC2GeffQYDAwMdjUhzCxYswP379yX/uOQCERERERERUfHEYg8iIiIiIiIde/36NbZt26brYRCRiqKiopCTkyOIlStXTkejISIiIiIiIqKShMUeRERERERERax58+awsLAQxNatW4eEhAQdjYiI1JGUlCSKSec2EREREREREZE2sNiDiIiIiIioiLm6uiIwMFAQS0hIwG+//aajERGROmQtv6TPS7gQERERERERkf4w1vUAiIiIiIiISqLhw4djz549iI+Pl8S2b9+OwMBAlCpVSncDK0aSkpJw8+ZNREREICkpCWZmZnBzc0OdOnXg4eGh9HGioqIQFhaGly9fIjU1FXZ2dihVqhR8fX1hbW2txZ8AePHiBW7fvo03b97g/fv3cHR0lPwM9vb2Wuv3wYMHeP78Od69e4f4+HiYm5vD0dERHh4eqFmzJkxMTLTWNwBkZ2fj3r17ePToEd69e4f09HRYWlqicuXKaNKkiVb7zi8xMRGhoaGIiYlBbGwssrOz4eTkBCcnJ9SsWROOjo5FNhb64NmzZ7h79y7evHmD9PR0WFtbw8fHB3Xq1IGlpaVSx8jNzUV4eDjCw8Px7t075OTkwMnJCRUqVECtWrW0UnCTk5ODu3fv4uXLl4iNjUVCQgKsra3h6OgILy8vVKtWDYaGhXdPVXx8PO7fv4/nz58jJSUFqampMDExgYWFBRwdHVGmTBl4e3vD1ta20PosLJmZmQgNDcXjx48RFxcHY2NjODo6wtvbG7Vq1YKRkVGh96mrXM97fXn79i0SEhJgYWGBMmXKoGbNmnBzc9NKn9Lev3+P0NBQREdH4927d0hNTYW9vT0cHR1RpUoVeHl5Fck4Srrk5GTcunULz549Q1JSEszNzeHq6oqKFSuiYsWKWus3NjYWt2/fRmxsrOS57+DgAGdnZ9SuXRsODg5a61tTun6vkpOTgzt37uDBgwd49+4dDAwM4ODgAE9PT9StWxempqZa6TcpKQlhYWGIiYlBfHw8UlJSYGFhAXt7e3h7e6NChQqF9v706dOnePz4seR3bGFhAScnJ5QqVQq1atXS+u+4OHj9+jXCwsLw6tUrpKWlwc7ODs7OzqhXrx6cnZ11PTylJCcnC17jMjIy4ODgAAcHhyJ7vXn37h1u376NyMhIJCUlSfKlbdu2Sr/GZmZm4vbt23j9+jXi4uKQlJQEGxsbODo6okKFClo5V+bm5uL27duIiIjA27dvkZWVBTs7O5QvXx61atWCmZlZofdJRFTUWOxBRERERESkAzY2Nhg1ahTmz58viaWnp2P58uWCmDYEBQVh6tSpgtjp06dRpkwZlY9VuXJlwfbYsWMxbtw4hW1WrlyJX3/9VRC7f/++5P+hoaFYs2YNzp07h6ysLJnH8PX1xTfffIM6derI7Sc4OBjr16/HjRs3kJubK3rcxMQE7dq1w3fffYfSpUsrHLMqcnNzERQUhM2bN+PBgwcy9zExMUHjxo0xYsQI+Pr6Fkq/4eHh2LJlCy5cuIC3b9/K3c/S0hJNmzbF8OHDFf7+ZLl8+bJoVpqtW7eiUaNGAIBXr15hw4YN+PPPP2UuS+Tr66v1Yo+srCwEBQXh0KFDuHnzJrKzs2XuZ2BggOrVq6Nz587o37+/Uhd1ZD13pUn/fvLz9fXFtm3bCuynIAMHDsSVK1fkPi6dl7LMnz8fAQEBoviUKVNw8OBBybaHhweCg4MLPF7r1q3x8uVLyba/vz8WLFgA4EPxz759+7BlyxY8efJEZntLS0t0794dY8eOlVsIlZycjM2bN2Pv3r2IioqSuY+zszOGDh2KwMBAGBtr/rVXSEgIduzYgYsXLwqK86TZ29ujefPm+PLLL1GhQgW1+kpPT8fevXtx+PBhhIWFFbi/gYEBypUrh4YNG6J9+/Zo1KhRofzM8hT02hEdHY1169bh4MGDMpc4AgBbW1v4+/tj1KhRGl+E1mauF+TkyZPYvHkzrl27JvP1xcDAAHXq1MHw4cPRpk0bjfuTlpOTgyNHjuDIkSMICQmROctQnjJlyuCzzz7DkCFDiqTATfpckN/Lly+VOj/lf13p168frl27JnnMysoK586d0+hi+MmTJzF27FhB7Pvvv8cXX3wh2reg5/29e/ewZs0aBAcHIzMzU2Z/5cuXR48ePRAYGFgoF9eTk5Oxfft2nDx5Enfu3JH5HAQ+PA+rVauG7t27o2fPnlorXlBFcXivkpycjE2bNmHPnj2IiYmR23+HDh0wfvx4uLu7q9S/LElJSdixYwdOnz6NO3fuyD1fAYCRkRFq1qyJli1bIiAgQOUL+VFRUdiwYQOCg4MRGRkpdz8rKys0adIEgYGBkt+NKqTfi6j7HkfdzyWK3ncAH/J8w4YNuHnzpsz2BgYGqFmzJsaOHYsWLVqoNc78pk6dqvBxQLXfUUZGBvbu3Yu//voLN2/elPuZCAAqVKiAzz//HAMGDICVlZVSx8+j6O+Ym5uLP//8E9u3b8etW7dknmvKli1b4PPn9OnT2L9/Py5fvoyUlBS5+7m4uKBt27YYMWKExp/NUlNT8dtvv+HIkSN49eqVzH0sLS3RsWNHjBw5Ep6enhr1R0SkS1zGhYiIiIiISEf69esnmqHi0KFDePjwoY5GpFu5ublYtmwZevfujeDgYIVfal65cgV9+vTBxo0bRY8lJSVh3LhxGDVqFK5fvy73IkhmZiaOHTuGTp064eLFi4XyM8TGxmLAgAH4/vvv5RZ65PV9/vx5BAYGYtq0aXj//r3afb59+xbffPMNunXrhqCgIIUXT4APX36eOnUKvXv3xujRoxVewFbFvn370LFjR+zYsUNmoUdRuHTpEjp37owff/wR165dU3gxJe9OvwULFqB9+/Y4efJkEY605IiKikLfvn0xffp0uYUewIfn5bZt29C1a1eEh4eLHr9+/Tq6dOmClStXyi30AICYmBgsXLgQ/fr1Q2Jiotrjfvr0KYYPH47+/fvj2LFjBeZJfHw8jhw5gi5dumDatGkKL77LcvnyZXTs2BFz5sxRqtAD+PAcfvLkCfbs2YMhQ4YU2nlMHSdOnEDHjh2xdetWuYUewIcZOLZs2YIOHTrIvQCnDF3lemxsLEaPHo2xY8ciJCRE7utLbm4ubty4gdGjR2PChAlIS0tTu09p586dQ5cuXTB58mT8+++/BT7XIiMjsX79erRt2xZbtmwptHEUlQEDBgi2U1JS8Mcff2h0zN27dwu2zc3N4e/vr/Jx1qxZgx49euDEiRNyCz0A4MmTJ1i0aBECAgJw9+5dlfvJk5ubiy1btqBNmzZYunQpbt++Lfc5mLf/nTt3MGvWLHTo0AGXLl1Su29NFZf3KlevXkXHjh2xatUquYUeef0HBQWhQ4cOOH36tNr9ZWdnY82aNWjdujWWLl2K0NBQheervDY3b97EsmXL0KpVK4SGhird1/Lly9G+fXts3bpVYaEH8CGXTp06hcDAQIwYMULuBXF9k5iYiJEjR2Ls2LEKX2dyc3MRGhqKESNGYPLkyQo/dxS1I0eOwM/PD7Nnz0ZISEiBY3v06BGWLFmCtm3b4tixY4UyhpiYGAwcOBDffvstbt68qfBcI09oaKgkh4ODgxUWegAfikZ37doFPz8/LFmyBDk5OWqN/dKlS+jUqRPWrl2r8HmdmpqK/fv3o0uXLoJCZyIifcNiDyIiIiIiIh0xNTXFhAkTBLGcnBz88ssvOhqRbk2fPh1r1qxR+ou93NxcLFq0CHv27JHEEhMT8cUXX+Dvv/9Wut/U1FSMGjVK6S/T5UlISED//v0REhKidJvc3Fzs378fI0eOVKvgIzw8HD179sSff/6p1pewp0+fRu/evfH06VOV2+a3YcMG/PDDD4V6QVNVBw4cwLBhw9T6WV69eoVx48Zhw4YNWhhZyZVX6HHr1i2l27x58wZDhw7F69evJbELFy5g8ODBKl2IunXrFoYNG6bWxZtLly6hV69eOHfunMptc3JysH//fgwYMEDhhcT8zp49i2HDhhV4Ya642rVrFyZMmKBScU18fDwGDx6Me/fuqdyfrnI9Li4OgwYNUvnC7/HjxzF8+HBkZGSo3Ke0jRs34ssvv8SjR49UbpuSkoJ58+Zh2rRpxeqiZkH8/Pzg6uoqiO3atUvt4z1//hz//vuvINapUyeVl0T6+eefsWzZMpV+lw8ePEBgYKDSBV35paenY+LEiZg3b55ahQ8vX77EsGHDsHfvXpXbaqq4vFc5c+YMBg8erLBgUNr79+8xfvx4tV4PEhISMGzYMCxbtkzt4sPs7Gyl3lulpaVhzJgxWL16tVrvxc6ePYvevXvLLLbUJ3Fxcejfvz/OnDmjUrtDhw5hypQpWhqV8nJycjBv3jx89913gvdByoqNjcXEiROxYsUKjcYRHR2NPn364OrVq2of448//kD//v3VKuzMzMzEb7/9hlGjRhVYICLtzJkzGD58uErvGdPS0jBlyhSNXluIiHSJy7gQERERERHp0Oeff47ff/9dcMHrzJkzuHr1Kho2bKjDkRWtLVu2CIo2PDw80KpVK1SsWBF2dnZISkrCrVu3cPz4cSQnJwvazps3D59++inc3d0xceJE3LlzR/JY9erV0axZM5QpUwZWVlZ49+4d/vvvPwQHBwuKSt6/f48ff/wRBw4cUHsZhEmTJglmLnB3d0e7du3g4+MDW1tbxMTE4Pbt2zh9+rToZ7h06RImTpyINWvWKN1fWFgYAgMDkZqaKogbGhqiQYMGqFu3LsqUKQMbGxukp6fjzZs3uHr1Ki5duiS4q/TZs2cYMWIEgoKCYGNjo/LP/e+//2LdunWSbVNTUzRq1Ai+vr5wcXGBkZER3rx5g9DQUNFYC8uhQ4fw/fffi+J5Syk0b94c7u7uMDIyQlRUFC5evIjLly8Lfg+5ubn4+eefYWBggKFDh8rsx9nZGVWqVJFsp6am4vnz54J9vLy8YGlpKbO9l5eXOj+ezOPkXTiKiYkRFRXkH6M8dnZ2hTIWebKysjBmzBjJFOsGBgZo0KABmjZtCnd3d5iamuLNmzc4f/686G7zmJgYTJ8+HevWrcPjx48xfvx4STGUubk5PvnkEzRs2BDOzs7Izs7GixcvcOLECdGsSLdu3cLmzZsxbNgwpccdHByM8ePHi+7Sz1t6qXbt2ihVqhRsbGyQmpqKly9f4r///hMVeYWGhmLMmDHYvn27wmUb4uLiMHnyZFEhgLGxsSSPPTw8JNOyp6Sk4N27d3j48CHu3r2rcLaUonDu3DnMnj1bcgHXxsYGn3zyCerWrQsnJyfk5OTg5cuX+Oeff0RFP6mpqZg6dSr279+v9Hm3qHJdWmZmJoYOHSpYciyPm5sb/Pz84OPjAzs7O7x79w53797F6dOnJbMcXb16FQsXLlSqL3kWL16M9evXi+L29vZo2rQpqlevDicnJ5ibmyMpKQkPHz7E+fPnRRfI9+/fD1tbW0yePFmj8cjj4+MjeS15/fq1YKYnExMT+Pj4FHiM/OdQY2Nj9O7dGytXrpTE7t+/j+vXr6NevXoqj2/Xrl2igoO+ffuqdIzjx48LCobMzMzQvHlzNGjQAC4uLpLXhpMnT4p+/0lJSRgyZAiCgoKUXjYgMzMTQ4YMkVlM6uXlhUaNGqFy5cqws7ODsbEx4uLiEBYWhrNnzyI2Nlayb1ZWFn766Sc4OzujdevWKv3M6iou71Xu3buHJUuWSM7t5ubmaNKkCRo0aABnZ2cYGxvj9evX+Pfff0WvSVlZWfjhhx9w9OhRpftOSkpCnz59ZJ6jTUxMUKdOHfj6+sLNzQ22trZIS0tDbGws7t27h1u3buHFixdK/2w5OTkYPXq0zNmdrKys0KpVK9SqVQsuLi5ITk7Gs2fPcOrUKURERAj2ffv2LQYMGIADBw6gbNmySvdfXGRlZWHs2LGCmfWqVauGTz/9FJ6enrCxsUFCQgJu3bqFkydPimah+uOPP9C2bVt06NBB5vHt7Owk768yMzPx+PFjwePu7u4Fvrcq6H3gt99+i6NHj4rirq6uaNKkCapVqwZ7e3uYmZkhISEBd+/exfnz50WFDatWrYKjo6NoZiRl5OTk4KuvvhI8Bz09PdGyZUuUK1cODg4OiI+PR2RkJE6cOCHzGDt37sTMmTNF8bzlmWrWrAkXFxdYWVkhKSkJERERuHjxouAzHAD8888/mDp1qtLFKzdu3MC4ceNE7+FkvUd48+YNLly4gJCQEMm5Zvbs2Zg4caJSfRERFScGueqU0xIREREREZFSIiMj0aZNG0GsR48emDt3rmT7/PnzoouRderUERQ/yBISEoL+/fsLYmPHjsW4ceMUtlN3bWxZKleurHL/K1euxK+//iqImZqaIiMjAxYWFpg8eTJ69eoFIyMjUduYmBiMGzcO169fF8R79+6NcuXKSdbq9vT0xOzZs9GkSROZYwgLC8OXX36Jd+/eCeK//PILOnfurHD8gHh9azMzM8lU+qampvjqq68waNAgmT9DUlIS5s+fjwMHDogeW7BggVJTySckJMDf31+wVjkABAQEYNy4cQrXuX7+/DlmzpyJCxcuCOJ+fn6Ci2myXL58GYGBgYKYkZGR5EvS9u3bY+rUqXLXt09PT4eZmZnCPlQVERGBbt26iS4kVapUCXPnzkWtWrVktnv8+DG+//570R2HJiYm2LVrF2rWrFlg37J+H1u3bi1w7fLCJCufZF2QVtaUKVMEU1l7eHggODi4wHatW7cWPB/zchr4cLFl9uzZqFGjhsy258+fx/jx40V/wx07dmDu3LmSZQ86deqEKVOmiO7yBz5cnPjtt9+wbNkyQdzGxgYXLlyAubl5gT/DixcvEBAQILgD29jYGF988QWGDRsGR0dHuW3v3buHadOmiS5UDB48WOHdwqtXr8by5csFsU8++QRz5sxRar36yMhInDp1Crt27cK0adPQvHnzAtuoS9ZrR965z8DAAIMHD8aoUaPkzpDw119/YfLkyaJlR5YsWYJOnToV2L8uc13e69a4ceMwdOhQmef61NRULF26FFu3bgXw4WKTiYmJoLDH399f8rqlyMmTJzF27FhBzM7OTrIshrzzam5uLk6dOoXp06eLXu9Wr14ten9S2NQ9n0iLjo5Gq1atBBfwunbtikWLFql0nIyMDDRv3hxxcXGSWI0aNWS+HudR9LwHgJYtW2LWrFlwc3OT2f7QoUOYO3euaGaHRo0aYcuWLTAwMChw3HPmzMG2bdsEsQoVKmDq1Kn45JNP5B7j/fv32Lp1K1asWCH43dna2uLw4cNKnWM0UZzeq+T/m3Xt2hXffvutzNcS4MNSgePGjRPNoPLNN99gxIgRCvsGPuRd3rIV+RkYGKBHjx4YN26c3OdLnvDwcBw5cgR79+7FqlWrFL6vWLduncxZAXv16oVJkybJLVA5cOAAFixYIHpu1qxZE7t27VJYqAiI3wv7+vqKnqfKUPdzifT7jvx/Y29vb8yYMUPu54DY2Fh89913oudX+fLl8ddffxU4Zlmf7+bPn4+AgIAC28qzefNmzJ8/XxArVaoUpkyZAj8/P5mvM8CHIpeDBw9i3rx5gtdHExMT7N69W+57rzzSf8f87+vt7e0xdepUdO3aVeZ5Jjc3F5mZmTA1NZXEQkND0a9fP8E5x9zcHGPGjEG/fv1gbW0tdyxXrlzBtGnTRIXUP/zwAwYOHKjw58jIyEDXrl1FBVbe3t6YP3++3OLA8PBwfP/995L3b+bm5qLZFov6vT0Rkaq4jAsREREREZGONWvWTPRl5M2bN+XeLfUxyiv0+P3339G3b1+5X2g6Ozvjt99+g5OTkyB+5MgRyV1fFStWxJ49e+R+wQt8+CJb1l1iQUFBao0/78tlY2NjrFixQu7FP+DDxed58+Zh+PDhosfmz58vutNQllmzZgm+4DYyMsLPP/+M+fPnF3jxxsvLCxs2bBB9If3333+rtNxGnrwvhAcOHIjly5fLLfQAUOiFHgAwc+ZM0cXf6tWrY+fOnXIv/gIf7j7funUrGjduLIhnZmbKnDmAVJN3Qbthw4bYvn27wosNzZo1w+zZs0Xx8ePHSwo9hg4diiVLlsi9OGdoaIhRo0ahZ8+egnhSUhJOnjyp1Ji/++47wUUvCwsLbNiwAZMmTVJY6AEAVatWxe7du/HJJ58I4tu3b1c4Fbv0kiDly5fH2rVrlb4IW6ZMGQwaNAjHjx+Hr6+vUm0KU16hx4IFCzB58mSFS2F89tlngkLHPPv27VOqL13l+vPnz/Hbb78JYsbGxli6dClGjBgh91xvaWmJadOmSS5i5ubmqrWUy7t370QXQr29vXHkyBH07t1b4XnVwMAA7dq1w4EDB1CqVCnBY0uWLFFrSQ1dcHFxgZ+fnyD2119/CYo2lCGrjaqzegD/e83v3Lkz1qxZo/DCfbdu3bBx40bJ7Dx5Ll++jMOHDxfY1/nz50UX0Nu0aYODBw/i008/VVgsYm5ujhEjRuC3334TXLhPTEwUPae1oTi9V8n7m02YMAGLFi2S+1oCfChaWL16teh3u3//fqX62r17t6jQw9TUFL/88gvmzJlTYKEH8GGGrkmTJuGff/4RFVbnFxkZKfP97FdffYXZs2crnImke/fu+P3330UX38PCwtQq2tC1vL9xzZo1C/wc4OjoiDVr1qBSpUqC+JMnT1RajrGwPHjwAIsXLxbE6tSpgz///BOfffaZ3NcZ4MPrUc+ePbFr1y7B3zIzM1NUAKuMvPf1zs7O2LFjB7p16yb3PGNgYCAo9MjIyMBXX30lKPRwcnLC3r17MWLECIWFHsCH3AsKChI953/99dcCZwdct26dqNDDx8cHu3btUjgLVJUqVbB9+3bUrVsXANRaVpOISNdY7EFERERERFQMfPvtt6Iv0pYsWaLSWvD67vvvv5d80aaIra0thgwZIoilpaUhNTUVZmZmWLZsmagYRJYGDRqgWbNmgtjly5dFd52rYtSoUWjVqpVS+3777beii7MJCQkFXvx58uQJjh07Joh99dVX+Pzzz5Uep4GBAWbNmiWaTj//ciyqqFWrFqZOnarUHcqF6cGDB/j3338FMSsrK6xZs0apqdbNzMzw66+/wsXFRXRc6bs9SXX29vZYsmSJ6CKnLJ07d0bFihUFsbyZCHx9ffHtt98q1ee4ceNgaCj8uuvcuXMFtvv3339x48YNQWzevHkKLxZJMzU1xfLly+Hg4CCJZWZm4vfff5fbJjIyUrDdtWtXwYUTZRkYGCg1e4k2DBo0CN26dVNq3y5duogKM65evVrgeVeXub5z507RlPAjRoxA27ZtC+wX+PD7UWbGKHm2bt0qKALMK0KSLt5QxN3dHUuWLBHEHj16JCo2Ks769esn2M7IyFC5QHPXrl2CbVtbW6VmlZEl725x6fONLLVq1cKPP/4oiufN+qLIqlWrBNuVK1fG8uXLVTpPfPLJJxgzZowgFhQUJFoCrDAVx/cqfn5+GD16tFL71q9fX7ScR0REhGjGAWmZmZkyl1v68ccf1XquWVtbw97eXu7jO3bsEJ2f/Pz8MGrUKKWOX6NGDZnFltu2bRMso6MvbG1tsWLFCoW/szympqYy31vo4v3fb7/9Jvg7uri4YN26dSotWVSlShVMnz5dEDt//rxgqVBVzJkzBxUqVFCpzaFDhwQFXoaGhvj1118VFixJs7GxwapVqwQFavHx8QoLQzMzM7F7925BzMTEBCtXriywWBf4UJz566+/KixYJSIqzljsQUREREREVAzUqFEDn332mSD27Nkzpe8i1Hfe3t6iO/IVad++vcx4165dVfpiUvo4WVlZai+B4ebmJnO2DkVkXfyR/rJS2saNG5GTkyPZLlOmDIYOHapSv8CHL0G//PJLQezcuXNqFbtMmjRJ4V2H2rJ9+3ZRbPTo0UrdNZvHxsYG33zzjVLHJtUMGjRI4d3T0tq1ayczPnHiRKUuqAIf8lC6aCxvdhBFpC/ONWjQAB07dlSqz/xsbGxEywecOnVK7v4pKSmCbWUuUBUnVlZWouVFCiJ9sVeZ866ucj0jI0OwDAkAuLq6is6dBZk8ebJaRTwpKSnYuXOnIDZ48GB4enqqfKz69euLipcUPTeLmwYNGqBq1aqC2J49e5SeneT+/fuigq6uXbvCwsJCrfFMmTJFpb9pt27dRDMc3blzB2FhYXLbhISEiMY8derUApfXkGXw4MGCwruMjAylCuHUVdzeqxgaGuK7775TqY2swpTbt28rbHP06FHRsjWffvopevXqpVLfykhPTxd9TjAxMcEPP/yg0nE6duwoKj5+9eqVXhWD5QkMDFRpeaJPP/1UVAwgvRybtkVGRuL48eOC2FdffQU7OzuVj9WlSxd4e3sLYuqc5xs1aqR08Xqe3NxcbNy4UTQeRbNqyOPp6YmuXbsKYop+jlOnTiE6OloQ69+/v6hQTBFnZ2eli8GIiIobFnsQEREREREVExMnThR9ga/MtLUfg+7du6s0K4Snp6fMu9169OihUr/VqlUTxZ4+farSMfJ07dpV5WVKKlWqJLow/fDhQ7nLPuTm5oqWpPD391e70KJFixaC7YyMDJWnR/f29kbDhg3V6l9TFy9eFGybmJio/BwAgE6dOokusl++fFkv72otTrp3767S/rLysXz58ipfKJA+zrNnzxTuHx8fj//++08QU6X4TFrLli0F2y9fvhRd/Msj/by7du2a2v3qQseOHQucll2arCVXpKdel6arXL916xbi4+MFsc8//1zlWVRcXV1VvnAGAJcuXRIsLQSo/jqXn/Rz88qVK2ofSxf69+8v2I6IiBA9N+SRntUDUG8JF+DD31P69bMgBgYGMi/4Kyq4kF7Or0yZMirNNpSfubk5GjVqJIhdvXpVrWMVpDi+V2ncuDG8vLxUalO7dm1RrKD3iNLLtwDAsGHDVOpXWWFhYaLzQ+vWrVUqgssjPXMOANFsSvpA1aIaIyMjVK9eXRBT93OAuk6dOiWYydHS0lLtGYcMDAxEsxaqc55X53UmPDxc9H6rMN9L3bp1S+5SaLLOo+oUWPn7+6tVTEdEpGss9iAiIiIiIiomvLy80Lt3b0EsOjoamzdv1s2AilCDBg1UbuPu7i7YtrCwEH1hWxAPDw9RLP90+apQdkp/abJmM7h586bMfe/fv4+EhARBTJ075vLY29uLimaUmQUhP+m7QYtKTEwMXrx4IYg1btxYrZkRTE1N0bp1a0EsNTUV4eHhmgyxRPP29lZpVg8AMu/GVefcIJ3XWVlZohk08gsJCRHNDqDMklLylClTRhSTN426dOHDH3/8gR07dig9W4GuqVPoJWtWiuTkZLn76zLXZZ2L/fz8VO5X3XbSF+nc3Nxkvm4pS/q5+fLlS9HF4uKsS5cuorvdZRVxSEtJScGRI0cEMV9fX5Xu+s6vdevWSs82lJ+s13tFRQvSxRianJcA8d9f1dd7ZRXH9yrqnKucnJxgaWkpiCk6V+Xm5or+Zm5ubmoX6BTk+vXropj00jPKatOmjWimGlnHL868vLzUKnSRLgJS93OAuqSfM1WqVFF7xiFAnOfqLOMiXRimDOnXKyMjI5nFncqS/jnS09Px+PFjmftKn0fLly+v1vnd3t5erZ+diEjXjHU9ACIiIiIiIvqfMWPG4ODBg4ILkxs2bECfPn2UWnNYX5UtW1blNvmnIwc+XCg2NlbtY670MQD1vuQ1NjZGlSpVVG4HyJ7N4M6dO6JlfQDZd/3Pnj1breUB8rx//16wHRcXp1J7WeMvCrKm2ZaeIl8VNWrUQFBQkCB29+5dlQuI6ANV76AGZOdjYR0nOTlZZhyQfUFr3LhxKs02VBB5eRUQECCYKj83NxezZs3Crl27EBAQgNatW4umZC9O1BmbrJlAFJ13dZnr0n0bGRmpfa5X51wi/dxMTEwUTW2vClkzhcXFxcHW1lbtYxYlc3NzdO/eHZs2bZLEzpw5g6ioKIUXeY8cOSIq+FJ3Vg9A/eefo6Mj3N3dBbN3yVsyIjk5WbS80cWLFzX6+8fExAi2VX29V1ZxfK+i7nnU2tpakDeKzlXPnz9HbGysIKZpgY4ihXluNDU1ReXKlQXLCj169AgZGRka/d2KkjqfJQCICokUFfRog/R5/tGjRxrluXShVVJSEjIzM5WescLJyUmtohnpn0PebEbKyszMFMVk5X1aWppodjBN3rtXr14dFy5cULs9EZEusNiDiIiIiIioGHF0dMSQIUOwcuVKSSwlJQWrV69WeQ1ufaLOhSbpLy0L4xgABFMpK8vd3V3lJVzylC9fXhR79+6dzH2joqJEsYKWP1CV9JIFBXFycirU/pUl6wtfde/SBoAKFSoo1QcpR518lFWspc6a9bKOI+uiQR5ZeSV9kVVT8p5Lbdu2Rdu2bUVr0T98+BALFy7EwoUL4e7ujvr166NmzZqoW7cuqlevrnJhm7ao8/eRdeFQ0XlXl7kufS4uXbq02ud6b29vGBkZqbQ81Js3bwTbaWlphT7jUHx8vNoXSXWhX79+2Lx5M3JycgB8eO7s3bsX48aNk9tm9+7dgm1nZ2eZs2woq1y5cmq3LV++vKDYIzY2Frm5uaLisujoaMnPmOfdu3dy3x+oQ9XXe2UVx/cq6pyrAPH7REXnKuliGuDDcn3aIn3eMjExUatAMk+FChUExR45OTlISEiAi4uL2scsSur+jaVfT9X5HKCujIwMUYFQYmJioc+4lJCQAGdnZ6X2Vfd9vXTeZ2VlaeX1SlreOTQ/Tc/RRET6hsu4EBERERERFTNDhgwRfSG3e/du0TT2H5PCWB9Zl2ssS98VqGlbeXeOauvCTH7p6ekq7S/rLv2iIH3nIqBegUEeWRcJiuL3/bEqrHwsiqIGXefV4sWL0blzZ7mPv379Gn/++Sfmz5+PXr16oWHDhhg7diyOHTsmd/36olIUfx9d5rr0uViTc72BgYHc2WXkkfWzFzbpGROKO09PTzRr1kwQ27dvn9wLtDdu3BBdcOzRo4dG5yhNXvek2+bk5MhcZkrX5yVNFMex6+pcpW4BgjKkCwI0OT8Bss+rRXEOKiy6/BygrqJ6n6nKeV7d81tRFEjL+jlkfWbSJBd09bmGiEgTLPYgIiIiIiIqZiwtLTFmzBhBLDMzE8uWLdPNgKhAmqytbWlpKbqjV9aFH6B4fuluZGSkk35l/Y40+TvIaivv70AfF13nlYWFBX755Rds2rQJvr6+BS4fk5qaipMnT2LixIlo27Ytdu/eLbqr9WOiy1yXjmvSr6rt09LSdF7MU1z1799fsB0VFYUzZ87I3HfXrl2CbUNDQ/Tu3Vuj/i0tLQu1raznX2Hf2V+UdH1O1RVZy39o8lwpSFGcn/g+SLuKY56rWxilq59FVt5p+rmMiEjfFI85H4mIiIiIiEigV69e2LJlC549eyaJHT16FEOGDNFoHWLSjrS0NLXbpqamii7Uyrv729zcXBS7evWqRne56ytZvyNN/g6y2qp6Fz7pJ+m8srW1xdWrV4t8HJ988gk++eQTvHz5Ev/88w+uXLmC69ev4+3bt3LbREVFYfr06fjnn3+wYsUKmUuk6Dtd5rp0XJN+VW1vZmYGQ0NDwVIebdu2xapVqzQaw8egefPmKFu2LCIiIiSxXbt2iZZmiYuLw/HjxwWxFi1aoHTp0hr1n5qaWqhtZT3/ZC0X9P333+OLL75Qu++iUlLfq8iaEUCT50pBiuL8xPdB2iUrz7/44gt8//33OhiNZqTzvmrVqjh06JDW+5WVd5p+LiMi0jec2YOIiIiIiKgYMjY2xsSJEwWx3NxcLF68WEcjEsvMzNT1EIoNecuuqNtW3vTDDg4OotjLly/V7lufyZoaXZO7CmW1tbe3V/t4pD+k8yoxMVGnd9t6eHigf//+WL58Oc6fP48zZ87g559/Ru/evVGqVCmZbc6cOYNZs2YV8UiLhi5zXfpcrMm5Pjc3V6W75A0NDUUXxyMjI9Xu/2NiYGCAfv36CWIXL14UFH8AQFBQkGi5j759+2rcv6w7ydVta2hoKPOCuqzXe335+5fU9yqyziPanOVE+vygyflJXnttLkOTR94STCWBPue5NOmfpah+DlWWw1SGJud3IiJdYbEHERERERFRMdWhQwfUqlVLELt48SL+/fdfjY4ra3pedb5oLap1pvXB69evVV4/Ps/Tp09FMScnJ5n7yorfv39frX71nawvyB8/fqz28R49eqRUH/TxKe55Vbp0aXz++eeYNWsWzp49i61bt+LTTz8V7bd//348fPhQByPULl3muvRzQ5Nz/bNnz5Cdna1SG+n+nz17xqVd/l9AQIBgqv7c3Fzs3r1bsL13715BGw8PDzRr1kzjvmW9bqvb1tHRUebSTc7OzqJYcTovKVLcz6na4uLiIopp8+d2dHQUbGdmZuL58+dqH0/63GhoaKiw2EP684S6ReAl+fOEtbW1aEYMfc0V6bxPSkrCq1evtN6vrHOoJufoJ0+eaDokIqIix2IPIiIiIiKiYuy7774TxRYvXixa9kMVsqa7VecuJuk7aEuyrKwstb+cvXPnjigmb6ke6eIfADh37pxa/eo7Wb+j27dvq328sLAwpfqgj4++5VWjRo2wceNG9O7dWxDPzc3FyZMndTQq7dFlrkvHs7KyEB4erla/ss71BZF+br5//x6XL19Wq/+Pja2tLbp06SKI5Z/J4+LFi4Kl8ACgT58+MDTU/Otwdf6WABAbGyu6+Cnvuefk5AQPDw9B7Pr163px17m+nVMLi6enp6hI58aNG1rrr1q1aqKYuufGjIwM0fvYihUrKlwaTPrzhCozF+VX0j9PSOdLZGSkXhYc6CrvLSwsUL58eUFM3XO0pm2JiHSFxR5ERERERETFmK+vL1q0aCGI3b17F3/++afax5S1ZvqLFy9UPs7Vq1fVHsPH6NSpU2q1k3Vxtk6dOjL3rVu3LiwtLQWxf/75R6vThBdXzs7O8PT0FMQuX76s1h2iGRkZCA4OFsQsLS1RuXJlTYZYJIyMjEQxVWcPKOk++eQTUezYsWPFfmr5iRMniv7++npHsCK6zHVZ52J1C2r+/vtvlds0bdpUFDty5Iha/euC9POzsM9N/fv3F2zHx8fjr7/+AgDs2rVL8JiJiQm6d+9eKP0GBwcjJydH5Xaynju1a9eWu7/03z8zM1Py8xVnJfm9SsOGDQXbb9++xaVLl7TSV7169USx48ePq3WsM2fOiGYtqlu3rsI20stnREZGqlWMro+fJ2TNkqju+U3fz/N5dPlzSJ9Hnzx5otYMYAkJCbhy5UphDYuIqMiw2IOIiIiIiKiY++abb0R3oi5btkzt6ZLLlSsnioWGhqp0jOzsbBw4cECt/j9Whw8fVnl6/YcPH4ru+qxYsSLc3d1l7m9qaiqagj4lJQWbNm1SbbAfCemlLDIyMhAUFKTycY4dOya6cNy4cWOZhRTFjZWVlSiWmpqqg5HoLzc3N9Hd9ZGRkTh48KCORqQcBwcH0TT++nDXvzp0leu1a9eGvb29IHb48GGVl3KJjo7GmTNnVGoDfPi5zczMBLGjR4/qzV3f0uenwj43ValSBQ0aNBDEdu/ejaioKNHvu3379nKXSFNVVFSUWnes79+/XxRr3ry53P3btGkjiq1du7bYL+VTkt+rtGvXThTbsGGDVvqqVauWqID7zJkziIqKUvlYO3fuFMVkLReWn/TnidTUVJnLZCny33//6eXMHoX53qt169ai2LZt2/RueZvatWuLZra5du0aLl68qPW+ZZ1H9+3bp/JxDh48WOzPr0REsrDYg4iIiIiIqJirXLkyunbtKohFRkaK7lpVlpOTE0qVKiWIHT9+XKU70nbs2KHWbCAfszdv3mD9+vUqtZkzZ44o1qdPH4VtRo4cKYpt3LgRISEhKvX9MZC+qxsAVq9ejbdv3yp9jOTkZCxevFgUHzhwoEZjKyp2dnaiGHNTdaNGjRLFFi5cqNG679qWnp4uulPewcFBR6PRLl3luqmpKfz9/QWxt2/fYt26dUr3C3x4LqlzAcnR0RG9evUSxLKzs/Htt9/i/fv3Kh+vqElfiE5MTCz02R2knxs3btzAnDlzRDPz9O3bt1D7XbhwoUpFt4cOHRIV1lavXh01a9aU26Zly5aoWrWqIBYZGYm5c+eqNlgdKKnvVTp06CCaiejChQvYu3dvofdlamqKHj16CGIZGRmYN2+eSsc5fvw4/vvvP0HMw8NDZhFCfjVq1BDFVJl5MDMzE7/88ovS+xcnVlZWotk91H3vVblyZdHvOjk5GZMmTVJrBiFdMTY2xvDhw0XxadOmITY2Vqt9t23bVlRosn37dpUKI2NjY7F69erCHhoRUZFgsQcREREREZEemDBhguju3hMnTqh9POk7oF69eoUtW7Yo1fbSpUv4+eef1e77Y7ZmzRqcPXtWqX2XLl0q+nLdzs5OVNgjrVq1amjfvr0glpmZibFjx6o9FXZGRgb27NmDzZs3q9VeVypWrCi68zQpKQljx45VaoaDjIwMjB8/HtHR0YJ45cqVZU5HXRxVqlRJFFP2OUj/065dO9GFq6SkJAwfPhwPHz5U65jJycnYsGEDDh8+LPPxiIgIrFq1Su2LILt37xYVEFSpUkWtYxV3usz1vn37wsTERBBbu3at0jN1bN26FX/88YdS+8ry5ZdfipbEuHPnDsaMGaN24cTLly8xe/ZsPHjwQO1xKUPW8jiFfX7y8/ODq6urICa9ZE6FChVEM4Bo6smTJ5g2bZpSy1bcuXMHs2fPFsUDAwMVtjMwMMCECRNE8d27d+OXX35R+0LwjRs38M0336jVVlkl9b2KkZGRzEKX2bNn49ixYyofLzk5WeEMDwMGDBCdn44fP670bCJ3797FDz/8IIoHBgYWOLtZ3bp1RUu5bN26FS9fviyw35ycHMyePVvlmQWLC0NDQ/j4+AhiFy5cUDsnJ0yYIPp9nz17FlOnTlV5Jqk8Dx8+xKRJk4p0+aS+ffuKbih49eoVhg0bhjdv3qh1zNjYWCxduhT//vuv3H1MTExEBX2ZmZkYP3484uLiCuwjLS0NY8eOLRFLTRHRx4nFHkRERERERHrA3d1d5p3N6urZs6cotnjxYuzevVvuhYv09HSsW7cOw4cPR0ZGhqj4pCTL+11kZmZi3Lhx2Lx5s9wvfJOSkvDjjz9i7dq1osemTp0q+uJclpkzZ6JMmTKCWFxcHAYNGoSFCxeKLmjKc+vWLSxYsACtW7fGTz/9hOfPnyvVrjiZPn26aDrtW7duYcCAAbhz547cdo8fP0ZgYKDoy2MTExO9uGs6T8WKFWFtbS2IrVu3DkFBQXpx539xsmTJEtGSHS9evECvXr2wZs0aJCUlFXiMnJwc/Pfff/jpp5/QqlUr/Pzzz4iJiZG5b2pqKlasWIGWLVvi22+/xcmTJ5X6m2VkZGDjxo2iojsjIyN06tSpwPb6Sle5XrZsWXz55ZeCWFZWFsaPH4+NGzfKnRUrLS0NCxYskNxlb2BgAFNT0wL7k+bi4oIFCxbAwMBAEL9w4QICAgJw+PBh0SwWsqSmpuLYsWMYO3Ys/Pz8sH37drUvIiqrdu3aomXoFi5ciFOnTqm9FJ00Y2Nj9O7dW+E+hT2rR95r/uHDhzF69GiFM8wcOXIEgwcPFhUlNWrUqMDiTgBo1aqVzNln1q1bh8DAQKULJ96+fYtt27ahT58+6NOnD4KDg5Vqp4mS+l6lR48eokKXjIwMfP311/jpp5+UWmbl4cOHWLx4MVq2bIn79+/L3c/Dw0NmQdDPP/+MmTNnKiyGO3ToEAYNGiR6batVqxYGDBhQ4BjNzc3RuXNnQSw1NRWDBw9WuJxLREQERo4ciT179gCA3n6eqFu3rmD76dOnmDZtmlLFLtKqVKmC7777ThQ/dOgQevXqheDgYKUKyxISErB//34MGTIEXbp0weHDh1WauVFTZmZmWLZsmei17s6dO/D398f27duVfp9z5swZTJo0Ca1atcLatWsLfA82fPhw0dJCDx8+RL9+/XDz5k257R48eICBAwfi2rVrAD48r4mI9I1xwbsQERERERFRcTBy5Ejs378fiYmJGh+rVq1aaNOmDU6fPi2JZWdnY/r06dixYwfatWsHLy8vmJqaIjY2Fnfu3MHZs2fx7t07yf7ff/89pk+frvFYPga1a9eGhYUFzp49i/T0dMyfPx9btmyBn58fypcvDxsbG8TGxiIsLAynT5+W+YVl69atRcsFyOPg4IA1a9agX79+gmNlZWVh06ZN2LZtG+rWrYsGDRqgVKlSsLW1RUZGBpKSkhAdHY27d+/i9u3bWp9WuSh4eXnhp59+wuTJkwXxe/fuoUePHqhXrx6aNWuGUqVKwcjICFFRUbh06RL+++8/mRdIJ06cqHBa/eLGxMQEn3/+OXbu3CmJpaamYurUqfjhhx9QqlQpWFlZiS64jh8/Hm3atCnq4RZrZcuWxbJlyzB8+HDBhejU1FQsW7YM69atQ7169VCvXj24urrCxsYG79+/R2JiIl6/fo27d+/i7t27Kp+j09PT8ccff+CPP/6Aubk5qlatiqpVq6Js2bKwtbWFlZUVMjIyEBMTg/DwcJw/f15wLs4zfPhwuLu7a/x7KK50mesjR47EmTNnBEUlGRkZWLRoEbZu3Qo/Pz/4+PjA1tYWcXFxuHv3Lk6dOiW4I79///44c+aMWhcC27dvj/Hjx2P58uWCeGRkJCZNmoRFixbB19cXNWrUgKOjIywsLJCcnIykpCRERETg9u3buH//vlpLyWjC1dUVzZo1E8zmERMTgzFjxsDExATu7u6wsLAQFbLMmTNHpfNw7969sXbtWpkFJJaWlkoVVahi/PjxkmKr4OBgXLx4ES1atJCcG1JTU/H8+XOcPHlS5jICtra2mDt3rujnlmfq1Kl4+vQpLly4IIhfvXoVAwYMQLly5eDr64uKFSvCzs4OxsbGSEpKQkJCAh4+fIg7d+7g6dOnRb4kREl+rzJv3jw8fvxYUPSQm5uLPXv2ICgoCHXr1kWjRo3g6uoKW1tbpKWlIS4uDvfv38fNmzfx7NkzpfsaOnQoLl68iIsXLwriO3fuxB9//IHWrVujZs2acHJyQkpKCiIiInDy5EmZfdjY2GDx4sWiJUrk+fLLL/HHH38IikoiIiLQtWtXtGrVCr6+vnB2dkZGRgaioqJw+fJlXL58WXJOdnBwQGBgoOjcpg+6d++O3bt3C2JBQUEICgqCo6MjHB0dRb/HGjVqyC0yzCuS2b9/vyAeHh6OUaNGoXTp0mjUqBGqVKkCe3t7mJmZITk5GQkJCXjy5Anu3LmDR48eKVX8p01169bF7NmzMWXKFEGBSmxsLGbPno3ly5ejYcOGqFOnDhwdHWFtbY3U1FQkJibi5cuXuHPnDu7du4fU1FSV+jUzM8P8+fMxcOBAwWvBkydP0KdPH9StWxctWrRAqVKlYGhoiKioKPz777+4cuWKpCDGyMgIY8aM0dvlhYio5GKxBxERERERkZ6ws7PDiBEjsHjx4kI53syZMxEWFia6I/XBgwcFTu0+dOhQ9OnTh8Ue+SxatAh9+vTB06dPAXyYtljZqcabNGmCpUuXqtRfpUqVsH//fowbN07098rMzMSVK1dw5coVlY6pr7p164asrCxMnz5d8CV3Tk4OQkJCEBISUuAxDAwM8PXXX2Po0KHaHKpWjB49GidPnhTdJZ2dnS33wjKnqpatSZMm2LlzJ8aPH4/Xr18LHktNTcWFCxdEF1wL0/v373Hjxg3cuHFDpXYdO3bE2LFjtTSq4kNXuW5iYoINGzbgiy++EJ1v37x5g61btyps36BBA0yePFnppV9kGT16NFxdXTFr1izRjBwxMTE4duyYWstEaNukSZNw9epV0YW7zMxMuTM0qHqRz8XFBX5+fjh69Kjosc6dOys1Y5YqOnTogNjYWGzcuBHAh7w9ceKEUsvr2djYYOPGjfD09FS6PyMjI6xduxYLFizA9u3bRY8/ffpU8t6juCmp71Wsra2xc+dOTJgwAZcuXRI8Vtg/t6GhIVavXo2JEyeKzjFJSUk4fPiw3OXE8nN1dcX69etRtmxZpft2d3fHDz/8gClTpgjiWVlZOHnyJE6ePCm3raWlJX777Tc8fvxY6f6Kk1q1aiEgIABBQUGix2JjY2UWKdna2io85pw5c1CmTBmsWLFCVJz16tUrHDx4ULNBF5Fu3brB3t5e5jIyiYmJOH36tOCGg8JSt25drFy5EuPGjRMUfOTm5uL69eu4fv26wvY//PCDaHkeIiJ9wGVciIiIiIiI9EhgYKBoLWR1ubi4YOfOnSp9qWtiYoLJkydj0qRJhTKGj4m9vT127Nghmta5IN27d8fatWvVmjbY29sbe/fuxeDBg2Fpaaly+/xq1KiBFi1aaHQMXerRowfWr18Pb29vldu6u7tjxYoVGDFiROEPrAi4uLhgy5YtqF69uq6H8lGoVasWgoKCEBAQABMTE7WPY2BgAF9fXzRo0EDm4+bm5qJlSVRlaWmJb775BkuWLNForPpEV7nu6OiILVu2oHXr1iq18/Pzw4YNG9RawkVajx49sGfPHjRu3Fij45iZmaFTp04oXbq0xmMqSIUKFbBp0yaV3muoQ95Sd3369NFKf5MmTcK4ceNgZGSkdJuKFStiy5YtqFWrlsr9mZiY4Mcff8Ty5cvVeu7n5+TkVOhL2yhSUt+r2NnZYcOGDRg3bpza53ozMzPRUm2yWFhYYNWqVRg1apRa7yebNWuGPXv2oEqVKiq39ff3x7x585SeDQQAPD09sWvXLtSuXVvl/oqTmTNnIjAwUDR7mroMDAwwatQo/P7776hRo4ZGx7K2tkbPnj01fp+hrpYtW+LAgQNo166d0rMYyWJsbIxWrVqhcuXKSu3fqlUrrFu3TqWZzszNzTF37lz069dP3WESEekUZ/YgIiIiIiLSI2ZmZhg/fjy+//77Qjmep6cnjhw5gi1btmDbtm1y1083MTFBu3btMGbMGFSoUKFQ+v4YOTk5YefOndi/fz82b94s925FY2NjNG7cGCNGjECjRo006tPCwgJTpkzBiBEjsHPnTpw5cwb37t0rcI1uMzMz1K1bF02bNkWbNm0+ir9r06ZNcfToURw4cACHDh3CrVu35P4eDAwMUK1aNXTp0gX9+vXT2zXj8/j4+ODAgQMICQnByZMnER4ejoiICCQnJyMtLa1I12z/GDg6OmL+/PkYN24ctm3bhvPnz+PRo0eCKcllsbKyQsOGDdGkSRO0a9cOHh4ecvctV64c/vvvP1y9ehXnz5/H9evXcffuXZlLUUjz8fFBx44d0bt3b7i4uKj88+k7XeW6o6Mj1qxZg7///hubN2/G9evX5T4nateujWHDhsHPz0/t/mSpWrUqtmzZglu3bmHnzp3477//8ObNmwLbubi4oEmTJvjkk0/Qpk2bQp/tQpG6devir7/+woULF/DPP//g/v37ePHiBZKTk/H+/ftCWV6kSpUqMDExEeRP7dq1tVoEN3bsWLRs2RKrV6/GuXPn5OZuuXLl0KNHD3zxxRcaF2V16NABfn5+OH78OI4cOYKQkBCZS8NJ8/HxQdOmTdGsWTN88sknKl2YLwwl9b2KsbExxo4di/79+2Pr1q04ffo0Hjx4oPC1xMTEBHXr1kWbNm0kMyQow8jICF999RX69u2L9evXIzg4WOGyUZaWlmjSpAkCAwM1LiDr3r076tWrh2XLliE4OFjuklGurq7o27cvBg8eDAsLC436LA5MTU0xbdo0DBkyBEePHsWtW7fw8OFDxMXFISUlRanXc1kaN26MAwcO4Pz589i/fz+uXLmi1HJGZcqUQZMmTfDpp5+iZcuWahX+FCZPT0/8+uuvePz4MbZu3YqLFy/KndEpP3t7ezRq1AhNmzZF27Zt4ezsrFK/ee8R1q1bh8OHD4tmastjbm6Ozz77DKNHj4aXl5dKfRARFScGuQV9SiUiIiIiIqISIzw8HOHh4YiPj0daWhpsbGxQrlw51KlTR2d3humziIgI3LlzB2/evEF6ejocHBzg5uaGOnXqwMHBQWv9JiUlISwsDO/evUN8fDySkpIkswi4urqiXLly8PT0VOmOZH2UmJiImzdv4t27d4iNjUV2djYcHR3h7OwsWb+eSFmxsbG4ffs2YmNjER8fj9TUVFhaWsLKygpubm4oX748PDw8NLqDNSMjAxEREXj+/Dnevn2LlJQUZGRkwMLCAtbW1ihTpgwqV64MR0fHQvzJ9J+ucj0qKgqhoaF4+/YtEhISYGlpCQ8PD9SqVQtubm5a6VOWiIgIPHr0CPHx8YiPj0dmZiYsLS1hY2ODMmXKoHz58h/9+W7Pnj346aefBLEFCxbA399fo+MGBQVh6tSpgtjp06dRpkwZQSw5ORk3b97Es2fPkJycDHNzc7i6uqJChQqoVKmSRmNQJDs7G+Hh4YiMjJT8/Q0MDGBlZQU7OzuULVsW5cuXL5bv4Urqe5Xo6GjcvXsX7969Q1xcnCRfHRwcUK5cOfj4+BRaIcSTJ0/w6NEjyeuWhYUFHB0d4e7ujlq1ahXKjEPS0tLScP36dbx69QpxcXEAAGdnZ1SpUgVVq1bV6DWypMrNzcWjR4/w7NkzxMfHIy4uDrm5ubCysoKNjQ28vLxQvnx52NnZ6XqoBXrz5g3Cw8MRFxeH+Ph4vH//HpaWlrC2tkbp0qVRvnz5Qn39zM3NRVhYGJ49e4bo6GhkZmbCzs4O5cuXR+3atXVeEENEVBhY7EFEREREREREREREeisgIAB37tyRbNvZ2eHcuXMaX8hTttiDiIiIiEgXCmcxMSIiIiIiIiIiIiKiInb9+nVBoQfwYVkJ3rFNRERERB87FnsQERERERERERERkV5au3atYNvQ0BD9+/fX0WiIiIiIiIoOiz2IiIiIiIiIiIiISO8EBwfj7Nmzgli7du24zAoRERERlQjGuh4AEREREREREREREZGyMjMzERQUhIULFwriRkZGGD9+vI5GRURERERUtFjsQURERERERERERETF1q5du7B7924AQGpqKl6/fo3MzEzRfn369EGFChWKenhERERERDrBYg8iIiIiIiIiIiIiKrZiYmIQHh6ucB8fHx98++23RTQiIiIiIiLdM9T1AIiIiIiIiIiIiIiI1FW9enX8/vvvsLS01PVQiIiIiP6vvTuoYSCGASCYShcAh+OI5BH+dFIKfbVadQaB39bKhq9x2QMAAAAAgIw557jvezzPM9ZaY+89rsuqGwCA//I655xfDwEAAAAAAAAAwGe8cQEAAAAAAAAACBF7AAAAAAAAAACEiD0AAAAAAAAAAELEHgAAAAAAAAAAIWIPAAAAAAAAAIAQsQcAAAAAAAAAQIjYAwAAAAAAAAAgROwBAAAAAAAAABAi9gAAAAAAAAAACBF7AAAAAAAAAACEiD0AAAAAAAAAAELEHgAAAAAAAAAAIWIPAAAAAAAAAIAQsQcAAAAAAAAAQIjYAwAAAAAAAAAgROwBAAAAAAAAABAi9gAAAAAAAAAACBF7AAAAAAAAAACEiD0AAAAAAAAAAELEHgAAAAAAAAAAIWIPAAAAAAAAAIAQsQcAAAAAAAAAQIjYAwAAAAAAAAAgROwBAAAAAAAAABAi9gAAAAAAAAAACBF7AAAAAAAAAACEiD0AAAAAAAAAAELEHgAAAAAAAAAAIWIPAAAAAAAAAICQN4twblit0EOTAAAAAElFTkSuQmCC\n", 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" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], @@ -1541,7 +6371,7 @@ }, { "cell_type": "code", - "execution_count": 26, + "execution_count": 42, "metadata": {}, "outputs": [], "source": [ @@ -1553,19 +6383,17 @@ }, { "cell_type": "code", - "execution_count": 27, + "execution_count": 43, "metadata": {}, "outputs": [ { "data": { - "image/png": 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//feqW7dupu3+97//6bPPPrOZYWHgwIEaNGhQlv2aPc9FRkaqS5cuVvtyz5499frrr2c7HWNSUpKWLFmi48eP64033siyriPu1mPlzJkzeuKJJwyBeS4uLho8eLD69u2b7XRPN27c0G+//aaUlBS98MILNuskJSWpR48e2rNnT3pZYGCgPvnkEz3yyCNZrn/OnDn66KOPDO/Hu+++q+effz7TNps3b9Zzzz1n87VmzZppzJgxCggIsPn60aNH9dJLL1ntZz/99JOaNm2a5Vidce1OSUnRM888o127dhnKn3vuOb355puZfh579+5V//79DRlAXVxcNGnSpCzHffbsWbVq1crmay1bttTo0aOzDKDLay5duqRmzZpZlfds95B8vDxzYUQAgHuRl4+vBrw31inr6tq1q/bt22co++STTxzKfPbuu+/q999/typ/+OGH9cMPP5ha16VLl9SiRQvD7yhubm7asmWLfHx8TI8NAAAAAICMMvstd/369QoKCsqFEd0ZTLsJAHlQpUqVMv1Xs2ZNtWrVSoMGDdKSJUsMP5jWrVtXs2bNsjvwbN26dYbAMzc3N40bNy7bwDPp5o3br776ypChZfbs2QoPDzexpY57/vnn1bZtW7sDz6SbY/7mm28MZZYZkfKa//znP4bAM0kaMGBAjgaeSVKNGjU0YMAAuwPPJKlYsWL66aefVKZMmfSyLVu26ODBg1m2i4+Pt3ryvEaNGho/fnymgWfSzafWJ0+enG1gjhkeHh6aMmWK3cE00s3PKGPwSP369TV58uQsg2kkydfXVxMmTDAEQcXFxel///uf6XG7u7vr559/zjLwTJJ69+6tJk2aGMoWLVqU7fq///57Q8BKkSJFNH369GwzLLq4uGjgwIF66aWXrNbniP79+2vgwIF2ZyWaMmWKIfAsX7582QaeSTfPL0OGDHFojI6YNGmSVUDQ4MGDNXLkSLv2b3d3dz3++OM5EniWmbvhWPnyyy+tMsKNGjVKr7zySraBZ5Lk5eWlXr16ZRp4Jt0MIMsYeObt7a2ff/4528AzSXrqqaessnf99NNPVtkF7XHrnJlZ4JkkVahQweY588svvzTdnyNWr15tFXj25JNPasSIEVl+HtWqVdPkyZPl5eWVXpaWlubwuOvXr6/x48ffVYFnAADcbQ4cOGAVeObt7a327ds7tD7L7Ma3WP5tY4+goCCr7GvJycnavXu3I0MDAAAAAAAi+AwA7gkPPPCApk6dqpkzZ6pcuXJ2t/vpp58My88++6yaN29ud/vmzZurXbt26cvx8fH67bff7G6fG5o2baqaNWumL+/fv1+XL1/OvQFlYfbs2VqxYoWhrHbt2urcuXMujSh73t7e6t27t6Hsr7/+yrLN0qVLrQKEPvroI5tTuFoqW7ZstlmozHj55ZetMvxkZdOmTdq7d2/6sre3t8aMGWNXYIt0M+Dzo48+MgRxzp071zA1nj1eeuklVatWza66llmVDh8+nOXUgtHR0ZozZ46h7MMPPzSV9Wjw4MGGAKO9e/daBaFkp2zZsnr11Vftrp+YmGiVIe7pp5/ONvDslr59+6pixYqmxuiI6Oho/frrr4ayxo0b65VXXsnxvm9HXj9WTp06ZXX+fOqpp0xPa5uVlJQUTZkyxVA2ZMgQu49F6eY+mfGadPnyZf3555+mxnG758z9+/crLCzMVJ+OsMyCGRQUlGmGQ0sVK1a0Oib2799vmE7bHm5ubvrkk09MBa4DAADz5s6da1XWrl07hzOLFS1a1GZ5lSpVHFrfAw88YFWWV38XAAAAAADgbkDwGQDcA/bv369+/frp3Xff1YULF+xqc/z4cW3dujV92dXV1So7kT2efvppw/I///xjeh13Wo0aNQzLefEJ5x07dujjjz82lHl7e2vUqFE5nvXsdllmQsouyGjJkiWG5caNG5u6idCjRw+nZD9zd3e3K+tfRpZBWV26dDGdMjckJMQQEBUdHW0qEMTd3V09e/a0u37Dhg0NgRcpKSk6cuRIpvWXLFliyL4XGhqa5ZSZmY3xiSeeMJSZPVf06NHD7kAlSdq2bZuuX79uKMtsukJb3Nzc9Oyzz9pd31ErVqywym44dOjQPH2c3w3HyoIFC5SSkpK+7O7ursGDB5vqLzv//POPzpw5k74cEBBg+n2Rbv866oxzpuV52NmuXbtmNXVrz549Td2Afu6556zGvXTpUlPjaNasmSE7JwAAcL6EhAQtXrzYqtyR6TZvyezBl8wyomXHVruIiAiH1gUAAAAAACQe+QaAPKhfv36ZvpaSkqKYmBidPXtW+/btS59SLCkpSb///rtWrVqlL774ItsMZps3bzYs165dW4ULFzY91po1a8rV1TX9Jv/u3buVnJycK1lFrly5ooMHD+rs2bOKiYlRbGyskpOTreplzL4jSceOHbNrirQ75fTp03r11Vetpl775JNPcvWmeXx8vA4fPqxjx44pMjJSMTExSkhIUFpamqFedHS0Yfn48eOZrjMtLc0wZZ0kdejQwdS4PD091bp1ay1YsMBUO0s1a9ZUoUKFTLWxDKZ49NFHHeq7Tp06hnXt2LHD7gxdVatWVcGCBe3uy8PDQyVLltTJkyfTyyyDtDKyPFfczjZmtH37dlPtW7VqZaq+ZVBppUqVTGWGlKS2bdvqgw8+MNXGLMv3t1q1aqpatWqO9nm77oZjxfJ9bdmypalphO1h2cfDDz9sKkDylts9NpxxzszpIOydO3dalXXs2NHUOvLnz69HH31U8+bNy3K9WTEbOAsAAMz7888/raY+r1ChgmrVquXwOkNCQmyWO/LdS7r5fchSQkKCQ+sCAAAAAAAEnwFAnjRs2DC76iUlJWnlypX6/PPPdfHiRUlSZGSkBg4cqB9//FEPPfRQpm0tp6qqXLmyQ2P18PBQQECAwsPDJUlxcXG6du2a6Yw2jrpy5Ypmz56tRYsWGYJpzMg45WNuu3Llinr37p3+ft4yaNAg0wEGzpCamqolS5ZowYIF+vfffw2ZhOyV1ft76tQpqxsTlpnp7FGjRo3bDj4zG/Bz8uRJXblyxVDm6LQvlkExp0+ftrutmakPb/H39zcsW2beysjyXOGsbcyYMSo7AQEBKlWqlKn+9u/fb1g2MxXiLYGBgQoODta5c+dMt7WXZaBR/fr1c6wvZ8nrx0piYqJVRrSceF9z6tg4e/asqfbOOGfu378/RwPHLT+PYsWKqXjx4qbXU7NmTUPw2aFDh5SQkGDzBrIteT2wEwCAe4GtKTe7det2W+ssW7as/Pz8rB50yurvmKzY+hvV0SxqAAAAAACA4DMAuKu5u7urffv2atiwoZ5++mmdOnXq/7F3n9FRld//9z+pkAKEUELvvXfpSJNelS6ICCoIiIAFEfWr8sMCSlNQpEiR3ot0kCZFem9KCQiEkoSQQOr9gJv8OTOTZM5kklDer7Vcy+vKucrMnHMmZPbsLenhB+8ffvihVq9erQwZMtgca/nh9qxZszRr1iyn7Cs4ODhVgs/mzp2rMWPGWP0B2qzExo8ePdrUXH369FGmTJkc2kdISIjeeOMNq6Ccbt26qX///g7NmRxnzpzRRx99pOPHjydrnsSe3+vXrxva7u7uprNTSQ9LQSaX2XPWVvCUswJcLAPyEuPIhyTp06c3tBP6ln9kZKRu3Lhh6HPWuWjmMTpyP7l165ahXaBAAdNzPBqXksFnls+vowFMqelJv1bu3LljlTkyJZ5Xy/fRUaNGadSoUcmeNyoqSmFhYXaVE3bWPfPBgwcKCQkxndHOXpbBh47es4sVK2Zox8TE6Pbt23YHsqVWYDwAAM+ry5cvW2W89fDwUJs2bZI1r4uLi6pUqaItW7YY+gMDAx36Pc/W7/dmskkDAAAAAAAjgs8A4Bng7++vL7/8Uj169Ijvu379uubOnas333zT5pjg4OAU209yg8Hs8dNPP2ncuHFOmcsySOFxU6ZMMTVX586dHQo+Cw8P11tvvaXTp08b+lu1aqURI0aYni+5Tp06pddee80p50liz6/lueLr6ytXV1fTa1hm8nJEQoGaCUnJa8hMNj4PD48U20di5TiTy8xjtCcIJ6n5fXx8TM/h6Nr2CgsLs7o+noaMC0/6tWLrvE2J5zWl30ftOfecec9MyeAzy9fJ0SBtW+NCQkLsDj4ze+4CAABzFi1apLi4OENfw4YNnRLY9eKLL1oFnx04cECNGzc2NU9sbKzNkuNPw5dAAAAAAAB4UhF8BgDPiBdeeEEFChQwlJ5ctmxZgsFnKVlq0pHSjGbs3bvXZuDZCy+8oDp16qhMmTLKmTOn/P39lS5dOqtyXBMmTNDEiRNTdI9mREZGql+/fjp48KChv0GDBvr666/l4uKSqvuJiorSu+++axVYkStXLjVt2lQVK1ZU3rx5FRAQoPTp0yt9+vSG4IfAwEA1bNjQrrXu3btnaFtm5LKXl5eXQ+Me5+bmZur4lLyGYmNjU2xuM1IykNTMY3SkFGBkZKSh7enpaXqO5Iyzh+X5L0ne3t4ptp6zPOnXiq3n1dHgw4REREQkGlibXPa+jzrznhkeHu7QXPawfE0cvWfbuj5svd4JSamyogAA4OHvL0uXLrXqT27JzUeaNm2qr776yvA72OrVqzVkyBBT7/Fbt261+rdu3rx5lSdPHqfsEwAAAACA5xF/fQeAZ0jFihUNwWfnz59XcHCwzYwvlh9Y161bV8WLF3fKPnLlyuWUeRJiWQozW7ZsGj9+vCpVqmTX+IiIiJTYlkOio6M1cOBA/fXXX4b+6tWra9y4cWnyQfmiRYsM55EkDRw4UG+//bZdQSf379+3ey3LgBAzYx+XFq+p5TXk4+Ojrl27OmXuvHnzOmWe5LIM3JSkTp06OSXTXEqzzBplJkDlcWFhYc7Yjk22AqJSMgAoraT2tWIrY5ijr39C0qVLJ1dXV0PwW4sWLZz2/mdvhi5n3jNTMvDR8lx39J5t6/pwdmAhAABwzPbt23X9+nV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Dhw7VtGnTDJnlUtLevXsNwTv16tVTy5YtVb58efn7++vu3bu6ePGi/vjjD6vsihs2bND7779v6HNzc1OjRo3UuHFjlSlTJj7D3bVr17R7927NmjXLUL521apVKliwoPr375/kXo8fP64333zT8OGkJPn7+6t9+/aqXbu28ubNKz8/P92/f183b97UiRMntG/fPm3atCnJAGXpYTBv9+7drUpUFi1aVC+//LIqV66sHDlyyNvbW8HBwTpy5IhWrFgRfx1JD8+5AQMGaNGiRUqfPn2Saz5u+PDh8WtnyJBB3bp1U8OGDZU7d265uLgoMDBQGzdu1Jw5cwyZPM+ePat3331XM2fOtJlJrnPnzvHn5ty5cw1jW7ZsafXh7eMSurek9T165MiR8WVKvb291blzZ7344ovKnz+/fHx8dOPGDR09etRqfwAAwLzQ0FCtX7/eqr9Dhw6m50osuL969er65ptvksyMW7hwYU2ZMkXt27c3fAnm6tWrWrFihV5++WXT+wIAAAAAAA8RfAYAeG6UK1dO8+fPN/RdvHgxweCz6Ohoq2A1y+xpKens2bP6448/DH3Vq1d3uExa8eLFDcFnR48eTdb+kvL5558bghUk6e2339bAgQMNASkZMmRQnjx51KhRI61bt05Dhw5VZGRkfCCaGZ999pkhYEmSmjVrpq+++srqG/DZsmVT5cqV1bVrV/Xt21fnz5+P/9mWLVs0f/58derUydT6j4JJ8uTJo19++cUqAMnPz08lS5ZU165dNXjwYEO2qwsXLmjixIkaMmRIomvkypVLw4cPV9u2bZUxY0abx3h7e8vf319FihRRixYtdP78eQ0YMCD+Md69e1c//fSTRo0aZerxPf4YK1eurIkTJ8rf39/w81KlSqlUqVJq0KCBXnvttfjSNtHR0Zo8ebIOHz6smJgYZcuWTT///LNKly5tGO/r66uuXbuqadOm6tKliy5cuBD/s99++y1Vgs/27NkjSUqXLp2+/vprNW/e3PDzDBkyKFu2bKpRo4bq1aunIUOGxGfHioqK0pw5c/Tpp58mukZUVJTee+89Q+CZn5+fvvrqKzVu3NjqeF9fX+XPn1/t2rXTggUL9MUXX8RnaPjrr780a9Ysvfbaa8l63PZ6lEHMy8tLP/zwg+rXr2/4eYYMGZQrVy6re2tgYKA+/vhjQ1+xYsU0ZswYm/dWPz8/lShRQl27dtVXX31luH//9NNPevHFF1WmTJkE9xkSEqIBAwZYBZ69+uqreu+996zuCb6+vsqaNatKlCih9u3bKyoqSqtXr04yQ9uwYcMMgWfp06fXRx99pC5dulgd6+vrqzx58qh58+bavHmzhg4dqnv37kl6eM///vvvrZ6jpDy6JsuUKaOffvpJAQEBhp/7+/urXLly6tKli9555x0dP348/md79+7V/Pnz1blzZ6t533zzzfj/X7NmjeF+3rFjR6tyzvZI63v0o3O3fPnymjhxolWp0wwZMtgVOAoAAJK2cuVKqy8ilS9fXkWLFjU9l7u77T9hu7q66quvvrK7JHvRokX1xhtvaNKkSYb+BQsWEHwGAAAAAEAyUHYTAPDcsPyQWZLVh+CPO3funFVZwCJFijh9X7bExMRo+PDhViXt+vXr5/Ccln/kfzwAwdkOHjxoyOojSd27d9d7771nlQnpcU2aNNE333zj0JonTpzQ2rVrDX116tTR6NGjrYIaHpc/f35Nnz5d2bJlM/SPHz/e7rKQj8uYMaOmT5+eaABDpkyZNHHiRKvAq+nTpydZBq9evXrq0aNHgoFnthQuXFgzZswwlF5dtWqVwyX3ihQpomnTplkFnj2ufPny6t27t6FvxYoVunjxory8vPTbb79ZPf7H+fv763//+5+h79y5c1YBoSlp7NixVoFnlpo3b26VvcGe0osLFiwwBIB6e3tr6tSpNgPPLHXs2FGffPKJoe/XX39N1XJBLi4umjhxolXgWWK+/fZbQ7BdkSJFNHv27CSDej09PfXFF1+oRYsW8X0xMTH65ZdfEh03ZcoUq2xkAwcO1IgRIxK9Jzzi4eGhtm3bavDgwQkes3XrVm3cuDG+7e7urvHjx9sMPLPUoEED/fDDD4aMdfPnz3fousyTJ4+mTJliFXj2uJw5c+rXX39Vrly5DP0TJkxIlXPnSblHFyxYUNOnT7f5OwEAAHCexYsXW/U5kvVMevilB1vq1atnOptzly5drDIGHzt2LP4LAQAAAAAAwDyCzwAAzw1bwTp3795N8PhLly4Z2p6ensqaNavT92XLuHHjdPjwYUNfy5YtVbVqVYfntCyRdv36dauMQM5imWEuR44cSWb0eqR58+YOldycNWuWoe3t7a0vv/wywW/JPy4gIMAq29DNmze1Zs0a0/sYOHCg8uXLl+RxXl5e+uKLLwwffERFRWnJkiWm17RH9uzZDVnDIiMjtWvXLofm+vLLL+0qDdihQwebWQj69etnV3ah6tWrq0CBAoY+y+sipbRt29bu87Bnz56GdkhIiCFjm6WYmBhNnz7d0Ddo0KBEs3hZ6ty5sypUqBDfvnHjhs2yRimlXbt2ql27tt3HX7p0SRs2bIhvu7q66ttvv1WmTJnsnmPEiBHy9vaOb2/cuDHBAOK7d+9q7ty5hr5atWolK4DXll9//dXQ7tatm+rVq2f3+Hr16qlZs2bx7fv372vRokWm9zF8+PBEg0Ef8ff3t3mvezyALqU8KffoL774Qj4+PqbHAQAA+508edLqy07e3t5JfrEjIY9/ieZxZn4ffSQgIMDqi1nR0dGp9u8MAAAAAACeRQSfAQCeG7aCzyzLgDzu6tWrhnZqZUlZu3atVUafgIAAjRgxIlnz2tq/ZVYgZ4iJidG6desMfd26dUvw2+q29OnTJ9lrtm7d2irgLjHNmze3CnSyLHualIwZM5oqA1emTBmr0oSrV682taYZ5cuXN7QPHTpkeo4yZcqoUqVKdh0bEBBglYnA09PT1HNUpUoVQzu1Mp+9/vrrdh9bqFAhq3MtsX3u2rVLly9fjm9nypTJrkxZlixLJToaTOiI7t27mzp+4cKF8aVJJalu3bqJZr6zJXPmzGratGl8OyYmRrt377Z57Lp166zK/g4ZMsTukkz2+Oeff7Rv3774tpubm6FUpb2S+zoWKlTIVMBu48aNre51KXnfkZ6ce3Tx4sVVrVo1U2MAAIB5CxcutOpr1qyZwwHgCf1bvGTJkg7NV6pUKau+GzduODQXAAAAAACQkv6aOQAAzwhbZfASC0QICgoytBP6trUzHT58WB999JFhr+7u7vr++++TvX7mzJmt+m7evKlChQola15LZ86cUXh4uKHv8XJ59qhUqZJy585td3DcmTNnrMqktGrVytSaj8ZMmDAhvn3o0CHFxcXZHbDSqFEjeXp6mlqzRYsW2rlzZ3z79OnTioiIMBWsFxYWptOnT+uff/7R3bt3de/ePZtZ7f777z9D+59//jG1V8l8doECBQoYsgiWLl3aVLYry2ATR0uFmpEtWzaVKFHC1JjChQsbnt87d+4keOyePXsM7fr165s+bySpcuXKhvb+/ftNz+GIXLly2fzALjGWj/mll15yaO1KlSoZsgPu379fbdq0SXK9MmXKmA52S4rlGpUqVXIoO2aFChXk5uYWX2b58OHDio6OtisjmGT+/vpozI8//hjfdiQQ1Ywn6R4NAABS1oMHD7Rq1SqrfkdLbkoPS4zb4ui/kW2NCw4OdmguAAAAAABA8BkA4DkSGhpq1ZcuXboEj4+IiDC07SkzmBznz5/Xm2++abXul19+aZX9yRG29m+5ljMcPXrU0M6aNaty585tep6yZcvaHXx25MgRQ9vd3V1ly5Y1vebjZQylhx9AXLp0Sfnz57drfLly5UyvaZmNLCYmRsePH0/yNY+MjNSSJUu0fPlyHTx40GZwZVJsXRNJKVasmKnjfX19nTreMptVSihevLjpMRkyZDC0E9vn33//bWg7mrEhW7ZshnZgYKBD85hlNogrIiJCJ06cMPQ5+pgts148nkHucZaBeCmR7crydTQbsPiIp6enMmXKFB9YGR4erlu3bikgIMCu8c647wQFBenatWvKkSOH6bns8aTco50dgAgAAKytX79eISEhhr4iRYqoYsWKDs9ZuHBhm/2OfIFDsv13AFtf3gEAAAAAAPYh+AwA8NywFWhjqxTnI5YlORMLVEuuK1euqFevXlbftv7ggw/Uvn17p6yRWsFn169fN7QT+qAgKUWLFtXatWvtOtYyS12+fPkcer1sBUYFBQXZHdhQpEgR02sWLFjQkPVISrrky759+/TJJ5/owoULptd73N27d02PMZO1TLK+bsxmJ7AcHxkZaWq8IxzJoGB5fSX24ZVlkNioUaM0atQo02taioqKUlhYmFXAnrPZGxT1yH///aeoqChDX7t27ZyyF8sPNh+xvIYcDXZLjOXrOGvWLM2aNcspcwcHB9v9PDty37E15saNGykWfPak3KPNnrsAAMA8WyU3X3nllWTNWaBAAWXIkMHq3y+OfjHF1t8GUiPTOQAAAAAAzyrXtN4AAACpxVZAT2IftFuWPIuOjnb6nqSHpS979eqla9euGfrfeustvfHGG05bx9b+7S3rZoblH/LNBis9YplJKjXWtPWBQ0LBLbYkFsyYEDc3N/n4+Bj6EstItnPnTr3xxhvJDjyTZBUQZA8PD49krZnc8akhpfeYkiV9HAkoNMtscFtKPl5b10pYWJjVuZ0SHyY+Ka+jI/cdW2PM3OvMelLu0WbeVwAAgHmXL1/W3r17DX0eHh42y6Sb4eLiYjMztKOZf21l2Pb393doLgAAAAAAQOYzAMBzxLLsl6REs6V4eXkZ2ilRhiMkJESvv/66VSBR165dNXjwYKeuZZnJTZK8vb2duob0sGTc4xwtV2pmb/fu3TO0LV87e3l6elplIbOcOzGOruvl5WUIzrB8Dh8JDg7W4MGDrc7FwoULq3HjxqpQoYJy586tbNmyKX369EqXLp1cXf/fdw327NmjHj16OLRHOEdERIRDQX/2evzcTSlmg1ZTMiAuNjbWqs/WNZsS9zpHytbay8zr6Mh9x9aYhO47zvCk3KPd3NwcWhcAANhn0aJFiouLM/Q1bNjQKYFdL774orZs2WLoO3DggBo3bmxqntjYWB0+fNiqPyUy5QIAAAAA8Lwg+AwA8Nw4dOiQoe3i4pLoH5gtM6SY+YDbHmFhYerdu7fOnDlj6G/durU+/fRTp64l2d5/SmSBsQzysBX0Zg8zgRCWmcMcLScaGRlpFfRhOXdiHF3XclxCgTK//vqrIduSu7u7PvvsM3Xo0EEuLi5JruPoawHneRQQ+HjQVIsWLZQrVy6nzP8kZnayVV6xd+/edp2zSbGVwcvWNZsSgVWWgbV169ZV8eLFnTK3mfMhIiLCdDY6W/eqlAjQe+RJuUcDAICUExMTo6VLl1r1J7fk5iNNmzbVV199Zfgix+rVqzVkyBBTX47YunWrVQbbvHnzKk+ePE7ZJwAAAAAAzyOCzwAAz4WLFy/q7Nmzhr6SJUsmWq7M8sN/W2U7HXX//n317dvXKhtb48aNNWrUKKcEZViytX9nBbw8zvI5dbSUW3LKzjm6pq0yembKwzmSCSkmJsYqMDCh83L9+vWGdp8+fdSxY0e710rJsnqwj6urqzJmzGg41+rVq5fsUkRPssyZM1v1de/ePdGyx8nh6+srDw8PwweTKVEiM3PmzLp69Wp8u2LFiurXr5/T10lKaGio6eAzW/cqR0th2uNJuUcDAICUs337dl2/ft3QlytXLtWqVcsp8/v5+ally5aGALfr169r/vz56tatm11zREdH68cff7Tqb9KkiVP2CAAAAADA88o16UMAAHj6zZw502b5j8Tkzp3b0A4JCXE4W8vjIiMj1b9/f+3du9fQX7t2bX3//femS9rZy/KDgPTp0ytLlixOXycgIMDQPn/+vEPzWAYLJiZbtmyG9qVLlxQZGWl6TcssdLbmTsy5c+dMr/nvv/9aZfLJnj271XE3b97UxYsXDX1dunQxtZajrwWcy/L1/eeff9JoJ6nD1vmc0uei5X3o5MmTTl/D8nGl1fXlyH3H1hhbr5OzPCn3aAAAkHIWLVpk1ffyyy/L1dV5f37u27evPDw8DH2jR4/W0aNH7Ro/evRoHTt2zNDn5eWlXr16OW2PAAAAAAA8jwg+AwA8865cuaIlS5YY+tzc3PTyyy8nOq5o0aJWfZbBP2bFxMRoyJAh2r59u6G/SpUqmjhxojw9PZM1f2IuXLhgaNt6fM5QtmxZQ/vmzZu6cuWK6Xns/QBBksqVK2doR0dHmxr/iGVpVj8/P+XLl8/u8ZaZ7BwZ4+bmptKlS1sdd/PmTau9WQbYJOXAgQOm9wfnq1y5sqFteT941mTOnFmFCxc29KX0Y65SpYqhbRns6wyWr+POnTsN5VRTizPuO9myZUuxTHTSk3OPBgAAKePWrVvaunWroc/V1VXt27d36jr58+fXm2++aegLDw/Xa6+9phUrVlh94eyRO3fuaNiwYZo+fbrVz95+++0U+VIWAAAAAADPE4LPAADPtMjISA0aNEjh4eGG/latWilnzpyJjvX397cqS2kr64q94uLi9PHHH1uVTixTpox+/vlneXl5OTy3PU6fPm21bkooVqyYvL29DX1//PGHqTkOHjxoKmCtWLFi8vHxMfStWrXK1JqStHLlSkO7QoUKpkqgbtq0yXQ2n9WrVxvaxYsXt3kuWJ7DZjPkXbp0Sfv27TM1BimjZs2ahvbx48dTJDPXk8TyMa9atUr3799PsfWqVatmaB87dkwnTpxw6hqWj+nOnTvavHmzU9ewh9n7q2R936lQoUKix1sGRj9e0tQeT8o9GgAApIylS5da/X5Qs2ZNq39PO0O/fv2sfte7d++e3n//fbVo0UKjR4/WokWLtGbNGs2ZM0dDhw5V48aNrb6QJj3Mhv7WW285fY8AAAAAADxvCD4DADyzwsLCNHjwYKsML76+vho8eLBdc5QvX97QPnXqlMP7+eKLL7Rs2TJDX7FixTR16lT5+vo6PK+9LIPPkgo2cJSbm5uaNGli6JszZ46pQJOpU6cme81ly5ZZlRpNzB9//GGVHa558+am9hESEqKFCxfaffyJEye0a9cuQ1+LFi1sHpspUyZD+/bt2woJCbF7rfHjxyeYCQCpq27dulalAr/77rtn+vWxzHoRFBRkM/OEszRp0kQZMmQw9I0ZM8apz3GpUqVUsmRJQ9/YsWMdKieZHOfOnbPKNJKYTZs26d9//zX0JXTfecTyPerOnTt2ryc9OfdoAACQMhYvXmzV16FDhxRZy93dXZMmTVLFihWtfnb+/HlNmTJFw4cP13vvvacvvvhCK1eu1N27d62OrV+/vr777jsC2QEAAAAAcAKCzwAAz6S///5bL7/8sjZs2GDod3Fx0ciRI+0uV1irVi2reR0xZswY/f7774a+AgUKaPr06fLz83NoTjOCg4N17ty5+LaLi4vVY3OmTp06GdpXr17V999/b9fYtWvXWr1u9ujevbuhHR4erk8//VQxMTFJjr1x44ZGjRpl6MuaNauaNWtmeh/jxo3T5cuXkzzu/v37+vTTTw1l+jw8PBIsTZM3b16lT58+vh0bG6ulS5fatacVK1ZYZQxC2kmfPr169+5t6Nu5c6d++OEHh+cMDw9XREREcreWYkqVKqUGDRoY+iZMmKA///zT4Tlv3bqV4M98fX3VtWtXQ9+OHTs0adIkh9ez5OLionfeecfQd/bsWX388ccOl9+MjIxUaGio6XFfffWVgoODkzzu9u3bGjlypKEvS5YsatSoUaLjLLOWHD9+3PQen5R7NAAAcK79+/frn3/+MfRlzpzZ6nc/Z/L19dXMmTP16quvytXV3J+306dPrwEDBmjSpElWmVkBAAAAAIBjCD4DADwzAgMDtXTpUnXo0EHdunWzypAiScOHD1fTpk3tnrNOnTqG9vHjx3Xv3j1T+/rll1/0yy+/GPpy586tGTNmKGvWrKbmctS+ffsMGX9KlixplXnJmSpWrKj69esb+n777TdNmDAh0aCMjRs36v3333dozVKlSlm9tlu3btWHH35oVbLycZcvX1avXr2sMvAMHDjQqtScPUJCQtSrVy+rD2AeFxoaqgEDBujo0aOG/tdff13+/v42x3h6elqVlxk7dmyipTTj4uI0d+5cffTRRyYeAVJDly5dVLp0aUPfzz//rCFDhpjKKnXhwgWNHj1aL774ol1Bj2npww8/NGQji4mJUb9+/TRlyhS7yzjGxcXpwIEDGjp0qNq0aZPosb1791aePHkMfePGjdNXX31l1308KipKy5cvTzQosFGjRnrxxRcNfStXrlTv3r3133//JbnGI9euXdPkyZPVoEED7d+/3+5xj1y+fFl9+vRJNJPY9evX1adPH6uSxgMHDpSHh0ei81uWaV66dKlV9rSkPCn3aAAA4FyLFi2y6mvbtm2Kv097enpqxIgRWrp0qdq2bStvb+9Ej8+VK5d69uypDRs2qH///mQ8AwAAAADAidzTegMAACRl9OjRVn2xsbEKCwvT3bt3FRoaqtOnTysoKCjBOXx9ffV///d/VmW/kpIjRw6VK1cuvnRndHS0du/erYYNG9o1fseOHRozZoxVf9myZTVnzhxTe3kkY8aMevPNN02N2bFjh6HduHFjh9Y24/PPP9e+ffsUFhYW3zdx4kRt3bpVXbp0UdWqVZUlSxaFhITo5MmTWrp0qTZu3Bh/bIMGDbR582ZTa/7vf//TwYMHDUEKK1eu1IEDB9S1a1fVqVNHOXLkUFRUlC5duqT169dr3rx5Vhmj6tevb5W9zR7169fXli1bdOnSJbVt21adOnVSkyZNlD9/fnl6euq///7Tn3/+qVmzZlmdrwUKFFD//v0Tnb9Xr17atm1bfDsiIkI9e/ZUhw4d1LJlSxUqVEgeHh4KCgrS33//rUWLFunw4cPxx7dv315Lliwx/bjgfOnSpdOPP/6oV155RTdv3ozvX7VqlTZt2qRWrVqpRo0aKlmypPz8/OTh4aGwsDDduXNHZ86c0cmTJ7Vjxw6dPXs2DR+FOQUKFNCYMWP09ttvxwehRkdHa/To0Zo5c6batWunqlWrqmDBgsqUKZPi4uIUGhqqoKAgnTp1SseOHdOff/4Zf+0klTUyY8aMGj9+vDp37mwohTlr1iytWbNG7dq1U+3atZUvXz5lypRJDx480K1bt3Ty5Ent27dPGzZsUHBwcKL3excXF40ZM0YdOnQwBJzu3LlTjRs3VpMmTVSnTh2VLVtWmTNnVrp06RQWFqaQkBCdO3dOp06d0q5du3Ts2DGHS4I+uu8cOXJELVu2VLdu3dSwYUPlzp1b0sPA7E2bNmnOnDlWJaeqVatm172uSZMm+v777+P3GBwcrFatWqlKlSoqVKiQvLy8DB/g5s2b1+a8aX2PBgAAzjdq1CirDKWpqUSJEvrmm2/01Vdf6dixYzp//rxu376tmJgYZcqUSf7+/ipevLgKFiyYZnsEAAAAAOBZR/AZAOCJN2XKFIfHurq6qkWLFnr//fftLrVpqU2bNvHBZ5K0YcMGu4PPbty4YbN/7dq1Du1Fepg1zUzwWVxcnDZt2hTfdnFxUatWrRxe3145cuTQjz/+qLfeekv379+P7z927JiGDx+e6NiuXbuqbNmypoPP/Pz8NGXKFPXu3dvw3F+5ckXfffedvvvuuyTnqFatml3H2TJ06FDduHFDx48f14MHDzRz5kzNnDkzyXHZs2fXL7/8onTp0iV6XI0aNfTKK68YsgtER0dr7ty5mjt3bqJjO3furObNmxN89gTJmTOnZs6cqXfeeceQRSoiIkILFizQggUL0nB3KaNevXqaMGGCPvjgA0P2sRs3bujnn3/Wzz//7NT1SpcurV9++UUDBw40lLO8deuWfv31V/3666/JXsPX11czZszQwIE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4739 rows × 1 columns

\n", + "

5486 rows × 1 columns

\n", "" ], "text/plain": [ - " type\n", - "0 Drug - decreases activity of - Protein\n", - "1 Drug - decreases activity of - Protein\n", - "2 Drug - decreases activity of - Protein\n", - "3 Drug - decreases activity of - Protein\n", - "4 Drug - decreases activity of - Protein\n", - "... ...\n", - "4734 Drug - subclass of - ChemicalSubstance\n", - "4735 Drug - subclass of - ChemicalSubstance\n", - "4736 Drug - subclass of - ChemicalSubstance\n", - "4737 Drug - subclass of - ChemicalSubstance\n", - "4738 Drug - positively regulates - Protein\n", + " type\n", + "0 Drug - decreases activity of - Protein\n", + "1 Drug - decreases activity of - Protein\n", + "2 Drug - decreases activity of - Protein\n", + "3 Drug - decreases activity of - Protein\n", + "4 Drug - decreases activity of - Protein\n", + "... ...\n", + "5481 Drug - decreases activity of - CellularComponent\n", + "5482 Drug - decreases activity of - CellularComponent\n", + "5483 Drug - decreases activity of - CellularComponent\n", + "5484 Drug - decreases activity of - CellularComponent\n", + "5485 Drug - decreases activity of - CellularComponent\n", "\n", - "[4739 rows x 1 columns]" + "[5486 rows x 1 columns]" ] }, - "execution_count": 28, + "execution_count": 44, "metadata": {}, "output_type": "execute_result" } @@ -1683,7 +6527,14 @@ }, { "cell_type": "code", - "execution_count": 29, + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": 45, "metadata": {}, "outputs": [], "source": [ @@ -1694,23 +6545,108 @@ }, { "cell_type": "code", - "execution_count": 30, + "execution_count": 46, "metadata": {}, "outputs": [ { "data": { - "image/png": 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" + " type target_type interaction\n", + "0 Drug - decreases activity of - Protein Protein decreases activity of\n", + "1 Drug - decreases activity of - Protein Protein decreases activity of\n", + "2 Drug - decreases activity of - Protein Protein decreases activity of\n", + "3 Drug - decreases activity of - Protein Protein decreases activity of\n", + "4 Drug - decreases activity of - Protein Protein decreases activity of" ] }, - "metadata": { - "needs_background": "light" + "execution_count": 46, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "fet_data.head()" + ] + }, + { + "cell_type": "code", + "execution_count": 47, + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "data": { + "image/png": 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tV65c6tGjh5o1a6ZixYrJ1dVVN2/e1LZt2zR37lxdvXpVYWFhGjx4sOLi4lIcIyklS5ZUgwYNVLVqVZUuXVoFChSQp6ennJycFBYWpgsXLmjXrl1aunSpbt26Zeq3Zs0azZgxQ71797Z63PLly6tPnz6SpNOnTxvCoYUKFVKbNm2SnVfhwoUdfkySFBAQYAgsHTlyROfOnVOZMmXsOo558LJt27bJnkOHDx9Wnz59LAK+9evX10svvaSnnnpKfn5+cnV1VVBQkPbs2aM5c+bo9OnTpn137typL774QmPGjLFrrsl56aWX9PXXX5vC6WFhYVq9erXF0t4pWbBggWH7xRdflLe3d1pNM0mTJ0/W7t27JUlubm4KCAhQs2bNVKZMGeXOnVu3b9/WqVOndOTIEYu+Y8aMsVia2dPTUwEBAapfv77KlSun3LlzKyoqSpcuXdKmTZs0b948U4XEh+G5smXLWiwrby46Olrvvvuubt++bWgvWrSoevbsqfr168vf318xMTG6cuWKNmzYoLlz5yoyMlLHjh3T2LFjU/NreizkzJlTdevW1TPPPKOyZcuqRIkS8vb2Vs6cORUVFaWgoCAdP35ca9as0ZYtW0wV+KKiojRw4ED9+eefSS6J3a1bN4WFhUmS5s2bp4iICNPP2rRpY3pttSa55ZIz6hyaOnWqIXQgSaVKlVLnzp1Vq1YtFSlSRJ6enoqLi1NERISuXLmiM2fOaMeOHdqxY0eaB6+fJPfu3dPly5cNbX5+fjb1HT16tGmJ6Fy5cqlbt25q1KiRSpQoIU9PT926dUtHjhwxvEZKDyoyvvPOOxZ/lzJlyqh79+567rnnVKBAAUVGRurChQtasWKFli5daqg8tWrVKvn5+SX53u/h66wkTZs2zfCzbt26JXt9rlKlSpI/GzhwoEUA0tfXV507d9azzz6rUqVKydvbW/fu3dO5c+e0bt06LVq0yBT2vH//vgYPHqzFixfb/brriOHDh5uqcufPn189evRQ/fr1VbhwYbm7u+vGjRvaunWrfvnlF0O13/Pnz+vnn39W//79032OAPCkO378uKZMmWLadnNz01dffSUXF5d0H3vTpk36888/Tds+Pj767LPP0n3ch9544w01adIk2fea0oN5NWrUSI0aNdLJkyc1YMAAixsi582bp+eee04tW7ZMzykDAAAAAADgEQQoAWQJTz31lP744w9D26VLl2wOUD6sSOXi4qLPPvtMXbp0Mfw8d+7c8vf3V+3atdNkvqk1d+5ci6UNn3/+eX333XcW1ZB8fX1VtWpV9ezZUwMHDtS///7r8BLnT4KH4ckiRYpo0qRJqlixouHnXl5eKlSokFq1aqUvvvhCs2fPNv3s8uXL2rhxo1q1apXsGFevXtWIESMMbeXLl9e4ceMsqqVKDypYVaxYUT169NCXX35pOJcnTZqkRo0aqWrVqkmOt2XLFi1fvtzQVqlSJf38888WX8DkyZNHFSpUUI8ePTRy5EgtX77coWW8nZyc1KNHD3Xv3t3qY3rIy8tLhQsX1vPPP6933nlH3377rebOnWv6+fjx49WpUyd5eXlZ9K1atarpcS9ZssQQoCxWrJgGDx5s97ztUbVqVZUvX94QTFyyZIlFMDY5Z8+etQjkJbd8d1hYmPr3728ITxYuXFjffvutnn76aYv9fXx8VKZMGXXt2lU//fSTJkyYYJhr06ZN1axZM5vnm5wcOXLo5Zdf1u+//25qW7BggV0BykuXLplCjA+ZX2/Ty8NxS5QooSlTpqhUqVKGn3t5ealkyZIWXzSuX79eM2fONLS1aNFCX3zxhcX11svLS/nz51edOnXUu3dv9e3b1/T6kpCQoCFDhmjNmjXJBvHHjx+vixcvGtratWunUaNGWfTLnz+/atWqpZ49e+qdd97RyZMntWnTppR+FY+tsmXL6quvvlLr1q2VI0cOq/vkypVLfn5+qlixogICAnTgwAG9//77poq5gYGBmjlzZpLB9Lfeesv0/6tWrTIEKLt06ZJiANaajDqHHlagfdTLL7+s0aNHy9XV8p9tuXPnVpEiRfTss8/q1VdfVXR0tJYtW6aCBQva/Rizg3Xr1lksiVmjRg2b+j68/lSvXl0TJ05UgQIFDD/39va2CAnGx8dryJAhFuHJXr16aciQIYYgvo+PjwoWLKjnnntO3bt319tvv22oEj179mw1bNhQDRo0sJjbo6+l5gHKPn36qGjRojY9xkfNmDHDIjzZvXt3DRs2zOK56+XlJX9/f9WrV0+9evXS22+/bboGRkVFafDgwVqyZImcnJzsnoc9Hr4/bNu2rb744guL55iPj4/Kly+vdu3a6dVXXzVcp+fNm6d3333XphtsAADWxcTE6MMPPzTc2PfWW29Z/Hs9Pdy9e9di6e5hw4ZZvF6np549e9rdp2LFilq4cKF69uxpcUPx999/r2bNmmVI+BQAAAAAAAAs4Q0gi7D2wfajSy/Zylp4Mqt5uLzzoypVqqSffvop2aUk8+bNq0mTJqlSpUrpPMOsL0+ePJo9e3aKX8YMHz7cIhxoLz/ueAABAABJREFUHlS05ttvvzVVMJMehH5mz56dbNBQerBs9KhRowzLhMXHx2vq1KnJ9hs/frxhu2DBgvrtt9+SrV6RM2dOffPNN1bDFLZwd3fXp59+muJjMh/z008/NVSOvHfvnpYsWeLQHDKCedhx2bJlFgGa5JhXnyxfvnyyFbt+/vlnBQYGmrbz58+vWbNmWQ1PPsrJyUl9+/Y1hL8eHi8tmS/jvW/fPp07d87m/gsWLDBVA5Qe/D5q1qyZZvNLSd68eTVr1iyL8GRSYmJi9Pnnnxva2rRpo/Hjx6e4dG/+/Pn166+/qmTJkqa2mzdvJnu+h4aGGkLbkvTCCy/o66+/TjZ0WbhwYU2fPl3+/v7Jzulx9/LLL6tjx45JhietqVmzpn799Ve5ubmZ2ubNm2dR4TW9ZOQ5dPXqVd24ccO07eXlpc8++8xqeNKaHDlyqEuXLnrhhRds2j87iYiI0KRJkyzan3/+eZuPUapUKU2fPt3mMMaGDRsslpzv3LmzPvroo2SDelWrVtVvv/1muGYkJibqu+++s3muqREcHKzvv//e0Pbf//5Xn332WYrP3VKlSmnGjBny9fU1tR0/ftxwA0V6atmypf73v/8le70tUKCAvvnmG0NbaGiotm7dmt7TA4An2k8//WS4ca18+fJ6++23M2TsUaNGGW48qF+/vjp27JghY6eWl5eXJk+erFy5chnaL1y48ETfWAUAAAAAAJDVEKAEkCVYW4ozPDzcrmPUrVs3y4cnJWnjxo2GD/clWa1MZk3OnDkzdBmqrGro0KE2Le/s6uqqHj16GNoOHTqUbJ/Lly9r3bp1pm1nZ2d9++23yp07t83zGzlypOELkPXr1ycZCD527JiOHj1qaBs2bJghfJCUhxVXPTw8bJ5bWnjvvfcM2xkVjHBEu3btDOGjW7duafv27Tb1jY+P17JlywxtyX0RFx4ebrG89WeffWZX9a8PPvjAcG4fPXrUIoCTGqVLl1bdunUNbeYV75ISGxtrWBZPehAGykgffvihXSHD5cuXG5bU9ff31xdffGFzJTQvLy+LZXPNl3F+1NKlS3X//n3TtoeHhz777DObKsf4+vpq2LBhNs0ru6lQoYJatGhh2r59+7bFdTO9ZOQ5dOfOHcN22bJlbXpvgOSFhobqvffe06VLlwztJUqUUJMmTWw+zqhRo+Tp6Wnz/uZ/Z39/fw0fPtymvuXLl9e7775raDt+/LhF9fL0MHv2bEVHR5u2q1SpYtfy1oUKFVK/fv0MbcldN9OKt7e3vvzyS5uemzVq1FD16tUNbYcPH06vqQHAE+/IkSP65ZdfTNsuLi4aPXp0hlT2Xb9+vVasWGHazpUrl0aNGpXu46alQoUKqVevXhbthPsBAAAAAAAyDgFKAFmCtQDlo1/e2sLaB85Z0cMlBh+qWbOmnnrqKZv716hRw+YlJ59Efn5+atu2rc37169f37AdFBSk4ODgJPdfuHChEhISTNsvvPBCshUHrcmbN69hmfD4+Hjt3LnT6r7m50PBggUtliBOTtGiRdNsiWdblS5dWt7e3qbtw4cPG6oSZiX58uWzqNJpHgJMyvbt2w3BKVdX12TPvZUrVxqWCy5Xrpzdfxs3NzeLkOa///5r1zFS0r17d8P2n3/+qZiYmBT7bdy4Ubdv3zZte3h4qH379mk6t+T4+voaqrvawjzQ+tprr1lUd0lJgwYNVKRIEdP2hQsXDFUCH2X+fG7evLmhb0patWr1xFehdJT562RKYfi0kpHn0KNVNiVZ3GwB2yQmJiosLEyHDx/WxIkT9eKLL1p9DR46dKjN1T0rVKhgET5Pzp07d0zLfj/0yiuv2BXA7NWrl7y8vAxtq1atsrm/o8zP+bfeekvOzvZ9bNChQwfDzR179+616XUmNQICAqz+eyIp5tVHzZdOBQDYJiYmRsOHDzcs3d27d2+7PuNwVEhIiD799FND2+DBg+16/51VWPt35o4dOzJhJgAAAAAAANmTbd8YAUA6sxa+srW6k/QgdNCwYcO0nFK6Ma9w82jQzlatWrVK06p0j5Nnn33WrkoWRYsWlbu7u+GL+5CQkCQrPO7atcuw/WjVM3vUqlXLsEzrvn37rIbNzM+H5s2b2x1UaNWqlVauXOnQPB8VHx+vCxcu6PTp07p9+7bu3bunqKgoQ6D0oUefs2FhYbp161aWDX4FBAQYlj9bv369wsPDDSFQa8yX737hhRfk5+eX5P5pde7Url3bsL1v3z6HjpOU5s2bK1++fKYwZEhIiNatW5diONE8VNOqVSu7KrOm1gsvvGDXc//evXsWVQpT8zd5dGn2ffv2Wfy+4uLidPz4cUObvdd3Z2dntWjRIkOqtWUVISEhOnXqlC5duqTw8HDdu3fP6vLcjy4JKcmupecdldHnUIkSJeTi4qL4+HhJUmBgoObMmaOePXs6NOaTLjAwUBUqVHCob79+/ewKuNsbhj9w4IBFmz03f0gPlmRv0aKF4b2EteOmpXPnzhmCu25ubmrcuLHdx/Hw8FDVqlVNr1/R0dE6fvx4ut4AZH6zRErKlClj2A4JCUnL6QBAtvH777/rzJkzpu2SJUtaVCJOLz/++KPhBq+nn37aYgWKx0XZsmXl6+truNnz+vXrmTgjAAAAAACA7IUAJYAsISwszKLNnmWJy5UrlyHLQ6VWRESExRKSVatWtfs49lZEfJJUrFjRrv2dnJzk7e1tWBo1qeXho6KiLAJQlSpVsn+SkgoUKGDYvnLlitX9zMfLjPNh7969WrhwodatW6d79+45dIzw8PAsG6Bs3Lix8ubNawpH3L9/X6tWrVLXrl2T7BMeHq4NGzYY2pJbvluSxdKqjp47+fPnN2wnde446mGVyylTppjaFixYkGyA8urVqxaVMLt06ZKm80qJvef5wYMHDZVwvLy8VKxYMYfGNv+bXL582WKfc+fOWVRO5vpuXUREhBYsWKBly5bpxIkTDh3D2vuGtJbR55CXl5eee+45bdu2zdQ2atQo/fPPP+rWrZvq1av3WLzXycq8vLw0cuRIvfzyy3b1s/d5aX5zRMGCBVWoUCG7jiE9qDr+aIDy1KlTun//vl3vke1hHtgvXbq0w2NZO+fTM0Bp7/tD85soknpvCABI3qMV+6UHN6DY8+8EazfOHD161OrNh3/99VeyYwcGBtr1Gh8ZGWnRtnHjRouxCxQooGnTptl8XEflz5/fEKCMjY216cY/AAAAAAAApB4BSgBZgrUghD3L8GXV4JY5a0tHlyhRwu7jONLHEVOnTrUrpNK1a1eHwyW2cqTiXY4cOQzb9+/ft7rf9evXLb7A6dChg93jWXP37l2Ltri4OIWGhhraSpYsafexixQpIjc3N6tfPqU0p88//zxNqldmRJjJUW5ubmrTpo2hqt/SpUuTDVCuXLnScJ7kzZs32Sq3MTExFl/g9e3bNxWz/j/Wzp3U6tKli6ZNm2aqLrpr1y5dvnxZxYsXt7r/okWLDJVIy5Qpozp16qT5vJJj73XePHgaERHhcLU6c9b+JubXd3d3d4cCUxl1fc8s69at0+eff57q5akzIuyU0eeQJA0aNEh79uwxXH82bdqkTZs2KVeuXKpZs6Zq1aqlmjVrqmbNmnYvJ+7oXO0NDQwePDidZuOYokWLqmPHjurSpYvy5ctnd397rz/m53e5cuXsHlOSypcvb9iOj49XcHCwQ9cWW5if86dOnUr3cz6t2Pv+0Py9YXovMQ4A2UVQUFCq3+dFRkbq5MmTdve7du2arl27lqqx7969a/GalVEhe2vv66KjowlQAgAAAAAAZAAClACyBPPgkfSgWo+tvLy80nI66cbal8eOzD2jPkCfP3++YcnRlDRo0CDdA5Rubm7pdmzzMGNashYwtNbm6Lns5eVl1/KTYWFh+s9//qNjx445NJ45e8ObGS0gIMAQoDxw4IAuXLigUqVKWd3/zz//NGy3bds22XMvPZf+TI9watGiRVW/fn1t3bpV0oMl2RcuXKhBgwZZ7BsfH2+ogCZlfPVJyf7rXkY/n82v744+l5/kL0iXLl2qESNGGMK4jsqIa05Gn0OSVLlyZU2YMEGDBg2y+LI+MjJS27dv1/bt2yU9eD2sVq2aWrZsqdatW1tU/Esr4eHhWTJA6eXlpe7du1u0Ozs7K1euXPL29pa/v7+qVauW6htt7H1emv99Hbn5I6l+d+/eTbcAZWac82mF6qwAgMedtRtu8+TJk/ETAQAAAAAAyIYIUALIEsyXOpTsq8Ll6vp4XM6sVbdxJBDIl8TpIz0rS1gLDFkLADkaELX3nBgzZoxFeNLT01OtWrXS008/rdKlS6tgwYLy9PSUh4eHxbyaNGliV7g2s1WuXFkVK1Y0VDL5888/NWDAAIt9L1y4oAMHDhjaAgICkj1+Rp87aaF79+6mAKX0INzWr18/i+vpli1bdPPmTdO2u7u71SX10puLi4td+6dnWMfa38T8+p5Rz+XHxcWLFzVy5EiL3121atXUuHFjPfXUUypcuLDy5csnDw8PeXh4yMnJybTfkiVLNHz48Aydc0afQw81bNhQq1at0uTJk/XXX38pIiLC6n6xsbHav3+/9u/fr3HjxqlLly4aMGDAY3NTSWrlzp07wypd2nv9uXfvnmE7Z86cDo1rrRKV+bHTUmad8wAAZHeRkZEW1TN9fHzS9QZSAAAAAAAA/J/HI3EE4Il38OBBw7aTk5MqVaqUOZNJR9YqGN27d8/uykRJhSmQOh4eHhZtb775piHE4yhrS9JbC7k4Goyw55w4e/asli5damhr0qSJvv32W5urbEVFRdk1v6ygQ4cOGjNmjGn7r7/+Ur9+/eTs7GzYz7z6ZKVKlVK8Hlk7d7p27Wr1755VNGzYUIUKFdL169clPVhub+PGjWrRooVhvwULFhi2W7Roobx582bYPB1lvjxrwYIF1bZt2zQ5dpUqVSzazJ87GfFcfpz8+OOPhtB4rly5NHbsWDVt2tSm/plxzcnoc+hRBQoU0CeffKKhQ4dq27Zt2rlzp/bu3avTp08rPj7eYv+YmBjNnj1bW7Zs0axZs9KtQiFs4+npadh29PyNjIxM8dhpyfycL1eunBo1apQmx65du3aaHAcAkLV89NFH+uijjxzuf/XqVYv3g3Xr1jWsHpCUSZMmOTyuJO3atUu9evUytHXo0EFff/11qo7riB07dljcYFmxYsUMnwcAAAAAAEB2RYASQKa7dOmSzpw5Y2irVKlSlg4ePcpaVcmkWHtMd+7csTtAeefOHbv2d9TGjRszZJyswloo7NVXX7VrOXl7eHp6ytXVVXFxcaY2R/620dHRVkMWSVm7dq0SExNN2yVKlNAPP/xgNQSYlPSsuJhe2rVrp7Fjx5q+mLp+/bp27typevXqmfZJSEjQX3/9ZejXoUOHFI9t7dxp166d6tSpk8pZpx8XFxd17txZ48ePN7UtWLDAEKC8efOmoUql9CAY+jgw/5u4u7una7U6awHK+/fv2/W8kjLu+v4oe17HHD3+5s2bDW0jRoywOTwppf/yv9Zk9DlkTY4cOdSsWTM1a9ZM0oOA7cGDB7Vr1y5t2rTJ4v3TlStX1LdvXy1atChNwv+SVLRoUZ06dSpNjpVdmL/fu3v3rkPHsdbP0eXAbWF+zufLly/Dz3kAALKjadOmWbQ1aNAgE2YCAAAAAACQPTmnvAsApK+ZM2cawlyS7ApVpJb5kkj2BklCQkJs3jd//vwWyzE6EkogyJA+ChQoYNF27ty5dB2zWLFihm1Hzwfz51By9u/fb9ju2LGjXSGvS5cuWV1+PKvz9fVVw4YNDW3mlTh37txpqsgoPbg+2FJxzsvLy6Iq2Pnz51Mx24zRuXNnw5Ld27dvNyzNvmjRIkO1u5IlS6pu3boZOkdHmT+fr127pujo6HQbr0SJEobtxMREh57Pjy4zb6vUvo6FhobaPaY9Tpw4YQh5e3p62r0MfHpfi63J6HPIFl5eXqpfv74GDRqkFStWaN68eRYVco8ePWoRWEXGyp8/v2HbPOhqq9OnTxu2XVxc5Ovr6/C8UmJ+zj8Or2MAADzu5syZowMHDhjanJ2d1bx580yaEQAAAAAAQPZDgBJApgoMDNSSJUsMbS4uLurYsWOGzcF8GWV7q1zZE5BxcXGxWLZz586ddo0nPVhqCmkvb968KlOmjKHtn3/+Sdcxq1evbtjOiPPh9u3bhu1y5crZ1X/fvn127S8pzSqhpZZ5Ncl169YZlkw2vx41atTI5rCK+fKk6X3upIUCBQqoSZMmpu2EhAQtXrzY4v8f6tKlS4bOLzVq165tOO/i4uL077//ptt4+fPnV+HChQ1tjjyfd+/ebXefjHwdc0RQUJBhu2TJknJ3d7frGObB74yQ0eeQI2rVqqWZM2daBPYeh+vPk+ypp54ybN+4cUM3b960+zgHDx40bFeoUMHuqrb2MK+afPPmTW7aAQAgGdu2bbOo2G+PxYsXa/To0RbtL7/8skqVKpWaqQEAAAAAAMAOBCgBZJqYmBj179/fYunhtm3bqlChQhk2D/PlCu2tcrVt2za79jf/cnr16tW6f/++zf3v37+v1atX2zUmbPfocs6StGLFinStOGZ+Pvz777+6deuWzf0TExMtlpxOSVRUlGH70QqEtjAP1dnCPCyVWRUsGzVqJD8/P9N2VFSU6fkUERGh9evXG/a3Zfnuh8zPna1bt9r1t8ws3bt3N2wvXrxY8fHx2rZtm6EapZubm12/j8yWL18+i3CwI+euPcyfz8uWLbOrOuzNmzcdCuhl9OuYvVJ7zdmxY4fhXLRVaq87mXEOOcLHx8eicve1a9cyaTaQpJo1a1q0LV++3K5jREdHa926dSke91GpPeerVq1qsfx4VjznAQDIKs6ePas+ffqoQ4cOmjlzps03TJw9e1b9+/fXiBEjDBX/JSlPnjzq379/OswWAAAAAAAASSFACSBTREREaODAgTp8+LCh3cvLSwMHDszQuVSsWNGwbU945e7du3Z/sdyxY0dDRavQ0FBNnTrV5v5TpkxJ9+VWs7OAgADDdlBQkKZPn55u47344ouGZd3j4+P13Xff2dx/yZIlOnv2rF1j5s6d27B94cIFm/v++++/2rt3r13jSZYV8kJCQuw+RlpwdXW1WJL74TLef//9tyHo5efnZ7Hkd3Jat25tqAwWHR2t8ePHp3LG6e+5555TyZIlTds3btzQ1q1btXDhQsN+zZs3T9elY9ODeTXj9evXO3T+OjremTNnLJaJT853331n8QWqLVLzOnbx4kVt3LjR7jHtYX7NuXTpkhISEmzqm5iYqJ9++smhcdPiupPR55CjPD09M3sKeISfn5+eeeYZQ9usWbMsbhpKzuzZsxUeHm5oe+mll5Ltk9pz3tnZWS+//LKhbd68ebp8+bJdxwEAILs5fvy4Ro8erYYNG6p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+ "text/plain": [ + "
" + ] }, + "metadata": {}, "output_type": "display_data" } ], "source": [ + "#Plot the top 10 most encountered edge types\n", "count_plot_h(fet_data['type'].value_counts().head(10))\n", "plt.title('Top 10 most encountered targets')\n", "plt.xlabel('Number of paths containing Target')\n", @@ -1719,23 +6655,23 @@ }, { "cell_type": "code", - "execution_count": 31, + "execution_count": 48, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", + "image/png": 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qKZsmGLN6/9LS0rR27VotWrRIISEhZse+Bx54IL0fmlMQruvGjRu1YsUK7dy5UwkJCZkeV7x4cbVo0UI9e/a0aBwfOnSoVq1alenPmzdvnm0dlnzO2SJj20qVKqVNmzZlWy67cWH9+vWaM2dOpltQOTk5qXbt2urXr5+efPLJbM9n7jvE3YYNG5blzyXr+kZSUpK+//57/e9//9P+/fsz/V4gSZUqVdILL7ygN954Q97e3hbVf0de3Vc3b97U1q1btW3bNu3cuVOnT5/Osh1OTk6qVKmS2rRpo3bt2uVaUurNmzf1ww8/aN26ddq/f7+Sk5OzbEPVqlX15JNPqk2bNipXrpzh5+fOncvyXlm1alWW99kdmX3u2PLd0pxTp05pzpw52rJliyIjIzM9zs/PT40bN1b37t1Vo0YNq8+T3b17+PBhTZ8+XZs2bcr0fS9VqpS6du2q9u3b25yQ+/fff2v58uXatGmTbty4ke3x/v7+qlu3rpo1a2ZxshIAABLJHgAAAAAASJI6dOig7777zjBJs3r1anXr1u2+fFo5LS1NkydP1syZM5Wamprlsbt27VL79u01ePBgde/e3fCzuLg4DR8+XL///nuWdSQnJ+vXX3/VH3/8oa+//lqPPfZYjn+HqKgo9e/fX3v27Mn23Nu2bdOff/6ptm3basSIEfLw8LDpnJcvX9Znn32mX375xewEVEaJiYnasGGDNmzYoObNm2vs2LG58hTxDz/8oDFjxuj69es5rqugcHJyUrdu3fT+++8b4kePHlV4eLiqVatmU72O/l5du3ZNH3zwgTZu3JjtsYcPH9b777+vH3/8UZMnT76nJpPeffddrVu3LsvJ54ySk5O1e/du7d69WxUrVtTkyZNzbby/cuWK3nnnHe3evdum8gXhuoaGhmrMmDGZJiZkFBkZqaVLl2rFihXq1q2b3nnnnXx5Qt8RxMbGasiQIdq8eXOWx6WlpSk0NFQ9e/bUSy+9pDFjxsjFpWD8Cf/nn3/Wl19+qYiICIuOP378uL788kvNnz9fI0aM0LPPPpvjNuTkvlqwYIGmTJmi+Ph4i8ukpaXp2LFj+uyzzzRjxgyNHj1arVq1svrcd1u6dKm+/vrrLBMeMrYhPDxc4eHhmjlzpqZMmaKnnnoqR23IT9evX9dnn32mH374waLxOTo6WmvXrtUvv/yi1q1b68MPP5Svr2+O25GamqopU6Zo1qxZ2W7/dv78eY0ePVorV67UnDlzVLRoUYvPExsbq+HDh2v9+vVWte/atWvavHmzNm/erB07duirr76yqjwA4P7Ft20AAAAAACS5ublp4MCBhlhqaqomTpxopxbZ18iRIzV9+vRsEz3uSEtL0+eff67ly5enx2JjY9WlS5dsEz3ulpiYqD59+ig0NNTqNt8tJiZGHTt2zDbR425paWlasWKFevfubdFTmBmFh4fr1Vdf1dq1ay1K9Mho48aNeu2113Tq1Cmry95tzpw5+vDDDx02eSErzz33nNmJ7D/++MOm+hz9vYqKitKbb75pUULA3Xbt2qU33njD7Comjmrfvn1WJXpkdOLECbVr107bt2/PcVsiIyPVvn17mxM9CsJ1XbNmjTp27GhxosfdkpOTNXPmTPXp0yfLlUDuF9euXVPHjh2zTfTIaPXq1Ro6dGgetcpyqampGjt2rAYPHmxxosfdoqKiNGjQIE2ZMiVH7cjpfXX48GGrEj0yiomJ0YABAzRr1iybyt+8eVPvvfeePv74Y4sTPcxxpHsqKipKXbp00dKlS60en9PS0vTzzz+rQ4cOunDhQo7akZqaqiFDhmj69OnZJnrc7dChQ+rYsaPF73lMTIzeeOMNqxM9AADIiYKRFgwAAAAAQAHwwgsvaN68eTp8+HB6bPPmzdq9e7ceeeQRO7Ysfy1YsMCQtFGqVCk1bdpUlStXlq+vr+Li4hQSEqJ169aZTJyMHTtWjRs3VnBwsAYNGqSDBw+m/6xmzZp6/PHHVbp0aXl7e+vq1av6+++/tWnTJkNSyY0bNzRixAj9+OOPNj/RPGTIEJ08eTL9dXBwsFq2bKmKFSuqSJEiunLlig4cOKCNGzea/A47duzQoEGDNH36dIvPFxYWps6dOysxMdEQL1SokB5++GHVq1dPpUuXlo+Pj27evKmLFy9q9+7d2rFjh2Hi4fTp0+rZs6dWrlwpHx8fq3/vv/76yzAR5ebmpoYNG6pBgwYqXry4nJ2ddfHiRYWGhpq01RG4urrqkUce0W+//WaI79u3z+q6HP29SklJUY8ePRQeHm7yszvbaVSuXFn+/v6KiYnRqVOntHHjRp07d07S7eSGjKuk3CucnZ1Vo0YNVa5cWeXLl5e/v3/6NhLx8fE6ffq0QkJCtHfvXsPYk5iYqEGDBmn16tUKDg626dypqal655139O+//6bHypQpoyZNmqS3JTo6WufOnTPpx1LBuK5LlizRqFGjTOJ3tp2qXbu2ihcvLm9vb8XFxenMmTPavn27YbyXbidhDRs2LNNJ/uDg4PQVeWJiYkwSCSpWrJjtFgrFihWz5lfLdykpKerXr59hG7EaNWqocePGKlOmjHx8fBQTE6OQkBCtX79ecXFxhvJr1qxRixYt9PTTT5ut39fXN/09TE5O1okTJww/Dw4OznZVhLJly2b58/fee0+//PKLSbxEiRJq1KiRatSoIT8/P7m7uysmJkaHDh3Stm3bTCbov/76awUEBOiNN97I8nzm5PS+Mqd8+fKqVq2aKlasmN6fXV1dlZCQoIiICB06dEh//fWXIfkzLS1NX375papUqaImTZpY3P7k5GR1797dbKJKoUKFVLNmTTVq1EjBwcHy8/NTUlKSoqOjdeTIEYWGhur48eOZ1u3q6mpY2erEiROG7Ul8fX1tHs9y4saNG+rSpYvZLfT8/f3VsmVLVa1aVQEBAYqOjtbJkyf122+/mWx9d/z4cXXo0EGrV6+2eeWzr776SmvWrEl/HRwcrCeffFJVqlSRv7+/EhMTdeLECf3+++/pY+kdp06d0sSJE/XRRx9le57x48eb3Q6nXLlyeuyxx1ShQgX5+fnJzc1NiYmJio2N1enTp3Xs2DGFhIQoKSnJpt8PAHB/I9kDAAAAAID/z8nJSe+++67eeustQ3zChAmG5Id73YQJEyRJnp6eev/999WuXTs5OzsbjmnXrp0GDRqk/v37a+/evenxGzduaObMmSpfvrz+/PNPSbcnZD799FM1atTI5FydOnVSWFiYevXqpatXr6bHw8PDtW7dOj3//PNWtz8kJEQ3b96UdHsC/5133tGbb75p8jtIt7eZGTdunH788UdDfNOmTVq1apVefvnlbM8XExOjgQMHmiQEtGnTRv3791fJkiXNluvdu7fOnj2rUaNGpb9XknT27FkNHz5cU6dOzfbcGc2ZMyd9VZGnnnpKw4YNy3SS58575Gjq1q1rMpmXcZLZEo7+Xs2YMUMHDhwwxFxdXdW/f39169bN7CT5sGHDtGzZMn3++edKTEzU5s2bbd6yqKBxdXVVq1at9MILL+jRRx+1KFnq/Pnz+vLLL7V27dr0WHR0tD7++GPNnDnTpnbs27cvPYHLz89Pw4YN04svvignJyeTYwcPHmyYlJXsf11DQ0M1duxYQ8zDw0N9+/ZVhw4dVLhw4UzL7tq1Sx988IHOnj2bHvvtt9+0cOFCderUyeT4gQMHpq+otXLlSg0bNszw81mzZql06dI2/R4Fxe+//54+fpQrV04ff/yx2c/CO1uhDR482PB5IEmTJ0/ONNmjefPmat68uSTp3Llz6f++Y8CAAWrTpo3N7Z8/f75JokdQUJCGDh2qVq1amf1clW4nuaxatUpjx441fDaOHz9edevWVa1ataxqR07vK+n2d7x69eqpTZs2euKJJxQUFJTteRMSEjRv3jzNmDEjvc60tDQNGzbMqvts3LhxZhM9WrVqpUGDBqlChQpZlj9z5ozWrl2rJUuWmPwsMDBQP/30U/rrZs2aGbYkbNasmcaPH29RO3PT2LFjTRI9nJ2d1aNHD7399ttyd3c3KTNs2DDNmzdPkydPNiQ+RERE6MMPP9S0adOsbsfly5c1e/ZsSZK3t7eGDh2qtm3bmu27//3vf9O3ernbsmXL1KtXLwUGBmZ6noiICK1atcoQCwgI0JgxY9SsWbNs25mYmKjt27frhx9+YPsrAIBV+NQAAAAAAOAujz/+uMlEzP79+y1+UvRekJSUJE9PT82bN0+vv/56ppM5xYoV08yZM032Mv/555/Tn+SuXLmyli9fbnZy647atWubffJ75cqVNrX/zsSai4uLpkyZou7du2f6O/j4+Gjs2LHq0aOHyc/GjRtn8pS1OZ988olhYsXZ2VlffPGFxo0bl2mixx1ly5bVnDlzTCbjfv/9d4WEhGR77ozuTIZ16tRJkydPzvJpXnMTLY6gdu3aJrHIyEirEzIc+b2KiIjQjBkzDDEXFxd9+eWX6tWrV6arITg5Oen111/X7Nmz5eXlJUk2bVlUEK1YsUJTp05Vy5YtLV4Vp1SpUpo4caL69+9viG/ZssVkhQRL3elXxYoV0+LFi/XSSy+ZnZCWbl8PNze39Nf2vq5JSUl65513DBPlRYsW1ffff6+ePXtmmeghSQ0aNNDKlStVtWpVQ3zatGkFcnWc/HBnXKpdu3a2n4UBAQGaPn26qlSpYoifPHnSqi3JcsvRo0fTkz/vqFu3rtauXatnnnkm089V6Xa/ffXVV7V06VJDv0lOTtakSZOsbktO7qs7hg8frmXLlqldu3YWJXpIt5MD+vXrp1mzZhlWGouKijIkWGRl69atWrx4sUkb33//fU2dOjXbRA9JeuCBB9S3b19t2rRJjz/+uEXntad//vnHJEm6UKFCGjt2rAYNGpTpZ6qzs7PeeustTZs2zWS8W79+vU3fxZOTk5WWliY/Pz8tWbLEbALzHa6urnr33XfVrl07Q/zWrVsmScEZbdq0yWQLv8mTJ1uU6CHdXjmpRYsWmjlzpkaPHm1RGQAAJJI9AAAAAAAw8d5775lMInz55ZdW7zfuyIYPH6569eple1yRIkXUrVs3Q+z69etKTEyUu7u7Jk2aZJIMYs7DDz9sMoGxc+fOHK2o0KdPHzVt2tSiY9977z01aNDAEIuJicl2MufkyZP69ddfDbF33nlHL7zwgsXtdHJy0ieffKKKFSsa4hmfLLVUnTp1NGzYsEwnwhxdQECA2fjFixetrstR36vly5ebPLnetWtXtWrVyqLyDz/8sP773//mRdPsxpZtj+7o27evIYkoLS0t24m97IwePVqVKlWyqoy9r+vq1asNiWuFChXStGnTTJI3suLj46Ovv/7aMFEbHR2tH374weZ2OboiRYpoypQpFm1B4ebmpvfee88knnG1j/wwc+ZMQ38sXry4Zs2aZdW9Vq1aNY0cOdIQ27Ztm2G7PGvYcl/dkZMx4rHHHlPnzp0NMUv79DfffGMS69Wrl8l3J0u4u7urePHiVpfLbwsWLDCJdenSRS+99JJF5Z988kkNGDDAJD5v3jyb2zR27FjDdjdZeffdd00SUrK7B+/eYki6vZJPxu+VlvL09LSpHADg/kSyBwAAAAAAGdSqVUvPPPOMIXb69GmtWLHCTi3KX+XKldOrr75q8fFPPfWU2fiLL75o1aRMxnpSUlLM7n1uicDAQLOrdWRlxIgRJrFly5ZlWWbu3LlKTU1Nf126dGl1797dqvNKt58m7dWrlyG2detWm5JdhgwZkuUT146uSJEiZuPx8fFW1+WI71VqaqrJWOTn56e+fftaVU/Hjh1Vvnz53Gyaw3JyctKLL75oiN29PZW1GjZsaHGi2R32vq5paWmaO3euIda6dWvVr1/f6rrKlClj8n5u2LDB6nruFZ07d852lae7NW7c2CSpzZatqnLi3LlzWrdunSH2zjvvyNfX1+q6WrdurXLlyhlitvQHW+6r3JQxUeHw4cO6fv16lmX27Nmjffv2GWKVK1c2WU3oXnLp0iWT61u0aFGzyRtZ6dq1q0m/2bdvn033QoMGDUy2OMqKn5+fnnzySUPs8OHDhu97GSUkJJjUAQBAfiDZAwAAAAAAMwYNGmSyhPT9shR927ZtrVrpoEyZMmafmH3llVesOm+NGjVMYqdOnbKqjjtefPFFq7feqFKlislqJseOHVNERITZ49PS0rR+/XpD7OWXX7Y5eSDjxEJSUpLVW7mUK1dOjzzyiE3ndxSZTTZau22Fo75XJ06cUGRkpCH27LPPWv0kcKFChUy2D7qfPfDAA4bXBw8eNFllw1LWjn2S/a9reHi4Tp8+bYhZk/SXUZMmTQyvQ0JClJSUZHN9jizjlhDZcXZ2Vs2aNQ0xWz8LbbVhwwbDamZeXl567rnnbKrLycnJZOWuXbt2WV2PLfdVbsqYeJCSkqIDBw5kWWbjxo0msTfffNOwJcy9ZseOHenb7tzx4osvpm8xZSlXV1ezY9Bff/1ldZtsGcsybhmXmJioS5cuZXp8xuSOo0ePWrQVIAAAOXXvfqsAAAAAACAHypYtq9dee02LFi1Kj0VGRmr+/Pl6++237diyvPfwww9bXSY4ONjwR21PT0+TyarslCpVyiRm6x/KW7RoYVO5li1bmjyFu3//fgUHB5sce+TIEcXExBhitjwFf4efn598fHwMv/OhQ4esWgbc1iXDHUlmT9ZauxWLo75X+/fvN4llTBSyVJMmTTRx4sQctqhgSkhI0J49e3TkyBEdP35c0dHRio+P1/Xr1832oYyJfElJSbp69aqCgoKsPnfDhg2tLmPv65px8t3Z2Vl16tSx6fzS7VWO7nbz5k2dOHFC1atXt7lOR1S2bFkFBgbaVO5u+T1pvHv3bsPratWq5WhriYz9wZZtXGy5r7Jy69Yt7du3T+Hh4Tp69KguX76shIQEJSQkmCQrZObChQtZ/jzjfeXq6mpz0oyjMLcq0tNPP21TXc8884y++OKLbOvPji2f9xnvQen2fWju+6AkPfjgg4bXiYmJGjRokCZMmMAqHwCAPEWyBwAAAAAAmejbt69WrVplWJp5zpw5at++vckS6/eSjE+4W8Lb29vwumTJklY/uZqxDsm2CS4XFxeL92XPyNzqIgcPHjTZ1keS/vnnH5PYp59+Kjc3N5vOLZmuTnHt2jWryptr/70mNjbWbNzDw8Oqehz1vTp69KhJzNbfpUKFCnJ3d7dpu6CC6sCBA5o7d642bdpk9WovGcXGxlqd7FG0aFGbJvftfV0zTqA6OTlZvSLF3cytimLteHYvsOXzVJLJalm2bFOVExn7w/Hjx0225rFGxsTIuLg4JScnm6yglhlb7ytzIiMjNWvWLP3666+6cuVKjurK6jtKUlKSSVJLTpNmHMGhQ4cMr3PynaxUqVIqWrSorl69mmn92XF3d7cpac/cinVZXe/GjRurePHihhWatm3bphYtWqh169Z66qmn9NBDD1nc5wEAsBTJHgAAAAAAZCIgIEDdunXT1KlT02MJCQn65ptv9OGHH9qxZXmrSJEiVpfJ+Mfr3KhDkmEZeUsFBwdbvYXLHRUqVDCJ3T3JcDdzy3mfPHnSpvNmJjo62qrjixYtmqvnL4gyS/YoXLiwVfU46nuVsU+4urqqRIkSNtXl4uKi4OBgk+07MhMWFmb12FeiRAnNnj3bhtZZJzk5WePGjdPSpUszXf3FWrYkm9nar+x5XSXT8SwlJUXh4eE2nT8z1o5n94LMtp3KTsZkSVs+C22VlJSkqKgoQyw2NjbTsddWMTExKlasmEXH5tZ4vXz5cn3++ee5ljyT1Rhx7do1kxVCqlSpkivnLcgyJnWVLl3a5u9kklSxYkXD9zBrk8Zy6x6Usr4PPTw89NFHH2nAgAFKS0tLj8fFxWnJkiVasmSJPD09VbduXT344IOqU6eOHn74YZvbBwDAHSR7AAAAAACQhW7dumnp0qWGpz+XLVumLl26qEyZMnZsWd7JjacO7fnkormnMXNSNrPJnPyYuLR2xQVrEx4cUWZPYlv75K6jvlcZJ1xz0t8l696HxMREqxMA8mP7ieTkZA0cOFAbN27M1XptmWC3tV/Z87pK+bPqRk5XWnFEjvgUf34l5VjTH3JjvJ49e7YmTJiQ43rultUYYe59vB8m9nN7LMuYPJyUlKTr169bvEJKft6DrVq10hdffKGPPvrIZGswSbp+/bp27NihHTt2SJIKFSqk6tWr6+mnn1br1q0z3SIGAICskOwBAAAAAEAWvLy81LdvX40aNSo9lpycrEmTJmnixIl2bBkyk5Ml0r28vOTk5GR4KvPubXzulnFZ+oLA2dnZ3k3Ic6GhoSaxwMBAq7fPcdT3KikpyfA6pxNZOdl2qKCYPXu22USPwMBANW/eXPXq1VPZsmUVFBQkb29vubu7m/zeO3fuVOfOnXPcFmu3r7rD3tc1t1dtgOMqiH3B1vvqjj179phN9PDy8lKzZs300EMPqVKlSgoKCpKfn5/c3Nzk7u4uJycnw/FVq1a1+JzmVg/x8vKyvvEOJuN3ppxuW2OufEJCQoHdDqd169Zq0KCBZsyYoZ9//jnLVWRSU1N18OBBHTx4UFOmTNGLL76od999957eKhIAkPtI9gAAAAAAIBvt2rXTggULDEvi//LLL+rWrZtq1qxpv4bBrOvXr9tcNjEx0ZDoIUne3t5mj/Xw8DCJ7d6926YtbGC5/fv3m8Rq1KiR/w2xk4xPSWeWjGSp3NrOwF6uXr2qWbNmGWIuLi4aPHiw3njjDYsnie296oS9r2vG8ax69epavXp1jtoAx2Ruy40uXbpo+PDhdmhN7hg3bpxJrE2bNho2bJjFn9m5sdKWudUe7jXe3t6GhKGcfCfLrHxm38sKisDAQI0cOVLvv/++tm3bpr///lt79uzRsWPHTLb2uSM5OVkrVqzQli1bNHPmTP5/AQCwGMkeAAAAAABkw8XFRYMGDdLAgQPTY2lpaZowYYLmzZtnx5b9n+TkZHs3ocDIybYR5spmtgS5v7+/Sez8+fMke+ShpKQk/fPPPybx+vXr26E1ucParUIy9q+EhAQlJSXZvEKHNVs2NGzYUEeOHLHpPHll06ZNJpOB7733nt58802r6rH3Sj32vK7S7fHswoUL6a/PnTtn03nh+Mx9tjlyfzhz5owOHDhgiDVt2tRsAkhWrL2n/Pz8TGL2HmfyQ5EiRQzJHjndyivjSjNubm4FdlWPjDw8PNSyZUu1bNlS0u1xPSQkRP/884+2bdumsLAwpaamGspERkaqV69eWrNmjdl7EQCAjArZuwEAAAAAADiCp59+WnXq1DHEtm/frr/++itH9Zp76tzayV/J+kmIe1lERITVT+DecerUKZNY0aJFzR5rLl7QJsLvNT/99JPZvt6sWbN8b0vGe9fWhKtr165ZdXxQUJDhdVpamo4fP27zuS9fvmxT2YIi4xjs6+urjh07Wl3Pv//+m1tNsom9r2vG8SwuLs6Q/IH7R+HChU1WenHkzzZz39P69u1rdT3WjhH+/v4mnxOO/D5aKuMWJOfOnTPZpsoaJ06cMLx25AQIb29vPfbYY+rfv7++//57bd68Wb169TJZTScyMlJz5syxUysBAI6GZA8AAAAAACw0ePBgk9iECRNMtv2whrllvm3ZVuHMmTM2t+Fek5KSYvOEysGDB01imS2lnTH5R5K2bt1q03mRvdTUVC1YsMAkXrNmTVWqVCnf25Px3rV1242zZ89adby5fmduaxtLhISE2FSuILl48aLhdZ06dWxaDcPW9zC32Pu6Mp7hbhn7w7lz53Ty5Ek7tSZnMo4R7u7uql27ttX17Nu3z6rj3dzcTLYYCw8Pv+e3csn4O6ekpOjw4cM21XXhwgVdvXrVELuXtjcJCgrSf//7X3377bdydnY2/Oz333+3U6sAAI6GZA8AAAAAACzUoEEDPfnkk4bYoUOHtHbtWpvrNLflhy1PmO/evdvmNtyLNmzYYFO59evXm8Tq1q1r9th69erJy8vLEPvjjz/ui2Xa7WHKlCk6duyYSbxz5852aI3p9j623LdJSUlWT8w/+OCDcnJyMsRsHYPWrFljU7mCJOPKKL6+vlbXERUVpZ07d+ZWk2xi7+v62GOPmcR+/vlnm85vi4wTnZJMtjdA1sytFHbr1i2b6rJ3f8hNuTFGSNL//vc/q8s0aNDA8DolJUW//PKLTee3VMZ7ydY+YKt69eqZxNatW2dTXebKmavf0T388MNq2rSpIXb27FmTLcoAADCHZA8AAAAAAKzw7rvvqlAh43+nJ02aZPMWDuXLlzeJhYaGWlXHrVu39OOPP9p0/nvVTz/9ZPWy4ceOHTN5crdy5coKDg42e7ybm5sef/xxQywhIUHffvutdY1FtjZs2KAZM2aYxKtXr64XXnjBDi0yvXdPnz6tuLg4q+pYs2aN1U95+/r66j//+Y8h9s8//1j91PnZs2fviSeHPT09Da9t2dJqyZIlNm/9lFvsfV0ffPBBFStWzOT827dvt7ouW3h7e5vE7vUVEHJbbr6H5rbGWrhwoUNuGZdxjIiNjbU6kWjXrl1mV/7KTsuWLU1iCxYssGm7Pktl7Af5fR81atTIJOHk559/trodKSkp+v77703ijRs3zlH7CqoKFSqYxKz9TgEAuD+R7AEAAAAAgBWqVq2qF1980RA7d+6cli5dalN9RYsWVVBQkCG2bt06q57EXLx4sU2rCtzLLl68qNmzZ1tVZvTo0Sax9u3bZ1mmd+/eJrG5c+dqz549Vp0b5qWmpuqbb77RgAEDTLZLcnNz0+jRo02Sr/JLxqXkU1JSrHryOy4uTt98841N53799ddNYiNHjrT4KeCUlBR99NFHVidEFUTFixc3vN67d69Vk4rHjh3TzJkzc7tZNrHndXVxcVGPHj1M4h988IGioqKsrs9a5lZb4HPNOt7e3iare9j6HlatWtUk4SM+Pl5DhgxxuBVXMo4RN27csOoz+vr16xoxYoRN565bt64eeeQRQ+zYsWOaOnWqTfVZIuOKcfl9HwUGBqpFixaG2JUrVzRt2jSr6lmwYIFOnTpliNWvX99km5h7RWRkpOG1k5OT/P397dQaAIAjIdkDAAAAAAArDRw4UO7u7obYb7/9ZnN9TzzxhOH1hQsXtGDBAovK7tixQ1988YXN576XTZ8+XVu2bLHo2K+++kp///23Iebr62uS2JNRjRo19NRTTxliycnJ6tevn81b6yQlJWn58uWaP3++TeXvBampqdqwYYM6duyoyZMnmyQ/OTk5aeTIkapVq5adWnj76eKMiSbTpk2z6EncmzdvavDgwTp37pxN527atKlJssmRI0fUu3fvbM9/59w7duyw6dwFzcMPP2x4nZiYaPGk4rlz59SnT58Ck/Ri7+v6+uuvmyQfXrhwQW+99ZYuXrxoU51RUVH66quv9Ndff2V5XOXKlU1ilo7fuK1QoUKqWLGiIfbnn3/anJwxcOBAkxUatmzZomHDhtm8Es6xY8c0ZMiQfN3uLOMYId3+zLdkRbabN29q4MCBOn36tM3n79u3r0ls5syZmjdvntV1JSUlmSQFZFSlShXD62PHjikiIsLqc+XEm2++aRKbN2+exVvYbNu2TV999ZVJvFu3bjltWp6ZOnWq1duy3REREWGyjWDFihXl6uqaG00DANzjSPYAAAAAAMBKwcHB6tixY67V9+qrr5rEJkyYoGXLlpmsZnDHzZs3NWvWLPXo0UNJSUkmySf3szvvRXJysvr376/58+dnOtkVFxenESNGmN0iZNiwYfLx8cn2fKNGjVLp0qUNsWvXrunNN9/UZ599lu3EzB0hISEaP368mjVrpo8++khnz561qNy9IC0tTf/++6/Wrl2rsWPHqkWLFurbt6/27t1rcqyzs7NGjRqlV155xQ4t/T/BwcEmy8lfunRJ3bt3z3Ji7eDBg+rUqZM2b94sSTbdu87Ozho7dqzJRNDff/+tZ555RosXL9bVq1cNP4uNjdWqVav0/PPP69dff5V0+wlwc0vHO5JWrVqZJN3MnTtXkyZNynKrhLVr16p9+/bpT70XLlw4T9tpCXtfV3d3d02aNElubm6G+MGDB/Xyyy9r0aJFunHjRrb1JCUlafPmzRoyZIiaNm2qGTNmZJus4ufnZ9LmlStXav78+WxlYIV69eoZXp86dUoffPCBzp8/b3Vd1apV0+DBg03iq1evVrt27bRp06ZMv6PcLSYmRitWrFC3bt3UunVr/fTTT1atXpZTderUUalSpQyxvXv3qn///lmuWhMaGqoOHTqkJx3ZOkY0atTIJPkhLS1N48eP14ABA3Ty5Mls6/j33381ffp0NWvWTNu2bcvy2Pr16xtep6amauDAgQoLC7O67baqX7++yUpFqampGjJkiKZOnZppgt2tW7c0b9489e3b1yQZp2XLlma3xSkoNmzYoHbt2qldu3ZasGCBLly4YFG5vXv3qkuXLoqPjzfE7bVFHQDA8bhkfwgAAAAAAMiod+/eWrFihWJjY3NcV506ddS8eXNt3LgxPXbr1i2NHDlSixcvVsuWLVW2bFm5ubkpKipKBw8e1JYtWwyTfsOHD9fIkSNz3JZ7wYMPPihPT09t2bJFN2/e1Lhx47RgwQK1atVKFSpUkI+Pj6KiohQWFqaNGzeanUhs1qyZXn75ZYvO5+/vr+nTp6tDhw6GulJSUvTtt99q4cKFqlevnh5++GEFBQWpSJEiSkpKUlxcnCIjI3Xo0CEdOHAgX7ZKsIdly5Zpw4YNJvHU1FQlJCQoLi5O8fHxFj19XrJkSX3++ecmy+Lby8CBA7V9+3ZDUkFISIiefvpptWzZUvXr15e/v78SExN14cIF7dixQ3v37k2fIC1XrpyaNm1q0xPe1apV04gRIzRy5EjDhGtkZKQ++eQTffrppypatKj8/PwUExOjqKgowwSrk5OTRo0apaVLlxomG+21LY6typcvrxdeeEGrV682xKdPn65Vq1bpqaeeUtWqVeXl5aWYmBidOnVKmzZtMiRTeXp66r333tPHH3+cv403w97XtV69evr00081dOhQw/mjoqL06aefavLkyXrkkUdUt25dBQQEqHDhwkpMTFRsbKzOnz+vgwcP6vDhw1ZtpXNH27ZtDStV3bp1S+PGjdP48eMVFBQkHx8fk9+jffv2Zre/uV+1bdtWy5YtM8RWrlyplStXKiAgQAEBASZbvdSqVUtjxowxW1/Xrl11/PhxrVixwhAPDw9Xnz59VLJkSTVs2FDVqlWTn5+f3N3dFR8fr5iYGJ08eVIHDx7U8ePHs0y8ymvOzs7q27evhg8fbohv3rxZzZs3V6tWrfTggw+mj9URERHaunWrQkNDDffAiBEj9P7779vUhsGDB+vw4cPauXOnIf7bb79p/fr1qlWrlho1aqSSJUvK19dXN2/eVExMjI4dO6awsDCFh4dbfK7mzZvLz89P0dHR6bGQkBC98sor8vb2VokSJcwmGf700082/W6ZGTp0qP755x8dPXo0PZaSkqJp06Zp6dKlatGihapWrSp/f3/Fxsbq+PHjWr9+vdlVhIKDg81utVcQhYSEKCQkRGPHjlX58uVVvXp1ValSRQEBAekJxHFxcTp9+rR27typgwcPmtRRrlw5de7cOb+bDgBwUCR7AAAAAABgA19fX/Xs2VMTJkzIlfpGjRqlsLAwXb582RA/evSo4Q/l5nTv3l3t27cn2eMun3/+udq3b5++3/uFCxcs3halUaNGZpcPz0qVKlW0YsUK9e/f3+R6JScna9euXdq1a5dVdd4rrly5oitXruSoDj8/P3Xq1ElvvfWWPDw8cqllOVerVi316dNHU6dONcRv3LihNWvWaM2aNZmWLV68uGbPnp2jCbbXXnstfUubjMkyaWlpmb73Tk5OGj58uJ599lktXLjQ8LOCsMKFtT788EOFhoaaPCF/8eLFbLfEcnV11eTJkwtUv7L3dX3ppZfk5+dndruN2NhYbdy40ZCcmFs6duyo1atX69ixY4Z4WlqaIiIizK6Yk9Ox5V5Tp04dtWnTRitXrjT5WVRUlNmkwiJFimRZ5+jRo1W6dGlNmTLFpD9euHBBq1atylmj80Hbtm21fft2rV271hBPTEzU6tWrTZLFMurdu7deeuklm5M9XFxcNHv2bA0fPtykDampqQoNDVVoaKhNdWfk7u6uYcOGmW1rQkJC+veivObh4aEFCxaoV69eJr/b1atXtXz5covqqVixoubMmSM/P788aGXeOnXqlE6dOpW+6pIlgoKCNG3aNHl6euZhywAA9xLHStUHAAAAAKAA6dy5s4KCgnKlruLFi2vJkiV64IEHLC7j6uqq999/X0OGDMmVNtxL/Pz8tHjxYpMl7bPTtm1bzZgxw6aJ33Llyun7779X165d5eXlZXX5u9WqVUtPPvlkjupwdG5ubnr88cc1duxY/fHHH+rXr1+BmpC/o1+/fhowYICcnJwsLlOzZk0tX75cZcuWzfH527Vrp++//141a9a06PgyZcpozpw56U8NZ1ydyJKtiwoaHx8fzZ8/X3Xr1rWqXIkSJTRv3rwCea/Z+7o2adJEP/74o1q2bGlV387IxcVFTZs2VdWqVbM91tPTU3PnztV//vMfm8+H28mjnTt3zrVVepycnNSnTx/NmzdPtWrVylFdhQsX1quvvipvb+9caZs1xo0bZ3bbvKy4u7vrww8/1KBBg3J8fnd3d02cOFEjRoxQ0aJFbarD2dlZvr6+2R730ksvafTo0XZ5n+8WEBCg7777Tu3btzdZUSY7Tk5Oev7557V06VKVLFkyj1qYe4oVK5bjOpo2barvv/9elStXzoUWAQDuF6zsAQAAAACAjdzd3TVgwACTpcFtVaZMGf38889asGCBFi5cqMjISLPHubq6qmXLlurbt68qVaqUK+e+FxUtWlRLlizRihUrNH/+fJ04ccLscS4uLnr00UfVs2dPNWzYMEfn9PT01NC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" + "
" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], "source": [ + "#Plot the top target label interactions\n", + "\n", "count_plot_h(fet_data['target_type'].value_counts())\n", "plt.title('Types of targets in Drug-Target interactions')\n", "plt.xlabel('Number Drug-Target interactions')\n", @@ -1744,29 +6680,35 @@ }, { "cell_type": "code", - "execution_count": 32, + "execution_count": 49, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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d0uTJk7V06VJNnjxZ1atXz6Yos09uOd/lBi+88IIOHDhg1evwQGxsrLZu3aqtW7eqdu3a+uabb1SkSJFMiSc4OFiDBg1KdcIlPVeuXNHQoUMtnicflpycrP3792v//v165plnNGbMGKsqGlhjy5YtGjt2rM6ePWvV/leuXNGMGTO0cOFCvf3223r55ZczJY5/gxs3bmjw4ME6ePBgmvslJiZq586d2rlzp1577TUNGTIkmyJMW3JysubOnavvvvsuzUngh/cPCgpSUFCQZs2apVGjRqlhw4YZjiMjn6uvvvpK8+fPTzNhyVRiYqKOHTumjz/+WFOnTtWECRNUr149m8d+uL/p06dr9uzZioiIsPqYQ4cO6dChQ5oyZYp++eUXBQYG2h1Ddsst16m4uDiNHDnS4vKBps6ePav3339fK1eu1JQpU1ISRrPDyZMnNXToUJsTUa9cuaIrV65o5cqV+uyzz9SjRw+rj71w4YJGjx5tMQnbkvDwcK1atUqrV69W586d9cknn9iVXGJqwYIF+vLLLxUXF5fmfkFBQXr11VfVq1cvffjhh4aEnLi4OI0ePVo///xzmn0kJiZq27Zt6tixo0aNGmVTRbuwsDD17dtXx48ft/oY6Z+EhHXr1mndunVq2bKlxo4dKy8vL5v6SI2jX2PslR3n1GvXrmno0KHau3evTbHdunVLa9eu1dq1a9W/f3+99957Nh0P4N8pe+o7AQAAAIADu3z5snr06KE1a9bYNOEn/TOJPm/ePPXp0yfdu8HTc/fuXb344os2JRwkJydryZIleu2113Tv3r0Mje8IEhISdPLkSUObq6urXRPylo4LCQnRrVu3MhRjTitZsqThTv0HNm3aZFd/e/fuVc+ePR060WPYsGGaNm2aVXfUPXD16lX17Nkz1coIjiq3nO9yi/3799v8Ojzs4MGDeu6558zOS/Y4d+6cunXrZneix6VLl/TSSy+lm+hh6o8//lD//v3TnSizxqxZszRgwACrEz0eFh0drdGjR+ujjz5SQkJChmNxdJcvX1bXrl3TnYQzNW3aNH399ddZFJX17t+/ryFDhmj06NFWJXqYunr1qvr166dFixZlKI6Mfq6OHj1qU6KHqRs3bqh3795asWKFXcffvXtX/fr10zfffGP1pKSpxMREQ2JrbpdbrlP3799Xv379rEr0eNi2bdv06quvplklIDMdO3ZMPXv2zJKKY6nZuXOnunbtanWix8OSkpK0ZMkSvfTSS7p9+3aG4pg2bZpGjhxp0/Vr7ty5hnNkXFyc3nzzzXQTPR6WkJCg4cOHa/369VYfEx0dbXOih6kNGzbo+eef140bNzLUj+T41xh7Zcc59cqVK3rhhRdsTvQAgNRQ2QMAAAAA0nDnzh316NFDISEhZo8VKVJETz75pMqXLy9vb2+Fhobq5MmT+uuvv8wmLvbt26c+ffrol19+sftOwqFDh+r8+fMp20WLFk0Z38vLS7dv39axY8e0fv16RUVFGY7duXOnhgwZou+//96usR3FtWvXzCZdihQpYvdrXrJkSbMf4i5cuKDChQvbHWNu0LBhQ/3999+GtkOHDikpKcmmdb9DQkI0cOBAw2seGBioxx9/XMWLF5e7u7tu3bqlc+fOae3atZkWf2YaM2aMVq5cadbu5uampk2bqnbt2vL399e9e/d07do1bdq0SceOHZP0z9I1b775pp5++ulsidXNzU1VqlRJ2TZNIChUqJAKFSqUZh9pvXdz0/kuN8qbN6+qV6+uChUqqGzZsvLy8pK7u7sSExMVGRmp8+fPa//+/QoKCjIcd/v2bQ0aNEjLly+3u9x2bGys3njjDcNrXalSJTVp0kSlSpWSl5eXQkNDFRwcbPGzFhkZqZdfflnXr183e6xkyZJ64oknVKZMGXl5eSksLEynTp3Shg0bUt4Le/futWu5loeNHz9eM2bMMGv38fFRo0aNVK1aNfn5+Sl//vyKjIzUmTNntHXrVl24cMGw/5IlS+Tl5aUPPvjA4jilSpVKmaC5ffu22WThw5+h1Hh7e1v7tHJEdHS0+vXrp5s3b0r6Z3mT2rVrq1GjRipatKjc3NwUFhamAwcO6K+//jK7Lk6fPl0tW7ZMteR/oUKFUl6nmJgYXbp0yfB4qVKl0q1KULRo0VQfi4+PV9++fS0mr5YqVUoNGjRQ5cqV5e3tLRcXF4WFheno0aPavHmzQkNDU/ZNSEjQJ598okKFCqlly5ZpxmNJRj9XppycnFSpUiVVqlRJ5cuXl6+vrzw8PJQnTx5FR0fr8uXLOnbsmHbv3m1ILoyPj9eIESNUsWJFVatWzer4IyMj1b17d8N3wwdcXV1Vq1Yt1a9fXwEBAfLy8lJsbKxCQ0N14sQJHT58ONUl16Ssv97YKzddpz788EPt3r07Zbts2bJq2rSpypUrJ29vb0VFRen48eP6888/zc5De/fu1Zw5c/TKK6/YNba14uLi9P7775tNWjs5OalWrVqqW7euSpUqlfI+jYqKUnh4uM6dO6eTJ0/q5MmTNifUbNiwQW+99ZZZAu2DJSZr1qypIkWKyNPTUzExMbp69ap27dpldj44cuSI3nzzTc2fP1+urq42P/e///7bkHRQqFAhNW/eXI888ogKFiyo6OhonTp1Sn/88YfZ32f69Ol64oknFBgYqJEjRxqSVsqVK6fmzZurTJky8vT01N27d7V//36tW7fOkFSSlJSkTz/9VA0aNLDr2u/m5qYaNWqofPnyKl26tDw9PeXu7q74+HhFRETo7Nmz2r17t86dO2c4Ljg4WIMHD9b8+fPl4mLf9J+jX2PslZXn1Id9+OGHFr+PVa1aVfXr10/5Pubi4qLo6GhFRETo/PnzOnXqlI4dO5ZtiWIAHAfJHgAAAACQiuTkZA0bNszsB+X8+fNryJAh6tmzp5ydnc2O+/jjjzV58mT9+OOPhvWwg4KCNH78eH344Yc2x3L48OGUH9Ly5s2rwYMHq3fv3hbHj4yM1JgxY7R06VJD+4YNG7R8+XJ16tTJ5vEdxdWrV83aihUrZnd/lo69fPmyGjRoYHefuYGl9bSjo6N18eJFlS1b1up+lixZkvKDY+XKlfW///1PtWvXtrjvxx9/bFesWWnPnj2aN2+eWXu7du304YcfytfX1+yxQYMGaffu3fr444916dIl3bx5U7/++mt2hKsaNWoYElNM11jv3r17yhrrtspN57vcpECBAnr66afVpk0bPfroo1Yth3XmzBmNGTNG27dvT2m7dOmSJk6cqE8++cSuOP7666+Uz1rx4sX1ySefqHnz5hb3HTZsmFnb6NGjzarvuLu764MPPlDXrl0N5eof+PjjjzVr1ixNnTpVCQkJWrhwoV0Tbg/iN0308Pb21rvvvquOHTumWqo/OTlZf//9tz799FPduXMnpX327NmqV6+eWrVqZXbMqFGjUv57ypQpmjp1quFxS8ldjmbhwoUp3wlq1qypTz/91GKSwIsvvqgrV67orbfeMiQhJSUlafLkyZo1a5bF/nv06JGyXMPu3bvNlvj64osvMnQdHDt2rNnEboUKFTR8+HA9/vjjFt+PknTv3j3NnTtXkydPTplITk5O1gcffKCVK1fafL3P6OdK+mcStHHjxurQoYMaN25s8bphKjQ0VN99953mz5+fMpEeFxenYcOG6bfffrMq9uTkZLMk4AfxdOnSRYMGDVJAQECafZw8eVKrVq2yWB0lK6839spN16mHv5f7+/vr448/TjXx87333tPIkSPNqrdMmzZNL774YpYus/jHH3+YvUeqVaumsWPHqmLFiukeHxISog0bNuiXX36xarzLly/rgw8+MCR6uLi46OWXX1a/fv1S/XwMGjRIJ06c0EcffWQ4Vx06dEgTJkxI9fOXlgkTJkiSnJ2d9eabb6pfv34WrzWDBw/W8OHD9eeff6a0JScna9KkSerWrVtK5RZfX1998skneuaZZ8z66NGjhwYNGqRXX31VwcHBKe0hISFasGCBBgwYYFXMXl5eat++vVq3bq3atWtbdc09cOCARo0alZKILP1TVeynn36yO5nI0a8x9sjqc+oD+/btMySJSf8k3Y4dO9aqZUfv3r2rLVu26Ndff031Wgngv4dlXAAAAAAgFatXrzYrP5wvXz5NmzYt1UQL6Z8fnYcOHarPPvvM7LG5c+fatezDgx/cXFxcNHnyZL3yyiupju/p6anRo0erf//+Zo+NGTNGkZGRNo/vKCzd6ZmRO7+KFCli1vbwhKOjqlKlisUfkK29I+2BB5NkderU0cKFC1NN9JCUKeuuZ6bk5GR99tlnZnes9unTR+PHj09zwq5BgwZauHChypQpI0n/iiWSctP5LjfZunWrvvzySzVp0sTqCbmKFStq5syZeu655wzty5Yts3vZgAeftbJly+rnn39OdUJa+uc68fDdvIcOHdKyZcsM+7i5uWnmzJnq1q1bqpMFefPm1euvv67x48fL2dlZycnJdi3lcufOHQ0fPtzQVqZMGa1atUrdunVL89zg5OSkJ598UkuXLjU7H0+cODFDS+w4sgffCVq0aKF58+alWQ2iRIkSmj17tlkVhh07duTI8ltbt241S7Jr1aqVli9frsaNG6c5eZU/f369+uqr+uGHHwzXsIiICP3www82x5KRz9UD3377rWbNmqX27dtblegh/TNp/PHHH2vMmDGG9tOnT2vbtm1W9fHLL79ow4YNhra8efNqwoQJ+uKLL9KdlJT++S4wdOhQbdq0ySyZIzfKTdepB5/BkiVL6tdff02zwpe7u7u+/PJLNW7c2NAeERGhdevW2Ty2LUyXESlYsKBmzZplVaKH9E8iS7du3bR8+XJ17Ngx3f1Nq4gUKFBAM2fO1NChQ9P9fFStWlW//PKLHn/8cUP7/PnzLVZBSE9cXJzy5MmjSZMm6c0330z1WuPh4aGJEyeqUqVKhvbt27enJGj6+/vr559/tpjo8UDp0qU1Y8YMs0oxptff1BQuXFhbt27ViBEjVL9+fauTKx98B2/SpImhfd68eXYveebI1xh7Zdc51fQz6erqqlmzZlmV6CH9kyjbrl07zZ8/X2+88YZVxwD49yPZAwAAAABS8eOPP5q1vf/++2rYsKFVx3fr1k3du3c3tCUnJ2vOnDl2x/T666+rRYsWVu373nvvqX79+oa2u3fv/ivuak6NpYnU9MoAp8Xd3d2szbQUuCNycXGxuEzBg3LNtvD09NQ333xj9/IUOWXXrl1mpa9r1aqV6tIQpvz9/fXNN9+kOrnkaHLj+S438PT0tOu4PHny6NNPPzUkm8XGxmr16tV2x+Li4qKJEydaNeHwsAULFpi1DR06VHXq1LHq+GeeecbsrltbzJ0715Bk+GDyz1IyXWqKFi2qiRMnGtrOnj1rNmnyX1K8eHGNGzfOqkQ6Hx8fvfnmm4a2pKQkQ/WZ7PLtt98atitXrqxJkybZtJTG448/bvZ8li1bZrYUgzXs/Vw9YO85QpI6deqk1q1bG9oeVBFIS3x8vMUlkUaMGKE2bdrYHIeHh4d8fHxsPi675bbrlKurq7755hsVL1483X2dnJzMkt4kWZ3cY68rV64Ytp988kkVLFjQrr4KFCiQ5uPbt2/XwYMHDW2jR4+2+u8j/TO5PmnSJEOM8fHxFv/21nj11Vf15JNPprufq6ur2cR5cnKywsLCJEnjxo1LSfBNS6lSpdS5c2dDW3BwsNkyJZbkzZvX7iov+fLl09ixYw1/o+vXr2foHO+o1xh7ZOc51fQzWb9+fZUuXdrmMaT0P5MA/jtI9gAAAAAACw4dOmQoRyv9s477iy++aFM/7777rtmk+rp16+yakAgICLBYrSMtI0aMMGuzthSzI4qNjTVry0h5bEs/cFoawxFZmqCKioqyuZ/evXvbPUmWkywtvTJ8+HCbSiJXrVrV7Ed9R5Qbz3f/Bvny5TO72/vAgQN299e+fXs98sgjNh0TERGhtWvXGtrKly+vbt262dTPoEGD5OXlZdMx0j/LQy1cuNDQ1qdPH5UsWdLmvurWrWs2afj333/b3M+/xcCBA21KNGjTpo1Zcprp5z6r7du3z2wyePjw4XYtD9SnTx9DQmZcXJxZ1Qdr2PO5ykym1RL279+f7jG///672bJ1jRs3VteuXTMztFwlN16n2rZtq+rVq1u9f4UKFcwqJGT1ZzA6OtqwnZVJPaaT5fXq1dOzzz5rcz+enp5mCYb2nOu9vLysXj5F+qeKhaWks8cff9ymhBVLVV6y41zr5+dnVt3DmvNJahzxGmOv7DynZudnEsB/B8keAAAAAGCBpTuRunfvrjx5bPvfKC8vL7M7guLj47Vnzx6bY+rQoYPNS2FUqlTJbGmNM2fO2FUO2RE8vEb4A7bcLWzKUqKIpTEckaXKHrYuR/JgHWtHZLpedoUKFVSrVi2b+3HU5/+w3Hi++7cwvVvz0KFDdvdlz3vtwIEDZkuvdO7c2ea/rbu7e5rl61Ozc+dOQ0l/KWOfGdNlNv6r7y03Nze1bdvWpmO8vb3N3o8XLlzIzLDSZbpkRYkSJWyaRH1Y/vz51aBBA0Pb3r17be4np8/hpn+TkJCQdJc+MF1qQJL69euXqXHlNrnxOvX888/bfEyNGjUM28HBwTb3YQvTieSMTP6nJTw8XLt27TK02fP6PGB6rr969arZZHx6nnnmGZuq++XPn19ly5Y1a7f1HFG1alWztuw612bWdw5HvcbYKzvPqaafycOHD9u93A4APGC+0CAAAAAAwOLd10899ZRdfT3zzDNmdzYfOHDA5rvdnnjiCbvGf/LJJ83upD106JBheYF/M1sqNVhzbHJyckbCyTWSkpLM2mx9rUqXLm3TUgy5xaVLlxQaGmpoa9q0qV191apVSz4+Pg69vE9uPN/lVmFhYdq/f79OnTql8+fP6+7du4qOjlZsbKzFc4Pp0lI3btywa9z8+fPblYxkaaKnWbNmdsXQokULixVx0mI6gRoQEGDVkgepKVGihGH76tWrioiIsKvqiCOrWbOmXYmMpUqV0vnz51O2H15eJzuYJmOYJqPayvT9cPz4cZuOt/dzlZa4uDjt379fJ0+e1OnTpxUWFqaoqCjFxMQoMTHRbH9LCaTXrl1TsWLFLPafnJxs9joGBATYnTTjKHLbdSp//vwKDAy0eexSpUoZthMTExUdHW1x2cDMEBgYaLgO7N+/X19//bUGDRokF5fMmxrat2+f2TUwI59v08+2JJ04ccKm68ejjz5q87jFihXTqVOnDG1169a1qQ8fHx+5u7sbKjjYe669efOmDhw4oFOnTik4OFiRkZGKjo7WvXv3LH7nMK1QY29yv6NeY+yR3efUwMBA/f777ynbV65c0YgRI/TJJ5+wLAsAu5HsAQAAAAAWmE4YFClSRP7+/nb1Va1aNeXJk8cwuW5rWVsXFxdVqVLFrvEtlScPCgqy6y7t3M5SKfj79+/b3Z+lShf2lJvPjUzvtpdsX/ImJ0vfZ8Tp06fN2kxLq9vikUce0Y4dOzISUo7Kbee73Gjnzp366aeftG3btgxV90lISLBrYq9y5cpm5dGtYfpez58/v8qVK2dzP5J9n3fTCdqIiAh16NDBrvElKSYmxqwtLCzsP5fsYXr3tLU8PDwM2/Ys3WWvqKgos0nUHTt2ZOj9YDqxGRYWZtPx9n6uLLl48aKmT5+udevWZXiCM63jLSUrZjRpxhHktutUsWLF7Po+mNoSelmV7NG5c2fNmzfPkBgwbdo0/fbbb+rcubOefPJJVa5cOcPjWErGGTRoUIYSrk3Z+vm25zxp+nfInz+/XUsVZjTZY+3atVq4cKH27t1rMTnbWpa+61vDEa8x9sruc2qbNm309ddfG/4fc9myZdq8ebM6deqkp556SjVq1LC5ahGA/zaSPQAAAADARHJystnd2OXLl7e7P3d3dxUtWtRQftjWHyyLFi1q8xIuD1ia2Ltz545dfeV2lpIVbF2aJL1jbSkJnZtZ+gHY1skGPz+/zAonW1n6/GVmtQFHkhvPd7lJVFSUPv74Y/3xxx+Z2qetnzVfX1+7xjKtOFOkSBG7J7cDAgLk6upqU7KLaSWT2NhYnTx50q7xUxMeHm73xJSjMi0Dby3TyensLB0fEhJiNml5586dTP0+YmuFJXs/V6amTp2qH374wWzJJHulNTFsmuAi/bNk379ZbrxOWVoKzxqWqmlk5fKAVatWVc+ePTV37lxD+9WrVzVlyhRNmTJFfn5+qlu3rmrUqKHatWvbVdXh5s2bZm2myV0ZZevfyJ4kQNNzpL2JhPaea2/evKmhQ4eaLYljL3uTLRzxGmOv7D6n+vv7a8iQIRozZoyh/c6dO5o5c6ZmzpwpLy8v1a5dW4GBgapVq5Zq166dZQlhAP4dSPYAAAAAABNRUVFmpbYt3YlnCy8vL8OPyqY/WqcnI+NbOtYRyuraw9KPk5buBLeWpWPt/QE0N4mLi7OY7GHr0j6O+sOjpeeekc+Y6Z2MjiQ3nu9yi6ioKL3yyit2r3mfGnsm9ux9j5m+1zP6t/Xw8LBpwi07/vYZSehzVJm5/EJ2yY6lrmyt5JUZ5+7//e9/ZkuCZFRaE6SWPlP2Jh44itx4nXKkKm/Dhg2Ts7OzfvzxR4uP37lzR3/++af+/PNPSVK+fPn06KOP6tlnn1Xr1q2t+pzkxs93Zpwns/PvfPPmTfXq1UvBwcGZ1qe9yRaOeI2xV06cU3v37q3ExERNnDjR4t8oIiJCmzdv1ubNmyX98/eoWbOmnn32WT377LOZlqgI4N/jv3PWBgAAAAArPVx294GMVnMwXYPX0hi2HG8LNzc3OTk5GUo42zq+oyhUqJBZm+md5bawdKyjVrN42IkTJyz+uFiyZEmb+nHUH4Mt3X2dkR/07VnXPLfIjee73GLMmDEWEz3KlCmj5s2bq1atWipevLiKFCkiNzc35c2b1+y9sGzZMg0fPjzDsdj7WTN9r2d04sqW93psbGymVTqA47N3OYGslNFr2MqVKy0mevj4+OiJJ55QnTp1VLp0aRUtWlSenp7Kly+fWZW2K1euqFWrVlaPaelO/X9LxbHUcJ3KGGdnZw0bNkzPPvusvvvuO23dujXNJID79+9r27Zt2rZtm7766iv17dtXr7zySpqfF0dN6sxNhg0bZjHRo2rVqmratKkCAwNVrFgxFS5cWPnz51e+fPnMrulTpkzR1KlTsynif4ecOqe+8soratGihb777jv9+eefaSYzJSQkaP/+/dq/f7/Gjx+vHj16aNCgQf/6cz8A6znmrzIAAAAAkIUsVSvISHUI6Z9Jr/TGsOV4W8TExBgSPewZ31FYWk7j2rVrdvdn6VhHXrLjgYMHD5q1eXp6qlSpUjkQTfazdEdwRiZ6HHmSKDee73KDU6dOadmyZYY2Nzc3/e9//1O7du3k5ORkVT85XXXC9I7sjL5XbSkJny9fPuXJk8ewdMcTTzyhb7/9NkMxwDFZWoruww8/1Msvv5wD0WRcfHy8xo0bZ9b+6quv6s0337S4rJwlmVGNJKPn7NyO61TmCAwM1LRp03Tnzh1t3LhRu3fv1oEDB3TlypVUjwkPD9fEiRO1fv36lOUlLDF9v3t5eWnv3r2ZGv+/2aZNm7Rjxw5Dm5+fn8aOHasmTZpY3U9Of+dwRDl5Ti1XrpzGjx+vyMhIbdq0Sbt379b+/ft14cIFs/93fyA2NlazZ8/Whg0bNHv27AwtQwng34NkDwAAAAAw4eHhIWdnZ0PJ6Iwue2J6R6ut5WEzMr6lYzNa/jq3KlasmPLly2eYPLl+/bri4uLsqr5w+fJls7Zy5cplKMbcYOfOnWZttWrVsnoCO7extUy1pcmKjJQgt3Ud+dwkN57vcoM1a9YYkhQkaezYsXrqqads6ien73Y2fe0z8j6Pi4uzaQIkT5488vLyMoyZ1qQi/t0KFixo1ubI74e9e/cqJCTE0NazZ0+9++67NvVj62fS0lJyOX2eyWpcpzKXn5+funTpoi5dukiSbt++rf3792vv3r3aunWrxeoShw8f1uDBgzV79myLfZp+viMiIhQREZFqcgiMVq9ebdh2dnbWtGnTFBgYaFM///ZzQVbIDedUT09PtWvXTu3atUsZ/+DBg9q3b582b96s06dPmx0THBysAQMGaNmyZQ5dYRBA5siT0wEAAAAAQG7j5ORk9sPPuXPn7O4vJiZG169fN7RZmvRIy/Xr122++/OBCxcumLX9G5YiscTFxUWVK1c2tMXHxysoKMjmvhISEnT06FFDm7+/vwoXLpyhGHNacHCwtmzZYtbeokWLbI/FtCR4fHy8Xf3YOllWtGhRszZLP6RaKyPH5rTceL7LDUzvsK1YsaLNiR6S5YSx7FSkSBHD9s2bN+2exDh9+nSqd5qmxvRaExwczNIu/1GWllk7depUDkSSObZv327YzpMnj1577TWb+7H1HOHv72/W5sivozW4TmWtQoUKqXXr1vr444+1bt06LVu2TG3atDHbb/v27dq8ebPFPiz9f8W//X2ZmUy/czRp0sTmRA8p579zOKLceE719vZW8+bN9d577+m3337T2rVr1aNHDzk7Oxv2O3PmjJYsWZJDUQLITUj2AAAAAAALHnnkEcP2jRs3dPv2bbv6CgoKMrtDvFq1ajb1kZCQYPcPT5YSHWwd35HUq1fPrG3//v0293P8+HGzMt+W+nY0c+bMMXs/5s2bV88880y2x2JaOtmWJSIedvHiRZv2r1atmtkPpocOHbJr7MjISJ0/f96uY3OL3Ha+yw1MJwLr1q1rVz/2vq8yi6XJIntjOnz4cIbHv3fvnnbv3m3X+HBsfn5+ZuXmDxw4YPd5P6fduHHDsF2mTBmLCS3psfXzWLJkSbNxLC3N9m/DdSr7VKtWTRMnTtSQIUPMHvvzzz8tHmPpWmMpsRjm4uLidOfOHUObPd85EhMTdeTIkcwK6z/DEc6pZcuW1WeffaaxY8eaPZbaZxLAfwvJHgAAAABgQe3atc3a1q1bZ1dfa9euNWurU6eOzf38/fffdo3/119/mbXVqlXLrr4cgaW1re35IczS382WdbNzo+3bt+vXX381a2/Xrp18fX2zPR7T5YRiYmIUGhpqcz+2rgvv5uamSpUqGdo2bdpk16TjmjVrbF5GJrOYJqw8XOLeFrnxfJfTTKvFWCrznZ5Tp05l6O7zzGDpb2taLt5av/32m83HNGrUyKxt1apVdo1vD9PPiGT/5+S/ytJraDpRbi3T90N8fLz++OMPu/rKaabLd9mzDEh8fLxd3+0effRRw/atW7csLs+WmTLremMvrlPZr3///mbXvtQSzx9//HGztpz8fuRILC0FaM93js2bN9u01FpukZnXGHvlxDnVHu3atVPVqlUNbTldhQRA7kCyBwAAAABYYGlS/9dff7X5x6fIyEiziTVXV1c1aNDA5phWrlxpc/n7M2fOmN2dVLFiRYvLWPxbNGjQwKwk7+HDh3XixAmr+4iLi9Py5csNbXnz5tWTTz6ZKTHmhMuXL+udd94xew8XKFBAb731Vo7EVLZsWbM2W+9KvHTpknbt2mXz2M8++6xhOzY2VgsXLrSpj/j4eM2dO9fmsTOLu7u7YdveH/lz4/kupxUoUMCwbWkyJj1z5szJpGjsV6VKFZUrV87Qtm7dOptLve/bt8+uO10bN26sfPnyGdp+//33bKuGY/oZkez/nPxXmVZgkqTo6Gi7+mrVqpVZ27Rp0xxyaZ/MOEesXr1aISEhNh9n6bvIzJkzbe7HFpl1vbEX16ns5+zsrDJlyhjaIiMjLe4bEBBgVh3lypUrZt+lYc7Nzc2szZ7zyY8//pgZ4WS7zLzG2Csnzqn2Mv1Ol9pnEsB/C8keAAAAAGBBYGCgqlevbmg7deqUfv75Z5v6+frrr83uEH/66actrm2dnhs3bmjGjBk2HfPFF1+YtXXv3t3msR2Js7OzunTpYtY+YcIEq/uYM2eOWYWJtm3bysvLK8Px5YQNGzaoS5cuZu9FSXrvvfdUpEiR7A9KMvuMSbZXDxg3bpxddwB26dJFrq6uhrbvvvvOpknoadOm6ezZszaPnVlM34/2rtWeG893Oc00YWzHjh02vc927NiRaya5TM/59+/f12effWb1nfnR0dH67LPP7Brb19dXXbt2NbQlJibqvffe07179+zq0xaWqi3Y+zn5r7J03bty5YpdfTVv3tzsruQrV65o1KhRdvWXk0zPEcHBwTa9Lrdv37ZYkt8aTz/9tEqWLGlo27ZtmxYtWmRXf9bIrOuNvbhO5QzTZKS0qsC9/vrrZm1jx47VhQsXMj2ufxNPT0+z5LFt27bZ1MfixYu1Z8+ezAwr22TmNcZeOXFOtZctn0kA/x0kewAAAABAKvr06WPW9tVXX1n9Y9qSJUvMKgU4OTmpd+/edsf0/fffa/PmzVbt+/XXX5tVPPD29laHDh3sHt9R9OrVy+wu1K1bt2rBggXpHnvs2DFNmTLF0Obi4qL+/ftnaozZ4ejRo3r//ff1+uuvW0z06NSpk1566aXsD+z/K1WqlNldo2vWrLG6usd3331n91rVvr6+ZpPgsbGx6tOnj1VLb8yZM0dTp061a+zMYroUzd69e+2+2zo3nu9yUr169Qzbly9ftnpSMSgoSO+8846Sk5OzIjSbPffcc2YJXdu2bdMHH3yQbkWFiIgIvfbaazpz5ozd4w8YMMDszuWgoCC9+eabunv3rl19Xr16VZ9//rlOnz6d5n6mnxFJVl9D8Y+iRYuaLbll72vo5OSkt99+26z9l19+0YQJE+wu3X/w4EG9++67dh1rL9NzhCSNHz/eqmPDw8M1YMAAu+7el/5Jan3ttdfM2j///HOtWbPG5v6ioqIsfkd4WGZeb+zFdco20dHRGjt2rK5evWrX8X///bfZsVWqVEl1/yeffNIsIScyMlL9+/e3+xoSFRWlmTNnauXKlXYd7yjq1q1r2N6zZ4/V59ktW7ZYTO53FJl5jbFXdp5Tv/zyS7sTxYOCgrRv3z5DW1qfSQD/HSR7AAAAAEAq2rZtq2bNmhna7t27pwEDBmj+/PmpTkrcv39fEyZM0IgRI8wm+15++WWL1QzS86AMfnx8vAYNGqQ5c+akOn5kZKRGjBihadOmmT02fPhwsx/U/o18fX0tLk3y+eef67vvvkt1DfH169erV69eZhOgvXr1MiubmxuFhoZq06ZNmjRpkrp27aouXbpo1apVFvft1KlTrrib2rQKS1JSkgYMGKD9+/enesytW7f0wQcfaNKkSZJktkyEtd555x2zO/lu3Lihjh07asKECWZJH3Fxcdq8ebNefvlljRkzJqW9Vq1ado2fUbVr1zZsR0ZGasiQIVYlq5jKTee73OCZZ54xaxs9erQWLFiQahJHYmKiFixYoF69eqVM4loqT57dPDw8NHLkSLP23377TW3bttWKFSvMyoCHhIRo/vz5euaZZ1ImUkuUKKFChQrZPL6/v7++/PJLOTk5Gdq3bdumzp07a+XKlamekx8WExOjNWvWaODAgXrqqac0f/583b9/P81jKlasaPY3mD59upYtW5YtlUX+DZycnMzOcTt27NCECRN0584dm/tr0aKFevbsadY+ffp09erVS3v37rWqn1u3bmnevHnq3r27unfvrg0bNtgcS0Y0adLELKn0jz/+0EcffZRmEsS2bdvUrVs3HTt2TJL954guXbqodevWhra4uDi98847+uSTT3Tz5s10+zhz5ozGjx+v5s2b69SpU2num5nXG3txnbJNYmKiZs+erSeffFJvvvmmVq1aZdWSD0lJSVq2bJnef/99s8fat2+f5rETJ06Uj4+Poe3y5cvq2rWrvv/+e6vH37Vrlz755BO1aNFC48aN0+3bt9M9zpE9/fTTZm2DBw/W2rVrUz3m/v37mjp1qt54442U61lu+M5hq8y+xtgru86pS5YsUZs2bdSnTx8tWrTI6ue4ceNG9e/f3+w8l95nEsB/g0tOBwAAAAAAudmYMWPUoUMHQ8nUmJgYff7555o1a5aefPJJlS9fXp6engoLC9PJkyf1119/Wbxbs1q1anbfeVqzZk0VKFBAmzdv1v379zVmzBj99NNPeuqpp1SuXDl5enoqNDRUR48e1fr16y3+mNqyZUt16tTJrvHt8fPPP+uXX35J9XFLP9xOnjxZP/30U6rHdO/eXT169LBq/Jdfflnbt2/Xli1bUtqSk5M1adIk/frrr2rXrp1Kly6tvHnz6sqVK1q/fr2CgoLM+qlWrZqGDBli1ZhZ5dixY6lWZImNjVVERISioqIUHx+fbl9ubm5677339OKLL2Z2mHbp0aOHFixYoOvXr6e0hYaG6oUXXlDjxo3VqFEjFSlSRImJiQoJCdG+ffu0Y8eOlB+28+XLp3feeceQfGEtNzc3ff311+rTp4/hMxMXF6fp06dr+vTp8vLyUqFChXT//n2FhISYJQK98MIL8vX11aFDh1La8uTJnntrOnbsqEmTJhkmyjdt2qRNmzbJ29tbfn5+yps3r+GYwoULp7ocVG453+UGDRs21KOPPmqYeE5ISNDIkSM1d+5cPfnkk6pQoYLy5cun0NBQnTlzRuvXr9etW7dS9i9UqJD69OmjcePG5cRTMGjWrJlee+01syTAixcv6oMPPpCzs7P8/Pzk5eWlsLAwhYaGGiZFXV1dNXbsWA0dOtRwvLXv9datW+utt95KSdB64MqVKxo6dKi++uor1a9fX9WrV5evr68KFCigqKgoRUZG6uLFizp27JhOnTqVbiUSU66urmrfvr3hbv6YmBgNHz5cH3/8sYoUKSJ3d3ez5/HWW2+pVatWNo31b/bcc89p69athrYH50h/f3/5+PjI2dnZ8HjLli0tVvGQ/kk8vXDhgtlSBXv37tVLL72ksmXLqn79+qpYsaK8vb3l4uKiyMhI3b17V2fOnFFQUJAuXLhgdyWQzODt7a3evXvr22+/NbQvWbJEf//9t55++ml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"text/plain": [ - "
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" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], "source": [ + "#Lets plot the interaction types connecting Drug-Target\n", "count_plot_h(fet_data['interaction'].value_counts().head(10))\n", "plt.title('Top 10 Drug to Target interaction semantics')\n", "plt.xlabel('Number of Drug-Target interactions')\n", "plt.ylabel('');" ] }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, { "cell_type": "markdown", "metadata": {}, @@ -1776,10 +6718,21 @@ }, { "cell_type": "code", - "execution_count": 33, + "execution_count": 50, + "metadata": {}, + "outputs": [], + "source": [ + "for p in ind:\n", + " G = path_to_G(p)" + ] + }, + { + "cell_type": "code", + "execution_count": 51, "metadata": {}, "outputs": [], "source": [ + "#Build graph \n", "Graph = nx.MultiDiGraph()\n", "\n", "for p in ind:\n", @@ -1789,14 +6742,19 @@ }, { "cell_type": "code", - "execution_count": 34, + "execution_count": 52, "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ - "MultiDiGraph with 4582 nodes and 9389 edges\n" + "Name: \n", + "Type: MultiDiGraph\n", + "Number of nodes: 4947\n", + "Number of edges: 10342\n", + "Average in degree: 2.0906\n", + "Average out degree: 2.0906\n" ] } ], @@ -1806,16 +6764,16 @@ }, { "cell_type": "code", - "execution_count": 35, + "execution_count": 53, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "0.0004473052159437511" + "0.00042267689755647633" ] }, - "execution_count": 35, + "execution_count": 53, "metadata": {}, "output_type": "execute_result" } @@ -1826,7 +6784,7 @@ }, { "cell_type": "code", - "execution_count": 36, + "execution_count": 54, "metadata": {}, "outputs": [], "source": [ @@ -1835,16 +6793,16 @@ }, { "cell_type": "code", - "execution_count": 37, + "execution_count": 55, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "23" + "20" ] }, - "execution_count": 37, + "execution_count": 55, "metadata": {}, "output_type": "execute_result" } @@ -1856,7 +6814,7 @@ }, { "cell_type": "code", - "execution_count": 38, + "execution_count": 56, "metadata": {}, "outputs": [], "source": [ @@ -1865,7 +6823,7 @@ }, { "cell_type": "code", - "execution_count": 39, + "execution_count": 57, "metadata": {}, "outputs": [], "source": [ @@ -1874,16 +6832,16 @@ }, { "cell_type": "code", - "execution_count": 40, + "execution_count": 58, "metadata": {}, "outputs": [ { "data": { "text/plain": [ - "21" + "25" ] }, - "execution_count": 40, + "execution_count": 58, "metadata": {}, "output_type": "execute_result" } @@ -1894,7 +6852,7 @@ }, { "cell_type": "code", - "execution_count": 41, + "execution_count": 59, "metadata": {}, "outputs": [], "source": [ @@ -1905,7 +6863,7 @@ }, { "cell_type": "code", - "execution_count": 42, + "execution_count": 60, "metadata": {}, "outputs": [], "source": [ @@ -1915,19 +6873,17 @@ }, { "cell_type": "code", - "execution_count": 43, + "execution_count": 61, "metadata": {}, "outputs": [ { "data": { - "image/png": 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XtrmkuZIeST83S+WSdIGkFkkLJe2Y22dK2v4RSVN6cpBmZtY75XwpD+B9wLuAHYBPSPpkGftcBkzsUHYKMC8ixgHz0jrA3mQJaRzZdzgugiy5kD2OdReyBzCd0Z5gzMysdgqThaQryO4TtTuwU3o1d7kTEBG3Ak93KJ4EzEzLM4EDc+WXR+Y2YKik4cBewNyIeDoingHmsm4CMjOzKitnzqIZGB8RJe9A2w1bRsTytPwksGVaHgEszW3XmspKla9D0lTSN8tHjx5dgVDNzKxdOcNQ95PddbaiUvKpRAJqb296RDRHRHNTU1OlmjUzM8o7sxgGLJZ0B9nT8oAeP8/iKUnDI2J5GmZakcqXAaNy241MZcuACR3Kb+lBv2Zm1gvlJIszK9jfbGAKcE76eV2u/DhJV5NNZq9KCeUG4Nu5Se09gVMrGI+ZmZWhnBsJ/qknDUu6iuysYJikVrKrms4BZkk6Cngc+HjafA6wD9ACvEj6HkdEPC3pm8D8tN1ZEdFx0tzMzKqsnDOLHomIySWq9uhk2wCOLdHODGBGBUMzM7NuKvd7FmZmNoCVTBaS5qWf59YuHDMza0RdDUMNl/R/gAPSxLPylRFxV1UjMzOzhtFVsvg68DWyy1V/0KEugI9UKygzM2ssJZNFRFwDXCPpaxHxzRrGZGZmDaacS2e/KekAco9VjYjfVTcsMzNrJOXcSPA7wAnA4vQ6QdK3qx2YmZk1jnK+Z7EvsENEvAogaSZwN3BaNQMzM7PGUe73LIbmlodUIQ4zM2tg5ZxZfAe4W9LNZJfPfpC1Dy0yM7MBoJwJ7qsk3UL20COAkyPiyapGZWZmDaWse0OlBxbNrnIsZmbWoHxvKDMzK+RkYWZmhbpMFpIGSXqwVsGYmVlj6jJZRMQa4CFJo2sUj5mZNaByhqE2AxZJmidpdvurN51K+qKkRZLul3SVpI0kjZV0u6QWSb+StEHadsO03pLqx/SmbzMz675yrob6WiU7lDQCmAaMj4h/SZoFHEr2WNUfRsTVki4GjgIuSj+fiYhtJR0KnAt8opIxmZlZ1wrPLNIzuB8D1k/L84HePstiMLCxpMHAG4DlZLc8vybVzwQOTMuT0jqpfg9Jr3u2hpmZVVc5NxL8DNmH9M9S0Qjgtz3tMCKWAd8HniBLEquAO4FnI2J12qw19dPe39K07+q0/RadxDlV0gJJC9ra2noanpmZdaKcOYtjgd2A5wAi4hHgzT3tUNJmZGcLY4GtgDcCE3vaXruImB4RzRHR3NTU1NvmzMwsp5xk8XJEvNK+koaOohd9fhR4NCLaIuLfwK/JktHQ1DZkT+dblpaXAaNyfQ8B/tGL/s3MrJvKSRZ/knQa2RzDx4D/Bq7vRZ9PALtKekOae9iD7DkZNwMHp22mANel5dlpnVR/U0T0JlmZmVk3lZMsTgHagPuAzwJzgNN72mFE3E42B3JXanM9YDpwMnCipBayOYlL0y6XAluk8hPxHW/NzGqunLvOvpoeeHQ72fDTQ739yz4izgDO6FC8BNi5k21fAg7pTX9mZtY7hclC0r7AxcDfyJ5nMVbSZyPi99UOzszMGkM5X8o7D/hwRLQASNoG+B/AycLMbIAoZ87i+fZEkSwBnq9SPGZm1oBKnllIOigtLpA0B5hFNmdxCNm3uM3MbIDoahhq/9zyU8CH0nIbsHHVIjIzs4ZTMllExJG1DMTMzBpXOVdDjQWOB8bkt4+IA6oXlpmZNZJyrob6LdkX464HXq1qNGZm1pDKSRYvRcQFVY/EzMwaVjnJ4nxJZwA3Ai+3F0ZEb59pYWZmfUQ5yeLdwBFkDydqH4aKtG5mZgNAOcniEOCt+duUm5nZwFLON7jvB4ZWOQ4zM2tg5ZxZDAUelDSf189Z+NJZM7MBopxk0fFW4mZmNsCU8zyLP9UiEDMza1yFcxaSnpf0XHq9JGmNpOd606mkoZKukfSgpAckvV/S5pLmSnok/dwsbStJF0hqkbRQ0o696dvMzLqvMFlExKYR8aaIeBPZDQT/E7iwl/2eD/whIt4ObA88QPa41HkRMQ6Yx9rHp+4NjEuvqcBFvezbzMy6qZyroV4Tmd8Ce/W0Q0lDgA+SnrEdEa9ExLPAJGBm2mwmcGBangRcnvq+DRgqaXhP+zczs+4r50aCB+VW1wOagZd60edYstuc/1zS9sCdwAnAlhGxPG3zJLBlWh4BLM3t35rKlufKkDSV7MyD0aNH9yI8MzPrqJwzi/1zr73InpI3qRd9DgZ2BC6KiPcCL7B2yAnIzmDIviVetoiYHhHNEdHc1NTUi/DMzKyjcq6GqvRzLVqB1oi4Pa1fQ5YsnpI0PCKWp2GmFal+GTAqt//IVGZmZjXS1WNVv97FfhER3+xJhxHxpKSlkraLiIeAPYDF6TUFOCf9vC7tMhs4TtLVwC7AqtxwlZmZ1UBXZxYvdFL2RuAoYAugR8kiOR74haQNgCXAkWRDYrMkHQU8Dnw8bTsH2AdoAV5M25qZWQ119VjV89qXJW1KNgl9JHA1cF6p/coREfeQTZR3tEcn2wZwbG/6MzOz3ulyzkLS5sCJwGFkl7PuGBHP1CIwMzNrHF3NWXwPOAiYDrw7Iv5Zs6jMzKyhdHXp7EnAVsDpwN9zt/x4vre3+zAzs76lqzmLbn2728zM+i8nBDMzK+RkYWZmhZwszMyskJOFmZkVKuexqtZDDyxexB4HTl6nfPiwIVx5ycV1iMjMrGecLKro37EeTftMW6d8+ZwL6hCNmVnPeRjKzMwKOVmYmVkhJwszMyvkZGFmZoWcLMzMrFDdkoWkQZLulvS7tD5W0u2SWiT9Kj0YCUkbpvWWVD+mXjGbmQ1U9TyzOAF4ILd+LvDDiNgWeIbsiXykn8+k8h+m7czMrIbqkiwkjQT2BS5J6wI+AlyTNpkJHJiWJ6V1Uv0eaXszM6uRep1Z/Aj4CvBqWt8CeDYiVqf1VmBEWh4BLAVI9avS9q8jaaqkBZIWtLW1VTF0M7OBp+bf4Ja0H7AiIu6UNKFS7UbEdLKn+tHc3ByVarcafBsQM+tr6nG7j92AAyTtA2wEvAk4HxgqaXA6exgJLEvbLwNGAa2SBgNDgH/UPuzK8W1AzKyvqfkwVEScGhEjI2IMcChwU0QcBtwMHJw2mwJcl5Znp3VS/U0R0dBnDmZm/U0jfc/iZOBESS1kcxKXpvJLgS1S+YnAKXWKz8xswKrrXWcj4hbglrS8BNi5k21eAg6paWBmZvY6jXRmYWZmDcrJwszMCjlZmJlZIScLMzMr5GRhZmaFnCzMzKyQk4WZmRVysjAzs0JOFmZmVsjJwszMCjlZmJlZIScLMzMr5GRhZmaFnCzMzKyQk4WZmRVysjAzs0I1TxaSRkm6WdJiSYsknZDKN5c0V9Ij6edmqVySLpDUImmhpB1rHbOZ2UBXjyflrQZOioi7JG0K3ClpLvApYF5EnCPpFLLHp54M7A2MS69dgIvSz37ngcWL2OPAyeuUDx82hCsvubgOEZmZZWqeLCJiObA8LT8v6QFgBDAJmJA2m0n2uNWTU/nlERHAbZKGShqe2ulX/h3r0bTPtHXKl8+5oA7RmJmtVdc5C0ljgPcCtwNb5hLAk8CWaXkEsDS3W2sq69jWVEkLJC1oa2urXtBmZgNQ3ZKFpE2Aa4EvRMRz+bp0FhHdaS8ipkdEc0Q0NzU1VTBSMzOrS7KQtD5ZovhFRPw6FT8laXiqHw6sSOXLgFG53UemMjMzq5F6XA0l4FLggYj4Qa5qNjAlLU8BrsuVfzJdFbUrsKo/zleYmTWyelwNtRtwBHCfpHtS2WnAOcAsSUcBjwMfT3VzgH2AFuBF4MiaRmtmZnW5Gup/AZWo3qOT7QM4tqpBNThfUmtm9VaPMwvrJl9Sa2b15tt9mJlZIScLMzMr5GRhZmaFPGfRh3ni28xqxcmiD/PEt5nVioehzMyskJOFmZkVcrIwM7NCnrPohzzxbWaV5mTRD3ni28wqzcNQZmZWyGcWA0ip4SmAx/72MGO2eds65R66MjNwshhQSg1PASz83uc6rbvp+5/1/IeZOVlY10olGCcRs4HFycJ6pLuT6IcffQzLV65ap9zJxaxv6DPJQtJE4HxgEHBJRJxT55CsE6XmRR58+BE+8IUfr1PuK7TM+oY+kSwkDQJ+CnwMaAXmS5odEYvrG5l1VOqMY+Giz3W6fankUmrC3RPxZvXRJ5IFsDPQEhFLACRdDUwCnCz6uJLJpcSEe3cn4rubdHqyT73KSyXIUkN+leq3kjFVO8n3h+HPRjkGZY+4bmySDgYmRsTRaf0IYJeIOC63zVRgalrdDnioF10OA1b2Yv++aKAd80A7XvAxDxS9OeatI6Kps4q+cmZRKCKmA9Mr0ZakBRHRXIm2+oqBdswD7XjBxzxQVOuY+8o3uJcBo3LrI1OZmZnVQF9JFvOBcZLGStoAOBSYXeeYzMwGjD4xDBURqyUdB9xAdunsjIhYVMUuKzKc1ccMtGMeaMcLPuaBoirH3CcmuM3MrL76yjCUmZnVkZOFmZkVcrLIkTRR0kOSWiSdUu94qkHSDEkrJN2fK9tc0lxJj6Sfm9UzxkqTNErSzZIWS1ok6YRU3m+PW9JGku6QdG865m+k8rGSbk/v8V+lC0b6DUmDJN0t6XdpvV8fL4CkxyTdJ+keSQtSWcXf204WSe6WInsD44HJksbXN6qquAyY2KHsFGBeRIwD5qX1/mQ1cFJEjAd2BY5N/7b9+bhfBj4SEdsDOwATJe0KnAv8MCK2BZ4BjqpfiFVxAvBAbr2/H2+7D0fEDrnvV1T8ve1ksdZrtxSJiFeA9luK9CsRcSvwdIfiScDMtDwTOLCWMVVbRCyPiLvS8vNkHyYj6MfHHZl/ptX10yuAjwDXpPJ+dcySRgL7ApekddGPj7dAxd/bThZrjQCW5tZbU9lAsGVELE/LTwJb1jOYapI0BngvcDv9/LjTkMw9wApgLvA34NmIWJ026W/v8R8BXwFeTetb0L+Pt10AN0q6M932CKrw3u4T37Ow2omIkNQvr6eWtAlwLfCFiHgu+8Mz0x+POyLWADtIGgr8Bnh7fSOqHkn7ASsi4k5JE+ocTq3tHhHLJL0ZmCvpwXxlpd7bPrNYayDfUuQpScMB0s8VdY6n4iStT5YofhERv07F/f64ASLiWeBm4P3AUEntfyT2p/f4bsABkh4jG0L+CNnzb/rr8b4mIpalnyvI/ijYmSq8t50s1hrItxSZDUxJy1OA6+oYS8WlsetLgQci4ge5qn573JKa0hkFkjYmexbMA2RJ4+C0Wb855og4NSJGRsQYsv+7N0XEYfTT420n6Y2SNm1fBvYE7qcK721/gztH0j5k457ttxQ5u74RVZ6kq4AJZLcxfgo4A/gtMAsYDTwOfDwiOk6C91mSdgf+DNzH2vHs08jmLfrlcUt6D9nE5iCyPwpnRcRZkt5K9pf35sDdwOER8XL9Iq28NAz1pYjYr78fbzq+36TVwcAvI+JsSVtQ4fe2k4WZmRXyMJSZmRVysjAzs0JOFmZmVsjJwszMCjlZmJlZIScLG5AkhaTzcutfknRmN9v4Z/FWJff9lKSf9HR/s1pzsrCB6mXgIEnD6h1Ibyjj/8dWdX6T2UC1muxZxV/sWCFpjKSbJC2UNE/S6FQ+VtJf07MDvtVhny9Lmp/2+UZnHUo6UtLDku4guz1Fe3mTpGvT/vMl7ZYrn5ueR3GJpMclDUvxPSTpcrJv644q1b+kw5U91+IeST9Lt+I36zYnCxvIfgocJmlIh/IfAzMj4j3AL4ALUvn5wEUR8W6g/Y6eSNoTGEd2T54dgPdJ+mC+wXR/nm+QJYndyZ6Z0u58smcu7AT8J+kW22Tfrr8pIt5Jdpvt0bl9xgEXprrtOutf0juATwC7RcQOwBrgsHJ/OWZ5vuusDVjpzrOXA9OAf+Wq3g8clJavAL6blncj+zBvLz83Le+ZXnen9U3IPrxvzbW5C3BLRLQBSPoV8LZU91FgfO4uuG9Kd8jdHfiPFOsfJD2Ta+/xiLitoP/3AO8D5qe2N6af3izRqs/Jwga6HwF3AT8vc/vO7o8j4DsR8bMexrAesGtEvPS6RnO3UO/EC0X9Szqe7Azp1B7GZfYaD0PZgJZurjaL1z9u8y9kdy6FbNjmz2n5/3Uob3cD8Ol0NoCkEenZAnm3Ax+StEW6XfohubobgePbVyTtkOvv46lsT6DUc5RL9T8POLg9FmXPZd66RBtmXXKyMIPzyO7C2+544EhJC4EjyJ7rTPp5rKT7yD1xLSJuBH4J/DXVXQNsmu8gPbXsTOCvZEkg/5zoaUBzmpxeDByTyr8B7CnpfrLk8iTwfMfgS/UfEYuB08meoraQ7Gl5w7vxezF7je86a9agJG0IrImI1ZLeTza5vkOdw7IBynMWZo1rNDArfY/iFeAzdY7HBjCfWZiZWSHPWZiZWSEnCzMzK+RkYWZmhZwszMyskJOFmZkV+v/KUPLUsmp7zQAAAABJRU5ErkJggg==\n", 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GG/HII4/EiBEj9lnfALAv1Oepn64dm0eTJvX/7r82LQrqvQYAAAA0RsIiskIymYyxY8emzHXp0iXuvvvuKCoqqnJNfn5+3H777bFkyZKYN29e5fzdd98dw4YNi2bNmtVrzwCwL9XnqZ+fXnR4FOTX/7927stTUgAAANCYCIvIClOnTo133nknZe4nP/nJLoOi7XJycuKGG26I0047rXJu5cqV8Yc//CHOO++8eukVANg79XlKynuRAAAAaIyERWSFZ555JmW83377xZAhQ6q1tl+/fnHooYfGP//5z8q5Z599VlgEABmqPk9J/fd5hwmLAAAAaHTc1UGjV15eHi+//HLK3CmnnBJNmlT/j//nTxZFRMyaNSs++eSTOukPAGg4XHUHAABAY+RkEY3erFmzYt26dSlzgwcPrtEehx9+eMp427Zt8fe//z1OPfXUvW0PAGiAXHUHAABAYyIsotF79913U8Y5OTnxhS98oUZ7dOvWLdq1axerVq3a5b4AQPZoTFfdCb4AAAAQFtHoLVy4MGXcuXPnKCwsrPE+Bx54YEpY9MEHH+x1bwAAO9rXV93VZ/D1/dMGRvfOLeplbwAAAOqOsIhGb8GCBSnjLl261Gqfzp07p4x3DKEAAOpSfZ74iYjo2rF5NGmSqLf997X6/v3av0Nx5OR4ZxUAANA4CYto9FasWJEy7tSpU6322TEsKikpqXVPAAB7Up8nfiIifnrR4VGQX7//c6BNi4J63f/z9sXv174Ki+o7+HI9IAAAsCNhEY3exo0bU8bFxcW12mfHdZs3b45t27ZFkyaZ+/8w3bp1a5XzK1eu3MedZI9VK9fHpg1r6mXvkpKSKMjPbfA19lWdxlJjX9VpLDX2VR1fS+bV2Fd1GkuNfVVn9eqVsXHDvvmfHPvq92tL2dZYuWbjnhfUQpf2xdGkSSI+Klkfk599p15qRESM/M4Xorgwv972BzJTff73V8S//jtsX6jPr6V960KBOgBpsauf2e7qZ7x1LZFMJpP7pBKkyWGHHRbr1q2rHF944YVx1VVX1XifBx98MG644YaUuX/+85+1Dp/2hblz58awYcPS3QYAAAAAALXw2GOPxYABA+q9TuYeiYA6smnTppRxfn7t/l+UBQU7X6NSWlp/14MAAAAAAMC+ICwi6yQStTsWX9UhvNruBQAAAAAAmUJYRKPXrFmzlPGWLVtqtU9V6woLC2u1FwAAAAAAZAphEY3ejoHO5s2ba7VPVeuERQAAAAAANHS56W4A6tuOgc6GDRtqtc+O6woKCqJJk8zOW3v37h2PPfbYTvNt2rSJnJycNHQEAAAAAMCOtm7dGqtXr95pvnfv3vukvrCIRq9Dhw6xcOHCyvHy5ctrtc+O6zp06LBXfe0L+fn5MWDAgHS3AQAAAADAHnTp0iVttTP7WATUgQMPPDBlvHTp0lrts+O6nj171ronAAAAAADIFMIiGr0dQ51ly5bFxo0ba7zPBx98kDI+4IAD9qovAAAAAADIBMIiGr0+ffqkjLdu3RqzZ8+u0R6LFy+OlStX7nZfAAAAAABoiIRFNHqDBg2KFi1apMy9/vrrNdpjx+ebNGkSRx999F73BgAAAAAA6SYsotHLy8uLY445JmXuT3/6UySTyWrv8cQTT6SMBw0aFG3btq2L9gAAAAAAIK2ERWSFE088MWX80UcfxYsvvlitte+8805Mnz49Ze6EE06os94AAAAAACCdEsmaHK+ABiqZTMapp54a77zzTuXcfvvtF08++WQUFRXtct3WrVvjjDPOiDlz5lTOtW/fPl544YVo1qxZvfYMAAAAAAD7gpNFZIVEIhE//OEPU+Y+/vjjuPTSS2PDhg1VrikrK4v//M//TAmKIiIuueQSQREAAAAAAI2Gk0VklVGjRsVzzz2XMrfffvvFBRdcEEceeWR06NAhVq1aFTNnzowHHngg3n///ZRnv/jFL8bkyZMjNzd3X7YNAAAAAAD1RlhEVtmwYUNccMEFMXv27Bqv7datWzz00EPRoUOHeugMAAAAAADSwzV0ZJXi4uJ44IEH4vjjj6/RusMOOywefvhhQREAAAAAAI2Ok0VkralTp8a9994bb7zxxi6f6dOnT1xwwQVx6qmnRiKR2IfdAQAAAADAviEsIuuVlJTEm2++GR9//HFs3LgxCgoKonPnzjFw4MDo2rVrutsDAAAAAIB6JSwCAAAAAADIYt5ZBAAAAAAAkMWERQAAAAAAAFlMWAQAAAAAAJDFhEUAAAAAAABZTFgEAAAAAACQxYRFAAAAAAAAWUxYBAAAAAAAkMWERQAAAAAAAFlMWAQAAAAAAJDFhEUAAAAAAABZTFgEAAAAAACQxYRFAAAAAAAAWUxYBAAAAAAAkMWERQAAAAAAAFlMWAQAAAAAAJDFhEUAAAAAAABZTFgEAAAAAACQxYRFAAAAAAAAWUxYBAAAAAAAkMWERQAAAAAAAFksN90NANSHFStWxOzZs+Ojjz6KjRs3RkFBQXTu3DkGDBgQXbt2TXd7QAZZu3ZtzJo1KxYvXhylpaWRn58fHTp0iH79+kXPnj3T3R40WsuXL4/58+fHsmXL4tNPP42IiJYtW0a7du1i4MCB0aFDh3qp63se9r0tW7bEBx98EEuXLo2SkpLYuHFjbNmyJQoLC6NFixbRrVu36NevXxQWFtZ5bd/zkH1830P28X1fN4RFQKPy4osvxr333htvvPFGJJPJKp/p27dvXHDBBXHKKadEIpHYxx0CO1qzZk3MnTs35syZE7Nnz465c+fGypUrU54ZOXJk/OAHP6jTujNmzIi77747Xn311di6dWuVz3Tv3j1GjBgRZ555ZuTl5dVpfcg2q1atihdffDFee+21mDZtWnzyySe7fb5bt27x7W9/O04//fRo3br1Xtf3PQ/7zpIlS+Lll1+OmTNnxrx582Lx4sW7/L7bLicnJw499NAYNmxYnHzyyXv9Peh7HjLXa6+9Fueff/5O84MHD44HH3yw1vv6vod9r0+fPnu9R//+/ePxxx+v1Vrf93UrkdzVT1MBGpDS0tL47//+73juueeqvWbw4MHxy1/+Mtq1a1ePnQFVeeCBB2LOnDkxZ86cWLx48R6fr8uwqLy8PMaMGRMPPfRQtdf07t07xo0bFz169KiTHiCbzJkzJ2699daYPn16bNu2rcbri4uL43/+53/itNNOq1V93/Ow7/385z+P3/72t7Ve36tXr7jhhhti0KBBNV7rex4y25YtW+Kb3/xmfPjhhzt9rrZhke97SJ90hUW+7+uHdxYBDd6GDRviggsuqFFQFBHx+uuvx1lnnRUrVqyop86AXbnpppviqaeeqlZQVJcqKipi1KhRNfoXyoiI+fPnx/Dhw2PBggX11Bk0XnPnzo1p06bVKiiK+Ozv+auvvjpGjx5d47W+56Fheu+992LEiBHx4osv1mid73nIfL/+9a+rDIpqy/c9ZB/f9/XHNXRAg3fNNdfEm2++mTLXpUuXOP/88+PII4+MTp06xcqVK2PmzJnxwAMPpPyl8OGHH8aoUaNi8uTJkZvrvxKhsbvtttt2+sFT69atY8SIEXHcccdF586dY+3atTF37tyYOHFizJ49u/K5NWvWxCWXXBJTpkyJ4uLifd06NCrdu3ePL3/5yzF48ODo2bNntG3bNpo2bRorV66MN954I/7whz/ErFmzUtY89NBD0aZNmxg5cmS16/ieh/Q74IAD4rDDDotDDjkkDjjggOjcuXMUFxdHTk5OrFu3LhYsWBCvvvpqTJkyJdasWVO5rry8PEaNGhWPPfZYtf9fy77nIbO98847cf/999fpnr7vIbMMHz48mjdvXqM1nTp1qtHzvu/rj2vogAbtxRdfjEsvvTRlbvDgwXHXXXdV+ZdTWVlZ/Od//mc8++yzKfPXXnttjBgxol57Bf5lxx/6FBYWRv/+/WPgwIExcODAuOKKK1I+XxfX0L3zzjtx6qmnprzPrFevXjFhwoTo2LHjTs8nk8kYM2ZMTJo0KWX+wgsvjKuuumqveoFs8vDDD8fPfvazyM3NjRNOOCHOOOOMGDx48B7XPfLII3HDDTdEeXl55Vxubm786U9/ioMOOuj/a+++o6Os1v/vf1JJI4GEHjpIl6aCIqAUcxA7IEhVqkgVURE7ckA4X4qIYARUeiwU4QgHBURQUREILUgTohAChJJCEkj9/cFDHu6ZSTIzKZNh3q+1XMv7yr0Ld+aawFzZe+fbnpwHHGf16tVKTk7WQw89pMqVK1vVJjExUW+++abZbgEtW7ZUREREvu3JeaBky8rKUq9evXI+tA0JCVG5cuV09OjRnHts3YaOvAccz/Tf9lu3blXVqlWLbDzyvmixDR0Ap5Wdna05c+YYYlWqVFF4eHiuv8Xg7e2tWbNmqXHjxoZ4eHi4UlNTi2yuAIzuvPNO9enTR++//76+/fZb7dmzR8uXL9eECRPUtWvXIhnzgw8+MPyF0t/fX4sWLbL4F0pJcnNz0+uvv65OnToZ4itXrtT58+eLZI7A7cjd3V2PPPKINmzYoJkzZ1pVKJJu/FbipEmTDLGMjAzNmzfPqvbkPOA43bt314ABA6wuFElSYGCgZs+erbvuussQ37t3r1XbxZDzQMm2bNkyw2/3T5gwQUFBQQXqk7wHXA95X7QoFgFwWlu3btWRI0cMsTfeeEP+/v55tvPw8NC///1vQywuLk5fffVVoc8RgGWrVq3SO++8o27duumOO+6Qu3vR/pXkzz//1LZt2wyxMWPGWLXc/d1335WPj0/O9bVr1/Tpp58W+hyB21WPHj00a9Ysuw6S7d69u1lxafv27UpLS8uzHTkPOCcPDw+NHTvWLP7TTz/l2Y6cB0q22NhYffDBBznX9957r5544okC9UneA66HvC96FIsAOK3//e9/huvQ0FB17NjRqraNGjUy+61F063pANw+TN8v/Pz81KNHD6vaVqhQQWFhYYaY6RY5AHLn4eFRoPZPPvmk4To5OdmwZY0l5DzgvO6++255eXkZYvn95i85D5RskyZNUkpKiqQbu328++67Be6TvAdcD3lf9CgWAXBK6enp2rFjhyH2xBNP2LQ64amnnjJc79u3T5cuXSqU+QEoWbZu3Wq4fuihh2w6zLJbt26G63PnzunQoUOFMjcAeWvQoIFZLC4uLs825DzgvDw8PFSmTBlDLDk5Oc825DxQcm3cuNGwEmDYsGGqVatWgfsl7wHXQ94XPYpFAJzSvn37lJiYaIhZewbCTa1btzZcZ2Vl5bvFBQDnc/bsWZ04ccIQs/X9okWLFma/5fzjjz8WdGoArHDrdhE35XXOIDkPOL+rV68arsuWLZvrveQ8UHIlJiZq6tSpOdc1a9bU888/X+B+yXvA9ZD3xYNiEQCnZLr9jIeHh5o1a2ZTH9WrV1e5cuXy7BeA87OU1y1btrSpDx8fHzVq1MgQO3bsWIHmBcA6Z8+eNYsFBwfnej85Dzi3w4cPmxWEmzZtmuv95DxQck2fPt2wGvidd96Rt7d3gfsl7wHXQ94XD09HTwAA7HHy5EnDdeXKleXn52dzP7Vr19bFixdzrk+dOlXguQEoWUzfLzw9PVWzZk2b+6lTp47279+fc837BVA8du3aZRarUaNGrveT84BzCw8PN1yXK1dO7dq1y/V+ch4omXbt2qXVq1fnXD/66KNq06ZNofRN3gMlV1pamvbs2aPjx4/r8uXLysrKUpkyZVS2bFk1btzYrlyVyPviQrEIgFP666+/DNdVqlSxq5/KlSsbrk1/+ABwfqbvFxUrVrTpfLObKlWqZLiOjo5WZmamPDw8CjQ/ALnLzMzUf//7X0OsXr16ef7cJ+cB55Senq4ZM2aYHTb9yiuv5LkSgZwHSp60tDS99dZbys7OliQFBgZq4sSJhdY/eQ+UXI899pgyMjJy/Xr58uXVpUsXDRo0yKbP8sj74sE2dACc0oULFwzXpm/21jItFp0/f97uOQEomQrr/cL0L7JpaWmKj4+3d1oArPD1118rNjbWEOvatWuebch5wDlkZmYqISFBBw4c0KJFi/Too49q8eLFhnuGDBmiJ598Ms9+yHmg5Jk/f76io6Nzrl966SWzLeALgrwHSq68CkWSFBcXp2XLliksLEwzZszI9/6byPviwcoiAE4pJSXFcB0QEGBXP6btrl27pqysLLt+OwFAyVRY7xf+/v4W+w4JCbGrPwB5O3funGbMmGGIlSlTRn379s2zHTkPlEzdunVTVFSUVfdWqFBBEyZM0KOPPprvveQ8ULIcP35cixYtyrlu1qyZevXqVahjkPeA80tPT9fChQsVGRmp8PBwlS5dOs/7yfviQbEIgFMy/SHh4+NjVz+W2qWkpNj9QwdAyVOU7xfJycl29QUgbxkZGRo/frySkpIM8fHjxyswMDDPtuQ84LzKlCmjsWPHqkePHnluPXcrch4oObKysvTWW28pPT1dkuTh4aFJkyYV+i9jkvdAyeLu7q6mTZvqgQceUJMmTVSnTh2VKVNG3t7eSkxM1OnTp3POMbt11aEk7d69W2PGjNHChQvl6Zl7qYK8Lx4UiwA4pdTUVMO1tf+YNJXbDwmKRcDtoyjfL0z/wgqgcEydOlW7d+82xNq3b6+ePXvm25acB5xXfHy8/v3vf2vnzp0aOXKkGjZsmG8bch4oOSIiIhQZGZlzPWDAAKvy2FbkPVByDB48WL1791a1atUsfj0kJEQhISFq3ry5hgwZooiICE2bNk1paWk59+zcuVPz5s3T2LFjcx2HvC8eFIsA3Bbc3NzsanfzwM3C6AtAyWSa57xfACXbsmXLtGLFCkOsUqVKmj59ulXtyXmgZOrWrZvatGmTc52enq7ExEQdP35cR44cyVmJkJmZqc2bN2vbtm166aWXNHjw4Dz7JeeBkuH8+fOaNWtWznXlypU1evToIhmLvAdKjldffdXqe93d3dW3b1/VqVNHQ4YMyfnZL0mLFy9Wv379ct0OjrwvHhSLADglX19fww+V69ev29WPpXZ+fn52zwtAyWOa04X5fuHr62tXXwAs27hxo6ZOnWqIlS5dWp988omCg4Ot6oOcB0qmfv365fq1hIQErVq1SvPmzcvZCiYjI0P/+c9/lJ2drSFDhuTalpwHSoZJkybp6tWrOddvvvmmxbNBCgN5Dzi3e++9V+PGjdN//vOfnFhKSooiIiI0atQoi23I++LBCe4AnJLpD4lr167Z1Y+ldhSLgNtLUb5fFNU/gAFXtGPHDr366qvKysrKifn4+Cg8PFwNGjSwuh9yHnA+QUFBGjx4sNatW6fQ0FDD12bPnq3Dhw/n2pacBxzvu+++09atW3OuO3TooM6dOxfZeOQ94Pz69++vChUqGGI///xzrveT98WDYhEAp2T6Q+LW32CyhWk7Hx+fQj98E4BjFdb7haVDLykuA4Xj5sG2t64a9vLy0pw5c3T33Xfb1Bc5DzivatWqacGCBfLy8sqJZWRk6OOPP861DTkPOFZSUpImT56cc+3n56e33nqrSMck7wHn5+3trQ4dOhhiBw4cyLUIRN4XDz4RBeCUTH/74Ny5c3b1Y9rOtF8Azq+w3i9iY2MN197e3ipTpoy90wLw/4mKitLw4cMNh9a6u7tr+vTpevDBB23uj5wHnFvdunX12GOPGWI//PBDrodPk/OAY82cOVNxcXE51yNHjjRbIVjYyHvg9tC8eXPDdWZmpi5evGjxXvK+eHBmEQCnVLt2bf32228512fPnrWrH9N2derUKdC8AJQ8tWvXNlyfP39eWVlZNq8iNP1LZc2aNeXh4VHg+QGu7Pjx4xo0aJCSkpIM8UmTJumRRx6xq09yHnB+nTp10po1a3KuMzIydPjwYYsrDcl5wLEiIyNz/t/T01OXLl3SjBkzrGp7+vRps2vTtm3atFGbNm0MMfIeuD2EhISYxS5fvqyqVauaxcn74kGxCIBTMi3qxMbGKiUlxealo6dOnTJc16pVq8BzA1CymL5fZGRkKDo62uwvm/k5efKk4Zr3C6Bg/vnnHw0cOFDx8fGG+IQJE9SzZ0+7+yXnAedn6UOiW1cu3IqcB0qOjIwMffbZZ3a3j42N1cKFCw2xUqVKmRWLyHvg9pCdnW0Wc3Nzs3gveV882IYOgFOqX7++4TozM1MHDhywqY9//vnH7B+dpv0CcH6W8vrW34C0xvXr1xUVFWWI1atXr0DzAlxZbGysnnvuObOfw6NHj9agQYMK1Dc5Dzi/W88syg85D7ge8h64PVy6dMksFhwcbPFe8r54UCwC4JSaN2+uwMBAQ2zXrl029WF6v7u7u9q1a1fguQEoWapUqaK6desaYra+X+zdu1fp6emGmD1nqQCQLl68qOeee04xMTGG+MCBAzVq1KgC90/OA87vwoULZrHy5ctbvJecB1wPeQ/cHkyLPR4eHha3ppPI++JCsQiAU/Ly8lL79u0NsXXr1llcwpqbb775xnDdvHnzXH8oAXBunTp1Mlx///33Sk5Otrq96ftFpUqV1KRJk8KYGuBSEhISNHDgQEVHRxvivXr10muvvVZo45DzgHOz9OGPpa3pbiLnAcdZt26djh49atd/rVq1MvTVqlUrs3tGjx5tcVzyHnBu169f148//miI3XnnnfLx8cm1DXlf9CgWAXBaDz/8sOH6zJkz+uGHH6xqe+TIEf3xxx+GWJcuXQptbgBKFtP8TklJ0erVq61qGxcXp02bNhli//rXvwptboCrSE5O1pAhQ3Ts2DFD/PHHH9e7775bqGOR84DzSklJ0Zo1awyxevXqqVKlSrm2IecB10PeA85tyZIlZltS57fbD3lf9CgWAXBanTp1UoMGDQyxKVOm5PtbBZmZmXrzzTcNsfLlyxfoMG0AJVujRo3UoUMHQ+zDDz/U+fPn82373nvv6dq1aznXpUqV0uDBgwt9jsDt7Pr16xo+fLjZ+YJhYWGaNm2a3N0L958l5DzgOOfOnbO7bVZWliZNmmTWx6OPPppnO3IecD3kPeBYcXFxyszMtKvtzz//rDlz5hhivr6+6tWrV57tyPuiR7EIgNNyc3PT2LFjDbGYmBi98MILunr1qsU2aWlpeuWVV3Tw4EFDfPjw4fL19S2yuQJwvBdffFFubm4510lJSRoyZEiuf7HMzs7W9OnT9f333xviffv2VcWKFYt0rsDtJCMjQ2PHjjXbVqp9+/aaOXOmPDw8imRcch5wjE8//VTdu3fX5s2blZaWZnW72NhYjRgxwmyLmNDQUD377LP5tifnAddD3gOOs2HDBnXt2lWrV6+2eiu4jIwMLV68WMOHD1dGRobha88991yu5xPeirwvWm7ZthzwAQAl0JgxY/Tdd98ZYqGhoRo4cKDuu+8+VahQQRcvXtTevXv1+eef68SJE4Z7W7RooeXLl8vT07M4pw24tEOHDpktAb/VwoULDdctW7bUXXfdZfHewMBADRs2zKpxp0+frs8++8wQCw4OVv/+/dWxY0dVrlxZiYmJOnjwoBYvXqz9+/cb7q1evbrWrl2rgIAAq8YDIM2ePVvh4eGGmKenp3r37p3nnuR5ady4sdl2tJaQ80DxmzJlipYuXSrpxs/oDh06qGnTpmrQoIEqVqyo0qVLy8vLS1evXlVcXJyOHDmi7du3a9u2bWaHTvv4+GjBggVq3bq1VWOT84Bz6d+/v+GXSVq1aqVly5bZ1Ad5DzjG4sWL9f7770u68fO6Xbt2atmypRo2bKjQ0FAFBASoVKlSSkxM1OnTp7Vr1y6tWbNGMTExZn21bdtW4eHh8vLysmps8r7oUCwC4PSuXr2qgQMHmm1tY43q1atrxYoVqlChQhHMDEBu1qxZo4kTJxZKX6GhoVafV5aRkaFRo0Zp27ZtNo9TtmxZLV++XHXr1rW5LeDKXnvtNa1du7ZQ+3zqqac0bdq0fO8j54Hid2uxqCD8/Pw0d+5ctW3b1uo25DzgXAqjWETeA45xa7GoIO69917NmzfPpsINeV902IYOgNM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\n", 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jhg4cOKAFCxZoz549pnHp6ekaO3asVq9ene0uFQV1XXTs2FF16tSRJK1atcrwfLRo0SLb446sfY5mzJhh2tXE2dlZ3bp1U5s2bRQcHCxvb29du3bNdGMhP9y4cUP9+vXT2bNnDXFnZ2d16tRJLVq0UNWqVeXn56e0tDTFxsbq+PHj2r9/vzZs2JBlccagQYNM/3/WrFmGn/Xo0UOenp5Z5lSjRo08PCKjNWvWGI5Uu61p06bq3r27atasKT8/P8XExOjQoUP6/vvvtWPHDlO/jIwMTZw4UWXLltWjjz5q09rx8fEaMmSIrl+/Lumfx/Xkk0+qYcOGCggIUFpams6cOWM68urOgq5ly5apc+fOhf7tagAAUHQcP35cgwYNsnhvGhISomnTpsnJqeA+hnNxcVHJkiVVsmRJNWjQQAMHDtTatWv1zjvvKCYmRpIUExOjoUOH6pNPPrH5fRIAAAAAAIXFIcPWr3IDAApccnKymjVrZiiqeOutt9SrVy+r59iyZYuef/55U9vJyUlbt27NdPvogwcPaseOHXryyScVEBBg1fyXL1/WiBEjDAULDRs2zHZHloyMDD3yyCO6fPmyKdalSxdNmDDBqg90b968qZUrV6p06dJq3rx5lv0++ugjffXVV4ZYw4YN9cknn6hkyZKZjomMjNTLL79sUSTywgsvaMSIEdnm9fPPP2vYsGGGmKenpyZOnKi2bdtmO1aSrly5onnz5ql58+ZZ3gBfvHixxo8fb4hVrlxZ06dPV4UKFTIdEx8frzfeeMNih5COHTtqypQp2ebUp0+fTI+bCQoK0vTp01W1atUsx7777rtatGiRIfbpp5+qXbt2mfYvrOvC/DFNnDgxx8KuzLRq1UoREREW8fvuu09ffvml7r//fqvnyk1OQ4YM0caNGw2xhg0bauLEiSpXrlyOa+7cuVNLlizRJ598kmWfkJAQQ3vjxo1WzW3O/LlasGCBGjVqlGX/K1euqFOnTqYiEumf4pwJEyboiSeeyHLcihUrNGbMGNMxbNI/RWs//fSTSpUqleW4ZcuWafTo0RbxYsWKadSoUQoLC5ODg0OmY3fv3q1BgwYZivkeeeQRffnll1muV1RcuXIl07+VekMfkatncTtkBACA5Onqrqm93s/THJm9TwsPD8/TnNY6ffq0+vTpY7ErY6VKlbRo0SK7HeNz6tQp9e7d21TIIknu7u768ccfVb58ebvkBAAAAACwTlaf5W7dulWBgYF2yKhwcJwQABRBLi4u6tixoyG2YsUKm+ZYvny5od2sWbMsPzitXbu2Bg8ebHUBiySVLl1as2fP1n333WeK7dq1S8eOHctyzIULFwyFCh4eHnr77bet/kZi8eLF9fTTT2dbqHDt2jUtWLDAEKtWrZpmzJiRZQGLJAUEBOjLL7+02Jlj7ty5ioqKynJcSkqKJkyYYIh5enrq66+/tqqARZICAwM1atSoLAtYkpOTNW3aNEOsdOnSmjt3bpYFLNI/z++UKVMs5l21alW2v6es+Pj4aNGiRdkWsEjS6NGjLZ5H812B7lQY10VB8/X11cKFC20qYMmNrVu3WhSwtGjRQl999ZXVRSaNGjXKtoDFnmbNmmUoYJGk999/P9sCFumfoifzIq/Y2FiLYjZrjRkzRv369cuygEWSHnzwQQ0ZMsQQ27Ztm+EGEQAA+Hc4f/68wsLCLApYKlSooHnz5tmtgEWSgoODNW7cOEMsISFBn376qZ0yAgAAAAAgexSxAEARZb4bw4EDB3Tq1CmrxsbFxVnc6O7evXu+5Xabm5ub+vfvb4ht2bIly/7mxSAPPPCASpQoka85mR/xUaxYMb377rtyd3fPcayHh4fGjx9vuHGdnJysJUuWZDlm5cqVhiNqpH92zcnumBpbrV69WtHR0YbYm2++aVXRkbOzs959910VL27cXcG80Mcar732msqWLZtjPycnJ4tdgw4cOJBl/8K4LgraqFGjCqXqeebMmYZ2QECAPvzww2yParpbxMfHWxTftWrVSp07d7ZqfPfu3dWsWTND7IcfflBCQoJNeTz44IN69tlnrerbs2dPw3OflpamI0eO2LQeAAC4u0VERCgsLExXrlwxxIOCgjR//vwi8c249u3bq2LFiobY2rVrFRcXZ5+EAAAAAADIBkUsAFBE1ahRw+JID2t3Y1m9erWSk5NNbV9fXz3yyCP5mN3/qVOnjqG9f//+LPs6Ozsb2ubfVMwPa9euNbQffvhh1apVy+rxoaGhaty4cbZz3mnZsmWGdkhIiDp16mT1etYwX79SpUpW7/IiSeXLl7fY2WfdunVKT0+3eg5/f3+bHlfTpk0N7cjISItCnNsK47ooSH5+furQoUOBr3P+/Hnt3r3bEBs4cKB8fX0LfO3CsG3bNsXHxxtiL774ok1zmPe/ceOGtm3bZtMc/fr1s7qvp6enateubYjlZpcjAABwd7p06ZL69u1rcYRRmTJlNH/+fKsKwAuL+a6Fqamp2rt3r52yAQAAAAAga9bt0w8AsIuuXbvqgw8+MLV//PFHDR8+XMWKZV+DaL6bQceOHS0KBXJy8+ZNHT9+XKdOndL169cVHx+vW7duKSMjw9Dvxo0bhvbff/+d5Zz33XefHB0dlZaWJumfby0uXrxYvXv3tim3rFy/ft1itxrz4g1rPPHEE/r9999N7ZMnTyouLk5eXl6Gfjdv3rTYYeSZZ56xeb3sZGRkWBQG5fYxff/996Z2QkKCjh8/nuPRQLc1btzYpt0+ypUrJxcXF0MxVUxMjPz8/Cz6FvR1UdCaN29eKDuh/PHHH4a2k5OTxY5NdzPzmygVKlSwKJLLSYMGDRQUFGS4kbRv3z61a9fOqvFOTk566KGHbFozODhYf/75p6nNcUIAAPw7XLlyRX379tWFCxcM8cDAQC1YsEDly5e3U2aZCwoKsoidP3/eDpkAAAAAAJA9ilgAoAjr3LmzJk+erNTUVEn/fFD622+/Wexycae///7borDC2qOE0tPTtXr1aq1YsUK///67qajAFtltSe3h4aEmTZpo+/btptj48eO1bds29ejRQw899FCeigEOHTpkUWRTr149m+epW7euoZ2RkaHDhw9b3Nw+ePCg4egi6Z+jSPLTmTNndP36dUMsN4+pdu3ahkIR6Z/ny9oiFmv73ebg4CBPT0/DUUHmBU+3FfR1UdBq1KhRKOuYF3mEhIRYFFbdzQ4dOmRom/8dWis0NNRQxHLw4EGrx5YvX15ubm42refp6WloZ3WdAwCAe8ftApZz584Z4qVKldKCBQtUoUIFO2WWNVdXV4uYrccuAgAAAABQGChiAYAizN/fX82bN9evv/5qii1fvjzbIhbzXViqVq2qatWq5bjW8ePH9frrr+vIkSO5T1g538AdOXKkdu/erVu3bplimzZt0qZNm+Tm5qbQ0FDVq1dPoaGhCg0NtemGsvkxNMWLF8/VNyArVqwoV1dXQ45Xr1616Hf58mVD29nZWQ888IDN62Uns6N1KleubPM8t5+LM2fOmGKZPaaseHt752rNO935fJoryOuioAUGBhbKOubXW/Xq1Qtl3cJifj3m5jqXpCpVqhjathxP5ePjY/N65tf5nbsPAQCAe09kZKTCwsIM76slKSAgQPPnz1fFihXtkldO7iwuv+1eOZYSAAAAAHBvoYgFAIq4bt26GYpYfvnlF8XHx8vDw8Oib3p6ulauXGmIde3aNcc1jh07prCwMMXGxuY5X/OdScxVr15dU6dO1ciRIy0KXhITE7Vjxw7t2LFD0j9FIbVq1dJjjz2mDh06KCAgINu5zXeB8fT0lIODg82PwcHBQV5eXoab35ntMGP+fHl7e+d41JOtMls3t7tvmN+gz27XHHO2Hkdlq4K8Lgqa+U4cBcX8estNwUVRZv57z03hVGbjitJ1DgAA7m5RUVEKCwvT6dOnDfGSJUtq/vz5qlSpkp0yy5n5bp3SP3kDAAAAAFDU5O+dNgBAvnvkkUfk5+dnat+8eVNr1qzJtO9vv/1m2K3B2dlZnTt3znb+lJQU/fe//7W4QV62bFn1799fU6dONR0vtG/fPh09elTh4eGm/23cuNHmx9SiRQutWbNGvXv3zrQY587c9u7dq4kTJ6pVq1Z69913FR8fn2V/8+2w87JbR4kSJbKdO7/Xy4r5Gk5OTrk+Wseax2RPBXVdFDRHR8dCWacwrjd7Mn985tertYr6dQ4AAO5O0dHRCgsL06lTpwxxPz8/zZs3T8HBwXbKLGeRkZHauXOnIVasWDHVqVPHThkBAAAAAJA1ilgAoIhzdnZWx44dDTHzI4Oyirdo0cJQAJOZ77//3mIr7P/85z/65ZdfNGrUKD366KOqVq2a/Pz85ObmZrHTyM2bN618JEalSpXSuHHjtGPHDn3++efq06ePqlWrlmVBQHJyshYtWqQuXbro0qVLmfZxd3c3tBMTE3OVmyQlJSVlO7cki0KLvKyXFfN1U1NTc31ciTWPyd4K4rq4VxTG9WZP5tej+fVqrbvhOgcAAHeX2NhYPffcczpx4oQh7uvrq/nz5+f6GMTC8sEHH1gc7Vm3bl12YgEAAAAAFEkcJwQAd4Hu3btrwYIFpvbevXt15swZw3nr8fHx+uWXXwzjrDlKaP369YZ2586dNXToUKtzu379utV9M1O8eHG1adNGbdq0kfTP49i/f7927typTZs2WXxQfP78eQ0bNkzff/+9xVFB5sfs3LhxQxkZGTYfKZSRkWFxBElmR/iYH1ty/fp1paen5+uRQpmtGxcXl6sPnM1328ntsUSFIT+vi3uF+fWWH8d/FSWenp6Gv7vcvraYjyvK1zkAACj64uLi1L9/fx07dswQ9/Hx0bx581SlSpUCW3vlypVydnZWu3btcvUeNz09XR999JFWrVpl8bM+ffrkR4oAAAAAAOQ7dmIBgLtA1apVVa1aNUNsxYoVhvbatWsNu6L4+/urRYsWOc69d+9eQ7tXr1425fb333/b1D8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" ] }, - "metadata": { - "needs_background": "light" - }, + "metadata": {}, "output_type": "display_data" } ], @@ -1962,13 +6916,27 @@ "plt.xlabel('Degree')\n", "plt.ylabel('');" ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] } ], "metadata": { "kernelspec": { - "display_name": "DMDB_analysis", + "display_name": "cbr", "language": "python", - "name": "dmdb_analysis" + "name": "cbr" }, "language_info": { "codemirror_mode": { @@ -1980,7 +6948,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.8.10" + "version": "3.9.7" } }, "nbformat": 4, From 3bd6b356ad2ce528a4d8cc5e3ce9054228af3b27 Mon Sep 17 00:00:00 2001 From: Carolina Gonzalez-Cavazos <69015275+Carolina1396@users.noreply.github.com> Date: Mon, 25 Jul 2022 19:05:45 -0700 Subject: [PATCH 2/5] Add files via upload --- 1_code/1_basic_dmdb_analysis.ipynb | 5308 +--------------------------- 1 file changed, 97 insertions(+), 5211 deletions(-) diff --git a/1_code/1_basic_dmdb_analysis.ipynb b/1_code/1_basic_dmdb_analysis.ipynb index 58c2210..182f675 100644 --- a/1_code/1_basic_dmdb_analysis.ipynb +++ b/1_code/1_basic_dmdb_analysis.ipynb @@ -9,7 +9,7 @@ }, { "cell_type": "code", - "execution_count": 1, + "execution_count": 2, "metadata": {}, "outputs": [ { @@ -48,7 +48,7 @@ }, { "cell_type": "code", - "execution_count": 2, + "execution_count": 3, "metadata": {}, "outputs": [], "source": [ @@ -63,7 +63,7 @@ }, { "cell_type": "code", - "execution_count": 3, + "execution_count": 4, "metadata": {}, "outputs": [ { @@ -81,7 +81,7 @@ }, { "cell_type": "code", - "execution_count": 4, + "execution_count": 5, "metadata": {}, "outputs": [], "source": [ @@ -91,7 +91,7 @@ }, { "cell_type": "code", - "execution_count": 5, + "execution_count": 6, "metadata": {}, "outputs": [], "source": [ @@ -181,3895 +181,11 @@ "cell_type": "code", "execution_count": 7, "metadata": {}, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "{'directed': True, 'graph': {'_id': 'DB00619_MESH_D015464_1', 'disease': 'CML (ph+)', 'disease_mesh': 'MESH:D015464', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P00519'}, {'key': 'causes', 'source': 'UniProt:P00519', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P00519', 'label': 'Protein', 'name': 'BCR/ABL'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'CML (ph+)'}]}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00619_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'c-Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Pdgf'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cellular proliferation'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00316_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'acetaminophen', 'drug_mesh': 'MESH:D000082', 'drugbank': 'DB:DB00316'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000082', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D000082', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'MESH:D000082', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'affects risk for', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D010146'}, {'key': 'causes', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000082', 'label': 'Drug', 'name': 'acetaminophen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cox-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'cycloxygenaze pathways'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00316_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'acetaminophen', 'drug_mesh': 'MESH:D000082', 'drugbank': 'DB:DB00316'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000082', 'target': 'REACT:R-HSA-2162123'}, {'key': 'occurs in', 'source': 'REACT:R-HSA-2162123', 'target': 'UBERON:0000955'}, {'key': 'location of', 'source': 'UBERON:0000955', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000082', 'label': 'Drug', 'name': 'acetaminophen'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'cycloxygenaze pathways'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature Homeostasis'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}]}\n", - "['Drug', 'Pathway', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00945_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'causes', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cox-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00945_MESH_D013927_1', 'disease': 'Thrombosis', 'disease_mesh': 'MESH:D013927', 'drug': 'acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'GO:0007596'}, {'key': 'has output', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D013928'}, {'key': 'participates in', 'source': 'MESH:D013928', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D013927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'COX'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins and Thromboxanes'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Platelet Activiation / Blood Coagulation'}, {'id': 'MESH:D013927', 'label': 'Disease', 'name': 'Thrombosis'}]}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00788_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'naproxen', 'drug_mesh': 'MESH:D009288', 'drugbank': 'DB:DB00788'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009288', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009288', 'label': 'Drug', 'name': 'naproxen'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cox-2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01059_MESH_D004405_1', 'disease': 'Shigellosis', 'disease_mesh': 'MESH:D004405', 'drug': 'norfloxacin', 'drug_mesh': 'MESH:D009643', 'drugbank': 'DB:DB01059'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009643', 'target': 'UniProt:P43702'}, {'key': 'negatively regulates', 'source': 'MESH:D009643', 'target': 'GO:0003746'}, {'key': 'participates in', 'source': 'UniProt:P43702', 'target': 'GO:0006260'}, {'key': 'precedes', 'source': 'GO:0003746', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:622'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:622'}, {'key': 'causes', 'source': 'NCBITaxon:622', 'target': 'MESH:D004405'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009643', 'label': 'Drug', 'name': 'norfloxacin'}, {'id': 'UniProt:P43702', 'label': 'Protein', 'name': 'topoisomerases II, IV'}, {'id': 'GO:0003746', 'label': 'MolecularActivity', 'name': 'Translocation of EF-G'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Protein Synthesis'}, {'id': 'NCBITaxon:622', 'label': 'OrganismTaxon', 'name': 'Shigella dysenteriae'}, {'id': 'MESH:D004405', 'label': 'Disease', 'name': 'Shigellosis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01380_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'cortisone acetate', 'drug_mesh': 'MESH:D003348', 'drugbank': 'DB:DB01380'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003348', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'MESH:D003348', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'MESH:D003348', 'target': 'UniProt:P23219'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P23219'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003348', 'label': 'Drug', 'name': 'cortisone acetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'COX Genes'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'lipocortin-1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'Immune Cell Funciton'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01610_MESH_D003586_1', 'disease': 'CMV infection', 'disease_mesh': 'MESH:D003586', 'drug': 'valganciclovir', 'drug_mesh': 'MESH:D000077562', 'drugbank': 'DB:DB01610'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000077562', 'target': 'MESH:D015774'}, {'key': 'negatively regulates', 'source': 'MESH:D015774', 'target': 'GO:0039693'}, {'key': 'occurs in', 'source': 'GO:0039693', 'target': 'NCBITaxon:10358'}, {'key': 'causes', 'source': 'NCBITaxon:10358', 'target': 'MESH:D003586'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077562', 'label': 'Drug', 'name': 'valganciclovir'}, {'id': 'MESH:D015774', 'label': 'ChemicalSubstance', 'name': 'ganciclovir'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA replication'}, {'id': 'NCBITaxon:10358', 'label': 'OrganismTaxon', 'name': 'Cytomegalovirus'}, {'id': 'MESH:D003586', 'label': 'Disease', 'name': 'CMV infection'}]}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00916_MESH_D018805_1', 'disease': 'Bacterial septicemia', 'disease_mesh': 'MESH:D018805', 'drug': 'metronidazole', 'drug_mesh': 'MESH:D008795', 'drugbank': 'DB:DB00916'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D008795', 'target': 'MESH:C029371'}, {'key': 'negatively regulates', 'source': 'MESH:C029371', 'target': 'GO:0003676'}, {'key': 'occurs in', 'source': 'GO:0003676', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018805'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008795', 'label': 'Drug', 'name': 'metronidazole'}, {'id': 'MESH:C029371', 'label': 'ChemicalSubstance', 'name': 'hydroxyethyl oxamic acid'}, {'id': 'GO:0003676', 'label': 'BiologicalProcess', 'name': 'bacterial Nucleic Acid synthesis'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018805', 'label': 'Disease', 'name': 'Bacterial septicemia'}]}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00618_MESH_D000073605_1', 'disease': 'Rickettsialpox', 'disease_mesh': 'MESH:D000073605', 'drug': 'demeclocycline', 'drug_mesh': 'MESH:D003707', 'drugbank': 'DB:DB00618'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003707', 'target': 'UniProt:P0A7S3'}, {'key': 'decreases activity of', 'source': 'MESH:D003707', 'target': 'UniProt:P0A7J3'}, {'key': 'participates in', 'source': 'UniProt:P0A7S3', 'target': 'GO:0006412'}, {'key': 'participates in', 'source': 'UniProt:P0A7J3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:786'}, {'key': 'causes', 'source': 'NCBITaxon:786', 'target': 'MESH:D000073605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003707', 'label': 'Drug', 'name': 'demeclocycline'}, {'id': 'UniProt:P0A7S3', 'label': 'Protein', 'name': '30S Ribosomal Subunit'}, {'id': 'UniProt:P0A7J3', 'label': 'Protein', 'name': '50S Ribosomal Subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:786', 'label': 'OrganismTaxon', 'name': 'Rickettsia akari'}, {'id': 'MESH:D000073605', 'label': 'Disease', 'name': 'Rickettsialpox'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D014069_1', 'disease': 'Streptococcal tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'amoxicillin'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding proteins 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan Biosyntheic Process'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Streptococcal tonsillitis'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09335_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'alatrofloxacin', 'drug_mesh': 'MESH:C106856', 'drugbank': 'DB:DB09335'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C106856', 'target': 'UniProt:P0C1U9'}, {'key': 'decreases activity of', 'source': 'MESH:C106856', 'target': 'UniProt:P20831'}, {'key': 'participates in', 'source': 'UniProt:P0C1U9', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P20831', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106856', 'label': 'Drug', 'name': 'alatrofloxacin'}, {'id': 'UniProt:P0C1U9', 'label': 'Protein', 'name': 'Topoisomeraze 4'}, {'id': 'UniProt:P20831', 'label': 'Protein', 'name': 'DNA gyrase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00479_MESH_D016920_1', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'amikacin', 'drug_mesh': 'MESH:D000583', 'drugbank': 'DB:DB00479'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000583', 'target': 'UniProt:P0A7S3'}, {'key': 'participates in', 'source': 'UniProt:P0A7S3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000583', 'label': 'Drug', 'name': 'amikacin'}, {'id': 'UniProt:P0A7S3', 'label': 'Protein', 'name': '30S Ribosomal Subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01234_MESH_D013717_1', 'disease': 'Tenosynovitis', 'disease_mesh': 'MESH:D013717', 'drug': 'dexamethasone', 'drug_mesh': 'MESH:D003907', 'drugbank': 'DB:DB01234'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003907', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003907', 'label': 'Drug', 'name': 'dexamethasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D013717', 'label': 'Disease', 'name': 'Tenosynovitis'}]}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00438_MESH_D014552_1', 'disease': 'Bacterial urinary infection', 'disease_mesh': 'MESH:D014552', 'drug': 'ceftazidime', 'drug_mesh': 'MESH:D002442', 'drugbank': 'DB:DB00438'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002442', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002442', 'label': 'Drug', 'name': 'ceftazidime'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Bacterial urinary infection'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06762_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'pinacidil', 'drug_mesh': 'MESH:D020110', 'drugbank': 'DB:DB06762'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020110', 'target': 'UniProt:Q12791'}, {'key': 'participates in', 'source': 'UniProt:Q12791', 'target': 'GO:0042311'}, {'key': 'capable of', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'prevents', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020110', 'label': 'Drug', 'name': 'pinacidil'}, {'id': 'UniProt:Q12791', 'label': 'Protein', 'name': 'Calcium-activated potassium channel subunit alpha-1'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Negative Regulation of Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D009181_1', 'disease': 'Fungal Infection', 'disease_mesh': 'MESH:D009181', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'produces', 'source': 'UniProt:P10613', 'target': 'MESH:D004875'}, {'key': 'located in', 'source': 'MESH:D004875', 'target': 'GO:0009277'}, {'key': 'correlated with', 'source': 'GO:0009277', 'target': 'MESH:D009181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'sterol 14a-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'Fungal Cell Membrane'}, {'id': 'MESH:D009181', 'label': 'Disease', 'name': 'Fungal Infection'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08799_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'antazoline', 'drug_mesh': 'MESH:D000865', 'drugbank': 'DB:DB08799'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000865', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000865', 'label': 'Drug', 'name': 'antazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064704', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA gyrase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'E. coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00814_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'meloxicam', 'drug_mesh': 'MESH:D000077239', 'drugbank': 'DB:DB00814'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077239', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases activity of', 'source': 'MESH:D011453', 'target': 'InterPro:IPR000265'}, {'key': 'causes', 'source': 'InterPro:IPR000265', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077239', 'label': 'Drug', 'name': 'meloxicam'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin synthhase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'InterPro:IPR000265', 'label': 'GeneFamily', 'name': 'Pain Receptors'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00393_MESH_D013345_1', 'disease': 'Subarachnoid intracranial hemorrhage', 'disease_mesh': 'MESH:D013345', 'drug': 'nimodipine', 'drug_mesh': 'MESH:D009553', 'drugbank': 'DB:DB00393'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009553', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D013345'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009553', 'label': 'Drug', 'name': 'nimodipine'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'voltage dependent l-type calcium channels'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D013345', 'label': 'Disease', 'name': 'Subarachnoid intracranial hemorrhage'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006996_1', 'disease': 'hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C007852', 'target': 'MESH:D002118'}, {'key': 'prevents', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium Ion'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'hypocalcemia'}]}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00588_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'fluticasone propionate', 'drug_mesh': 'MESH:D000068298', 'drugbank': 'DB:DB00588'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068298', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P22301', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068298', 'label': 'Drug', 'name': 'fluticasone propionate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'IL-10'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00623_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'fluphenazine', 'drug_mesh': 'MESH:D005476', 'drugbank': 'DB:DB00623'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005476', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D005476', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0030252'}, {'key': 'increases abundance of', 'source': 'UniProt:P21728', 'target': 'MESH:D010907'}, {'key': 'positively correlated with', 'source': 'GO:0030252', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'MESH:D010907', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005476', 'label': 'Drug', 'name': 'fluphenazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'dopaminaergeinc receptors'}, {'id': 'GO:0030252', 'label': 'BiologicalProcess', 'name': 'growth hormone secretion'}, {'id': 'MESH:D010907', 'label': 'ChemicalSubstance', 'name': 'hypophyseal hormones'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00342_MESH_D017449_1', 'disease': 'allergic skin disorders', 'disease_mesh': 'MESH:D017449', 'drug': 'terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D016593', 'target': 'UniProt:P35367'}, {'key': 'has phenotype', 'source': 'UniProt:P35367', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D017449'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'terfenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D017449', 'label': 'Disease', 'name': 'allergic skin disorders'}]}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01048_MESH_D015658_1', 'disease': 'HIV infection', 'disease_mesh': 'MESH:D015658', 'drug': 'abacavir', 'drug_mesh': 'MESH:C106538', 'drugbank': 'DB:DB01048'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C106538', 'target': 'MESH:C066928'}, {'key': 'decreases activity of', 'source': 'MESH:C066928', 'target': 'UniProt:P04585'}, {'key': 'participates in', 'source': 'UniProt:P04585', 'target': 'GO:0039693'}, {'key': 'causes', 'source': 'GO:0039693', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106538', 'label': 'Drug', 'name': 'abacavir'}, {'id': 'MESH:C066928', 'label': 'ChemicalSubstance', 'name': 'carbovir triphosphate'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'HIV infection'}]}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00717_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'norethisterone', 'drug_mesh': 'MESH:D009640', 'drugbank': 'DB:DB00717'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009640', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'UniProt:P01148'}, {'key': 'negatively regulates', 'source': 'UniProt:P01148', 'target': 'GO:0032275'}, {'key': 'correlated with', 'source': 'GO:0032275', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009640', 'label': 'Drug', 'name': 'norethisterone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'progesterone receptor'}, {'id': 'UniProt:P01148', 'label': 'Protein', 'name': 'gonadotropin releasing hormone'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00246_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'ziprasidone', 'drug_mesh': 'MESH:C092292', 'drugbank': 'DB:DB00246'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C092292', 'target': 'UniProt:P28223'}, {'key': 'has phenotype', 'source': 'UniProt:P28223', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C092292', 'label': 'Drug', 'name': 'ziprasidone'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A receptor'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'behavior'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00748_MESH_D003233_1', 'disease': 'seasonal allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'carbinoxamine', 'drug_mesh': 'MESH:C004649', 'drugbank': 'DB:DB00748'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C004649', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004649', 'label': 'Drug', 'name': 'carbinoxamine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'seasonal allergic conjunctivitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00066_MESH_D016649_1', 'disease': 'primary ovarian failure', 'disease_mesh': 'MESH:D016649', 'drug': 'follitropin', 'drug_mesh': 'MESH:D005640', 'drugbank': 'DB:DB00066'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005640', 'target': 'UniProt:P23945'}, {'key': 'positively regulates', 'source': 'UniProt:P23945', 'target': 'GO:0030728'}, {'key': 'negatively correlated with', 'source': 'GO:0030728', 'target': 'MESH:D016649'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005640', 'label': 'Drug', 'name': 'follitropin'}, {'id': 'UniProt:P23945', 'label': 'Protein', 'name': 'Human follicle stimulating hormone receptor'}, {'id': 'GO:0030728', 'label': 'BiologicalProcess', 'name': 'ovulation'}, {'id': 'MESH:D016649', 'label': 'Disease', 'name': 'primary ovarian failure'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01212_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'ceftriaxone', 'drug_mesh': 'MESH:D002443', 'drugbank': 'DB:DB01212'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002443', 'target': 'UniProt:O05131'}, {'key': 'participates in', 'source': 'UniProt:O05131', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002443', 'label': 'Drug', 'name': 'ceftriaxone'}, {'id': 'UniProt:O05131', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'N. gonorrhoeae'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02703_MESH_D000881_1', 'disease': 'Anthrax', 'disease_mesh': 'MESH:D000881', 'drug': 'fusidic acid', 'drug_mesh': 'MESH:D005672', 'drugbank': 'DB:DB02703'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005672', 'target': 'UniProt:Q81VT3'}, {'key': 'participates in', 'source': 'UniProt:Q81VT3', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D000881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005672', 'label': 'Drug', 'name': 'fusidic acid'}, {'id': 'UniProt:Q81VT3', 'label': 'Protein', 'name': 'elongation factor g'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D000881', 'label': 'Disease', 'name': 'Anthrax'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00682_MESH_D011655_1', 'disease': 'Pulmonary embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'warfarin', 'drug_mesh': 'MESH:D014859', 'drugbank': 'DB:DB00682'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014859', 'target': 'UniProt:Q9BQB6'}, {'key': 'produces', 'source': 'UniProt:Q9BQB6', 'target': 'MESH:D014812'}, {'key': 'participates in', 'source': 'MESH:D014812', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014859', 'label': 'Drug', 'name': 'warfarin'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'vitamin k reductase'}, {'id': 'MESH:D014812', 'label': 'ChemicalSubstance', 'name': 'reduced vitamin k'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Coagulation factor Synthesis'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary embolism'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09046_MESH_D008060_1', 'disease': 'lipodystrophy', 'disease_mesh': 'MESH:D008060', 'drug': 'metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'regulates', 'source': 'UniProt:P48357', 'target': 'GO:0060612'}, {'key': 'negatively correlated with', 'source': 'GO:0060612', 'target': 'MESH:D008060'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'leptin receptor'}, {'id': 'GO:0060612', 'label': 'BiologicalProcess', 'name': 'adipogenesis'}, {'id': 'MESH:D008060', 'label': 'Disease', 'name': 'lipodystrophy'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01332_MESH_D007710_1', 'disease': 'Klebsiella cystitis', 'disease_mesh': 'MESH:D007710', 'drug': 'ceftizoxime', 'drug_mesh': 'MESH:D015296', 'drugbank': 'DB:DB01332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015296', 'target': 'TIGR:02074'}, {'key': 'participates in', 'source': 'TIGR:02074', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D007710'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015296', 'label': 'Drug', 'name': 'ceftizoxime'}, {'id': 'TIGR:02074', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D007710', 'label': 'Disease', 'name': 'Klebsiella cystitis'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00455_MESH_D065631_1', 'disease': 'Allergic Rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'loratadine', 'drug_mesh': 'MESH:D017336', 'drugbank': 'DB:DB00455'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017336', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017336', 'label': 'Drug', 'name': 'loratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00935_MESH_D015508_1', 'disease': 'Nasal Congestion', 'disease_mesh': 'MESH:D015508', 'drug': 'oxymetazoline', 'drug_mesh': 'MESH:D010109', 'drugbank': 'DB:DB00935'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010109', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'prevents', 'source': 'GO:0042310', 'target': 'MESH:D015508'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010109', 'label': 'Drug', 'name': 'oxymetazoline'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1a adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D015508', 'label': 'Disease', 'name': 'Nasal Congestion'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01174_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'phenobarbital', 'drug_mesh': 'MESH:D010634', 'drugbank': 'DB:DB01174'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010634', 'target': 'InterPro:IPR006028'}, {'key': 'participates in', 'source': 'InterPro:IPR006028', 'target': 'GO:0099536'}, {'key': 'negatively correlated with', 'source': 'GO:0099536', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010634', 'label': 'Drug', 'name': 'phenobarbital'}, {'id': 'InterPro:IPR006028', 'label': 'GeneFamily', 'name': 'GABAA Receptors'}, {'id': 'GO:0099536', 'label': 'BiologicalProcess', 'name': 'Synaptic Signaling'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00281_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'lidocaine', 'drug_mesh': 'MESH:D008012', 'drugbank': 'DB:DB00281'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008012', 'target': 'InterPro:IPR028809'}, {'key': 'participates in', 'source': 'InterPro:IPR028809', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008012', 'label': 'Drug', 'name': 'lidocaine'}, {'id': 'InterPro:IPR028809', 'label': 'GeneFamily', 'name': 'Neuronal Voltage gated sodium channels'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00476_MESH_D003865_1', 'disease': 'major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'duloxetine', 'drug_mesh': 'MESH:D000068736', 'drugbank': 'DB:DB00476'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068736', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'causes', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068736', 'label': 'Drug', 'name': 'duloxetine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'sodium dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Neuronal serotonin reuptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'major depressive disorder'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00366_MESH_D065631_1', 'disease': 'Allergic Rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'doxylamine', 'drug_mesh': 'MESH:D004319', 'drugbank': 'DB:DB00366'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004319', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004319', 'label': 'Drug', 'name': 'doxylamine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00650_MESH_D000749_1', 'disease': 'Megaloblastic anemia (Methotrexate Treatment)', 'disease_mesh': 'MESH:D000749', 'drug': 'leucovorin', 'drug_mesh': 'MESH:D002955', 'drugbank': 'DB:DB00650'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002955', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'MESH:D000749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002955', 'label': 'Drug', 'name': 'leucovorin'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic Acid'}, {'id': 'MESH:D000749', 'label': 'Disease', 'name': 'Megaloblastic anemia (Methotrexate Treatment)'}]}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D015523_1', 'disease': 'Acute maxillary sinusitis', 'disease_mesh': 'MESH:D015523', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017291', 'target': 'UniProt:P44350'}, {'key': 'participates in', 'source': 'UniProt:P44350', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D015523'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017291', 'label': 'Drug', 'name': 'clarithromycin'}, {'id': 'UniProt:P44350', 'label': 'Protein', 'name': '50S Ribosomal protein l-10'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D015523', 'label': 'Disease', 'name': 'Acute maxillary sinusitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00350_MESH_D000505_1', 'disease': 'androgenic alopecia', 'disease_mesh': 'MESH:D000505', 'drug': 'minoxidil', 'drug_mesh': 'MESH:D008914', 'drugbank': 'DB:DB00350'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008914', 'target': 'REACT:R-HSA-5684996'}, {'key': 'produces', 'source': 'MESH:D008914', 'target': 'CL:0000346'}, {'key': 'positively regulates', 'source': 'MESH:D008914', 'target': 'UniProt:P48048'}, {'key': 'negatively correlated with', 'source': 'CL:0000346', 'target': 'MESH:D000505'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-5684996', 'target': 'GO:0043066'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'located in', 'source': 'GO:0043066', 'target': 'CL:0002559'}, {'key': 'affected by', 'source': 'CL:0002559', 'target': 'MESH:D000505'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'positively correlated with', 'source': 'GO:0008015', 'target': 'GO:0042640'}, {'key': 'negatively correlated with', 'source': 'GO:0042640', 'target': 'MESH:D000505'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008914', 'label': 'Drug', 'name': 'minoxidil'}, {'id': 'CL:0000346', 'label': 'Cell', 'name': 'dermal papillary cells'}, {'id': 'REACT:R-HSA-5684996', 'label': 'Pathway', 'name': 'ERK1/ERK2 pathway'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0043066', 'label': 'BiologicalProcess', 'name': 'negative regulation of apoptotic process'}, {'id': 'CL:0002559', 'label': 'Cell', 'name': 'hair follicle cell'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood circulation'}, {'id': 'GO:0042640', 'label': 'BiologicalProcess', 'name': 'hair growth'}, {'id': 'MESH:D000505', 'label': 'Disease', 'name': 'androgenic alopecia'}]}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00350_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'minoxidil', 'drug_mesh': 'MESH:D008914', 'drugbank': 'DB:DB00350'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008914', 'target': 'UniProt:P48048'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0045907'}, {'key': 'contributes to', 'source': 'GO:0045907', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008914', 'label': 'Drug', 'name': 'Minoxidil'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00350']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D007172_1', 'disease': 'Erectile Disfunction', 'disease_mesh': 'MESH:D007172', 'drug': 'sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'MESH:D006152'}, {'key': 'participates in', 'source': 'MESH:D006152', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': 'phosphodisterase type 5'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cGMP'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Erectile Disfunction'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01155_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'gemifloxacin', 'drug_mesh': 'MESH:D000077735', 'drugbank': 'DB:DB01155'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077735', 'target': 'UniProt:P72525'}, {'key': 'participates in', 'source': 'UniProt:P72525', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077735', 'label': 'Drug', 'name': 'gemifloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'Topoisomeraze 4'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00443_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'betamethasone', 'drug_mesh': 'MESH:D001623', 'drugbank': 'DB:DB00443'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D001623', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001623', 'label': 'Drug', 'name': 'betamethasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'MESH_C106301_MESH_D003233_1', 'disease': 'Allergic conjuctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'tazanolast', 'drug_mesh': 'MESH:C106301', 'drugbank': None}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C106301', 'target': 'GO:0002553'}, {'key': 'correlated with', 'source': 'GO:0002553', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106301', 'label': 'Drug', 'name': 'tazanolast'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'Histamine sections by Mast Cell'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjuctivitis'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00620_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'triamcinolone diacetate', 'drug_mesh': 'MESH:D014221', 'drugbank': 'DB:DB00620'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014221', 'target': 'UniProt:P04150'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014221', 'label': 'Drug', 'name': 'triamcinolone diacetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D012148_1', 'disease': 'Restless Legs Syndrome', 'disease_mesh': 'MESH:D012148', 'drug': 'gabapentin', 'drug_mesh': 'MESH:D000077206', 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077206', 'target': 'UniProt:P54289'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0006936'}, {'key': 'negatively correlated with', 'source': 'GO:0006936', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077206', 'label': 'Drug', 'name': 'gabapentin'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'voltage dependent calcium channel alpha-2-delta'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'Muscle Contraction'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless Legs Syndrome'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01598_MESH_D010538_1', 'disease': 'Peritonitis', 'disease_mesh': 'MESH:D010538', 'drug': 'imipenem', 'drug_mesh': 'MESH:D015378', 'drugbank': 'DB:DB01598'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015378', 'target': 'UniProt:P0AD65'}, {'key': 'participates in', 'source': 'UniProt:P0AD65', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D010538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015378', 'label': 'Drug', 'name': 'imipenem'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D010538', 'label': 'Disease', 'name': 'Peritonitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00860_MESH_D012507_1', 'disease': 'Sarcoidosis', 'disease_mesh': 'MESH:D012507', 'drug': 'prednisolone', 'drug_mesh': 'MESH:D011239', 'drugbank': 'DB:DB00860'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D011239', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'participates in', 'source': 'UniProt:P47712', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012507'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011239', 'label': 'Drug', 'name': 'prednisolone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'lipocortins'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'phospholipase a2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation signaling'}, {'id': 'MESH:D012507', 'label': 'Disease', 'name': 'Sarcoidosis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09345_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'pramocaine', 'drug_mesh': 'MESH:C005548', 'drugbank': 'DB:DB09345'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005548', 'target': 'InterPro:IPR028809'}, {'key': 'participates in', 'source': 'InterPro:IPR028809', 'target': 'GO:0019227'}, {'key': 'causes', 'source': 'GO:0019227', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005548', 'label': 'Drug', 'name': 'pramocaine'}, {'id': 'InterPro:IPR028809', 'label': 'GeneFamily', 'name': 'Neuronal Voltage gated sodium channels'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'Neuronal Action Potential Transmission'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'ertapenem', 'drug_mesh': 'MESH:D000077727', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077727', 'target': 'UniProt:P44469'}, {'key': 'participates in', 'source': 'UniProt:P44469', 'target': 'GO:0009252'}, {'key': 'occurs in', 'source': 'GO:0009252', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077727', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Bacterial Cell Wall Synthesis'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06786_MESH_D012871_1', 'disease': 'Dermatosis', 'disease_mesh': 'MESH:D012871', 'drug': 'halcinonide', 'drug_mesh': 'MESH:D006206', 'drugbank': 'DB:DB06786'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006206', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006206', 'label': 'Drug', 'name': 'halcinonide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory signalling'}, {'id': 'MESH:D012871', 'label': 'Disease', 'name': 'Dermatosis'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01100_MESH_D005879_1', 'disease': 'Tourette’s Disorder', 'disease_mesh': 'MESH:D005879', 'drug': 'pimozide', 'drug_mesh': 'MESH:D010868', 'drugbank': 'DB:DB01100'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P14416'}, {'key': 'caused by', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'has phenotype', 'source': 'GO:0014046', 'target': 'HP:0100033'}, {'key': 'manifestation of', 'source': 'HP:0100033', 'target': 'MESH:D005879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010868', 'label': 'Drug', 'name': 'pimozide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 Receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'Dopamine Release'}, {'id': 'HP:0100033', 'label': 'PhenotypicFeature', 'name': 'tics'}, {'id': 'MESH:D005879', 'label': 'Disease', 'name': 'Tourette’s Disorder'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01527_MESH_D000856_1', 'disease': 'Anorexia nervosa', 'disease_mesh': 'MESH:D000856', 'drug': 'clortermine', 'drug_mesh': None, 'drugbank': 'DB:DB01527'}, 'links': [{'key': 'treats', 'source': 'DB:DB01527', 'target': 'MESH:D000856'}, {'key': 'contraindicated for', 'source': 'DB:DB01527', 'target': 'MESH:D000856'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01527', 'label': 'Drug', 'name': 'clortermine'}, {'id': 'MESH:D000856', 'label': 'Disease', 'name': 'Anorexia nervosa'}]}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00367_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016912', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'UniProt:P01148'}, {'key': 'negatively regulates', 'source': 'UniProt:P01148', 'target': 'GO:0032275'}, {'key': 'correlated with', 'source': 'GO:0032275', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'levonorgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'progesterone receptor'}, {'id': 'UniProt:P01148', 'label': 'Protein', 'name': 'gonadotropin releasing hormone'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08908_MESH_D009103_1', 'disease': 'Multiple Sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'dimethyl fumarate', 'drug_mesh': 'MESH:D000069462', 'drugbank': 'DB:DB08908'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069462', 'target': 'UniProt:Q14145'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q14145', 'target': 'UniProt:Q16236'}, {'key': 'negatively regulates', 'source': 'UniProt:Q16236', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069462', 'label': 'Drug', 'name': 'dimethyl fumarate'}, {'id': 'UniProt:Q14145', 'label': 'Protein', 'name': 'Kelch-like ECH-associated protein 1'}, {'id': 'UniProt:Q16236', 'label': 'Protein', 'name': 'Nrf2'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Oxidative Stress'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple Sclerosis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00638_MESH_D006943_1', 'disease': 'Hyperglycemia', 'disease_mesh': 'MESH:D006943', 'drug': 'inulin', 'drug_mesh': 'MESH:D007444', 'drugbank': 'DB:DB00638'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D007444', 'target': 'GO:0032099'}, {'key': 'prevents', 'source': 'GO:0032099', 'target': 'MESH:D006943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007444', 'label': 'Drug', 'name': 'inulin'}, {'id': 'GO:0032099', 'label': 'BiologicalProcess', 'name': 'negative regulation of appetite'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00344_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'protriptyline', 'drug_mesh': 'MESH:D011530', 'drugbank': 'DB:DB00344'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011530', 'target': 'UniProt:P23975'}, {'key': 'decreases abundance of', 'source': 'UniProt:P23975', 'target': 'MESH:D009638'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0023041'}, {'key': 'negatively correlated with', 'source': 'GO:0023041', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011530', 'label': 'Drug', 'name': 'protriptyline'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium dependent noradrenaline transporter'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'noradrenaline'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal activation'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13399_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'terguride', 'drug_mesh': 'MESH:C006208', 'drugbank': 'DB:DB13399'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006208', 'target': 'UniProt:P41595'}, {'key': 'positively correlated with', 'source': 'UniProt:P41595', 'target': 'MESH:D006976'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006208', 'label': 'Drug', 'name': 'terguride'}, {'id': 'UniProt:P41595', 'label': 'Protein', 'name': '5-Hydroxytryptamine receptor 2B'}, {'id': 'MESH:D006976', 'label': 'Disease', 'name': 'Pulmonary hypertension'}]}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12770_MESH_D005764_1', 'disease': 'Gastroesophageal Reflux', 'disease_mesh': 'MESH:D005764', 'drug': 'lafutidine', 'drug_mesh': 'MESH:C076948', 'drugbank': 'DB:DB12770'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076948', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076948', 'label': 'Drug', 'name': 'lafutidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 Receptor'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal Reflux'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04938_MESH_D004414_1', 'disease': 'Dyspareunia', 'disease_mesh': 'MESH:D004414', 'drug': 'ospemifene', 'drug_mesh': 'MESH:C119141', 'drugbank': 'DB:DB04938'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C119141', 'target': 'UniProt:P03372'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P03372', 'target': 'MESH:D004967'}, {'key': 'prevents', 'source': 'MESH:D004967', 'target': 'MESH:D059268'}, {'key': 'contributes to', 'source': 'MESH:D059268', 'target': 'MESH:D004414'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119141', 'label': 'Drug', 'name': 'ospemifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'estrogen receptor'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'postmenopausal atrophic vaginitis'}, {'id': 'MESH:D004414', 'label': 'Disease', 'name': 'Dyspareunia'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00199_MESH_D008088_1', 'disease': 'Listeriosis', 'disease_mesh': 'MESH:D008088', 'drug': 'erythromycin', 'drug_mesh': 'MESH:D004917', 'drugbank': 'DB:DB00199'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D004917', 'target': 'MESH:D012338'}, {'key': 'participates in', 'source': 'MESH:D012338', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:1637'}, {'key': 'causes', 'source': 'NCBITaxon:1637', 'target': 'MESH:D008088'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004917', 'label': 'Drug', 'name': 'erythromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': '23S Ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Translation'}, {'id': 'NCBITaxon:1637', 'label': 'OrganismTaxon', 'name': 'Listeria spp.'}, {'id': 'MESH:D008088', 'label': 'Disease', 'name': 'Listeriosis'}]}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02362_MESH_D010392_1', 'disease': 'Pemphigus', 'disease_mesh': 'MESH:D010392', 'drug': 'aminobenzoic acid', 'drug_mesh': 'MESH:D010129', 'drugbank': 'DB:DB02362'}, 'links': [{'key': 'treats', 'source': 'MESH:D010129', 'target': 'MESH:D010392'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010129', 'label': 'Drug', 'name': 'aminobenzoic acid'}, {'id': 'MESH:D010392', 'label': 'Disease', 'name': 'Pemphigus'}]}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01067_MESH_D006943_1', 'disease': 'Hyperglycemia', 'disease_mesh': 'MESH:D006943', 'drug': 'glipizide', 'drug_mesh': 'MESH:D005913', 'drugbank': 'DB:DB01067'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005913', 'target': 'UniProt:Q09428'}, {'key': 'located in', 'source': 'UniProt:Q09428', 'target': 'CL:0000169'}, {'key': 'expresses', 'source': 'CL:0000169', 'target': 'UniProt:P01308'}, {'key': 'prevents', 'source': 'UniProt:P01308', 'target': 'MESH:D006943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005913', 'label': 'Drug', 'name': 'glipizide'}, {'id': 'UniProt:Q09428', 'label': 'Protein', 'name': 'ATP-binding cassette sub-family C member 8'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'Islet Cells'}, {'id': 'UniProt:P01308', 'label': 'Protein', 'name': 'insulin'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}]}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12212_MESH_D013610_1', 'disease': 'Tachyarrhythmia', 'disease_mesh': 'MESH:D013610', 'drug': 'landiolol', 'drug_mesh': 'MESH:C077049', 'drugbank': 'DB:DB12212'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C077049', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'GO:0045823'}, {'key': 'causes', 'source': 'GO:0045823', 'target': 'MESH:D013610'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C077049', 'label': 'Drug', 'name': 'landiolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'GO:0045823', 'label': 'BiologicalProcess', 'name': 'positive regulation of heart contraction'}, {'id': 'MESH:D013610', 'label': 'Disease', 'name': 'Tachyarrhythmia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'levocabastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'histamine H1 Receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01418_MESH_D011655_1', 'disease': 'Pulmonary Embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'acenocoumarol', 'drug_mesh': 'MESH:D000074', 'drugbank': 'DB:DB01418'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000074', 'target': 'UniProt:Q9BQB6'}, {'key': 'produces', 'source': 'UniProt:Q9BQB6', 'target': 'MESH:D014812'}, {'key': 'participates in', 'source': 'MESH:D014812', 'target': 'GO:0007596'}, {'key': 'correlated with', 'source': 'GO:0007596', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000074', 'label': 'Drug', 'name': 'acenocoumarol'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'vitamin k reductase'}, {'id': 'MESH:D014812', 'label': 'ChemicalSubstance', 'name': 'Reduced Vitamin k2 (vkH2)'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Clotting Factor Synthesis'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary Embolism'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB14649_MESH_D009101_1', 'disease': 'Multiple meyloma', 'disease_mesh': 'MESH:D009101', 'drug': 'dexamethasone acetate', 'drug_mesh': 'MESH:C018038', 'drugbank': 'DB:DB14649'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C018038', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'GO:0019370'}, {'key': 'correlated with', 'source': 'GO:0019370', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C018038', 'label': 'Drug', 'name': 'dexamethasone acetate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Phospholipase a2'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosysntesis'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple meyloma'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13676_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'mosapramine', 'drug_mesh': 'MESH:C046384', 'drugbank': 'DB:DB13676'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C046384', 'target': 'UniProt:P14416'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'affects risk for', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046384', 'label': 'Drug', 'name': 'mosapramine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine pathway'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}]}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00024_MESH_D013964_1', 'disease': 'Thyroid cancer (Diagnostic)', 'disease_mesh': 'MESH:D013964', 'drug': 'thyrotropin alfa', 'drug_mesh': 'MESH:D057073', 'drugbank': 'DB:DB00024'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D057073', 'target': 'UniProt:P16473'}, {'key': 'expressed in', 'source': 'UniProt:P16473', 'target': 'UBERON:0002046'}, {'key': 'location of', 'source': 'UBERON:0002046', 'target': 'MESH:D013964'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D057073', 'label': 'Drug', 'name': 'thyrotropin alfa'}, {'id': 'UniProt:P16473', 'label': 'Protein', 'name': 'Thyrotropin receptor'}, {'id': 'UBERON:0002046', 'label': 'GrossAnatomicalStructure', 'name': 'Thyroid'}, {'id': 'MESH:D013964', 'label': 'Disease', 'name': 'Thyroid cancer (Diagnostic)'}]}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00524_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'metolazone', 'drug_mesh': 'MESH:D008788', 'drugbank': 'DB:DB00524'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008788', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0055078'}, {'key': 'negatively correlated with', 'source': 'GO:0055078', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008788', 'label': 'Drug', 'name': 'metolazone'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0055078', 'label': 'BiologicalProcess', 'name': 'Sodium Ion Homeostasis'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09142_MESH_D005705_1', 'disease': 'GallBladder Diseases (Diagnostic)', 'disease_mesh': 'MESH:D005705', 'drug': 'sincalide', 'drug_mesh': 'MESH:D012844', 'drugbank': 'DB:DB09142'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D012844', 'target': 'GO:0032782'}, {'key': 'negatively correlated with', 'source': 'GO:0032782', 'target': 'MESH:D005705'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012844', 'label': 'Drug', 'name': 'sincalide'}, {'id': 'GO:0032782', 'label': 'BiologicalProcess', 'name': 'Bile acid secretion'}, {'id': 'MESH:D005705', 'label': 'Disease', 'name': 'Gallbladder Diseases (Diagnostic)'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12184_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'gepirone', 'drug_mesh': 'MESH:C039979', 'drugbank': 'DB:DB12184'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C039979', 'target': 'UniProt:P08908'}, {'key': 'participates in', 'source': 'UniProt:P08908', 'target': 'GO:0050795'}, {'key': 'negatively correlated with', 'source': 'GO:0050795', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C039979', 'label': 'Drug', 'name': 'gepirone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-HT1a receptor (serotonin 1A)'}, {'id': 'GO:0050795', 'label': 'BiologicalProcess', 'name': 'regulation of behavior'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00347_MESH_D004832_1', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'voltage dependent T-type calcium channel subunit alpha-1G'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'corticothalamic transmission'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11901_MESH_D011471_1', 'disease': 'Nonmetastatic prostate cancer', 'disease_mesh': 'MESH:D011471', 'drug': 'apalutamide', 'drug_mesh': 'MESH:C572045', 'drugbank': 'DB:DB11901'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C572045', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0006351'}, {'key': 'precedes', 'source': 'GO:0006351', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C572045', 'label': 'Drug', 'name': 'apalutamide'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'androgen receptor'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Nonmetastatic prostate cancer'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09105_MESH_D007014_1', 'disease': 'Hypophosphatasia', 'disease_mesh': 'MESH:D007014', 'drug': 'asfotase alfa', 'drug_mesh': 'MESH:C570710', 'drugbank': 'DB:DB09105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C570710', 'target': 'MESH:C107241'}, {'key': 'negatively regulates', 'source': 'MESH:C107241', 'target': 'GO:0030282'}, {'key': 'has phenotype', 'source': 'GO:0030282', 'target': 'HP:0004349'}, {'key': 'manifestation of', 'source': 'HP:0004349', 'target': 'MESH:D007014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C570710', 'label': 'Drug', 'name': 'asfotase alfa'}, {'id': 'MESH:C107241', 'label': 'ChemicalSubstance', 'name': 'inorgainc pyrophosphate'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'hydroxpatite crystal growth'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D007014', 'label': 'Disease', 'name': 'Hypophosphatasia'}]}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00357_MESH_D001943_1', 'disease': 'Secondary malignant neoplasm of female breast', 'disease_mesh': 'MESH:D001943', 'drug': 'aminoglutethimide', 'drug_mesh': 'MESH:D000616', 'drugbank': 'DB:DB00357'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000616', 'target': 'UniProt:P11511'}, {'key': 'produces', 'source': 'UniProt:P11511', 'target': 'MESH:D004967'}, {'key': 'positively regulates', 'source': 'MESH:D004967', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000616', 'label': 'Drug', 'name': 'aminoglutethimide'}, {'id': 'UniProt:P11511', 'label': 'Protein', 'name': 'aromatase'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Secondary malignant neoplasm of female breast'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06785_MESH_D010062_1', 'disease': 'Ovulation induction', 'disease_mesh': 'MESH:D010062', 'drug': 'ganirelix', 'drug_mesh': 'MESH:C061018', 'drugbank': 'DB:DB06785'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061018', 'target': 'UniProt:P30968'}, {'key': 'expressed in', 'source': 'UniProt:P30968', 'target': 'UBERON:0000007'}, {'key': 'produces', 'source': 'UBERON:0000007', 'target': 'InterPro:IPR000476'}, {'key': 'causes', 'source': 'InterPro:IPR000476', 'target': 'MESH:D010062'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061018', 'label': 'Drug', 'name': 'ganirelix'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'GnRH receptor'}, {'id': 'UBERON:0000007', 'label': 'GrossAnatomicalStructure', 'name': 'pituitary gland'}, {'id': 'InterPro:IPR000476', 'label': 'GeneFamily', 'name': 'gonadotropins'}, {'id': 'MESH:D010062', 'label': 'Disease', 'name': 'Ovulation induction'}]}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00130_MESH_D012778_1', 'disease': 'Short bowel syndrome', 'disease_mesh': 'MESH:D012778', 'drug': 'glutamine', 'drug_mesh': 'MESH:D005973', 'drugbank': 'DB:DB00130'}, 'links': [{'key': 'produces', 'source': 'MESH:D005973', 'target': 'CL:0000584'}, {'key': 'capable of', 'source': 'CL:0000584', 'target': 'GO:0050892'}, {'key': 'negatively correlated with', 'source': 'GO:0050892', 'target': 'MESH:D012778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005973', 'label': 'Drug', 'name': 'glutamine'}, {'id': 'CL:0000584', 'label': 'Cell', 'name': 'enterocytes'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal nutrient absorption'}, {'id': 'MESH:D012778', 'label': 'Disease', 'name': 'Short bowel syndrome'}]}\n", - "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01217_MESH_D001943_1', 'disease': 'Hormone receptor positive malignant neoplasm of breast', 'disease_mesh': 'MESH:D001943', 'drug': 'anastrozole', 'drug_mesh': 'MESH:D000077384', 'drugbank': 'DB:DB01217'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077384', 'target': 'UniProt:P11511'}, {'key': 'produces', 'source': 'UniProt:P11511', 'target': 'MESH:D004967'}, {'key': 'positively regulates', 'source': 'MESH:D004967', 'target': 'GO:0030284'}, {'key': 'correlated with', 'source': 'GO:0030284', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077384', 'label': 'Drug', 'name': 'anastrozole'}, {'id': 'UniProt:P11511', 'label': 'Protein', 'name': 'aromatase'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'GO:0030284', 'label': 'MolecularActivity', 'name': 'esterogne receptor activity'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Hormone receptor positive malignant neoplasm of breast'}]}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'MolecularActivity', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB03404_MESH_D017118_1', 'disease': 'Acute intermittent porphyria', 'disease_mesh': 'MESH:D017118', 'drug': 'hemin', 'drug_mesh': 'MESH:D006427', 'drugbank': 'DB:DB03404'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006427', 'target': 'UniProt:P13196'}, {'key': 'participates in', 'source': 'UniProt:P13196', 'target': 'REACT:R-HSA-189451'}, {'key': 'has participant', 'source': 'REACT:R-HSA-189451', 'target': 'MESH:D011162'}, {'key': 'manifestation of', 'source': 'MESH:D011162', 'target': 'MESH:D017118'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006427', 'label': 'Drug', 'name': 'hemin'}, {'id': 'UniProt:P13196', 'label': 'Protein', 'name': 'Aminolevulinic acid synthase'}, {'id': 'REACT:R-HSA-189451', 'label': 'Pathway', 'name': 'Heme biosynthesis'}, {'id': 'MESH:D011162', 'label': 'ChemicalSubstance', 'name': 'porpholobilinogen'}, {'id': 'MESH:D017118', 'label': 'Disease', 'name': 'Acute intermittent porphyria'}]}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09166_MESH_D001008_1', 'disease': 'Anxiety disorders', 'disease_mesh': 'MESH:D001008', 'drug': 'etizolam', 'drug_mesh': 'MESH:C044610', 'drugbank': 'DB:DB09166'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C044610', 'target': 'UniProt:P14867'}, {'key': 'capable of', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'correlated with', 'source': 'GO:0022851', 'target': 'MESH:D001008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C044610', 'label': 'Drug', 'name': 'etizolam'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'GABA-A receptor alpha 1'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-A receptor activity'}, {'id': 'MESH:D001008', 'label': 'Disease', 'name': 'Anxiety disorders'}]}\n", - "['Drug', 'Protein', 'MolecularActivity', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB07565_MESH_D014435_1', 'disease': 'Typhoid fever', 'disease_mesh': 'MESH:D014435', 'drug': 'chloramphenicol succinate', 'drug_mesh': 'MESH:C026016', 'drugbank': 'DB:DB07565'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C026016', 'target': 'UniProt:P0A298'}, {'key': 'participates in', 'source': 'UniProt:P0A298', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:90370'}, {'key': 'causes', 'source': 'NCBITaxon:90370', 'target': 'MESH:D014435'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026016', 'label': 'Drug', 'name': 'chloramphenicol succinate'}, {'id': 'UniProt:P0A298', 'label': 'Protein', 'name': '50S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Bacterial Protein Synthesis'}, {'id': 'NCBITaxon:90370', 'label': 'OrganismTaxon', 'name': 'Salmonella typhi'}, {'id': 'MESH:D014435', 'label': 'Disease', 'name': 'Typhoid fever'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11100_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'allantoin', 'drug_mesh': 'MESH:D000481', 'drugbank': 'DB:DB11100'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000481', 'target': 'GO:0042060'}, {'key': 'prevents', 'source': 'GO:0042060', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000481', 'label': 'Drug', 'name': 'allantoin'}, {'id': 'GO:0042060', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00016_MESH_D000740_1', 'disease': 'Anemia', 'disease_mesh': 'MESH:D000740', 'drug': 'epoetin theta', 'drug_mesh': 'MESH:C555712', 'drugbank': 'DB:DB00016'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C555712', 'target': 'UniProt:P19235'}, {'key': 'positively regulates', 'source': 'UniProt:P19235', 'target': 'GO:0030218'}, {'key': 'has output', 'source': 'GO:0030218', 'target': 'CL:0000232'}, {'key': 'negatively correlated with', 'source': 'CL:0000232', 'target': 'MESH:D000740'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C555712', 'label': 'Drug', 'name': 'epoetin theta'}, {'id': 'UniProt:P19235', 'label': 'Protein', 'name': 'erythropoietin receptor'}, {'id': 'GO:0030218', 'label': 'BiologicalProcess', 'name': 'erythrocyte differentiation'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocytes'}, {'id': 'MESH:D000740', 'label': 'Disease', 'name': 'Anemia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00795_MESH_D003093_1', 'disease': 'Ulcerative Colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'sulfasalazine', 'drug_mesh': 'MESH:D012460', 'drugbank': 'DB:DB00795'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012460', 'target': 'UniProt:P09917'}, {'key': 'positively regulates', 'source': 'UniProt:P09917', 'target': 'GO:0019370'}, {'key': 'part of', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012460', 'label': 'Drug', 'name': 'sulfasalazine'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Arachidonate 5-lipoxygenase'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative Colitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00529_MESH_D017726_1', 'disease': 'Cytomegalovirus Retinitis', 'disease_mesh': 'MESH:D017726', 'drug': 'foscarnet', 'drug_mesh': 'MESH:D017245', 'drugbank': 'DB:DB00529'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017245', 'target': 'UniProt:P08546'}, {'key': 'participates in', 'source': 'UniProt:P08546', 'target': 'GO:0039693'}, {'key': 'occurs in', 'source': 'GO:0039693', 'target': 'NCBITaxon:10358'}, {'key': 'causes', 'source': 'NCBITaxon:10358', 'target': 'MESH:D017726'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017245', 'label': 'Drug', 'name': 'foscarnet'}, {'id': 'UniProt:P08546', 'label': 'Protein', 'name': 'viral DNA Polymerase'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA replication'}, {'id': 'NCBITaxon:10358', 'label': 'OrganismTaxon', 'name': 'Cytomegalovirus'}, {'id': 'MESH:D017726', 'label': 'Disease', 'name': 'Cytomegalovirus Retinitis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00878_MESH_D010518_1', 'disease': 'periodontitis', 'disease_mesh': 'MESH:D010518', 'drug': 'chlorhexidine', 'drug_mesh': 'MESH:D002710', 'drugbank': 'DB:DB00878'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002710', 'target': 'GO:0009274'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:837'}, {'key': 'causes', 'source': 'NCBITaxon:837', 'target': 'MESH:D010518'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002710', 'label': 'Drug', 'name': 'chlorhexidine'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'Bacterial Cell Wall'}, {'id': 'NCBITaxon:837', 'label': 'OrganismTaxon', 'name': 'Porphyromonas gingivalis'}, {'id': 'MESH:D010518', 'label': 'Disease', 'name': 'periodontitis'}]}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00059_MESH_D054198_1', 'disease': 'Acute lymphoblastic leukemia', 'disease_mesh': 'MESH:D054198', 'drug': 'pegaspargase', 'drug_mesh': 'MESH:C042705', 'drugbank': 'DB:DB00059'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C042705', 'target': 'MESH:D001216'}, {'key': 'participates in', 'source': 'MESH:D001216', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D054198'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042705', 'label': 'Drug', 'name': 'pegaspargase'}, {'id': 'MESH:D001216', 'label': 'ChemicalSubstance', 'name': 'extracellular asparagine'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cellular proliferation'}, {'id': 'MESH:D054198', 'label': 'Disease', 'name': 'Acute lymphoblastic leukemia'}]}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01201_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'rifapentine', 'drug_mesh': 'MESH:C018421', 'drugbank': 'DB:DB01201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C018421', 'target': 'UniProt:P9WGY7'}, {'key': 'participates in', 'source': 'UniProt:P9WGY7', 'target': 'GO:0032774'}, {'key': 'occurs in', 'source': 'GO:0032774', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C018421', 'label': 'Drug', 'name': 'rifapentine'}, {'id': 'UniProt:P9WGY7', 'label': 'Protein', 'name': 'DNA-directed RNA polymerase subunit beta'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis infection'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11152_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'trichloroacetic acid', 'drug_mesh': 'MESH:D014238', 'drugbank': 'DB:DB11152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014238', 'target': 'GO:0070265'}, {'key': 'prevents', 'source': 'GO:0070265', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014238', 'label': 'Drug', 'name': 'trichloroacetic acid'}, {'id': 'GO:0070265', 'label': 'BiologicalProcess', 'name': 'necrotic cell death'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}]}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12131_MESH_D003704_1', 'disease': 'Dementia', 'disease_mesh': 'MESH:D003704', 'drug': 'vinpocetine', 'drug_mesh': 'MESH:C013983', 'drugbank': 'DB:DB12131'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C013983', 'target': 'UniProt:P54750'}, {'key': 'part of', 'source': 'UniProt:P54750', 'target': 'GO:0043025'}, {'key': 'correlated with', 'source': 'GO:0043025', 'target': 'MESH:D003704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C013983', 'label': 'Drug', 'name': 'vinpocetine'}, {'id': 'UniProt:P54750', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1A\"}, {'id': 'GO:0043025', 'label': 'CellularComponent', 'name': 'Neuronal Cell Body'}, {'id': 'MESH:D003704', 'label': 'Disease', 'name': 'Dementia'}]}\n", - "['Drug', 'Protein', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13142_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glubionate', 'drug_mesh': 'MESH:C042131', 'drugbank': 'DB:DB13142'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C042131', 'target': 'MESH:D002118'}, {'key': 'prevents', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042131', 'label': 'Drug', 'name': 'calcium glubionate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium Ion'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}]}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01437_MESH_D007319_1', 'disease': 'Insomnia', 'disease_mesh': 'MESH:D007319', 'drug': 'glutethimide', 'drug_mesh': 'MESH:D005984', 'drugbank': 'DB:DB01437'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005984', 'target': 'UniProt:P14867'}, {'key': 'participates in', 'source': 'UniProt:P14867', 'target': 'GO:1904862'}, {'key': 'correlated with', 'source': 'GO:1904862', 'target': 'MESH:D007319'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005984', 'label': 'Drug', 'name': 'glutethimide'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'GO:1904862', 'label': 'BiologicalProcess', 'name': 'inhibitory synapse assembly'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Insomnia'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01213_MESH_D000138_1', 'disease': 'Methanol poisoning', 'disease_mesh': 'MESH:D000138', 'drug': 'fomepizole', 'drug_mesh': 'MESH:D000077604', 'drugbank': 'DB:DB01213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000077604', 'target': 'UniProt:P07327'}, {'key': 'participates in', 'source': 'UniProt:P07327', 'target': 'REACT:R-HSA-71384'}, {'key': 'has output', 'source': 'REACT:R-HSA-71384', 'target': 'MESH:C030544'}, {'key': 'causes', 'source': 'MESH:C030544', 'target': 'MESH:D000138'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077604', 'label': 'Drug', 'name': 'fomepizole'}, {'id': 'UniProt:P07327', 'label': 'Protein', 'name': 'Alcohol dehydrogenase 1A'}, {'id': 'REACT:R-HSA-71384', 'label': 'Pathway', 'name': 'Ethanol oxidation'}, {'id': 'MESH:C030544', 'label': 'ChemicalSubstance', 'name': 'formic acid'}, {'id': 'MESH:D000138', 'label': 'Disease', 'name': 'Methanol poisoning'}]}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04931_MESH_D046351_1', 'disease': 'erythropoietic protoporphyria', 'disease_mesh': 'MESH:D046351', 'drug': 'afamelanotide', 'drug_mesh': 'MESH:C534526', 'drugbank': 'DB:DB04931'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C534526', 'target': 'UniProt:Q01726'}, {'key': 'participates in', 'source': 'UniProt:Q01726', 'target': 'GO:0042438'}, {'key': 'produces', 'source': 'GO:0042438', 'target': 'MESH:C041877'}, {'key': 'participates in', 'source': 'MESH:C041877', 'target': 'GO:0009650'}, {'key': 'negatively correlated with', 'source': 'GO:0009650', 'target': 'MESH:D046351'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C534526', 'label': 'Drug', 'name': 'Afamelanotide'}, {'id': 'UniProt:Q01726', 'label': 'Protein', 'name': 'Melanocyte-stimulating hormone receptor'}, {'id': 'GO:0042438', 'label': 'BiologicalProcess', 'name': 'Melanogenesis'}, {'id': 'MESH:C041877', 'label': 'ChemicalSubstance', 'name': 'Eumelanin'}, {'id': 'GO:0009650', 'label': 'BiologicalProcess', 'name': 'UV protection'}, {'id': 'MESH:D046351', 'label': 'Disease', 'name': 'Erythropoietic protoporphyria'}], 'reference': ['https://go.drugbank.com/drugs/DB04931#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11693_MESH_D014605_1', 'disease': 'Noninfectious Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'voclosporin', 'drug_mesh': 'MESH:C484071', 'drugbank': 'DB:DB11693'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C484071', 'target': 'UniProt:P63098'}, {'key': 'increases abundance of', 'source': 'UniProt:P63098', 'target': 'UniProt:O95644'}, {'key': 'increases abundance of', 'source': 'UniProt:O95644', 'target': 'UniProt:P60568'}, {'key': 'produces', 'source': 'UniProt:P60568', 'target': 'CL:0000084'}, {'key': 'causes', 'source': 'CL:0000084', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C484071', 'label': 'Drug', 'name': 'voclosporin'}, {'id': 'UniProt:P63098', 'label': 'Protein', 'name': 'Calcineurin subunit B type 1'}, {'id': 'UniProt:O95644', 'label': 'Protein', 'name': 'Nuclear factor of activated T-cells, cytoplasmic 1'}, {'id': 'UniProt:P60568', 'label': 'Protein', 'name': 'interleukin 2'}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T-Cell'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Noninfectious Uveitis'}]}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11254_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'acrisorcin', 'drug_mesh': 'MESH:D000585, MESH:D006604', 'drugbank': 'DB:DB11254'}, 'links': [{'key': 'treats', 'source': 'DB:DB11254', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB11254', 'label': 'Drug', 'name': 'acrisorcin'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}]}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00602_MESH_D009855_1', 'disease': 'Onchocerciasis', 'disease_mesh': 'MESH:D009855', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR015680', 'target': 'CHEBI:17996'}, {'key': 'participates in', 'source': 'CHEBI:17996', 'target': 'GO:0060081'}, {'key': 'precedes', 'source': 'GO:0060081', 'target': 'MESH:D010243'}, {'key': 'negatively regulates', 'source': 'MESH:D010243', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'glutimate-gated chloride channels'}, {'id': 'CHEBI:17996', 'label': 'ChemicalSubstance', 'name': 'chloride ion'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D010243', 'label': 'BiologicalProcess', 'name': 'Paralysis'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Onchocerciasis'}]}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09065_MESH_D015658_1', 'disease': 'HIV infection', 'disease_mesh': 'MESH:D015658', 'drug': 'cobicistat', 'drug_mesh': 'MESH:D000069547', 'drugbank': 'DB:DB09065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069547', 'target': 'UniProt:Q9HB55'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q9HB55', 'target': 'MESH:D000069446'}, {'key': 'decreases activity of', 'source': 'MESH:D000069446', 'target': 'UniProt:P04585'}, {'key': 'participates in', 'source': 'UniProt:P04585', 'target': 'GO:0019068'}, {'key': 'causes', 'source': 'GO:0019068', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069547', 'label': 'Drug', 'name': 'cobicistat'}, {'id': 'UniProt:Q9HB55', 'label': 'Protein', 'name': 'cytochrome P450 3A (CYP3A) isoforms'}, {'id': 'MESH:D000069446', 'label': 'ChemicalSubstance', 'name': 'atazanavir'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'Gag-Pol polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'Viral Assembly'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'HIV infection'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11945_MESH_D015266_1', 'disease': 'Merkel cell carcinoma', 'disease_mesh': 'MESH:D015266', 'drug': 'avelumab', 'drug_mesh': 'MESH:C000609138', 'drugbank': 'DB:DB11945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000609138', 'target': 'UniProt:Q9NZQ7'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0036037'}, {'key': 'negatively regulates', 'source': 'GO:0036037', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015266'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000609138', 'label': 'Drug', 'name': 'avelumab'}, {'id': 'UniProt:Q9NZQ7', 'label': 'Protein', 'name': 'Programmed cell death 1 ligand 1'}, {'id': 'GO:0036037', 'label': 'BiologicalProcess', 'name': 'Cytotoxic T-Cell activity'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D015266', 'label': 'Disease', 'name': 'Merkel cell carcinoma'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Contraindicated', 'directed': True, 'graph': {'_id': 'DB00253_MESH_D003320_1', 'disease': 'Corneal ulcer', 'disease_mesh': 'MESH:D003320', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'treats', 'source': 'MESH:C100283', 'target': 'MESH:D003320'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'MESH:D003320', 'label': 'Disease', 'name': 'Corneal ulcer'}], 'reference': ['https://apps.who.int/iris/bitstream/handle/10665/205174/B3516.pdf;jsessionid=7C257D725E19F6E2772D2896910031BF?sequence=1']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Contraindicated; steroids can cause Rosacea', 'directed': True, 'graph': {'_id': 'DB00253_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'treats', 'source': 'MESH:C100283', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/26280139/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3088930/']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D007500_1', 'disease': 'Iritis', 'disease_mesh': 'MESH:D007500', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D007500'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D007500', 'label': 'Disease', 'name': 'Iritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00253_MESH_D015863_1', 'disease': 'Iridocyclitis', 'disease_mesh': 'MESH:D015863', 'drug': 'medrysone', 'drug_mesh': 'MESH:C100283', 'drugbank': 'DB:DB00253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100283', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'positively regulates', 'source': 'UniProt:P47712', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'contributes to', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015863'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100283', 'label': 'Drug', 'name': 'medrysone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D015863', 'label': 'Disease', 'name': 'Iridocyclitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00253', 'https://pubmed.ncbi.nlm.nih.gov/19104500/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00630_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'alendronic acid', 'drug_mesh': 'MESH:D019386', 'drugbank': 'DB:DB00630'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019386', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019386', 'label': 'Drug', 'name': 'alendronic acid'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00630']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00630_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'alendronic acid', 'drug_mesh': 'MESH:D019386', 'drugbank': 'DB:DB00630'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019386', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019386', 'label': 'Drug', 'name': 'alendronic acid'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://go.drugbank.com/drugs/DB00630']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'occurs in', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00861', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4349405/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'occurs in', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00861', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3891482/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00861']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00861_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'diflunisal', 'drug_mesh': 'MESH:D004061', 'drugbank': 'DB:DB00861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D004061', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004061', 'label': 'Drug', 'name': 'diflunisal'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00861']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01324_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'polythiazide', 'drug_mesh': 'MESH:D011139', 'drugbank': 'DB:DB01324'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011139', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'affects risk for', 'source': 'GO:0003092', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011139', 'label': 'Drug', 'name': 'polythiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01324#BE0000419', 'https://pubmed.ncbi.nlm.nih.gov/12668589/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'potentially non-efficacious https://pubmed.ncbi.nlm.nih.gov/26615034/', 'directed': True, 'graph': {'_id': 'DB06691_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://en.wikipedia.org/wiki/Common_cold#cite_note-13']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'occurs in', 'source': 'HP:0000969', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/19476049/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/14561186/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases activity of', 'source': 'MESH:D006632', 'target': 'CL:0000540'}, {'key': 'located in', 'source': 'CL:0000540', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'alt_ids': 'MESH:D009474', 'id': 'CL:0000540', 'label': 'Cell', 'name': 'neuron'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://en.wikipedia.org/wiki/Sneeze']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Cell', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:P50148'}, {'key': 'positively regulates', 'source': 'UniProt:P50148', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:P50148', 'label': 'Protein', 'name': 'Guanine nucleotide-binding protein G(q) subunit alpha'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/14561186/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'expressed in', 'source': 'UniProt:P35367', 'target': 'CL:0000198'}, {'key': 'contributes to', 'source': 'CL:0000198', 'target': 'GO:0019233'}, {'key': 'occurs in', 'source': 'GO:0019233', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptors'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/31046146/']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'causes', 'source': 'MESH:D006632', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'HP:0000969'}, {'key': 'occurs in', 'source': 'HP:0000969', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/25539676/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06691_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'mepyramine', 'drug_mesh': 'MESH:D011738', 'drugbank': 'DB:DB06691'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011738', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011738', 'label': 'Drug', 'name': 'mepyramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06691#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08822_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'azilsartan medoxomil', 'drug_mesh': 'MESH:C521273,MESH:C557413', 'drugbank': 'DB:DB08822'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB08822', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'causes', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08822', 'label': 'Drug', 'name': 'azilsartan medoxomil'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08822#BE0000062']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08880_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'teriflunomide', 'drug_mesh': 'MESH:C527525', 'drugbank': 'DB:DB08880'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C527525', 'target': 'UniProt:Q02127'}, {'key': 'positively regulates', 'source': 'UniProt:Q02127', 'target': 'GO:0006221'}, {'key': 'participates in', 'source': 'GO:0006221', 'target': 'GO:0050671'}, {'key': 'located in', 'source': 'GO:0050671', 'target': 'UBERON:0001017'}, {'key': 'affected by', 'source': 'UBERON:0001017', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'GO:0048681'}, {'key': 'contributes to', 'source': 'GO:0048681', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C527525', 'label': 'Drug', 'name': 'teriflunomide'}, {'id': 'UniProt:Q02127', 'label': 'Protein', 'name': 'Dihydroorotate dehydrogenase (quinone), mitochondrial'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0050671', 'label': 'BiologicalProcess', 'name': 'positive regulation of lymphocyte proliferation'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0048681', 'label': 'BiologicalProcess', 'name': 'negative regulation of axon regeneration'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB08880#BE0000382', 'https://pubmed.ncbi.nlm.nih.gov/24740824/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09310_MESH_C567691_1', 'disease': 'Hereditary factor XIII A subunit deficiency', 'disease_mesh': 'MESH:C567691', 'drug': 'catridecacog', 'drug_mesh': None, 'drugbank': 'DB:DB09310'}, 'links': [{'key': 'chemically similar to', 'source': 'DB:DB09310', 'target': 'UniProt:P00488'}, {'key': 'participates in', 'source': 'UniProt:P00488', 'target': 'GO:0072378'}, {'key': 'negatively correlated with', 'source': 'GO:0072378', 'target': 'MESH:C567691'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB09310', 'label': 'Drug', 'name': 'Catridecacog'}, {'id': 'GO:0072378', 'label': 'BiologicalProcess', 'name': 'Blood coagulation, fibrin clot formation'}, {'id': 'UniProt:P00488', 'label': 'Protein', 'name': 'Coagulation factor XIII A chain'}, {'id': 'MESH:C567691', 'label': 'Disease', 'name': 'Hereditary factor XIII A subunit deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB09310']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D014806_1', 'disease': 'Cobalamin deficiency', 'disease_mesh': 'MESH:D014806', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:P22033'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'negatively regulates', 'source': 'UniProt:P22033', 'target': 'CHEBI:16625'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'CHEBI:16625', 'target': 'HP:0002912'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'causes', 'source': 'HP:0002912', 'target': 'HP:0000707'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0000707', 'target': 'MESH:D014806'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'HP:0001889'}, {'key': 'positively correlated with', 'source': 'HP:0001889', 'target': 'MESH:D014806'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase'}, {'id': 'UniProt:P22033', 'label': 'Protein', 'name': 'Methylmalonyl-CoA mutase, mitochondrial'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'CHEBI:16625', 'label': 'ChemicalSubstance', 'name': 'methylmalonyl-CoA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'HP:0002912', 'label': 'PhenotypicFeature', 'name': 'Methylmalonic acidemia'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0000707', 'label': 'PhenotypicFeature', 'name': 'Abnormality of the nervous system'}, {'id': 'HP:0020060', 'label': 'PhenotypicFeature', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Cobalamin deficiency'}, {'id': 'HP:0001889', 'label': 'PhenotypicFeature', 'name': 'Megaloblastic anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/', 'https://en.wikipedia.org/wiki/Methylmalonic_acidemia#Neurologic_effects']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:P22033'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'negatively regulates', 'source': 'UniProt:P22033', 'target': 'CHEBI:16625'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'CHEBI:16625', 'target': 'HP:0002912'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'causes', 'source': 'HP:0002912', 'target': 'HP:0000707'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0000707', 'target': 'MESH:D001361'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'HP:0001889'}, {'key': 'positively correlated with', 'source': 'HP:0001889', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase'}, {'id': 'UniProt:P22033', 'label': 'Protein', 'name': 'Methylmalonyl-CoA mutase, mitochondrial'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'CHEBI:16625', 'label': 'ChemicalSubstance', 'name': 'methylmalonyl-CoA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'HP:0002912', 'label': 'PhenotypicFeature', 'name': 'Methylmalonic acidemia'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0000707', 'label': 'PhenotypicFeature', 'name': 'Abnormality of the nervous system'}, {'id': 'HP:0020060', 'label': 'PhenotypicFeature', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}, {'id': 'HP:0001889', 'label': 'PhenotypicFeature', 'name': 'Megaloblastic anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/', 'https://en.wikipedia.org/wiki/Methylmalonic_acidemia#Neurologic_effects']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D000752_1', 'disease': 'Pernicious anemia', 'disease_mesh': 'MESH:D000752', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB00115', 'target': 'UniProt:Q99707'}, {'key': 'participates in', 'source': 'UniProt:Q99707', 'target': 'GO:0046105'}, {'key': 'participates in', 'source': 'GO:0046105', 'target': 'GO:0090592'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0051301'}, {'key': 'negatively correlated with', 'source': 'GO:0051301', 'target': 'HP:0020060'}, {'key': 'positively correlated with', 'source': 'HP:0020060', 'target': 'MESH:D000752'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'methionine synthase\\xa0'}, {'id': 'GO:0046105', 'label': 'BiologicalProcess', 'name': 'thymidine\\xa0biosynthetic process'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA\\xa0synthesis\\xa0involved in\\xa0DNA\\xa0replication'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0020060', 'label': 'BiologicalProcess', 'name': 'Decreased red blood cell count'}, {'id': 'MESH:D000752', 'label': 'Disease', 'name': 'Pernicious anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://pubmed.ncbi.nlm.nih.gov/28660890/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00115_MESH_D018798_1', 'disease': 'Iron deficiency anemia', 'disease_mesh': 'MESH:D018798', 'drug': 'cyanocobalamin', 'drug_mesh': None, 'drugbank': 'DB:DB00115'}, 'links': [{'key': 'negatively correlated with', 'source': 'DB:DB00115', 'target': 'MESH:D014806'}, {'key': 'positively correlated with', 'source': 'MESH:D014806', 'target': 'MESH:D008286'}, {'key': 'negatively correlated with', 'source': 'MESH:D008286', 'target': 'GO:005507'}, {'key': 'negatively correlated with', 'source': 'GO:005507', 'target': 'MESH:D018798'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00115', 'label': 'Drug', 'name': 'cyanocobalamin'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Vitamin B 12 Deficiency'}, {'id': 'MESH:D008286', 'label': 'Disease', 'name': 'Malabsorption Syndromes'}, {'id': 'GO:005507', 'label': 'BiologicalProcess', 'name': 'iron ion homeostasis'}, {'id': 'MESH:D018798', 'label': 'Disease', 'name': 'Iron deficiency anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00115#BE0000777', 'https://en.wikipedia.org/wiki/Iron-deficiency_anemia']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Withdrawn for treatment of spasticity in most developed countries https://en.wikipedia.org/wiki/Chlorphenesin_carbamate', 'directed': True, 'graph': {'_id': 'DB00856_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'chlorphenesin carbamate', 'drug_mesh': 'MESH:D002743,MESH:C015071', 'drugbank': 'DB:DB00856'}, 'links': [{'key': 'causes', 'source': 'DB:DB00856', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00856', 'label': 'Drug', 'name': 'chlorphenesin carbamate'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB14656', 'https://www.ebi.ac.uk/chebi/chebiOntology.do?chebiId=CHEBI:3643']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00983_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'formoterol', 'drug_mesh': 'MESH:D000068759', 'drugbank': 'DB:DB00983'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068759', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068759', 'label': 'Drug', 'name': 'formoterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'Terminal bronchiole'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00983#BE0000694', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D000172_1', 'disease': 'Acromegaly', 'disease_mesh': 'MESH:D000172', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'negatively correlated with', 'source': 'MESH:D004298', 'target': 'GO:1902722'}, {'key': 'positively correlated with', 'source': 'GO:1902722', 'target': 'MESH:D010911'}, {'key': 'causes', 'source': 'MESH:D010911', 'target': 'MESH:D000172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:1902722', 'label': 'BiologicalProcess', 'name': 'positive regulation of\\xa0prolactin\\xa0secretion'}, {'id': 'MESH:D010911', 'label': 'Disease', 'name': 'Pituitary Neoplasms'}, {'id': 'MESH:D000172', 'label': 'Disease', 'name': 'Acromegaly'}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE0000581', 'https://en.wikipedia.org/wiki/Acromegaly#Causes']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'participates in', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Postencephalitic parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE000058', 'https://en.wikipedia.org/wiki/Postencephalitic_parkinsonism#:~:text=the%20free%20encyclopedia-,Postencephalitic%20parkinsonism,degeneration%20leads%20to%20clinical%20parkinsonism']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'participates in', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE000058', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01200_MESH_D006966_1', 'disease': 'Hyperprolactinemia', 'disease_mesh': 'MESH:D006966', 'drug': 'bromocriptine', 'drug_mesh': 'MESH:D001971', 'drugbank': 'DB:DB01200'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001971', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'negatively correlated with', 'source': 'MESH:D004298', 'target': 'GO:1902722'}, {'key': 'positively correlated with', 'source': 'GO:1902722', 'target': 'MESH:D006966'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001971', 'label': 'Drug', 'name': 'bromocriptine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:1902722', 'label': 'BiologicalProcess', 'name': 'positive regulation of\\xa0prolactin\\xa0secretion'}, {'id': 'MESH:D006966', 'label': 'Disease', 'name': 'Hyperprolactinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01200#BE0000581']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'occurs in', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Clarithromycin#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'occurs in', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Streptococcus_pyogenes']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:83558'}, {'key': 'occurs in', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://www.ncbi.nlm.nih.gov/books/NBK560874/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2104'}, {'key': 'occurs in', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Mycoplasma_pneumoniae']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'occurs in', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01211_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'clarithromycin', 'drug_mesh': 'MESH:C040934,MESH:D017291', 'drugbank': 'DB:DB01211'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01211', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'occurs in', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01211', 'label': 'Drug', 'name': 'Clarithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/polypeptides/P0A7J6', 'https://en.wikipedia.org/wiki/Pneumococcal_pneumonia']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06799_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'methenamine', 'drug_mesh': 'MESH:C023055,MESH:D008709,MESH:C011481', 'drugbank': 'DB:DB06799'}, 'links': [{'key': 'produces', 'source': 'DB:DB06799', 'target': 'MESH:D005557'}, {'key': 'causes', 'source': 'MESH:D005557', 'target': 'GO:0030164'}, {'key': 'occurs in', 'source': 'GO:0030164', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06799', 'label': 'Drug', 'name': 'methenamine'}, {'id': 'MESH:D005557', 'label': 'ChemicalSubstance', 'name': 'Formaldehyde'}, {'id': 'GO:0030164', 'label': 'BiologicalProcess', 'name': 'protein denaturation'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB06799', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09162_MESH_D054559_1', 'disease': 'Hyperphosphatemia', 'disease_mesh': 'MESH:D054559', 'drug': 'ferric citrate', 'drug_mesh': 'MESH:C025314', 'drugbank': 'DB:DB09162'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C025314', 'target': 'CHEBI:29034'}, {'key': 'decreases abundance of', 'source': 'CHEBI:29034', 'target': 'CHEBI:18367'}, {'key': 'positively correlated with', 'source': 'CHEBI:18367', 'target': 'MESH:D054559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C025314', 'label': 'Drug', 'name': 'ferric citrate'}, {'id': 'CHEBI:29034', 'label': 'ChemicalSubstance', 'name': 'Iron(3+)'}, {'id': 'CHEBI:18367', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D054559', 'label': 'Disease', 'name': 'Hyperphosphatemia'}], 'reference': ['https://go.drugbank.com/drugs/DB14520']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12498_MESH_D016411_1', 'disease': 'Peripheral T-cell lymphoma', 'disease_mesh': 'MESH:D016411', 'drug': 'mogamulizumab', 'drug_mesh': 'MESH:C549035', 'drugbank': 'DB:DB12498'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C549035', 'target': 'UniProt:P51679'}, {'key': 'positively regulates', 'source': 'UniProt:P51679', 'target': 'GO:0038152'}, {'key': 'positively regulates', 'source': 'GO:0038152', 'target': 'GO:0042098'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'MESH:D016411'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C549035', 'label': 'Drug', 'name': 'mogamulizumab'}, {'id': 'UniProt:P51679', 'label': 'Protein', 'name': 'C-C chemokine receptor type 4'}, {'id': 'GO:0038152', 'label': 'BiologicalProcess', 'name': 'C-C chemokine receptor CCR4 signaling pathway'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'MESH:D016411', 'label': 'Disease', 'name': 'Peripheral T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB12498#BE0009787']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00413_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'pramipexole', 'drug_mesh': 'MESH:C061333', 'drugbank': 'DB:DB00413'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'affected by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061333', 'label': 'Drug', 'name': 'pramipexole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00413']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00413_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'pramipexole', 'drug_mesh': 'MESH:C061333', 'drugbank': 'DB:DB00413'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:C061333', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061333', 'label': 'Drug', 'name': 'pramipexole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00413', 'https://en.wikipedia.org/wiki/Restless_legs_syndrome']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D006929_1', 'disease': 'Aldosteronism', 'disease_mesh': 'MESH:D006929', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'MESH:D006929'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'MESH:D006929', 'label': 'Disease', 'name': 'Aldosteronism'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Hyperaldosteronism']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Edema']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D001201_1', 'disease': 'Ascites', 'disease_mesh': 'MESH:D001201', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D001201'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D001201', 'label': 'Disease', 'name': 'Ascites'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Ascites#:~:text=Ascites%20is%20the%20abnormal%20buildup,discomfort%2C%20and%20shortness%20of%20breath']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00421_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'spironolactone', 'drug_mesh': 'MESH:D013148', 'drugbank': 'DB:DB00421'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013148', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'contributes to', 'source': 'MESH:D000450', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013148', 'label': 'Drug', 'name': 'spironolactone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal\\xa0sodium\\xa0ion\\xa0absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00421', 'https://en.wikipedia.org/wiki/Hypertension']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00601']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00601_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'linezolid', 'drug_mesh': 'MESH:D000069349', 'drugbank': 'DB:DB00601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069349', 'target': 'MESH:D012338'}, {'key': 'located in', 'source': 'MESH:D012338', 'target': 'GO:0005840'}, {'key': 'positively regulates', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'part of', 'source': 'GO:0006412', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069349', 'label': 'Drug', 'name': 'Linezolid'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00601', 'https://www.ncbi.nlm.nih.gov/books/NBK559152/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P24228'}, {'key': 'positively regulates', 'source': 'UniProt:P24228', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P24228', 'label': 'Protein', 'name': 'D-alanyl-D-alanine carboxypeptidase DacB (Escherichia coli)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3049134/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D016920_1', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C059500', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'part of', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Streptococcus pneumoniae)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningitis#Bacterial']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D016920_2', 'disease': 'Bacterial meningitis', 'disease_mesh': 'MESH:D016920', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C059500', 'target': 'UniProt:P0A0Z5'}, {'key': 'positively regulates', 'source': 'UniProt:P0A0Z5', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'part of', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:487'}, {'key': 'causes', 'source': 'NCBITaxon:487', 'target': 'MESH:D016920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P0A0Z5', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Neisseria meningitidis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:487', 'label': 'OrganismTaxon', 'name': 'Neisseria meningitidis'}, {'id': 'MESH:D016920', 'label': 'Disease', 'name': 'Bacterial meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningitis#Bacterial']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P24228'}, {'key': 'positively regulates', 'source': 'UniProt:P24228', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P24228', 'label': 'Protein', 'name': 'D-alanyl-D-alanine carboxypeptidase DacB (Escherichia coli)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/books/NBK519573/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D008585_1', 'disease': 'Meningococcal meningitis', 'disease_mesh': 'MESH:D008585', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P0A0Z5'}, {'key': 'positively regulates', 'source': 'UniProt:P0A0Z5', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:487'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:487', 'target': 'MESH:D008585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P0A0Z5', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A (Neisseria meningitidis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:487', 'label': 'OrganismTaxon', 'name': 'Neisseria meningitidis'}, {'id': 'MESH:D008585', 'label': 'Disease', 'name': 'Meningococcal meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://en.wikipedia.org/wiki/Meningococcal_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00760_MESH_D008586_1', 'disease': 'Pneumococcal meningitis', 'disease_mesh': 'MESH:D008586', 'drug': 'meropenem', 'drug_mesh': 'MESH:C059500', 'drugbank': 'DB:DB00760'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C059500', 'target': 'UniProt:P59676'}, {'key': 'positively regulates', 'source': 'UniProt:P59676', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1313', 'target': 'MESH:D008586'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C059500', 'label': 'Drug', 'name': 'meropenem'}, {'id': 'UniProt:P59676', 'label': 'Protein', 'name': 'Penicillin-binding protein 2X (Streptococcus pneumoniae)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D008586', 'label': 'Disease', 'name': 'Pneumococcal meningitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00760#BE0000744', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3131058/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01351_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'amobarbital', 'drug_mesh': 'MESH:D000654', 'drugbank': 'DB:DB01351'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000654', 'label': 'Drug', 'name': 'amobarbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB01351', 'https://en.wikipedia.org/wiki/Status_epilepticus']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01351_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'amobarbital', 'drug_mesh': 'MESH:D000654', 'drugbank': 'DB:DB01351'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:D000654', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000654', 'label': 'Drug', 'name': 'amobarbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01351', 'https://en.wikipedia.org/wiki/Epilepsy']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01550_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'fenproporex', 'drug_mesh': 'MESH:C026013', 'drugbank': 'DB:DB01550'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C026013', 'target': 'MESH:D000661'}, {'key': 'positively regulates', 'source': 'MESH:D000661', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'MESH:D000661', 'target': 'GO:0004939'}, {'key': 'negatively regulates', 'source': 'GO:0004936', 'target': 'GO:0032100'}, {'key': 'negatively regulates', 'source': 'GO:0004939', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026013', 'label': 'Drug', 'name': 'fenproporex'}, {'id': 'MESH:D000661', 'label': 'ChemicalSubstance', 'name': 'Amphetamine'}, {'id': 'GO:0004936', 'label': 'MolecularActivity', 'name': 'alpha-adrenergic receptor activity'}, {'id': 'GO:0004939', 'label': 'MolecularActivity', 'name': 'beta-adrenergic receptor activity'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01550']}\n", - "['Drug', 'ChemicalSubstance', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06335_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'saxagliptin', 'drug_mesh': 'MESH:C502994', 'drugbank': 'DB:DB06335'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C502994', 'target': 'UniProt:P27487'}, {'key': 'negatively regulates', 'source': 'UniProt:P27487', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C502994', 'label': 'Drug', 'name': 'saxagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB06335', 'https://en.wikipedia.org/wiki/Type_2_diabetes']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08867_MESH_D007889_1', 'disease': 'Uterine leiomyoma', 'disease_mesh': 'MESH:D007889', 'drug': 'ulipristal', 'drug_mesh': 'MESH:C555622,MESH:C094854', 'drugbank': 'DB:DB08867'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB08867', 'target': 'GO:0006915'}, {'key': 'positively regulates', 'source': 'DB:DB08867', 'target': 'GO:0008285'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D007889'}, {'key': 'negatively correlated with', 'source': 'GO:0008285', 'target': 'MESH:D007889'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08867', 'label': 'Drug', 'name': 'ulipristal'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0008285', 'label': 'BiologicalProcess', 'name': 'down regulation of cell proliferation'}, {'id': 'MESH:D007889', 'label': 'Disease', 'name': 'Uterine leiomyoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08867']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00008_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'peginterferon alfa-2a', 'drug_mesh': 'MESH:C100416', 'drugbank': 'DB:DB00008'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C100416', 'target': 'UniProt:P48551'}, {'key': 'participates in', 'source': 'UniProt:P48551', 'target': 'GO:0007259'}, {'key': 'positively regulates', 'source': 'GO:0007259', 'target': 'REACT:R-HSA-1169410'}, {'key': 'part of', 'source': 'REACT:R-HSA-1169410', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100416', 'label': 'Drug', 'name': 'peginterferon alfa-2a'}, {'id': 'UniProt:P48551', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 2'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'receptor signaling pathway via JAK-STAT'}, {'id': 'REACT:R-HSA-1169410', 'label': 'Pathway', 'name': 'Antiviral mechanism by IFN-stimulated genes'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'antiviral innate immune response'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00008#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00008_MESH_D019698_2', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'peginterferon alfa-2a', 'drug_mesh': 'MESH:C100416', 'drugbank': 'DB:DB00008'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C100416', 'target': 'UniProt:P17181'}, {'key': 'participates in', 'source': 'UniProt:P17181', 'target': 'GO:0007259'}, {'key': 'positively regulates', 'source': 'GO:0007259', 'target': 'REACT:R-HSA-1169410'}, {'key': 'part of', 'source': 'REACT:R-HSA-1169410', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100416', 'label': 'Drug', 'name': 'peginterferon alfa-2a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'receptor signaling pathway via JAK-STAT'}, {'id': 'REACT:R-HSA-1169410', 'label': 'Pathway', 'name': 'Antiviral mechanism by IFN-stimulated genes'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'antiviral innate immune response'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00008#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_2', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_3', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1F'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00216_MESH_D008881_4', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'eletriptan', 'drug_mesh': 'MESH:C115647', 'drugbank': 'DB:DB00216'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C115647', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C115647', 'label': 'Drug', 'name': 'eletriptan'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00216#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00607_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'nafcillin', 'drug_mesh': 'MESH:D009254', 'drugbank': 'DB:DB00607'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009254', 'target': 'UniProt:P0A3M6'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'nafcillin'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00607#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00607_MESH_D013203_2', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'naftili', 'drug_mesh': 'MESH:D009254', 'drugbank': 'DB:DB00607'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009254', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'naftili'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00607#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00607_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'nafcillin', 'drug_mesh': 'MESH:D009254', 'drugbank': 'DB:DB00607'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009254', 'target': 'UniProt:P0A3M6'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'nafcillin'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00607#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00607_MESH_D011023_2', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'nafcillin', 'drug_mesh': 'MESH:D009254', 'drugbank': 'DB:DB00607'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009254', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009254', 'label': 'Drug', 'name': 'nafcillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00607#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'participates in', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D011656_2', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'participates in', 'source': 'UniProt:P13945', 'target': 'GO:0007190'}, {'key': 'participates in', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'prevents', 'source': 'GO:0006171', 'target': 'GO:0097279'}, {'key': 'causes', 'source': 'GO:0097279', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0097279', 'label': 'BiologicalProcess', 'name': 'histamine secretion mediated by IgE immunoglobulin'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D011537_2', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'participates in', 'source': 'UniProt:P13945', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'prevents', 'source': 'GO:0006171', 'target': 'GO:0097279'}, {'key': 'causes', 'source': 'GO:0097279', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0097279', 'label': 'BiologicalProcess', 'name': 'histamine secretion mediated by IgE immunoglobulin'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D001249_2', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'participates in', 'source': 'UniProt:P13945', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00871_MESH_D001991_2', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'participates in', 'source': 'UniProt:P13945', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis', 'reference': 'https://go.drugbank.com/drugs/DB00871#mechanism-of-action'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01141_MESH_D058387_1', 'disease': 'Candidemia', 'disease_mesh': 'MESH:D058387', 'drug': 'micafungin', 'drug_mesh': 'MESH:C121905', 'drugbank': 'DB:DB01141'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C121905', 'target': 'UniProt:A2QLK4'}, {'key': 'negatively correlated with', 'source': 'UniProt:A2QLK4', 'target': 'GO:0060636'}, {'key': 'disrupts', 'source': 'GO:0060636', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D058387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121905', 'label': 'Drug', 'name': 'micafungin'}, {'id': 'UniProt:A2QLK4', 'label': 'Protein', 'name': '1,3-beta-glucan synthase component FKS1'}, {'id': 'GO:0060636', 'label': 'BiologicalProcess', 'name': 'negative regulation of (1->3)-beta-D-glucan biosynthetic process'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'MESH:D058387', 'label': 'Disease', 'name': 'Candidemia', 'reference': 'https://go.drugbank.com/drugs/DB01141#mechanism-of-action'}]}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'exact MoA is unknown', 'directed': True, 'graph': {'_id': 'DB06708_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'lumefantrine', 'drug_mesh': 'MESH:C102070', 'drugbank': 'DB:DB06708'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C102070', 'target': 'UniProt:Q8IL04'}, {'key': 'positively correlated with', 'source': 'UniProt:Q8IL04', 'target': 'GO:0042167'}, {'key': 'decreases abundance of', 'source': 'GO:0042167', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C102070', 'label': 'Drug', 'name': 'lumefantrine'}, {'id': 'UniProt:Q8IL04', 'label': 'Protein', 'name': 'Heme ligase'}, {'id': 'GO:0042167', 'label': 'BiologicalProcess', 'name': 'heme catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06708#mechanism-of-action', 'https://www.uniprot.org/uniprot/Q8IL04#function', 'https://en.wikipedia.org/wiki/Heme#In_health_and_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01601_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'lopinavir', 'drug_mesh': 'MESH:D061466', 'drugbank': 'DB:DB01601'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D061466', 'target': 'UniProt:Q72874'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q72874', 'target': 'GO:0010466'}, {'key': 'decreases activity of', 'source': 'GO:0010466', 'target': 'UniProt:P04591'}, {'key': 'participates in', 'source': 'UniProt:P04591', 'target': 'GO:0019068'}, {'key': 'in taxon', 'source': 'GO:0019068', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061466', 'label': 'Drug', 'name': 'lopinavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'Protease'}, {'id': 'GO:0010466', 'label': 'BiologicalProcess', 'name': 'negative regulation of peptidase activity'}, {'id': 'UniProt:P04591', 'label': 'Protein', 'name': 'Gag polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'virion assembly'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01601#mechanism-of-action', 'https://www.uniprot.org/uniprot/P04591#function', 'https://pubmed.ncbi.nlm.nih.gov/23266279/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'both Tafamidis and tafamidis meglumine (FX-1006A, which is drugbank:DB05352) are benzoxazole derivatives (https://go.drugbank.com/drugs/DB11644#description)', 'directed': True, 'graph': {'_id': 'DB05352_MESH_D000686_1', 'disease': 'Amyloidosis', 'disease_mesh': 'MESH:D000686', 'drug': 'tafamidis', 'drug_mesh': 'MESH:C547076', 'drugbank': 'DB:DB05352'}, 'links': [{'key': 'increases stability of', 'source': 'MESH:C547076', 'target': 'UniProt:P02766'}, {'key': 'enables', 'source': 'UniProt:P02766', 'target': 'GO:0042802'}, {'key': 'causes', 'source': 'GO:0042802', 'target': 'GO:0051262'}, {'key': 'disrupted by', 'source': 'GO:0051262', 'target': 'GO:0043243'}, {'key': 'correlated with', 'source': 'GO:0043243', 'target': 'GO:1903333'}, {'key': 'exacerbates', 'source': 'GO:1903333', 'target': 'GO:1990000'}, {'key': 'causes', 'source': 'GO:1990000', 'target': 'MESH:D000686'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C547076', 'label': 'Drug', 'name': 'tafamidis'}, {'id': 'UniProt:P02766', 'label': 'Protein', 'name': 'Transthyretin'}, {'id': 'GO:0042802', 'label': 'MolecularActivity', 'name': 'identical protein binding'}, {'id': 'GO:0051262', 'label': 'BiologicalProcess', 'name': 'protein tetramerization'}, {'id': 'GO:0043243', 'label': 'BiologicalProcess', 'name': 'positive regulation of protein-containing complex disassembly'}, {'id': 'GO:1903333', 'label': 'BiologicalProcess', 'name': 'negative regulation of protein folding'}, {'id': 'GO:1990000', 'label': 'BiologicalProcess', 'name': 'amyloid fibril formation'}, {'id': 'MESH:D000686', 'label': 'Disease', 'name': 'Amyloidosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11644#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'belotecan', 'drug_mesh': 'MESH:C116963', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C116963', 'target': 'UniProt:P11387'}, {'key': 'positively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0003677'}, {'key': 'correlated with', 'source': 'GO:0003677', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116963', 'label': 'Drug', 'name': 'belotecan'}, {'id': 'UniProt:P11387', 'label': 'Protein', 'name': 'DNA topoisomerase 1'}, {'id': 'GO:0003677', 'label': 'MolecularActivity', 'name': 'DNA binding'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Belotecan-hydrochloride', 'https://en.wikipedia.org/wiki/Belotecan']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'belotecan', 'drug_mesh': 'MESH:C116963', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C116963', 'target': 'UniProt:P11387'}, {'key': 'positively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0003677'}, {'key': 'correlated with', 'source': 'GO:0003677', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116963', 'label': 'Drug', 'name': 'belotecan'}, {'id': 'UniProt:P11387', 'label': 'Protein', 'name': 'DNA topoisomerase 1'}, {'id': 'GO:0003677', 'label': 'MolecularActivity', 'name': 'DNA binding'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Belotecan-hydrochloride', 'https://en.wikipedia.org/wiki/Belotecan']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q01959'}, {'key': 'causes', 'source': 'UniProt:Q01959', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0001021'}, {'key': 'decreases abundance of', 'source': 'UBERON:0001021', 'target': 'HP:0002591'}, {'key': 'correlated with', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'Amfetamine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'dopamine transporter protein'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0001021', 'label': 'GrossAnatomicalStructure', 'name': 'Nerve'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'Appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6095132/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:P23975'}, {'key': 'causes', 'source': 'UniProt:P23975', 'target': 'MESH:D009638'}, {'key': 'located in', 'source': 'MESH:D009638', 'target': 'UBERON:0001021'}, {'key': 'decreases abundance of', 'source': 'UBERON:0001021', 'target': 'HP:0002591'}, {'key': 'correlated with', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Noradrenaline transporter protein'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'norepinephrine'}, {'id': 'UBERON:0001021', 'label': 'GrossAnatomicalStructure', 'name': 'nerve'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6095132/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q05940'}, {'key': 'increases abundance of', 'source': 'UniProt:Q05940', 'target': 'MESH:D018377'}, {'key': 'located in', 'source': 'MESH:D018377', 'target': 'GO:0045202'}, {'key': 'treats', 'source': 'GO:0045202', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'monoamine transporter'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D009290_2', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000661', 'target': 'InterPro:IPR001613'}, {'key': 'located in', 'source': 'InterPro:IPR001613', 'target': 'GO:0005739'}, {'key': 'increases abundance of', 'source': 'GO:0005739', 'target': 'MESH:D018377'}, {'key': 'treats', 'source': 'MESH:D018377', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'InterPro:IPR001613', 'label': 'GeneFamily', 'name': 'monoamine oxidase'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'mitochondria'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases uptake of', 'source': 'MESH:D000661', 'target': 'UniProt:Q05940'}, {'key': 'increases abundance of', 'source': 'UniProt:Q05940', 'target': 'MESH:D018377'}, {'key': 'located in', 'source': 'MESH:D018377', 'target': 'GO:0045202'}, {'key': 'negatively correlated with', 'source': 'GO:0045202', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'monoamine transporter'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_2', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000661', 'target': 'InterPro:IPR001613'}, {'key': 'located in', 'source': 'InterPro:IPR001613', 'target': 'GO:0005739'}, {'key': 'increases abundance of', 'source': 'GO:0005739', 'target': 'MESH:D018377'}, {'key': 'regulates', 'source': 'MESH:D018377', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'InterPro:IPR001613', 'label': 'Protein', 'name': 'monoamine oxidase'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'mitochondria'}, {'id': 'MESH:D018377', 'label': 'ChemicalSubstance', 'name': 'neurotransmitters'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'Protein', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_3', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'contributes to', 'source': 'MESH:D000661', 'target': 'UniProt:Q99870'}, {'key': 'located in', 'source': 'UniProt:Q99870', 'target': 'GO:0098584'}, {'key': 'produces', 'source': 'GO:0098584', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'GO:0045202'}, {'key': 'treats', 'source': 'GO:0045202', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'UniProt:Q99870', 'label': 'Protein', 'name': 'Vesicle monoamine transporter type 2'}, {'id': 'GO:0098584', 'label': 'CellularComponent', 'name': 'presynaptic nerve terminal'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'Protein', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_4', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000661', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0002435'}, {'key': 'causes', 'source': 'UBERON:0002435', 'target': 'MESH:D003863'}, {'key': 'correlated with', 'source': 'MESH:D003863', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0002435', 'label': 'GrossAnatomicalStructure', 'name': 'striatum'}, {'id': 'MESH:D003863', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00182_MESH_D001289_5', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'amfetamine', 'drug_mesh': 'MESH:D000661', 'drugbank': 'DB:DB00182'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D000661', 'target': 'MESH:D009638'}, {'key': 'located in', 'source': 'MESH:D009638', 'target': 'UBERON:0000451'}, {'key': 'causes', 'source': 'UBERON:0000451', 'target': 'MESH:D003863'}, {'key': 'correlated with', 'source': 'MESH:D003863', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000661', 'label': 'Drug', 'name': 'amfetamine'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'noradrenaline'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'prefrontal cortex'}, {'id': 'MESH:D003863', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00182#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00435_MESH_D010547_1', 'disease': 'Persistent pulmonary hypertension of the newborn', 'disease_mesh': 'MESH:D010547', 'drug': 'nitric oxide', 'drug_mesh': 'MESH:D009569', 'drugbank': 'DB:DB00435'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'HP:0004972'}, {'key': 'located in', 'source': 'HP:0004972', 'target': 'UBERON:0002048'}, {'key': 'causes', 'source': 'UBERON:0002048', 'target': 'MESH:D010547'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009569', 'label': 'Drug', 'name': 'nitric oxide'}, {'id': 'HP:0004972', 'label': 'PhenotypicFeature', 'name': 'partial pressure of arterial Oxygen'}, {'id': 'UBERON:0002048', 'label': 'GrossAnatomicalStructure', 'name': 'lung'}, {'id': 'MESH:D010547', 'label': 'Disease', 'name': 'Persistent pulmonary hypertension of the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB00435#mechanismofaction']}\n", - "['Drug', 'PhenotypicFeature', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00435_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'nitric oxide', 'drug_mesh': 'MESH:D009569', 'drugbank': 'DB:DB00435'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009569', 'target': 'UniProt:Q02108'}, {'key': 'increases abundance of', 'source': 'UniProt:Q02108', 'target': 'CHEBI:16356'}, {'key': 'participates in', 'source': 'CHEBI:16356', 'target': 'GO:0042311'}, {'key': 'contributes to', 'source': 'GO:0042311', 'target': 'GO:0060087'}, {'key': 'located in', 'source': 'GO:0060087', 'target': 'UBERON:0002048'}, {'key': 'prevents', 'source': 'UBERON:0002048', 'target': 'MESH:D006976'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009569', 'label': 'Drug', 'name': 'nitric oxide'}, {'id': 'UniProt:Q02108', 'label': 'Protein', 'name': 'guanylate cyclase'}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"cyclic guanosine 3',5' monophosphate\"}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'vasular smooth muscle relaxation'}, {'id': 'UBERON:0002048', 'label': 'GrossAnatomicalStructure', 'name': 'lung'}, {'id': 'MESH:D006976', 'label': 'Disease', 'name': 'pulmonary hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00435#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D009325_1', 'disease': 'Nausea', 'disease_mesh': 'MESH:D009325', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002936', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D009325'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptor'}, {'id': 'MESH:D009325', 'label': 'Disease', 'name': 'nausea'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D014717_1', 'disease': 'Vertigo', 'disease_mesh': 'MESH:D014717', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002936', 'target': 'UniProt:Q13698'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13698', 'target': 'GO:0014829'}, {'key': 'treats', 'source': 'GO:0014829', 'target': 'MESH:D014717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'L-type calcium channel'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle contraction'}, {'id': 'MESH:D014717', 'label': 'Disease', 'name': 'vertigo'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D014717_2', 'disease': 'Vertigo', 'disease_mesh': 'MESH:D014717', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002936', 'target': 'UniProt:Q9P0X4'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0014829'}, {'key': 'treats', 'source': 'GO:0014829', 'target': 'MESH:D014717'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'T-type calcium channel'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle contraction'}, {'id': 'MESH:D014717', 'label': 'Disease', 'name': 'vertigo'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00568_MESH_D009041_1', 'disease': 'Motion sickness', 'disease_mesh': 'MESH:D009041', 'drug': 'cinnarizine', 'drug_mesh': 'MESH:D002936', 'drugbank': 'DB:DB00568'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002936', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D009041'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002936', 'label': 'Drug', 'name': 'cinnarizine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptor'}, {'id': 'MESH:D009041', 'label': 'Disease', 'name': 'motion sickness'}], 'reference': ['https://go.drugbank.com/drugs/DB00568#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00655_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'estrone', 'drug_mesh': 'MESH:D004970', 'drugbank': 'DB:DB00655'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D004970', 'target': 'UniProt:P04278'}, {'key': 'located in', 'source': 'UniProt:P04278', 'target': 'UBERON:0002107'}, {'key': 'negatively regulates', 'source': 'UBERON:0002107', 'target': 'MESH:D013739'}, {'key': 'decreases abundance of', 'source': 'CL:0000317', 'target': 'MESH:D012629'}, {'key': 'located in', 'source': 'MESH:D013739', 'target': 'CL:0000317'}, {'key': 'treats', 'source': 'MESH:D012629', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004970', 'label': 'Drug', 'name': 'estrone'}, {'id': 'UniProt:P04278', 'label': 'Protein', 'name': 'sex hormone binidng globulin'}, {'id': 'UBERON:0002107', 'label': 'GrossAnatomicalStructure', 'name': 'liver'}, {'id': 'MESH:D013739', 'label': 'ChemicalSubstance', 'name': 'testosterone'}, {'id': 'MESH:D012629', 'label': 'ChemicalSubstance', 'name': 'sebum'}, {'id': 'CL:0000317', 'label': 'GrossAnatomicalStructure', 'name': 'sebocyte'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'acne vulgaris'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00655_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'estrone', 'drug_mesh': 'MESH:D004970', 'drugbank': 'DB:DB00655'}, 'links': [{'key': 'regulates', 'source': 'MESH:D004970', 'target': 'MESH:D004967'}, {'key': 'treats', 'source': 'MESH:D004967', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004970', 'label': 'Drug', 'name': 'estrone'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'estrogen'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00655#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01294_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'bismuth subsalicylate', 'drug_mesh': 'MESH:C015715', 'drugbank': 'DB:DB01294'}, 'links': [{'key': 'increases uptake of', 'source': 'MESH:C015715', 'target': 'MESH:D014882'}, {'key': 'located in', 'source': 'MESH:D014882', 'target': 'UBERON:0000160'}, {'key': 'prevents', 'source': 'UBERON:0000160', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015715', 'label': 'Drug', 'name': 'bismuth subsalicylate'}, {'id': 'MESH:D014882', 'label': 'ChemicalSubstance', 'name': 'fluid and electrolytes'}, {'id': 'UBERON:0000160', 'label': 'GrossAnatomicalStructure', 'name': 'intestine'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01294#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01294_MESH_D003967_2', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'bismuth subsalicylate', 'drug_mesh': 'MESH:C015715', 'drugbank': 'DB:DB01294'}, 'links': [{'key': 'produces', 'source': 'MESH:C015715', 'target': 'MESH:D020156'}, {'key': 'negatively regulates', 'source': 'MESH:D020156', 'target': 'REACT:R-HSA-2162123'}, {'key': 'regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000160'}, {'key': 'treats', 'source': 'UBERON:0000160', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015715', 'label': 'Drug', 'name': 'bismuth subsalicylate'}, {'id': 'MESH:D020156', 'label': 'ChemicalSubstance', 'name': 'salicylic acid'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'UBERON:0000160', 'label': 'GrossAnatomicalStructure', 'name': 'intestine'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01294#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01294_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'bismuth subsalicylate', 'drug_mesh': 'MESH:C015715', 'drugbank': 'DB:DB01294'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C015715', 'target': 'MESH:D001427'}, {'key': 'contributes to', 'source': 'MESH:D001427', 'target': 'MESH:D001424'}, {'key': 'correlated with', 'source': 'MESH:D001424', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015715', 'label': 'Drug', 'name': 'bismuth subsalicylate'}, {'id': 'MESH:D001427', 'label': 'ChemicalSubstance', 'name': 'bacterial toxins'}, {'id': 'MESH:D001424', 'label': 'Disease', 'name': 'bacterial infection'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'indigesion'}], 'reference': ['https://go.drugbank.com/drugs/DB01294#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01105_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'sibutramine', 'drug_mesh': 'MESH:C058254', 'drugbank': 'DB:DB01105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058254', 'target': 'MESH:D009638'}, {'key': 'regulates', 'source': 'MESH:D009638', 'target': 'HP:0002591'}, {'key': 'treats', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058254', 'label': 'Drug', 'name': 'sibutramine'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'norepinephrine'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01105#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01105_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'sibutramine', 'drug_mesh': 'MESH:C058254', 'drugbank': 'DB:DB01105'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058254', 'target': 'MESH:D012701'}, {'key': 'regulates', 'source': 'MESH:D012701', 'target': 'HP:0002591'}, {'key': 'treats', 'source': 'HP:0002591', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058254', 'label': 'Drug', 'name': 'sibutramine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'HP:0002591', 'label': 'PhenotypicFeature', 'name': 'appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01105#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'withdrawn', 'directed': True, 'graph': {'_id': 'DB09010_MESH_D003110_1', 'disease': 'Malignant tumor of colon', 'disease_mesh': 'MESH:D003110', 'drug': 'carmofur', 'drug_mesh': 'MESH:C017367', 'drugbank': 'DB:DB09010'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017367', 'target': 'UniProt:Q13510'}, {'key': 'disrupts', 'source': 'UniProt:Q13510', 'target': 'MESH:D002470'}, {'key': 'correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D003110'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017367', 'label': 'Drug', 'name': 'carmofur'}, {'id': 'UniProt:Q13510', 'label': 'Protein', 'name': 'acid ceramidase'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'cell survival'}, {'id': 'MESH:D003110', 'label': 'Disease', 'name': 'colon cancer'}], 'reference': ['https://en.wikipedia.org/wiki/Carmofur']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'withdrawn', 'directed': True, 'graph': {'_id': 'DB09010_MESH_D000086382_1', 'disease': 'Covid-19', 'disease_mesh': 'MESH:D000086382', 'drug': 'carmofur', 'drug_mesh': 'MESH:C017367', 'drugbank': 'DB:DB09010'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017367', 'target': 'UniProt:P0DTD1'}, {'key': 'treats', 'source': 'UniProt:P0DTD1', 'target': 'MESH:D000086382'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017367', 'label': 'Drug', 'name': 'carmofur'}, {'id': 'UniProt:P0DTD1', 'label': 'Protein', 'name': 'SARS-CoV-2 main protease'}, {'id': 'MESH:D000086382', 'label': 'Disease', 'name': 'covid-19'}], 'reference': ['https://en.wikipedia.org/wiki/Carmofur']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01685_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'topiroxostat', 'drug_mesh': 'MESH:C504882', 'drugbank': 'DB:DB01685'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504882', 'target': 'UniProt:I7JB59'}, {'key': 'affects uptake of', 'source': 'UniProt:I7JB59', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504882', 'label': 'Drug', 'name': 'topiroxostat'}, {'id': 'UniProt:I7JB59', 'label': 'Protein', 'name': 'ATP-binding cassette transporter G2'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'hyperurcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01685#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01685_MESH_D033461_2', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'topiroxostat', 'drug_mesh': 'MESH:C504882', 'drugbank': 'DB:DB01685'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504882', 'target': 'UniProt:P47989'}, {'key': 'decreases abundance of', 'source': 'UniProt:P47989', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504882', 'label': 'Drug', 'name': 'topiroxostat'}, {'id': 'UniProt:P47989', 'label': 'Protein', 'name': 'xanthine oxidase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01685#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01685_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'topiroxostat', 'drug_mesh': 'MESH:C504882', 'drugbank': 'DB:DB01685'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504882', 'target': 'UniProt:I7JB59'}, {'key': 'affects uptake of', 'source': 'UniProt:I7JB59', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504882', 'label': 'Drug', 'name': 'topiroxostat'}, {'id': 'UniProt:I7JB59', 'label': 'Protein', 'name': 'ATP-binding cassette transporter G2'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'gout'}], 'reference': ['https://go.drugbank.com/drugs/DB01685#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01685_MESH_D006073_2', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'topiroxostat', 'drug_mesh': 'MESH:C504882', 'drugbank': 'DB:DB01685'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504882', 'target': 'UniProt:P47989'}, {'key': 'decreases abundance of', 'source': 'UniProt:P47989', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504882', 'label': 'Drug', 'name': 'topiroxostat'}, {'id': 'UniProt:P47989', 'label': 'Protein', 'name': 'xanthine oxidase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'gout'}], 'reference': ['https://go.drugbank.com/drugs/DB01685#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D007418_1', 'disease': 'Paralytic ileus', 'disease_mesh': 'MESH:D007418', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'produces', 'source': 'MESH:C007288', 'target': 'MESH:D010205'}, {'key': 'part of', 'source': 'MESH:D010205', 'target': 'MESH:D003065'}, {'key': 'actively involved in', 'source': 'MESH:D003065', 'target': 'REACT:R-HSA-392499'}, {'key': 'located in', 'source': 'REACT:R-HSA-392499', 'target': 'CL:0000066'}, {'key': 'treats', 'source': 'CL:0000066', 'target': 'MESH:D007418'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'MESH:D010205', 'label': 'ChemicalSubstance', 'name': 'pantothenic acid'}, {'id': 'MESH:D003065', 'label': 'ChemicalSubstance', 'name': 'Coenzyme A'}, {'id': 'REACT:R-HSA-392499', 'label': 'Pathway', 'name': 'protein metabolism'}, {'id': 'CL:0000066', 'label': 'Cell', 'name': 'epithelium'}, {'id': 'MESH:D007418', 'label': 'Disease', 'name': 'Paralytic ileus'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Pathway', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D018589_1', 'disease': 'Gastroparesis', 'disease_mesh': 'MESH:D018589', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'produces', 'source': 'MESH:C007288', 'target': 'MESH:D010205'}, {'key': 'part of', 'source': 'MESH:D010205', 'target': 'MESH:D003065'}, {'key': 'actively involved in', 'source': 'MESH:D003065', 'target': 'REACT:R-HSA-392499'}, {'key': 'located in', 'source': 'REACT:R-HSA-392499', 'target': 'CL:0000066'}, {'key': 'treats', 'source': 'CL:0000066', 'target': 'MESH:D018589'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'MESH:D010205', 'label': 'ChemicalSubstance', 'name': 'pantothenic acid'}, {'id': 'MESH:D003065', 'label': 'ChemicalSubstance', 'name': 'Coenzyme A'}, {'id': 'REACT:R-HSA-392499', 'label': 'Pathway', 'name': 'protein metabolism'}, {'id': 'CL:0000066', 'label': 'Cell', 'name': 'epithelium'}, {'id': 'MESH:D018589', 'label': 'Disease', 'name': 'Gastroparesis'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Pathway', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D003963_1', 'disease': 'Diaper rash', 'disease_mesh': 'MESH:D003963', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D003963'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D003963', 'label': 'Disease', 'name': 'Diaper rash'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D004485_1', 'disease': 'Eczema', 'disease_mesh': 'MESH:D004485', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D004485'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D004485', 'label': 'Disease', 'name': 'Eczema'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09357_MESH_D012871_1', 'disease': 'Disorder of skin', 'disease_mesh': 'MESH:D012871', 'drug': 'dexpanthenol', 'drug_mesh': 'MESH:C007288', 'drugbank': 'DB:DB09357'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007288', 'target': 'GO:0048144'}, {'key': 'participates in', 'source': 'GO:0048144', 'target': 'MESH:D062326'}, {'key': 'treats', 'source': 'MESH:D062326', 'target': 'MESH:D012871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007288', 'label': 'Drug', 'name': 'dexpanthenol'}, {'id': 'GO:0048144', 'label': 'BiologicalProcess', 'name': 'fibroblast proliferation'}, {'id': 'MESH:D062326', 'label': 'BiologicalProcess', 'name': 're-epithelialization'}, {'id': 'MESH:D012871', 'label': 'Disease', 'name': 'skin disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09357#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00007_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'leuprorelin', 'drug_mesh': 'MESH:D016729,MESH:C493311', 'drugbank': 'DB:DB00007'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00007', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'positively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00007', 'label': 'Drug', 'name': 'leuprorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00007', 'https://en.wikipedia.org/wiki/Endometriosis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00007_MESH_D011629_1', 'disease': 'Precocious puberty', 'disease_mesh': 'MESH:D011629', 'drug': 'leuprorelin', 'drug_mesh': 'MESH:D016729,MESH:C493311', 'drugbank': 'DB:DB00007'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00007', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006702'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006701'}, {'key': 'negatively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D011629'}, {'key': 'negatively correlated with', 'source': 'GO:0006702', 'target': 'MESH:D011629'}, {'key': 'negatively correlated with', 'source': 'GO:0006701', 'target': 'MESH:D011629'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00007', 'label': 'Drug', 'name': 'leuprorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006701', 'label': 'BiologicalProcess', 'name': 'progesterone biosynthetic process'}, {'id': 'MESH:D011629', 'label': 'Disease', 'name': 'Precocious puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB00007', 'https://en.wikipedia.org/wiki/Precocious_puberty']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00222_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'glimepiride', 'drug_mesh': 'MESH:C057619', 'drugbank': 'DB:DB00222'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C057619', 'target': 'UniProt:Q14654'}, {'key': 'decreases activity of', 'source': 'MESH:C057619', 'target': 'UniProt:P48048'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'participates in', 'source': 'UniProt:P48048', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C057619', 'label': 'Drug', 'name': 'glimepiride'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00222']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D003874_1', 'disease': 'Dermatitis herpetiformis', 'disease_mesh': 'MESH:D003874', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003622', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003874'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003874', 'label': 'Disease', 'name': 'Dermatitis herpetiformis'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Dermatitis_herpetiformis']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:A0A2B7ICU0'}, {'key': 'positively regulates', 'source': 'UniProt:A0A2B7ICU0', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:A0A2B7ICU0', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Cutibacterium acnes)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Acne', 'https://pubmed.ncbi.nlm.nih.gov/24310318/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D007918_1', 'disease': 'Leprosy', 'disease_mesh': 'MESH:D007918', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:P0C0X1'}, {'key': 'positively regulates', 'source': 'UniProt:P0C0X1', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1769'}, {'key': 'causes', 'source': 'NCBITaxon:1769', 'target': 'MESH:D007918'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:P0C0X1', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Mycobacterium leprae)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1769', 'label': 'OrganismTaxon', 'name': 'Mycobacterium leprae'}, {'id': 'MESH:D007918', 'label': 'Disease', 'name': 'Leprosy'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Leprosy']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00250_MESH_D007918_2', 'disease': 'Leprosy', 'disease_mesh': 'MESH:D007918', 'drug': 'dapsone', 'drug_mesh': 'MESH:D003622', 'drugbank': 'DB:DB00250'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003622', 'target': 'UniProt:A0A0F4ER22'}, {'key': 'positively regulates', 'source': 'UniProt:A0A0F4ER22', 'target': 'GO:0046654'}, {'key': 'positively regulates', 'source': 'GO:0046654', 'target': 'GO:0009113'}, {'key': 'positively regulates', 'source': 'GO:0009113', 'target': 'GO:0071897'}, {'key': 'part of', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:480418'}, {'key': 'causes', 'source': 'NCBITaxon:480418', 'target': 'MESH:D007918'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003622', 'label': 'Drug', 'name': 'dapsone'}, {'id': 'UniProt:A0A0F4ER22', 'label': 'Protein', 'name': 'Dihydropteroate synthase (Mycobacterium lepromatosis)'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0009113', 'label': 'BiologicalProcess', 'name': 'purine nucleobase biosynthetic process'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:480418', 'label': 'OrganismTaxon', 'name': 'Mycobacterium lepromatosis'}, {'id': 'MESH:D007918', 'label': 'Disease', 'name': 'Leprosy'}], 'reference': ['https://go.drugbank.com/drugs/DB00250', 'https://en.wikipedia.org/wiki/Leprosy']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'terminal bronchiole'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Allergic_rhinitis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00332_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'ipratropium', 'drug_mesh': 'MESH:D009241', 'drugbank': 'DB:DB00332'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D009241', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009241', 'label': 'Drug', 'name': 'ipratropium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00332#BE0000092', 'https://en.wikipedia.org/wiki/Bronchitis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00408_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'loxapine', 'drug_mesh': 'MESH:D008152', 'drugbank': 'DB:DB00408'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'correlated with', 'source': 'GO:0060096', 'target': 'MESH:D012559'}, {'key': 'correlated with', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008152', 'label': 'Drug', 'name': 'loxapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00408#BE0000756', 'https://pubmed.ncbi.nlm.nih.gov/27189524/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4255483/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00408_MESH_D001714_1', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'loxapine', 'drug_mesh': 'MESH:D008152', 'drugbank': 'DB:DB00408'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D008152', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'correlated with', 'source': 'GO:0060096', 'target': 'MESH:D001714'}, {'key': 'correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008152', 'label': 'Drug', 'name': 'loxapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'serotonin'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'dopamine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00408#BE0000756', 'https://en.wikipedia.org/wiki/Bipolar_disorder']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01101_MESH_D013274_1', 'disease': 'Malignant tumor of stomach', 'disease_mesh': 'MESH:D013274', 'drug': 'capecitabine', 'drug_mesh': 'MESH:D000069287', 'drugbank': 'DB:DB01101'}, 'links': [{'key': 'produces', 'source': 'MESH:D000069287', 'target': 'MESH:D005472'}, {'key': 'decreases activity of', 'source': 'MESH:D005472', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:D005472', 'target': 'GO:0090592'}, {'key': 'negatively regulates', 'source': 'MESH:D005472', 'target': 'GO:0032774'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'CHEBI:63528'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0008283'}, {'key': 'part of', 'source': 'GO:0032774', 'target': 'GO:0008283'}, {'key': 'participates in', 'source': 'CHEBI:63528', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D013274'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069287', 'label': 'Drug', 'name': 'Capecitabine'}, {'id': 'MESH:D005472', 'label': 'ChemicalSubstance', 'name': 'Fluorouracil'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA biosynthetic process'}, {'id': 'CHEBI:63528', 'label': 'ChemicalSubstance', 'name': 'Thymidine monophosphate'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D013274', 'label': 'Disease', 'name': 'Malignant tumor of stomach'}], 'reference': ['https://go.drugbank.com/drugs/DB01101#BE0000324', 'https://en.wikipedia.org/wiki/Stomach_cancer']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D001171_1', 'disease': 'Juvenile rheumatoid arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00991_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'oxaprozin', 'drug_mesh': 'MESH:C008729', 'drugbank': 'DB:DB00991'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C008729', 'target': 'UniProt:P35354'}, {'key': 'positively regulates', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008729', 'label': 'Drug', 'name': 'oxaprozin'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00991#BE0000017']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01100_MESH_D005879_2', 'disease': \"Gilles de la Tourette's syndrome\", 'disease_mesh': 'MESH:D005879', 'drug': 'pimozide', 'drug_mesh': 'MESH:D010868', 'drugbank': 'DB:DB01100'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D010868', 'target': 'UniProt:P35462'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'GO:1903350'}, {'key': 'participates in', 'source': 'UniProt:P35462', 'target': 'GO:1903350'}, {'key': 'positively correlated with', 'source': 'GO:1903350', 'target': 'MESH:D005879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010868', 'label': 'Drug', 'name': 'pimozide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'GO:1903350', 'label': 'BiologicalProcess', 'name': 'response to dopamine'}, {'id': 'MESH:D005879', 'label': 'Disease', 'name': \"Gilles de la Tourette's syndrome\"}], 'reference': ['https://go.drugbank.com/drugs/DB01100', 'https://en.wikipedia.org/wiki/Tourette_syndrome']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01708_MESH_D004414_1', 'disease': 'Dyspareunia', 'disease_mesh': 'MESH:D004414', 'drug': 'prasterone', 'drug_mesh': 'MESH:D003687', 'drugbank': 'DB:DB01708'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:Q92731'}, {'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0030520'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0030520'}, {'key': 'treats', 'source': 'GO:0030520', 'target': 'MESH:D004414'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D004414'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003687', 'label': 'Drug', 'name': 'Prasterone'}, {'id': 'MESH:D004414', 'label': 'Disease', 'name': 'Dyspareunia'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'GO:0030520', 'label': 'BiologicalProcess', 'name': 'Intracellular estrogen receptor signaling pathway'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}], 'reference': ['https://go.drugbank.com/drugs/DB01708#BE0000132', 'https://en.wikipedia.org/wiki/Dehydroepiandrosterone']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01708_MESH_D008180_1', 'disease': 'Systemic lupus erythematosus', 'disease_mesh': 'MESH:D008180', 'drug': 'prasterone', 'drug_mesh': 'MESH:D003687', 'drugbank': 'DB:DB01708'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003687', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D008180'}, {'key': 'decreases activity of', 'source': 'MESH:D003687', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0002947'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0032612'}, {'key': 'positively correlated with', 'source': 'GO:0032635', 'target': 'MESH:D008180'}, {'key': 'positively correlated with', 'source': 'GO:0002947', 'target': 'MESH:D008180'}, {'key': 'positively correlated with', 'source': 'GO:0032612', 'target': 'MESH:D008180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003687', 'label': 'Drug', 'name': 'Prasterone'}, {'id': 'MESH:D008180', 'label': 'Disease', 'name': 'Systemic lupus erythematosus'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'Interleukin-6 production'}, {'id': 'GO:0002947', 'label': 'CellularComponent', 'name': 'Tumor necrosis factor receptor superfamily complex'}, {'id': 'GO:0032612', 'label': 'BiologicalProcess', 'name': 'Interleukin-1 production'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2701249/', 'https://go.drugbank.com/drugs/DB01708#BE0000123']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04865_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'omacetaxine mepesuccinate', 'drug_mesh': 'MESH:C001652', 'drugbank': 'DB:DB04865'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C001652', 'target': 'UniProt:P39023'}, {'key': 'participates in', 'source': 'UniProt:P39023', 'target': 'GO:0006412'}, {'key': 'increases abundance of', 'source': 'GO:0006412', 'target': 'UniProt:A9UF02'}, {'key': 'causes', 'source': 'UniProt:A9UF02', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C001652', 'label': 'Drug', 'name': 'omacetaxine mepesuccinate'}, {'id': 'UniProt:P39023', 'label': 'Protein', 'name': '60S ribosomal protein L3'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'UniProt:A9UF02', 'label': 'Protein', 'name': 'BCR/ABL protein-tyrosine kinase'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04865#BE0003833', 'https://pubmed.ncbi.nlm.nih.gov/24501394/']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DBDB08902_MESH_C571912_1', 'disease': 'Inhalational anthrax', 'disease_mesh': 'MESH:C571912', 'drug': 'raxibacumab', 'drug_mesh': 'MESH:C542124', 'drugbank': 'DB:DBDB08902'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C542124', 'target': 'UniProt:P13423'}, {'key': 'produced by', 'source': 'UniProt:P13423', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:C571912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C542124', 'label': 'Drug', 'name': 'raxibacumab'}, {'id': 'UniProt:P13423', 'label': 'Protein', 'name': 'Protective antigen'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:C571912', 'label': 'Disease', 'name': 'Inhalational anthrax'}], 'reference': ['https://en.wikipedia.org/wiki/Anthrax', 'https://go.drugbank.com/drugs/DB08902']}\n", - "['Drug', 'Protein', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12417_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'anagliptin', 'drug_mesh': 'MESH:C583175', 'drugbank': 'DB:DB12417'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C583175', 'target': 'UniProt:P27487'}, {'key': 'decreases abundance of', 'source': 'UniProt:P27487', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C583175', 'label': 'Drug', 'name': 'anagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB12417', 'https://en.wikipedia.org/wiki/Anagliptin', 'https://en.wikipedia.org/wiki/Type_2_diabetes']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D012912_1', 'disease': 'sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'Clemastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00283_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'clemastine', 'drug_mesh': 'MESH:D002974', 'drugbank': 'DB:DB00283'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002974', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002974', 'label': 'Drug', 'name': 'clementine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00283#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00360_MESH_D010661_1', 'disease': 'Classical phenylketonuria', 'disease_mesh': 'MESH:D010661', 'drug': 'sapropterin', 'drug_mesh': 'MESH:C003402', 'drugbank': 'DB:DB00360'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C003402', 'target': 'UniProt:P00439'}, {'key': 'positively regulates', 'source': 'UniProt:P00439', 'target': 'GO:0004505'}, {'key': 'decreases abundance of', 'source': 'GO:0004505', 'target': 'CHEBI:28044'}, {'key': 'positively correlated with', 'source': 'CHEBI:28044', 'target': 'MESH:D010661'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C003402', 'label': 'Drug', 'name': 'sapropterin'}, {'id': 'UniProt:P00439', 'label': 'Protein', 'name': 'Phenylalanine-4-hydroxylase'}, {'id': 'GO:0004505', 'label': 'MolecularActivity', 'name': 'phenylalanine 4-monooxygenase activity'}, {'id': 'CHEBI:28044', 'label': 'ChemicalSubstance', 'name': 'phenylalanine'}, {'id': 'MESH:D010661', 'label': 'Disease', 'name': 'Classical phenylketonuria'}], 'reference': ['https://go.drugbank.com/drugs/DB00360#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tetrahydrobiopterin#Cofactor_for_phenylalanine_hydroxylase']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00626_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'bacitracin', 'drug_mesh': 'MESH:D001414', 'drugbank': 'DB:DB00626'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D001414', 'target': 'CHEBI:17047'}, {'key': 'participates in', 'source': 'CHEBI:17047', 'target': 'GO:0009273'}, {'key': 'in taxon', 'source': 'GO:0009273', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001414', 'label': 'Drug', 'name': 'bacitracin'}, {'id': 'CHEBI:17047', 'label': 'ChemicalSubstance', 'name': 'all-trans-undecaprenyl diphosphate'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall biogenesis'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00626#mechanism-of-action', 'https://go.drugbank.com/drugs/DB00626#BE0004829']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'participates in', 'source': 'CHEBI:18111', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00994_MESH_D006501_1', 'disease': 'Hepatic encephalopathy', 'disease_mesh': 'MESH:D006501', 'drug': 'neomycin', 'drug_mesh': 'MESH:D009355', 'drugbank': 'DB:DB00994'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009355', 'target': 'CHEBI:18111'}, {'key': 'in taxon', 'source': 'CHEBI:18111', 'target': 'NCBITaxon:562'}, {'key': 'regulates', 'source': 'NCBITaxon:562', 'target': 'GO:0097272'}, {'key': 'prevents', 'source': 'GO:0097272', 'target': 'HP:0001987'}, {'key': 'positively correlated with', 'source': 'HP:0001987', 'target': 'MESH:D006501'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009355', 'label': 'Drug', 'name': 'neomycin'}, {'id': 'CHEBI:18111', 'label': 'ChemicalSubstance', 'name': 'ribosomal RNA'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'GO:0097272', 'label': 'BiologicalProcess', 'name': 'ammonium homeostasis'}, {'id': 'HP:0001987', 'label': 'PhenotypicFeature', 'name': 'Hyperammonemia'}, {'id': 'MESH:D006501', 'label': 'Disease', 'name': 'Hepatic encephalopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00994#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'OrganismTaxon', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01307_MESH_D003920_1', 'disease': 'Diabetes mellitus', 'disease_mesh': 'MESH:D003920', 'drug': 'insulin detemir', 'drug_mesh': 'MESH:D000069057', 'drugbank': 'DB:DB01307'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069057', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'UniProt:P31749'}, {'key': 'positively regulates', 'source': 'UniProt:P31749', 'target': 'UniProt:P14672'}, {'key': 'positively regulates', 'source': 'UniProt:P31749', 'target': 'MESH:D011493'}, {'key': 'positively regulates', 'source': 'UniProt:P14672', 'target': 'GO:0046323'}, {'key': 'positively regulates', 'source': 'MESH:D011493', 'target': 'GO:0046323'}, {'key': 'negatively correlated with', 'source': 'GO:0046323', 'target': 'MESH:D003920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069057', 'label': 'Drug', 'name': 'insulin detemir'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0004714', 'label': 'MolecularActivity', 'name': 'transmembrane receptor protein tyrosine kinase activity'}, {'id': 'UniProt:P31749', 'label': 'Protein', 'name': 'RAC-alpha serine/threonine-protein kinase'}, {'id': 'MESH:D011493', 'label': 'Protein', 'name': 'Protein Kinase C'}, {'id': 'UniProt:P14672', 'label': 'Protein', 'name': 'Solute carrier family 2, facilitated glucose transporter member 4'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'glucose import'}, {'id': 'MESH:D003920', 'label': 'Disease', 'name': 'Diabetes mellitus'}], 'reference': ['https://go.drugbank.com/drugs/DB01307#mechanism-of-action', 'https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=d38d65c1-25bf-401d-9c7e-a2c3222da8af']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D000077299_1', 'disease': 'Nosocomial pneumonia', 'disease_mesh': 'MESH:D000077299', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'UniProt:P62594'}, {'key': 'positively regulates', 'source': 'UniProt:P62594', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:90370'}, {'key': 'causes', 'source': 'NCBITaxon:90370', 'target': 'MESH:D000077299'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'UniProt:P62594', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 'NCBITaxon:90370', 'label': 'OrganismTaxon', 'name': 'Salmonella enterica subsp. enterica serovar Typhi'}, {'id': 'MESH:D000077299', 'label': 'Disease', 'name': 'Nosocomial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01606#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'UniProt:P0AD63'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01606#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'InterPro:IPR012338'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01606#mechanism-of-action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D001064_1', 'disease': 'Appendicitis', 'disease_mesh': 'MESH:D001064', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'InterPro:IPR012338'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:1763'}, {'key': 'causes', 'source': 'NCBITaxon:1763', 'target': 'MESH:D001064'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 'NCBITaxon:1763', 'label': 'OrganismTaxon', 'name': 'Mycobacterium sp.'}, {'id': 'MESH:D001064', 'label': 'Disease', 'name': 'Appendicitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01606#mechanism-of-action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01606_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'tazobactam', 'drug_mesh': 'MESH:C043265', 'drugbank': 'DB:DB01606'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043265', 'target': 'UniProt:P0AD63'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0030655'}, {'key': 'in taxon', 'source': 'GO:0030655', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043265', 'label': 'Drug', 'name': 'tazobactam'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'GO:0030655', 'label': 'BiologicalProcess', 'name': 'beta-lactam antibiotic catabolic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB01606#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12319_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'benzbromarone', 'drug_mesh': 'MESH:D001553', 'drugbank': 'DB:DB12319'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001553', 'target': 'UniProt:Q96S37'}, {'key': 'positively regulates', 'source': 'UniProt:Q96S37', 'target': 'GO:0015747'}, {'key': 'precedes', 'source': 'GO:0015747', 'target': 'GO:0097744'}, {'key': 'negatively correlated with', 'source': 'GO:0097744', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001553', 'label': 'Drug', 'name': 'benzbromarone'}, {'id': 'UniProt:Q96S37', 'label': 'Protein', 'name': 'Solute carrier family 22 member 12'}, {'id': 'GO:0015747', 'label': 'BiologicalProcess', 'name': 'urate transport'}, {'id': 'GO:0097744', 'label': 'BiologicalProcess', 'name': 'urate salt excretion'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://www.targetvalidation.org/summary?drug=CHEMBL388590', 'https://en.wikipedia.org/wiki/SLC22A12#Clinical_significance', 'https://en.wikipedia.org/wiki/Uricosuric#Pharmacology', 'https://en.wikipedia.org/wiki/Hyperuricemia#Uricosurics']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12319_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'benzbromarone', 'drug_mesh': 'MESH:D001553', 'drugbank': 'DB:DB12319'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001553', 'target': 'UniProt:Q96S37'}, {'key': 'positively regulates', 'source': 'UniProt:Q96S37', 'target': 'GO:0015747'}, {'key': 'precedes', 'source': 'GO:0015747', 'target': 'GO:0097744'}, {'key': 'negatively correlated with', 'source': 'GO:0097744', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001553', 'label': 'Drug', 'name': 'benzbromarone'}, {'id': 'UniProt:Q96S37', 'label': 'Protein', 'name': 'Solute carrier family 22 member 12'}, {'id': 'GO:0015747', 'label': 'BiologicalProcess', 'name': 'urate transport'}, {'id': 'GO:0097744', 'label': 'BiologicalProcess', 'name': 'urate salt excretion'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'Gout'}], 'reference': ['https://www.targetvalidation.org/summary?drug=CHEMBL388590', 'https://en.wikipedia.org/wiki/Uricosuric#Pharmacology', 'https://en.wikipedia.org/wiki/Gout#Cause']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01579_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'phendimetrazine', 'drug_mesh': 'MESH:C100294', 'drugbank': 'DB:DB01579'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100294', 'target': 'UniProt:P35348'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0032098'}, {'key': 'positively regulates', 'source': 'GO:0032098', 'target': 'GO:0008152'}, {'key': 'prevents', 'source': 'GO:0008152', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100294', 'label': 'Drug', 'name': 'phendimetrazine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'appetite'}, {'id': 'GO:0008152', 'label': 'BiologicalProcess', 'name': 'metabolic process'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01579#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01579_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'phendimetrazine', 'drug_mesh': 'MESH:C100294', 'drugbank': 'DB:DB01579'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100294', 'target': 'UniProt:P35368'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35368', 'target': 'GO:0032098'}, {'key': 'positively regulates', 'source': 'GO:0032098', 'target': 'GO:0008152'}, {'key': 'prevents', 'source': 'GO:0008152', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100294', 'label': 'Drug', 'name': 'phendimetrazine'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'appetite'}, {'id': 'GO:0008152', 'label': 'BiologicalProcess', 'name': 'metabolic process'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01579#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01579_MESH_D009765_3', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'phendimetrazine', 'drug_mesh': 'MESH:C100294', 'drugbank': 'DB:DB01579'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100294', 'target': 'UniProt:P35348'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0032098'}, {'key': 'positively regulates', 'source': 'GO:0032098', 'target': 'GO:0008152'}, {'key': 'treats', 'source': 'GO:0008152', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100294', 'label': 'Drug', 'name': 'phendimetrazine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'appetite'}, {'id': 'GO:0008152', 'label': 'BiologicalProcess', 'name': 'metabolic process'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01579#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01579_MESH_D009765_4', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'phendimetrazine', 'drug_mesh': 'MESH:C100294', 'drugbank': 'DB:DB01579'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C100294', 'target': 'UniProt:P23975'}, {'key': 'increases abundance of', 'source': 'UniProt:P23975', 'target': 'MESH:D009638'}, {'key': 'increases activity of', 'source': 'MESH:D009638', 'target': 'UBERON:0001017'}, {'key': 'positively regulates', 'source': 'UBERON:0001017', 'target': 'GO:0008217'}, {'key': 'correlated with', 'source': 'GO:0008217', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100294', 'label': 'Drug', 'name': 'phendimetrazine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'norepinephrine'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01579#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004832_1', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:P51649'}, {'key': 'increases abundance of', 'source': 'UniProt:P51649', 'target': 'MESH:C009338'}, {'key': 'decreases activity of', 'source': 'MESH:C009338', 'target': 'UniProt:P80404'}, {'key': 'disrupts', 'source': 'UniProt:P80404', 'target': 'REACT:R-HSA-1430728'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-1430728', 'target': 'GO:0061534'}, {'key': 'prevents', 'source': 'GO:0061534', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P51649', 'label': 'Protein', 'name': 'succinic semialdehyde dehydrogenase'}, {'id': 'MESH:C009338', 'label': 'ChemicalSubstance', 'name': 'succinic semialdehyde'}, {'id': 'UniProt:P80404', 'label': 'Protein', 'name': 'GABA transaminase'}, {'id': 'REACT:R-HSA-1430728', 'label': 'Pathway', 'name': 'GABA metabolism'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'GABAergic neurotransmission'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D001714_3', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'UniProt:P29966'}, {'key': 'negatively regulates', 'source': 'UniProt:P29966', 'target': 'UniProt:Q02156'}, {'key': 'located in', 'source': 'UniProt:Q02156', 'target': 'UBERON:0001870'}, {'key': 'contributes to', 'source': 'UBERON:0001870', 'target': 'GO:0051823'}, {'key': 'treats', 'source': 'GO:0051823', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:Q02156', 'label': 'Protein', 'name': 'protein kinase C (PKC)-ε'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - 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"['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004827_3', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'REACT:R-HSA-556833'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-556833', 'target': 'MESH:D008560'}, {'key': 'positively regulates', 'source': 'MESH:D008560', 'target': 'GO:0099611'}, {'key': 'correlated with', 'source': 'GO:0099611', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'alt_ids': ['KEGG:M00561'], 'id': 'REACT:R-HSA-556833', 'label': 'Pathway', 'name': 'glycerolipids metabolism'}, {'id': 'MESH:D008560', 'label': 'BiologicalProcess', 'name': 'membrane fluidity'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'action potential threshold'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D004827_4', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:Q9UKV0'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UKV0', 'target': 'GO:0045893'}, {'key': 'decreases activity of', 'source': 'GO:0045893', 'target': 'UniProt:P04406'}, {'key': 'prevents', 'source': 'UniProt:P04406', 'target': 'MESH:D009410'}, {'key': 'correlated with', 'source': 'MESH:D009410', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:Q9UKV0', 'label': 'Protein', 'name': 'histone deactylase (HDAC)'}, {'id': 'GO:0045893', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'UniProt:P04406', 'label': 'Protein', 'name': 'glyceraldehyde-3-phosphate dehydrogenase'}, {'id': 'MESH:D009410', 'label': 'BiologicalProcess', 'name': 'neural degeneration'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D008881_1', 'disease': 'migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:O14975'}, {'key': 'located in', 'source': 'UniProt:O14975', 'target': 'UBERON:0000955'}, {'key': 'decreases abundance of', 'source': 'UBERON:0000955', 'target': 'MESH:C026563'}, {'key': 'participates in', 'source': 'MESH:C026563', 'target': 'REACT:R-HSA-2162123'}, {'key': 'treats', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:O14975', 'label': 'Protein', 'name': 'microsomal long-chain fatty acyl-CoA synthetase'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'brain'}, {'id': 'MESH:C026563', 'label': 'ChemicalSubstance', 'name': 'Arachidonoyl-CoA'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'inflammatory prostaglandins production'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00495_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'zidovudine', 'drug_mesh': 'MESH:D015215', 'drugbank': 'DB:DB00495'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D015215', 'target': 'MESH:C052873'}, {'key': 'decreases activity of', 'source': 'MESH:C052873', 'target': 'UniProt:Q72547'}, {'key': 'expressed in', 'source': 'UniProt:Q72547', 'target': 'GO:0039693'}, {'key': 'in taxon', 'source': 'GO:0039693', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015215', 'label': 'Drug', 'name': 'zidovudine'}, {'id': 'MESH:C052873', 'label': 'ChemicalSubstance', 'name': 'zidovudine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase (RT)'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'HIV'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00495#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00495_MESH_D015658_2', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'zidovudine', 'drug_mesh': 'MESH:D015215', 'drugbank': 'DB:DB00495'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D015215', 'target': 'MESH:C052873'}, {'key': 'decreases activity of', 'source': 'MESH:C052873', 'target': 'UniProt:Q72547'}, {'key': 'in taxon', 'source': 'UniProt:Q72547', 'target': 'NCBITaxon:11676'}, {'key': 'expressed in', 'source': 'NCBITaxon:11676', 'target': 'GO:0039693'}, {'key': 'causes', 'source': 'GO:0039693', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015215', 'label': 'Drug', 'name': 'zidovudine'}, {'id': 'MESH:C052873', 'label': 'ChemicalSubstance', 'name': 'zidovudine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase (RT)'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'HIV-1'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00495#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'OrganismTaxon', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01227_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'levomethadyl acetate', 'drug_mesh': None, 'drugbank': 'DB:DB01227'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01227', 'target': 'UniProt:P35372'}, {'key': 'causes', 'source': 'UniProt:P35372', 'target': 'GO:0060081'}, {'key': 'prevents', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'causes', 'source': 'GO:0019228', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01227', 'label': 'Drug', 'name': 'Levomethadyl acetate'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu opioid receptor'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal excitability'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01227#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01227_MESH_D009293_2', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'levomethadyl acetate', 'drug_mesh': None, 'drugbank': 'DB:DB01227'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01227', 'target': 'UniProt:P35372'}, {'key': 'produces', 'source': 'UniProt:P35372', 'target': 'GO:0060081'}, {'key': 'prevents', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'causes', 'source': 'GO:0019228', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01227', 'label': 'Drug', 'name': 'Levomethadyl acetate'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu opioid receptor'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal excitability'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01227#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_3', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D005902_4', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_2', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_3', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P07550'}, {'key': 'increases abundance of', 'source': 'UniProt:P07550', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01210_MESH_D009798_4', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'levobunolol', 'drug_mesh': 'MESH:D002040', 'drugbank': 'DB:DB01210'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002040', 'target': 'UniProt:P08588'}, {'key': 'increases abundance of', 'source': 'UniProt:P08588', 'target': 'MESH:D000242'}, {'key': 'located in', 'source': 'MESH:D000242', 'target': 'UBERON:0010427'}, {'key': 'decreases synthesis of', 'source': 'UBERON:0010427', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002040', 'label': 'Drug', 'name': 'levobunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic adenosine monophosphate'}, {'id': 'UBERON:0010427', 'label': 'GrossAnatomicalStructure', 'name': 'ciliary processes'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01210#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00027_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'gramicidin', 'drug_mesh': 'MESH:D006096', 'drugbank': 'DB:DB00027'}, 'links': [{'key': 'directly interacts with', 'source': 'MESH:D006096', 'target': 'GO:0030313'}, {'key': 'increases activity of', 'source': 'GO:0030313', 'target': 'GO:1905709'}, {'key': 'disrupts', 'source': 'GO:1905709', 'target': 'GO:0022803'}, {'key': 'precedes', 'source': 'GO:0022803', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006096', 'label': 'Drug', 'name': 'gramicidin'}, {'id': 'GO:0030313', 'label': 'CellularComponent', 'name': 'bacterial cell membrane'}, {'id': 'GO:1905709', 'label': 'BiologicalProcess', 'name': 'membrane permeabilization'}, {'id': 'GO:0022803', 'label': 'BiologicalProcess', 'name': 'transmembrane potential'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00027#mechanismofaction']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00027_MESH_D003234_2', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'gramicidin', 'drug_mesh': 'MESH:D006096', 'drugbank': 'DB:DB00027'}, 'links': [{'key': 'causes', 'source': 'MESH:D006096', 'target': 'GO:0051673'}, {'key': 'negatively regulates', 'source': 'GO:0051673', 'target': 'GO:1905709'}, {'key': 'located in', 'source': 'GO:1905709', 'target': 'NCBITaxon:2'}, {'key': 'disrupts', 'source': 'NCBITaxon:2', 'target': 'GO:0022803'}, {'key': 'affects activity of', 'source': 'GO:0022803', 'target': 'GO:0006260'}, {'key': 'decreases activity of', 'source': 'GO:0006260', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'GO:0032774', 'target': 'GO:0006412'}, {'key': 'contributes to', 'source': 'GO:0006412', 'target': 'GO:0008219'}, {'key': 'treats', 'source': 'GO:0008219', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006096', 'label': 'Drug', 'name': 'gramicidin'}, {'id': 'GO:0051673', 'label': 'BiologicalProcess', 'name': 'membrane disruption'}, {'id': 'GO:1905709', 'label': 'BiologicalProcess', 'name': 'membrane permeabilization'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'bacteria'}, {'id': 'GO:0022803', 'label': 'BiologicalProcess', 'name': 'transmembrane potential'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00027#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 'UniProt:Q9H244', 'target': 'CL:0000233'}, {'key': 'prevents', 'source': 'CL:0000233', 'target': 'GO:0043531'}, {'key': 'decreases activity of', 'source': 'GO:0043531', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 'UniProt:P23141', 'label': 'Protein', 'name': 'carboxylesterase-1'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y12 receptor'}, {'id': 'CL:0000233', 'label': 'Cell', 'name': 'platelet'}, {'id': 'GO:0043531', 'label': 'BiologicalProcess', 'name': 'ADP binding'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D054058_2', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 'UniProt:Q9H244', 'target': 'CL:0000233'}, {'key': 'prevents', 'source': 'CL:0000233', 'target': 'MESH:D000244'}, {'key': 'decreases activity of', 'source': 'MESH:D000244', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 'UniProt:P23141', 'label': 'Protein', 'name': 'carboxylesterase-1'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y12 receptor'}, {'id': 'CL:0000233', 'label': 'Cell', 'name': 'platelet'}, {'id': 'MESH:D000244', 'label': 'ChemicalSubstance', 'name': 'ADP'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", - "['Drug', 'Protein', 'Cell', 'ChemicalSubstance', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D020766_1', 'disease': 'Cerebral embolism', 'disease_mesh': 'MESH:D020766', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 'UniProt:Q9H244', 'target': 'CL:0000233'}, {'key': 'prevents', 'source': 'CL:0000233', 'target': 'GO:0043531'}, {'key': 'decreases activity of', 'source': 'GO:0043531', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'causes', 'source': 'GO:0070527', 'target': 'MESH:D020766'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 'UniProt:P23141', 'label': 'Protein', 'name': 'carboxylesterase-1'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y12 receptor'}, {'id': 'CL:0000233', 'label': 'Cell', 'name': 'platelet'}, {'id': 'GO:0043531', 'label': 'BiologicalProcess', 'name': 'ADP binding'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D020766', 'label': 'Disease', 'name': 'Cerebral embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00758_MESH_D020766_2', 'disease': 'Cerebral embolism', 'disease_mesh': 'MESH:D020766', 'drug': 'clopidogrel', 'drug_mesh': None, 'drugbank': 'DB:DB00758'}, 'links': [{'key': 'enabled by', 'source': 'DB:DB00758', 'target': 'UniProt:P23141'}, {'key': 'increases activity of', 'source': 'UniProt:P23141', 'target': 'UniProt:Q9H244'}, {'key': 'located in', 'source': 'UniProt:Q9H244', 'target': 'CL:0000233'}, {'key': 'prevents', 'source': 'CL:0000233', 'target': 'MESH:D000244'}, {'key': 'decreases activity of', 'source': 'MESH:D000244', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'causes', 'source': 'GO:0070527', 'target': 'MESH:D020766'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00758', 'label': 'Drug', 'name': 'clopidogrel'}, {'id': 'UniProt:P23141', 'label': 'Protein', 'name': 'carboxylesterase-1'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y12 receptor'}, {'id': 'CL:0000233', 'label': 'Cell', 'name': 'platelet'}, {'id': 'MESH:D000244', 'label': 'ChemicalSubstance', 'name': 'ADP'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D020766', 'label': 'Disease', 'name': 'Cerebral embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB00758#mechanismofaction']}\n", - "['Drug', 'Protein', 'Cell', 'ChemicalSubstance', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08873_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'boceprevir', 'drug_mesh': 'MESH:C512204', 'drugbank': 'DB:DB08873'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C512204', 'target': 'UniProt:B0B3C9'}, {'key': 'negatively regulates', 'source': 'UniProt:B0B3C9', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C512204', 'label': 'Drug', 'name': 'boceprevir'}, {'id': 'UniProt:B0B3C9', 'label': 'Protein', 'name': 'NS3/4a protease'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'HCV'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB08873#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08873_MESH_D019698_2', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'boceprevir', 'drug_mesh': 'MESH:C512204', 'drugbank': 'DB:DB08873'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C512204', 'target': 'UniProt:B0B3C9'}, {'key': 'affects activity of', 'source': 'UniProt:B0B3C9', 'target': 'GO:0006260'}, {'key': 'located in', 'source': 'GO:0006260', 'target': 'NCBITaxon:11103'}, {'key': 'treats', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C512204', 'label': 'Drug', 'name': 'boceprevir'}, {'id': 'UniProt:B0B3C9', 'label': 'Protein', 'name': 'NS3/4a protease'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'HCV'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB08873#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01282_MESH_D011218_1', 'disease': 'Prader-Willi syndrome', 'disease_mesh': 'MESH:D011218', 'drug': 'carbetocin', 'drug_mesh': 'MESH:C020731', 'drugbank': 'DB:DB01282'}, 'links': [{'key': 'treats', 'source': 'MESH:C020731', 'target': 'MESH:D011218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020731', 'label': 'Drug', 'name': 'Carbetocin'}, {'id': 'MESH:D011218', 'label': 'Disease', 'name': 'Prader-Willi syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01282#mechanismofaction']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01282_MESH_D006473_1', 'disease': 'postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'carbetocin', 'drug_mesh': 'MESH:C020731', 'drugbank': 'DB:DB01282'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C020731', 'target': 'UniProt:P30559'}, {'key': 'located in', 'source': 'UniProt:P30559', 'target': 'UBERON:0001135'}, {'key': 'location of', 'source': 'UBERON:0001135', 'target': 'UBERON:0000995'}, {'key': 'increases activity of', 'source': 'UBERON:0000995', 'target': 'GO:0070471'}, {'key': 'prevents', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020731', 'label': 'Drug', 'name': 'Carbetocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'oxytocin receptors'}, {'id': 'UBERON:0001135', 'label': 'GrossAnatomicalStructure', 'name': 'smooth muscle'}, {'id': 'UBERON:0000995', 'label': 'GrossAnatomicalStructure', 'name': 'uterus'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'contractions'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01282#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00671_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'cefixime', 'drug_mesh': 'MESH:D020682', 'drugbank': 'DB:DB00671'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020682', 'target': 'UniProt:P44469'}, {'key': 'negatively regulates', 'source': 'UniProt:P44469', 'target': 'GO:0009273'}, {'key': 'positively regulates', 'source': 'GO:0009273', 'target': 'UniProt:O30554'}, {'key': 'prevents', 'source': 'UniProt:O30554', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020682', 'label': 'Drug', 'name': 'cefixime'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'penicillin-binding protein'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'mucopeptide synthesis'}, {'id': 'UniProt:O30554', 'label': 'Protein', 'name': 'autolysin'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall synthesis'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'Neisseria gonorrhoeae'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00671#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00671_MESH_D006069_2', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'cefixime', 'drug_mesh': 'MESH:D020682', 'drugbank': 'DB:DB00671'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D020682', 'target': 'UniProt:P44469'}, {'key': 'located in', 'source': 'UniProt:P44469', 'target': 'GO:0005618'}, {'key': 'location of', 'source': 'GO:0005618', 'target': 'NCBITaxon:485'}, {'key': 'decreases activity of', 'source': 'NCBITaxon:485', 'target': 'GO:0009273'}, {'key': 'negatively regulates', 'source': 'GO:0009273', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'GO:0042546', 'target': 'UniProt:O30554'}, {'key': 'contributes to', 'source': 'UniProt:O30554', 'target': 'GO:0008219'}, {'key': 'treats', 'source': 'GO:0008219', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020682', 'label': 'Drug', 'name': 'cefixime'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'penicillin-binding protein'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'Neisseria gonorrhoeae'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'mucopeptide synthesis'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall synthesis'}, {'id': 'UniProt:O30554', 'label': 'Protein', 'name': 'autolysin'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00671#mechanismofaction']}\n", - "['Drug', 'Protein', 'CellularComponent', 'OrganismTaxon', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00671_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'cefixime', 'drug_mesh': 'MESH:D020682', 'drugbank': 'DB:DB00671'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D020682', 'target': 'UniProt:P44469'}, {'key': 'negatively regulates', 'source': 'UniProt:P44469', 'target': 'GO:0009273'}, {'key': 'positively regulates', 'source': 'GO:0009273', 'target': 'UniProt:O30554'}, {'key': 'prevents', 'source': 'UniProt:O30554', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020682', 'label': 'Drug', 'name': 'cefixime'}, {'id': 'UniProt:P44469', 'label': 'Protein', 'name': 'penicillin-binding protein'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'mucopeptide synthesis'}, {'id': 'UniProt:O30554', 'label': 'Protein', 'name': 'autolysin'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall synthesis'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00671#mechanismofaction']}\n", - 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"['Drug', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D010051_2', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'gemcitabine', 'drug_mesh': 'MESH:C056507', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P30085'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P23921'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P30085', 'target': 'GO:0006225'}, {'key': 'positively regulates', 'source': 'UniProt:P23921', 'target': 'GO:0061731'}, {'key': 'positively correlated with', 'source': 'GO:0006235', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0006225', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0061731', 'target': 'GO:1904860'}, {'key': 'correlated with', 'source': 'GO:1904860', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056507', 'label': 'Drug', 'name': 'gemcitabine'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'UniProt:P30085', 'label': 'Protein', 'name': 'UMP-CMP kinase'}, {'id': 'UniProt:P23921', 'label': 'Protein', 'name': 'Ribonucleoside-diphosphate reductase large subunit'}, {'id': 'GO:0006235', 'label': 'BiologicalProcess', 'name': 'dTTP biosynthetic process'}, {'id': 'GO:0006225', 'label': 'BiologicalProcess', 'name': 'UDP biosynthetic process'}, {'id': 'GO:0061731', 'label': 'MolecularActivity', 'name': 'ribonucleoside-diphosphate reductase activity'}, {'id': 'GO:1904860', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in mitotic DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://go.drugbank.com/drugs/DB00441#mechanism-of-action', 'https://europepmc.org/article/med/7481842']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12459_MESH_D002289_2', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'gem citabine', 'drug_mesh': 'MESH:C056507', 'drugbank': 'DB:DB12459'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P30085'}, {'key': 'negatively regulates', 'source': 'MESH:C056507', 'target': 'UniProt:P23921'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P30085', 'target': 'GO:0006225'}, {'key': 'positively regulates', 'source': 'UniProt:P23921', 'target': 'GO:0061731'}, {'key': 'positively correlated with', 'source': 'GO:0006235', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0006225', 'target': 'GO:1904860'}, {'key': 'positively correlated with', 'source': 'GO:0061731', 'target': 'GO:1904860'}, {'key': 'correlated with', 'source': 'GO:1904860', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056507', 'label': 'Drug', 'name': 'gemcitabine'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'UniProt:P30085', 'label': 'Protein', 'name': 'UMP-CMP kinase'}, {'id': 'UniProt:P23921', 'label': 'Protein', 'name': 'Ribonucleoside-diphosphate reductase large subunit'}, {'id': 'GO:0006235', 'label': 'BiologicalProcess', 'name': 'dTTP biosynthetic process'}, {'id': 'GO:0006225', 'label': 'BiologicalProcess', 'name': 'UDP biosynthetic process'}, {'id': 'GO:0061731', 'label': 'MolecularActivity', 'name': 'ribonucleoside-diphosphate reductase activity'}, {'id': 'GO:1904860', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in mitotic DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00441#mechanism-of-action', 'https://europepmc.org/article/med/7481842']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00325_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'nitroprusside', 'drug_mesh': 'MESH:D009599', 'drugbank': 'DB:DB00325'}, 'links': [{'key': 'produces', 'source': 'MESH:D009599', 'target': 'CHEBI:16480'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0004383'}, {'key': 'increases abundance of', 'source': 'GO:0004383', 'target': 'MESH:D006152'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009599', 'label': 'Drug', 'name': 'nitroprusside'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0004383', 'label': 'MolecularActivity', 'name': 'guanylate cyclase activity'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cyclic GMP'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00325#BE0000556', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2097081/']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00813_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'fentanyl', 'drug_mesh': 'MESH:D005283', 'drugbank': 'DB:DB00813'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005283', 'target': 'UniProt:P35372'}, {'key': 'increases activity of', 'source': 'MESH:D005283', 'target': 'UniProt:P41143'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005283', 'label': 'Drug', 'name': 'fentanyl'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00813', 'https://en.wikipedia.org/wiki/Opioid_receptor', 'https://pubmed.ncbi.nlm.nih.gov/15625131/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1621137/']}\n", - 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"['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00901_MESH_D001987_1', 'disease': 'Bronchiectasis', 'disease_mesh': 'MESH:D001987', 'drug': 'bitolterol', 'drug_mesh': 'MESH:C011685', 'drugbank': 'DB:DB00901'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001987'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001987', 'label': 'Disease', 'name': 'Bronchiectasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00901#BE0000694', 'https://pubmed.ncbi.nlm.nih.gov/16263481/', 'https://en.wikipedia.org/wiki/Bronchiectasis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00901_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'bitolterol', 'drug_mesh': 'MESH:C011685', 'drugbank': 'DB:DB00901'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00901#BE0000694', 'https://pubmed.ncbi.nlm.nih.gov/16263481/', 'https://en.wikipedia.org/wiki/Asthma']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00901_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'bitolterol', 'drug_mesh': 'MESH:C011685', 'drugbank': 'DB:DB00901'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C011685', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0071871'}, {'key': 'positively regulates', 'source': 'GO:0071871', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011685', 'label': 'Drug', 'name': 'bitolterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0071871', 'label': 'BiologicalProcess', 'name': 'response to epinephrine'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'terminal bronchiole'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00901#BE0000694', 'https://pubmed.ncbi.nlm.nih.gov/16263481/', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01119_MESH_D007340_1', 'disease': 'Insulinoma', 'disease_mesh': 'MESH:D007340', 'drug': 'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}, {'key': 'manifestation of', 'source': 'MESH:D006946', 'target': 'MESH:D007340'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}, {'id': 'MESH:D007340', 'label': 'Disease', 'name': 'Insulinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://en.wikipedia.org/wiki/Insulinoma']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01119_MESH_D006946_1', 'disease': 'Hyperinsulinism', 'disease_mesh': 'MESH:D006946', 'drug': 'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://en.wikipedia.org/wiki/Hyperinsulinism']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01119_MESH_D046768_1', 'disease': 'Islet cell hyperplasia', 'disease_mesh': 'MESH:D046768', 'drug': 'diazoxide', 'drug_mesh': 'MESH:D003981', 'drugbank': 'DB:DB01119'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003981', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'contributes to', 'source': 'GO:0030073', 'target': 'MESH:D006946'}, {'key': 'manifestation of', 'source': 'MESH:D006946', 'target': 'MESH:D046768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003981', 'label': 'Drug', 'name': 'diazoxide'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D006946', 'label': 'Disease', 'name': 'Hyperinsulinism'}, {'id': 'MESH:D046768', 'label': 'Disease', 'name': 'Islet cell hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB01119#BE0000708', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3020366/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D001660_1', 'disease': 'Disorder of biliary tract', 'disease_mesh': 'MESH:D001660', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'produced by', 'source': 'MESH:D019826', 'target': 'UBERON:0002423'}, {'key': 'affected by', 'source': 'UBERON:0002423', 'target': 'MESH:D001660'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'UBERON:0002423', 'label': 'GrossAnatomicalStructure', 'name': 'hepatobiliary system'}, {'id': 'MESH:D001660', 'label': 'Disease', 'name': 'Disorder of biliary tract'}], 'reference': ['https://go.drugbank.com/drugs/DB02659']}\n", - "['Drug', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Cholic acid is not a common treatment for Cholelithiasis https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3348960/', 'directed': True, 'graph': {'_id': 'DB02659_MESH_D002769_1', 'disease': 'Cholelithiasis', 'disease_mesh': 'MESH:D002769', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'treats', 'source': 'MESH:D019826', 'target': 'MESH:D002769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'MESH:D002769', 'label': 'Disease', 'name': 'Cholelithiasis'}]}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D019826', 'target': 'GO:0030432'}, {'key': 'negatively correlated with', 'source': 'GO:0030432', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'GO:0030432', 'label': 'BiologicalProcess', 'name': 'peristalsis'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://go.drugbank.com/drugs/DB02659', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4015201/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02659_MESH_D019294_1', 'disease': 'Cerebrotendinous Xanthomatosis', 'disease_mesh': 'MESH:D019294', 'drug': 'cholic acid', 'drug_mesh': 'MESH:D019826', 'drugbank': 'DB:DB02659'}, 'links': [{'key': 'produced by', 'source': 'MESH:D019826', 'target': 'UniProt:Q02318'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q02318', 'target': 'MESH:D019294'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q02318', 'target': 'MESH:D004083'}, {'key': 'contributes to', 'source': 'MESH:D004083', 'target': 'MESH:D019294'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019826', 'label': 'Drug', 'name': 'cholic acid'}, {'id': 'UniProt:Q02318', 'label': 'Protein', 'name': 'Sterol 26-hydroxylase, mitochondrial'}, {'id': 'MESH:D019294', 'label': 'Disease', 'name': 'Cerebrotendinous Xanthomatosis'}, {'id': 'MESH:D004083', 'label': 'ChemicalSubstance', 'name': 'Cholestanol'}], 'reference': ['https://go.drugbank.com/drugs/DB02659', 'https://www.ncbi.nlm.nih.gov/books/NBK395578/']}\n", - "['Drug', 'Protein', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08976_MESH_D059787_1', 'disease': 'Acute pain', 'disease_mesh': 'MESH:D059787', 'drug': 'floctafenine', 'drug_mesh': 'MESH:C051733,MESH:C084600', 'drugbank': 'DB:DB08976'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08976', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08976', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D059787'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08976', 'label': 'Drug', 'name': 'floctafenine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D059787', 'label': 'Disease', 'name': 'Acute pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08976', 'https://drugs.ncats.io/substances?q=%22FLOCTAFENINE%22&facet=Substance%20Form%2FPrincipal%20Form']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09076_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'umeclidinium', 'drug_mesh': 'MESH:C573971', 'drugbank': 'DB:DB09076'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C573971', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:C573971', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C573971', 'label': 'Drug', 'name': 'umeclidinium'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09076#BE0000560', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases abundance of', 'source': 'GO:0034776', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/', 'https://pubmed.ncbi.nlm.nih.gov/18651116/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://pubmed.ncbi.nlm.nih.gov/19476049/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'nasopharynx cavity'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://en.wikipedia.org/wiki/Sneeze']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'GO:0007186'}, {'key': 'increases activity of', 'source': 'GO:0007186', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'GO:0007186', 'label': 'BiologicalProcess', 'name': 'G protein-coupled receptor signaling pathway'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442', 'https://en.wikipedia.org/wiki/Common_cold#cite_note-13']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09488_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'acrivastine', 'drug_mesh': 'MESH:C043648', 'drugbank': 'DB:DB09488'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043648', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'increases activity of', 'source': 'GO:0034776', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043648', 'label': 'Drug', 'name': 'acrivastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'response to histamine'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'nasopharynx cavity'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09488#BE0000442']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09552_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'thonzonium', 'drug_mesh': 'MESH:C000609116', 'drugbank': 'DB:DB09552'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000609116', 'target': 'UniProt:Q59R99'}, {'key': 'participates in', 'source': 'UniProt:Q59R99', 'target': 'GO:0030641'}, {'key': 'occurs in', 'source': 'GO:0030641', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000609116', 'label': 'Drug', 'name': 'thonzonium'}, {'id': 'UniProt:Q59R99', 'label': 'Protein', 'name': 'V-type proton ATPase subunit a (Candida albicans)'}, {'id': 'GO:0030641', 'label': 'BiologicalProcess', 'name': 'regulation of cellular pH'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/24478704/', 'https://go.drugbank.com/drugs/DB09552']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12159_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'dupilumab', 'drug_mesh': 'MESH:C582203', 'drugbank': 'DB:DB12159'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C582203', 'target': 'UniProt:P24394'}, {'key': 'participates in', 'source': 'UniProt:P24394', 'target': 'REACT:R-HSA-6785807'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-6785807', 'target': 'GO:0042092'}, {'key': 'contributes to', 'source': 'GO:0042092', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C582203', 'label': 'Drug', 'name': 'dupilumab'}, {'id': 'UniProt:P24394', 'label': 'Protein', 'name': 'Interleukin-4 receptor subunit alpha'}, {'id': 'REACT:R-HSA-6785807', 'label': 'Pathway', 'name': 'Interleukin-4 and Interleukin-13 signaling'}, {'id': 'GO:0042092', 'label': 'BiologicalProcess', 'name': 'type 2 immune response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB12159', 'https://pubmed.ncbi.nlm.nih.gov/29939132/', 'https://www.uniprot.org/uniprot/P24394']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D017497_1', 'disease': 'Hidradenitis suppurativa', 'disease_mesh': 'MESH:D017497', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D017497'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D017497', 'label': 'Disease', 'name': 'Hidradenitis suppurativa'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Hidradenitis_suppurativa']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Rheumatoid_arthritis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D001171_1', 'disease': 'Juvenile idiopathic arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile idiopathic arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Juvenile_idiopathic_arthritis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D015535_1', 'disease': 'Psoriasis with arthropathy', 'disease_mesh': 'MESH:D015535', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriasis with arthropathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Psoriatic_arthritis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Ankylosing_spondylitis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Crohn%27s_disease']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00051_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'adalimumab', 'drug_mesh': 'MESH:D000068879', 'drugbank': 'DB:DB00051'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068879', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068879', 'label': 'Drug', 'name': 'adalimumab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00051#BE0000704', 'https://en.wikipedia.org/wiki/Ulcerative_colitis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00107_MESH_D006473_1', 'disease': 'Postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'oxytocin', 'drug_mesh': 'MESH:D010121', 'drugbank': 'DB:DB00107'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010121', 'target': 'UniProt:P30559'}, {'key': 'participates in', 'source': 'UniProt:P30559', 'target': 'GO:0004990'}, {'key': 'positively regulates', 'source': 'GO:0004990', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0004687'}, {'key': 'positively regulates', 'source': 'GO:0004687', 'target': 'GO:0070471'}, {'key': 'negatively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010121', 'label': 'Drug', 'name': 'oxytocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'Oxytocin receptor'}, {'id': 'GO:0004990', 'label': 'MolecularActivity', 'name': 'oxytocin receptor activity'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0004687', 'label': 'MolecularActivity', 'name': 'myosin light chain kinase activity'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'Postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB00107', 'https://en.wikipedia.org/wiki/Postpartum_bleeding']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00811_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'ribavirin', 'drug_mesh': 'MESH:D012254', 'drugbank': 'DB:DB00811'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:Q96885'}, {'key': 'negatively regulates', 'source': 'MESH:D012254', 'target': 'InterPro:IPR019602'}, {'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:P20839'}, {'key': 'participates in', 'source': 'UniProt:Q96885', 'target': 'GO:0039694'}, {'key': 'participates in', 'source': 'InterPro:IPR019602', 'target': 'GO:0004484'}, {'key': 'positively correlated with', 'source': 'UniProt:P20839', 'target': 'GO:0006183'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'produces', 'source': 'GO:0006183', 'target': 'MESH:D006160'}, {'key': 'participates in', 'source': 'MESH:D006160', 'target': 'GO:0039694'}, {'key': 'occurs in', 'source': 'GO:0004484', 'target': 'NCBITaxon:11103'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012254', 'label': 'Drug', 'name': 'ribavirin'}, {'id': 'UniProt:Q96885', 'label': 'Protein', 'name': 'RNA-directed RNA polymerase (Hepatitis C virus)'}, {'id': 'InterPro:IPR019602', 'label': 'GeneFamily', 'name': 'mRNA capping enzyme, large subunit, ATPase/guanylyltransferase, virus'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'GO:0004484', 'label': 'BiologicalProcess', 'name': 'mRNA capping enzyme activity'}, {'id': 'GO:0006183', 'label': 'BiologicalProcess', 'name': 'GTP biosynthetic process'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D006160', 'label': 'ChemicalSubstance', 'name': 'Guanosine Triphosphate (GTP)'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}], 'reference': ['https://go.drugbank.com/drugs/DB00811', 'https://en.wikipedia.org/wiki/Hepatitis_C']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00811_MESH_D018357_1', 'disease': 'Respiratory syncytial virus infection', 'disease_mesh': 'MESH:D018357', 'drug': 'ribavirin', 'drug_mesh': 'MESH:D012254', 'drugbank': 'DB:DB00811'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:Q96885'}, {'key': 'negatively regulates', 'source': 'MESH:D012254', 'target': 'InterPro:IPR019602'}, {'key': 'decreases activity of', 'source': 'MESH:D012254', 'target': 'UniProt:P20839'}, {'key': 'participates in', 'source': 'UniProt:Q96885', 'target': 'GO:0039694'}, {'key': 'participates in', 'source': 'InterPro:IPR019602', 'target': 'GO:0004484'}, {'key': 'positively correlated with', 'source': 'UniProt:P20839', 'target': 'GO:0006183'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:12814'}, {'key': 'occurs in', 'source': 'GO:0004484', 'target': 'NCBITaxon:12814'}, {'key': 'produces', 'source': 'GO:0006183', 'target': 'MESH:D006160'}, {'key': 'participates in', 'source': 'MESH:D006160', 'target': 'GO:0039694'}, {'key': 'occurs in', 'source': 'GO:0039694', 'target': 'NCBITaxon:12814'}, {'key': 'causes', 'source': 'NCBITaxon:12814', 'target': 'MESH:D018357'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012254', 'label': 'Drug', 'name': 'ribavirin'}, {'id': 'UniProt:Q96885', 'label': 'Protein', 'name': 'RNA-directed RNA polymerase (Hepatitis C virus)'}, {'id': 'InterPro:IPR019602', 'label': 'GeneFamily', 'name': 'mRNA capping enzyme, large subunit, ATPase/guanylyltransferase, virus'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'GO:0004484', 'label': 'BiologicalProcess', 'name': 'mRNA capping enzyme activity'}, {'id': 'GO:0006183', 'label': 'BiologicalProcess', 'name': 'GTP biosynthetic process'}, {'id': 'NCBITaxon:12814', 'label': 'OrganismTaxon', 'name': 'Respiratory syncytial virus'}, {'id': 'MESH:D006160', 'label': 'ChemicalSubstance', 'name': 'Guanosine Triphosphate (GTP)'}, {'id': 'MESH:D018357', 'label': 'Disease', 'name': 'Respiratory syncytial virus infection'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}], 'reference': ['https://go.drugbank.com/drugs/DB00811', 'https://en.wikipedia.org/wiki/Respiratory_syncytial_virus']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01091_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'butenafine', 'drug_mesh': 'MESH:C067594', 'drugbank': 'DB:DB01091'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C067594', 'target': 'UniProt:Q14534'}, {'key': 'positively regulates', 'source': 'UniProt:Q14534', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C067594', 'label': 'Drug', 'name': 'butenafine'}, {'id': 'UniProt:Q14534', 'label': 'Protein', 'name': 'Squalene monooxygenase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall biogenesis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB01091#BE0000577', 'https://en.wikipedia.org/wiki/Athlete%27s_foot']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01091_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'butenafine', 'drug_mesh': 'MESH:C067594', 'drugbank': 'DB:DB01091'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C067594', 'target': 'UniProt:Q14534'}, {'key': 'positively regulates', 'source': 'UniProt:Q14534', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:76773'}, {'key': 'causes', 'source': 'NCBITaxon:76773', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C067594', 'label': 'Drug', 'name': 'butenafine'}, {'id': 'UniProt:Q14534', 'label': 'Protein', 'name': 'Squalene monooxygenase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'cell wall biogenesis'}, {'id': 'NCBITaxon:76773', 'label': 'OrganismTaxon', 'name': 'Malassezia globosa'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB01091#BE0000577', 'https://en.wikipedia.org/wiki/Tinea_versicolors']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:76773'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:76773'}, {'key': 'causes', 'source': 'NCBITaxon:76773', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:76773', 'label': 'OrganismTaxon', 'name': 'Malassezia globosa'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Tinea_versicolors']}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D002179_1', 'disease': 'Candidiasis of skin', 'disease_mesh': 'MESH:D002179', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:1535326'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:1535326'}, {'key': 'causes', 'source': 'NCBITaxon:1535326', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:1535326', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Candidiasis']}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:4751'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Athlete%27s_foot']}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:4751'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Onychomycosis']}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01188_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'ciclopirox', 'drug_mesh': 'MESH:C011585', 'drugbank': 'DB:DB01188'}, 'links': [{'key': 'disrupts', 'source': 'MESH:C011585', 'target': 'GO:0005886'}, {'key': 'capable of', 'source': 'MESH:C011585', 'target': 'GO:0046911'}, {'key': 'occurs in', 'source': 'GO:0005886', 'target': 'NCBITaxon:55193'}, {'key': 'contributes to', 'source': 'GO:0046911', 'target': 'GO:0004857'}, {'key': 'occurs in', 'source': 'GO:0004857', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011585', 'label': 'Drug', 'name': 'ciclopirox'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'plasma membrane'}, {'id': 'GO:0046911', 'label': 'MolecularActivity', 'name': 'metal chelating activity'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia'}, {'id': 'GO:0004857', 'label': 'MolecularActivity', 'name': 'metalloenzyme inhibitor activity'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01188', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", - "['Drug', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Mibefradil was withdrawn from the market in 1998 because of potentially harmful interactions with other drugs', 'directed': True, 'graph': {'_id': 'DB01388_MESH_D006973_1', 'disease': 'Hypertension', 'disease_mesh': 'MESH:D006973', 'drug': 'mibefradil', 'drug_mesh': 'MESH:D020748', 'drugbank': 'DB:DB01388'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q01668'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O60840'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q9P0X4'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13698'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O60840', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13698', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020748', 'label': 'Drug', 'name': 'mibefradil'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'UniProt:O60840', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1F'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1S'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'positive regulation of vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01388']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Mibefradil was withdrawn from the market in 1998 because of potentially harmful interactions with other drugs', 'directed': True, 'graph': {'_id': 'DB01388_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'mibefradil', 'drug_mesh': 'MESH:D020748', 'drugbank': 'DB:DB01388'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q01668'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:O60840'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q9P0X4'}, {'key': 'decreases activity of', 'source': 'MESH:D020748', 'target': 'UniProt:Q13698'}, {'key': 'participates in', 'source': 'UniProt:O43497', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:O60840', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q13698', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020748', 'label': 'Drug', 'name': 'mibefradil'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'UniProt:O60840', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1F'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:Q13698', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1S'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01388']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Mechanism of action of diloxanide is unknown', 'directed': True, 'graph': {'_id': 'DB08792_MESH_D000562_1', 'disease': 'Amebiasis', 'disease_mesh': 'MESH:D000562', 'drug': 'diloxanide furoate', 'drug_mesh': 'MESH:C004932', 'drugbank': 'DB:DB08792'}, 'links': [{'key': 'treats', 'source': 'MESH:C004932', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004932', 'label': 'Drug', 'name': 'diloxanide furoate'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB14638']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08896_MESH_D046152_1', 'disease': 'Gastrointestinal stromal tumor', 'disease_mesh': 'MESH:D046152', 'drug': 'regorafenib', 'drug_mesh': 'MESH:C559147', 'drugbank': 'DB:DB08896'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P16234'}, {'key': 'participates in', 'source': 'UniProt:P10721', 'target': 'REACT:R-HSA-9670439'}, {'key': 'participates in', 'source': 'UniProt:P16234', 'target': 'REACT:R-HSA-9673767'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9670439', 'target': 'GO:0008284'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9673767', 'target': 'GO:0008284'}, {'key': 'causes', 'source': 'GO:0008284', 'target': 'MESH:D046152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C559147', 'label': 'Drug', 'name': 'regorafenib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'REACT:R-HSA-9670439', 'label': 'Pathway', 'name': 'Signaling by phosphorylated juxtamembrane, extracellular and kinase domain KIT mutants'}, {'id': 'REACT:R-HSA-9673767', 'label': 'Pathway', 'name': 'Signaling by PDGFRA transmembrane, juxtamembrane and kinase domain mutants'}, {'id': 'GO:0008284', 'label': 'BiologicalProcess', 'name': 'positive regulation of cell population proliferation'}, {'id': 'MESH:D046152', 'label': 'Disease', 'name': 'Gastrointestinal stromal tumor'}], 'reference': ['https://go.drugbank.com/drugs/DB08896#BE0000029', 'https://pubmed.ncbi.nlm.nih.gov/31308690/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08896_MESH_D006528_1', 'disease': 'Hepatocellular Carcinoma', 'disease_mesh': 'MESH:D006528', 'drug': 'regorafenib', 'drug_mesh': 'MESH:C559147', 'drugbank': 'DB:DB08896'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P04049'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P15056'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P16234'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P11362'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P17948'}, {'key': 'decreases activity of', 'source': 'MESH:C559147', 'target': 'UniProt:P35968'}, {'key': 'participates in', 'source': 'UniProt:P04049', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P15056', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P16234', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P11362', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P17948', 'target': 'REACT:R-HSA-9006934'}, {'key': 'participates in', 'source': 'UniProt:P35968', 'target': 'REACT:R-HSA-9006934'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9006934', 'target': 'GO:0008284'}, {'key': 'contributes to', 'source': 'REACT:R-HSA-9006934', 'target': 'GO:0045766'}, {'key': 'causes', 'source': 'GO:0008284', 'target': 'MESH:D006528'}, {'key': 'causes', 'source': 'GO:0045766', 'target': 'MESH:D006528'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C559147', 'label': 'Disease', 'name': 'regorafenib'}, {'id': 'UniProt:P04049', 'label': 'Protein', 'name': 'RAF proto-oncogene serine/threonine-protein kinase'}, {'id': 'UniProt:P15056', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase B-raf'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'UniProt:P11362', 'label': 'Protein', 'name': 'Fibroblast growth factor receptor 1'}, {'id': 'UniProt:P17948', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 1'}, {'id': 'UniProt:P35968', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 2'}, {'id': 'REACT:R-HSA-9006934', 'label': 'Pathway', 'name': 'Signaling by Receptor Tyrosine Kinases'}, {'id': 'GO:0008284', 'label': 'BiologicalProcess', 'name': 'positive regulation of cell population proliferation'}, {'id': 'GO:0045766', 'label': 'BiologicalProcess', 'name': 'positive regulation of angiogenesis'}, {'id': 'MESH:D006528', 'label': 'Disease', 'name': 'Hepatocellular Carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08896', 'https://pubmed.ncbi.nlm.nih.gov/31954487/']}\n", - "{'directed': True, 'graph': {'_id': 'DB11362_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'selexipag', 'drug_mesh': 'MESH:C523468', 'drugbank': 'DB:DB11362'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C523468', 'target': 'UniProt:P43119'}, {'key': 'participates in', 'source': 'UniProt:P43119', 'target': 'GO:0016501'}, {'key': 'positively regulates', 'source': 'GO:0016501', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C523468', 'label': 'Drug', 'name': 'selexipag'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'prostacyclin receptor'}, {'id': 'GO:0016501', 'label': 'MolecularActivity', 'name': 'prostacyclin receptor activity'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB11362', 'https://en.wikipedia.org/wiki/Pulmonary_hypertension']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11943_MESH_D017192_1', 'disease': 'Bacterial Skin Diseases', 'disease_mesh': 'MESH:D017192', 'drug': 'delafloxacin', 'drug_mesh': 'MESH:C477891', 'drugbank': 'DB:DB11943'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C477891', 'target': 'UniProt:P0C1U9'}, {'key': 'decreases activity of', 'source': 'MESH:C477891', 'target': 'UniProt:Q2FKQ0'}, {'key': 'participates in', 'source': 'UniProt:P0C1U9', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C477891', 'label': 'Drug', 'name': 'delafloxacin'}, {'id': 'UniProt:P0C1U9', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial Skin Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB11943', 'https://en.wikipedia.org/wiki/Cellulitis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12523_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'mizolastine', 'drug_mesh': 'MESH:C076170', 'drugbank': 'DB:DB12523'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076170', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076170', 'label': 'Drug', 'name': 'mizolastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Mizolastine', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02329_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'carbenoxolone', 'drug_mesh': 'MESH:D002229', 'drugbank': 'DB:DB02329'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002229', 'target': 'UniProt:P28845'}, {'key': 'negatively regulates', 'source': 'MESH:D002229', 'target': 'UniProt:P15428'}, {'key': 'positively regulates', 'source': 'UniProt:P28845', 'target': 'GO:0016491'}, {'key': 'positively regulates', 'source': 'UniProt:P15428', 'target': 'GO:0016616'}, {'key': 'decreases abundance of', 'source': 'GO:0016491', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'GO:0016616', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0070254'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0008283'}, {'key': 'negatively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0001696'}, {'key': 'negatively correlated with', 'source': 'GO:0070254', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002229', 'label': 'Drug', 'name': 'carbenoxolone'}, {'id': 'UniProt:P28845', 'label': 'Protein', 'name': 'Corticosteroid 11-beta-dehydrogenase isozyme 1'}, {'id': 'UniProt:P15428', 'label': 'Protein', 'name': '15-hydroxyprostaglandin dehydrogenase [NAD(+)]'}, {'id': 'GO:0016491', 'label': 'MolecularActivity', 'name': 'oxidoreductase activity'}, {'id': 'GO:0016616', 'label': 'MolecularActivity', 'name': 'oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'mucus secretion'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://gut.bmj.com/content/11/4/344', 'https://www.sciencedirect.com/science/article/abs/pii/0039128X94900914', 'https://scholar.googleusercontent.com/scholar?q=cache:A3Q9QZ97ZyAJ:scholar.google.com/&hl=en&as_sdt=0,5', 'https://www.kegg.jp/entry/D01899', 'http://www.oeso.org/OESO/books/Vol_3_Eso_Mucosa/Articles/ART088.HTML', 'https://europepmc.org/article/MED/30117204', 'https://pubmed.ncbi.nlm.nih.gov/2864318/', 'https://pubmed.ncbi.nlm.nih.gov/780088/', 'https://en.wikipedia.org/wiki/Carbenoxolone', 'https://en.wikipedia.org/wiki/Enoxolone#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB02329#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12523_MESH_D012221_1', 'disease': 'Perennial allergic rhinitis', 'disease_mesh': 'MESH:D012221', 'drug': 'mizolastine', 'drug_mesh': 'MESH:C076170', 'drugbank': 'DB:DB12523'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076170', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D012221'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076170', 'label': 'Drug', 'name': 'mizolastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D012221', 'label': 'Disease', 'name': 'Perennial allergic rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Mizolastine', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_1', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P05093'}, {'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P26439'}, {'key': 'negatively regulates', 'source': 'DB:DB05812', 'target': 'UniProt:P14060'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P05093', 'label': 'Protein', 'name': 'Steroid 17-alpha-hydroxylase/17,20 lyase'}, {'id': 'UniProt:P26439', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 2'}, {'id': 'UniProt:P14060', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 1'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB05812#mechanism-of-action', 'https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://clincancerres.aacrjournals.org/content/19/13/3353']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also inhibits all these cytochrome P450s and can be useful in treating castration-resistant prostate cancers.', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_2', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P15538'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08686'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P05177'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P11712'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08684'}, {'key': 'positively regulates', 'source': 'UniProt:P15538', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P08686', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P05177', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P11712', 'target': 'GO:0008203'}, {'key': 'positively regulates', 'source': 'UniProt:P08684', 'target': 'GO:0008203'}, {'key': 'positively correlated with', 'source': 'GO:0008203', 'target': 'GO:0061370'}, {'key': 'positively correlated with', 'source': 'GO:0061370', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P15538', 'label': 'Protein', 'name': 'Cytochrome P450 11B1, mitochondrial'}, {'id': 'UniProt:P08686', 'label': 'Protein', 'name': 'Steroid 21-hydroxylase'}, {'id': 'UniProt:P05177', 'label': 'Protein', 'name': 'Cytochrome P450 1A2'}, {'id': 'UniProt:P11712', 'label': 'Protein', 'name': 'Cytochrome P450 2C9'}, {'id': 'UniProt:P08684', 'label': 'Protein', 'name': 'Cytochrome P450 3A4'}, {'id': 'GO:0008203', 'label': 'BiologicalProcess', 'name': 'cholesterol metabolic process'}, {'id': 'GO:0061370', 'label': 'BiologicalProcess', 'name': 'testosterone biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/21-Hydroxylase#Function']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also inhibits all these cytochrome P450s and can be useful in treating castration-resistant prostate cancers.', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_3', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P15538'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08686'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P05177'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P11712'}, {'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P08684'}, {'key': 'positively regulates', 'source': 'UniProt:P15538', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P08686', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P05177', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P11712', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P08684', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'GO:0061370'}, {'key': 'positively correlated with', 'source': 'GO:0061370', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P15538', 'label': 'Protein', 'name': 'Cytochrome P450 11B1, mitochondrial'}, {'id': 'UniProt:P08686', 'label': 'Protein', 'name': 'Steroid 21-hydroxylase'}, {'id': 'UniProt:P05177', 'label': 'Protein', 'name': 'Cytochrome P450 1A2'}, {'id': 'UniProt:P11712', 'label': 'Protein', 'name': 'Cytochrome P450 2C9'}, {'id': 'UniProt:P08684', 'label': 'Protein', 'name': 'Cytochrome P450 3A4'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'GO:0061370', 'label': 'BiologicalProcess', 'name': 'testosterone biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/21-Hydroxylase#Function']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'In addition to inhibiting UniProt:P05093 (the main target according to https://go.drugbank.com/drugs/DB05812#mechanism-of-action), abiraterone also acts as a partial antagonist of the androgen receptor (UniProt:P10275).', 'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_4', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069501', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060767'}, {'key': 'positively correlated with', 'source': 'GO:0060767', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C089740'], 'alt_names': ['abiraterone'], 'id': 'MESH:D000069501', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060767', 'label': 'BiologicalProcess', 'name': 'epithelial cell proliferation involved in prostate gland development'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://www.kegg.jp/entry/D09701', 'https://en.wikipedia.org/wiki/Androgen_receptor#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Androgen_deprivation_therapy#Methods_based_on_drugs', 'https://www.kegg.jp/entry/D09701']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'DrugBank has this drug as a beta 1 antagonist but data elsewhere does not seem to support the anatagonism role (e.g. https://www.drugs.com/pro/terbutaline.html#s-34090-1, https://www.ebi.ac.uk/chembldb/index.php/compound/inspect/CHEMBL1760 https://www.genome.jp/dbget-bin/www_bget?cpd:C07129)', 'directed': True, 'graph': {'_id': 'DB00871_MESH_D015352_1', 'disease': 'Tear film insufficiency', 'disease_mesh': 'MESH:D015352', 'drug': 'terbutaline', 'drug_mesh': 'MESH:D013726', 'drugbank': 'DB:DB00871'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P13945'}, {'key': 'positively regulates', 'source': 'MESH:D013726', 'target': 'UniProt:P07550'}, {'key': 'positively correlated with', 'source': 'UniProt:P13945', 'target': 'GO:0050728'}, {'key': 'positively correlated with', 'source': 'UniProt:P07550', 'target': 'GO:0050728'}, {'key': 'negatively correlated with', 'source': 'GO:0050728', 'target': 'MESH:D015352'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013726', 'label': 'Drug', 'name': 'terbutaline'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0050728', 'label': 'BiologicalProcess', 'name': 'negative regulation of inflammatory response'}, {'id': 'MESH:D015352', 'label': 'Disease', 'name': 'Tear film insufficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00871#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5345890/', 'https://europepmc.org/article/MED/23360156']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_5', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'derives into', 'source': 'DB:DB05812', 'target': 'MESH:C000600172'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P05093'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P26439'}, {'key': 'negatively regulates', 'source': 'MESH:C000600172', 'target': 'UniProt:P14060'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'UniProt:P05093', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P26439', 'target': 'GO:0006704'}, {'key': 'positively regulates', 'source': 'UniProt:P14060', 'target': 'GO:0006704'}, {'key': 'positively correlated with', 'source': 'GO:0006704', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'HP:0030088'}, {'key': 'positively correlated with', 'source': 'HP:0030088', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'MESH:C000600172', 'label': 'Drug', 'name': 'delta4-abiraterone'}, {'id': 'UniProt:P05093', 'label': 'Protein', 'name': 'Steroid 17-alpha-hydroxylase/17,20 lyase'}, {'id': 'UniProt:P26439', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 2'}, {'id': 'UniProt:P14060', 'label': 'Protein', 'name': '3 beta-hydroxysteroid dehydrogenase/Delta 5-->4-isomerase type 1'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006704', 'label': 'BiologicalProcess', 'name': 'glucocorticoid biosynthetic process'}, {'id': 'HP:0030088', 'label': 'PhenotypicFeature', 'name': 'Increased serum testosterone level'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://en.wikipedia.org/wiki/%CE%944-Abiraterone', 'https://www.nature.com/articles/nrurol.2016.101', 'https://www.medchemexpress.com/D4-abiraterone.html']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05812_MESH_D011471_6', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'abiraterone acetate', 'drug_mesh': 'MESH:D000069501,MESH:C089740', 'drugbank': 'DB:DB05812'}, 'links': [{'key': 'derives into', 'source': 'DB:DB05812', 'target': 'MESH:C000600172'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:P18405'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:P31213'}, {'key': 'decreases activity of', 'source': 'MESH:C000600172', 'target': 'UniProt:Q9H8P0'}, {'key': 'positively regulates', 'source': 'UniProt:P18405', 'target': 'GO:0033764'}, {'key': 'positively regulates', 'source': 'UniProt:P31213', 'target': 'GO:0033764'}, {'key': 'positively regulates', 'source': 'UniProt:Q9H8P0', 'target': 'GO:0033764'}, {'key': 'produces', 'source': 'GO:0033764', 'target': 'CHEBI:16330'}, {'key': 'positively correlated with', 'source': 'CHEBI:16330', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB05812', 'label': 'Drug', 'name': 'abiraterone acetate'}, {'id': 'MESH:C000600172', 'label': 'Drug', 'name': 'delta4-abiraterone'}, {'id': 'UniProt:P18405', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 1'}, {'id': 'UniProt:P31213', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 2'}, {'id': 'UniProt:Q9H8P0', 'label': 'Protein', 'name': 'Polyprenol reductase'}, {'id': 'GO:0033764', 'label': 'MolecularActivity', 'name': 'steroid dehydrogenase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor'}, {'id': 'CHEBI:16330', 'label': 'ChemicalSubstance', 'name': '17β-hydroxy-5α-androstan-3-one'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://en.wikipedia.org/wiki/Abiraterone_acetate#Pharmacology', 'https://en.wikipedia.org/wiki/%CE%944-Abiraterone', 'https://www.nature.com/articles/nrurol.2016.101', 'https://www.medchemexpress.com/D4-abiraterone.html', 'https://en.wikipedia.org/wiki/Dihydrotestosterone#Biological_function', 'https://en.wikipedia.org/wiki/5%CE%B1-Reductase']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00198_MESH_D007251_1', 'disease': 'Influenza', 'disease_mesh': 'MESH:D007251', 'drug': 'oseltamivir', 'drug_mesh': 'MESH:C535162,MESH:C403132,MESH:D053139', 'drugbank': 'DB:DB00198'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB00198', 'target': 'UniProt:P11485'}, {'key': 'positively regulates', 'source': 'UniProt:P11485', 'target': 'GO:0004308'}, {'key': 'positively correlated with', 'source': 'GO:0004308', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:380985'}, {'key': 'causes', 'source': 'NCBITaxon:380985', 'target': 'MESH:D007251'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00198', 'label': 'Drug', 'name': 'Oseltamivir'}, {'id': 'UniProt:P11485', 'label': 'Protein', 'name': 'Neuraminidase'}, {'id': 'GO:0004308', 'label': 'BiologicalProcess', 'name': 'exo-alpha-sialidase activity'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'viral budding from plasma membrane'}, {'id': 'NCBITaxon:380985', 'label': 'OrganismTaxon', 'name': 'Influenza A virus (A/Chile/1/1983(H1N1))'}, {'id': 'MESH:D007251', 'label': 'Disease', 'name': 'Influenza'}], 'reference': ['https://go.drugbank.com/drugs/DB00198#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oseltamivir#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D016584_1', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D016584', 'label': 'Disease', 'name': 'Panic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Panic_disorder#Medication']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D016584_2', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D016584', 'label': 'Disease', 'name': 'Panic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Panic_disorder#Medication']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_1', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#SSRIs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_2', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#Other_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D000072861_3', 'disease': 'Social phobia', 'disease_mesh': 'MESH:D000072861', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:Q01959'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D000072861'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'MESH:D000072861', 'label': 'Disease', 'name': 'Social phobia'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Social_anxiety_disorder#Neurotransmitters']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00285_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'venlafaxine', 'drug_mesh': 'MESH:D000069470', 'drugbank': 'DB:DB00285'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069470', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069470', 'label': 'Drug', 'name': 'venlafaxine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Venlafaxine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Major_depressive_disorder#Antidepressants']}\n", - 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"['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00543_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'amoxapine', 'drug_mesh': 'MESH:D000657', 'drugbank': 'DB:DB00543'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000657', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000657', 'label': 'Drug', 'name': 'amoxapine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00543#mechanism-of-action', 'https://en.wikipedia.org/wiki/Amoxapine#Pharmacology']}\n", - 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"['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00543_MESH_D003866_2', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'amoxapine', 'drug_mesh': 'MESH:D000657', 'drugbank': 'DB:DB00543'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000657', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0051584'}, {'key': 'positively correlated with', 'source': 'GO:0051584', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000657', 'label': 'Drug', 'name': 'amoxapine'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'GO:0051584', 'label': 'BiologicalProcess', 'name': 'regulation of dopamine uptake involved in synaptic transmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00543#mechanism-of-action', 'https://en.wikipedia.org/wiki/Dopamine_receptor#D1-like_family', 'https://pubmed.ncbi.nlm.nih.gov/9347388/', 'https://pubmed.ncbi.nlm.nih.gov/2698268/', 'https://en.wikipedia.org/wiki/Amineptine#Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12248_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'tulobuterol', 'drug_mesh': 'MESH:C010809', 'drugbank': 'DB:DB12248'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C010809', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'GO:0007190'}, {'key': 'positively regulates', 'source': 'GO:0007190', 'target': 'GO:0006171'}, {'key': 'precedes', 'source': 'GO:0006171', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010809', 'label': 'Drug', 'name': 'tulobuterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0007190', 'label': 'BiologicalProcess', 'name': 'activation of adenylate cyclase activity'}, {'id': 'GO:0006171', 'label': 'BiologicalProcess', 'name': 'cAMP biosynthetic process'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB12248#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/tulobuterol#section=Pharmacology-and-Biochemistry', 'https://www.chemm.nlm.nih.gov/countermeasure_albuterol.htm#eb']}\n", - 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"['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06817_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'raltegravir', 'drug_mesh': 'MESH:D000068898', 'drugbank': 'DB:DB06817'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000068898', 'target': 'UniProt:Q7ZJM1'}, {'key': 'positively regulates', 'source': 'UniProt:Q7ZJM1', 'target': 'GO:0044823'}, {'key': 'in taxon', 'source': 'GO:0044823', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068898', 'label': 'Drug', 'name': 'raltegravir'}, {'id': 'UniProt:Q7ZJM1', 'label': 'Protein', 'name': 'Integrase'}, {'id': 'GO:0044823', 'label': 'MolecularActivity', 'name': 'retroviral integrase activity'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB06817#mechanism-of-action', 'https://en.wikipedia.org/wiki/Raltegravir#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11614_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'rupatadine', 'drug_mesh': 'MESH:C103639', 'drugbank': 'DB:DB11614'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C103639', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C103639', 'target': 'UniProt:P25105'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'UniProt:P25105', 'target': 'GO:0043312'}, {'key': 'participates in', 'source': 'GO:0043117', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'GO:0043312', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C103639', 'label': 'Drug', 'name': 'rupatadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25105', 'label': 'Protein', 'name': 'Platelet-activating factor receptor'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0043312', 'label': 'BiologicalProcess', 'name': 'neutrophil degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB11614#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rupatadine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11614_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'rupatadine', 'drug_mesh': 'MESH:C103639', 'drugbank': 'DB:DB11614'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C103639', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C103639', 'target': 'UniProt:P25105'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'UniProt:P25105', 'target': 'GO:0043312'}, {'key': 'participates in', 'source': 'GO:0043117', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'GO:0043312', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C103639', 'label': 'Drug', 'name': 'rupatadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25105', 'label': 'Protein', 'name': 'Platelet-activating factor receptor'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0043312', 'label': 'BiologicalProcess', 'name': 'neutrophil degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB11614#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rupatadine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08909_MESH_D056806_1', 'disease': 'Disorder of the urea cycle metabolism', 'disease_mesh': 'MESH:D056806', 'drug': 'glycerol phenylbutyrate', 'drug_mesh': 'MESH:C570223', 'drugbank': 'DB:DB08909'}, 'links': [{'key': 'derives into', 'source': 'MESH:C570223', 'target': 'CHEBI:75316'}, {'key': 'derives into', 'source': 'CHEBI:75316', 'target': 'MESH:D010648'}, {'key': 'molecularly interacts with', 'source': 'MESH:D010648', 'target': 'CHEBI:28300'}, {'key': 'produces', 'source': 'CHEBI:28300', 'target': 'CHEBI:17884'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17884', 'target': 'MESH:D056806'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C570223', 'label': 'Drug', 'name': 'glycerol phenylbutyrate'}, {'id': 'CHEBI:75316', 'label': 'ChemicalSubstance', 'name': 'sodium phenylbutyrate'}, {'id': 'MESH:D010648', 'label': 'ChemicalSubstance', 'name': 'Phenylacetates'}, {'id': 'CHEBI:28300', 'label': 'ChemicalSubstance', 'name': 'glutamine'}, {'id': 'CHEBI:17884', 'label': 'ChemicalSubstance', 'name': 'N2-phenylacetyl-L-glutamine'}, {'id': 'MESH:D056806', 'label': 'Disease', 'name': 'Disorder of the urea cycle metabolism'}], 'reference': ['https://go.drugbank.com/drugs/DB08909#mechanism-of-action', 'https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=900e7dc0-9afe-4f50-80de-90567bb78519', 'https://en.wikipedia.org/wiki/Sodium_phenylbutyrate#Pharmacology']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01436_MESH_D007011_1', 'disease': 'Hypoparathyroidism', 'disease_mesh': 'MESH:D007011', 'drug': 'alfacalcidol', 'drug_mesh': 'MESH:C008088', 'drugbank': 'DB:DB01436'}, 'links': [{'key': 'interacts with', 'source': 'MESH:C008088', 'target': 'UniProt:O15528'}, {'key': 'increases abundance of', 'source': 'UniProt:O15528', 'target': 'MESH:D002117'}, {'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'in complex with', 'source': 'UniProt:P11473', 'target': 'UniProt:P19793'}, {'key': 'positively regulates', 'source': 'UniProt:P19793', 'target': 'GO:0050892'}, {'key': 'increases secretion of', 'source': 'GO:0050892', 'target': 'MESH:D002118'}, {'key': 'treats', 'source': 'MESH:D002118', 'target': 'MESH:D007011'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C008088', 'label': 'Drug', 'name': 'alfacalcidol'}, {'id': 'UniProt:O15528', 'label': 'Protein', 'name': '25-hydroxylase'}, {'id': 'MESH:D002117', 'label': 'ChemicalSubstance', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'vitamin D receptor'}, {'id': 'UniProt:P19793', 'label': 'Protein', 'name': 'retinoid-X receptor'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal reabsorption'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'calcium'}, {'id': 'MESH:D007011', 'label': 'Disease', 'name': 'Hypoparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB01436#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13158_MESH_D004485_1', 'disease': 'Eczema', 'disease_mesh': 'MESH:D004485', 'drug': 'clobetasone butyrate', 'drug_mesh': 'MESH:C010893', 'drugbank': 'DB:DB13158'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010893', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'GO:0050900', 'target': 'GO:0042311'}, {'key': 'precedes', 'source': 'GO:0042311', 'target': 'GO:0043116'}, {'key': 'contributes to', 'source': 'GO:0043116', 'target': 'MESH:D004485'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010893', 'label': 'Drug', 'name': 'clobetasone butyrate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Inflammatory process'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocytes migration'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vascular dilation'}, {'id': 'GO:0043116', 'label': 'BiologicalProcess', 'name': 'vascular permeability'}, {'id': 'MESH:D004485', 'label': 'Disease', 'name': 'Eczema'}], 'reference': ['https://go.drugbank.com/drugs/DB13158#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13158_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'clobetasone butyrate', 'drug_mesh': 'MESH:C010893', 'drugbank': 'DB:DB13158'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010893', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0050900'}, {'key': 'negatively regulates', 'source': 'GO:0050900', 'target': 'GO:0042311'}, {'key': 'precedes', 'source': 'GO:0042311', 'target': 'GO:0043116'}, {'key': 'contributes to', 'source': 'GO:0043116', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010893', 'label': 'Drug', 'name': 'clobetasone butyrate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Inflammatory process'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocytes migration'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vascular dilation'}, {'id': 'GO:0043116', 'label': 'BiologicalProcess', 'name': 'vascular permeability'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB13158#mechanismofaction']}\n", - 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"['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04932_MESH_D006504_2', 'disease': 'Veno-occlusive disease of the liver', 'disease_mesh': 'MESH:D006504', 'drug': 'defibrotide', 'drug_mesh': 'MESH:C036901', 'drugbank': 'DB:DB04932'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C036901', 'target': 'MESH:D015232'}, {'key': 'participates in', 'source': 'MESH:D015232', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0001981'}, {'key': 'decreases activity of', 'source': 'UBERON:0001981', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D006504'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036901', 'label': 'Drug', 'name': 'defibrotide'}, {'id': 'MESH:D015232', 'label': 'ChemicalSubstance', 'name': 'prostaglandin E2'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'UBERON:0001981', 'label': 'GrossAnatomicalStructure', 'name': 'blood vessel'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D006504', 'label': 'Disease', 'name': 'Veno-occlusive disease of the liver'}], 'reference': ['https://go.drugbank.com/drugs/DB04932#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04932_MESH_D006504_3', 'disease': 'Veno-occlusive disease of the liver', 'disease_mesh': 'MESH:D006504', 'drug': 'defibrotide', 'drug_mesh': 'MESH:C036901', 'drugbank': 'DB:DB04932'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C036901', 'target': 'UniProt:P00750'}, {'key': 'decreases activity of', 'reference': 'https://pubmed.ncbi.nlm.nih.gov/27928191/', 'source': 'UniProt:P00750', 'target': 'UniProt:P05121'}, {'key': 'participates in', 'source': 'UniProt:P05121', 'target': 'GO:0042730'}, {'key': 'decreases activity of', 'source': 'GO:0042730', 'target': 'GO:0042118'}, {'key': 'located in', 'source': 'GO:0042118', 'target': 'UBERON:0001281'}, {'key': 'location of', 'source': 'UBERON:0001281', 'target': 'GO:0008015'}, {'key': 'treats', 'source': 'GO:0008015', 'target': 'MESH:D006504'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036901', 'label': 'Drug', 'name': 'defibrotide'}, {'id': 'UniProt:P00750', 'label': 'Protein', 'name': 'tissue plasminogen activator'}, {'id': 'UniProt:P05121', 'label': 'Protein', 'name': 'tissue plasminogen activator inhibitor'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'GO:0042118', 'label': 'BiologicalProcess', 'name': 'endothelial activation'}, {'id': 'UBERON:0001281', 'label': 'GrossAnatomicalStructure', 'name': 'sinusoid'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood flow'}, {'id': 'MESH:D006504', 'label': 'Disease', 'name': 'Veno-occlusive disease of the liver'}], 'reference': ['https://go.drugbank.com/drugs/DB04932#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04846_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'celiprolol', 'drug_mesh': 'MESH:D017272', 'drugbank': 'DB:DB04846'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017272', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0045776'}, {'key': 'causes', 'source': 'GO:0045776', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017272', 'label': 'Drug', 'name': 'celiprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04846#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04846_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'celiprolol', 'drug_mesh': 'MESH:D017272', 'drugbank': 'DB:DB04846'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017272', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'regulates', 'source': 'GO:0042311', 'target': 'GO:0002027'}, {'key': 'positively regulates', 'source': 'GO:0002027', 'target': 'GO:0045776'}, {'key': 'treats', 'source': 'GO:0045776', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017272', 'label': 'Drug', 'name': 'celiprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'heart rate'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB04846#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00981_MESH_D005902_1', 'alt_ids': 'MESH:C026718', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'physostigmine', 'drug_mesh': 'MESH:D010830', 'drugbank': 'DB:DB00981'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010830', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'increases activity of', 'source': 'GO:0045202', 'target': 'InterPro:IPR002394'}, {'key': 'treats', 'source': 'InterPro:IPR002394', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010830', 'label': 'Drug', 'name': 'Physostigmine'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'InterPro:IPR002394', 'label': 'GeneFamily', 'name': 'nicotinic acetylcholine receptors'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00981#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00981_MESH_D005902_2', 'alt_ids': 'MESH:C026718', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'physostigmine', 'drug_mesh': 'MESH:D010830', 'drugbank': 'DB:DB00981'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010830', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'increases activity of', 'source': 'GO:0045202', 'target': 'InterPro:IPR000995'}, {'key': 'treats', 'source': 'InterPro:IPR000995', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010830', 'label': 'Drug', 'name': 'Physostigmine'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'muscarinic acetylcholine receptors'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00981#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13001_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'tinoridine', 'drug_mesh': 'MESH:C100290', 'drugbank': 'DB:DB13001'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100290', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'treats', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100290', 'label': 'Drug', 'name': 'tinoridine'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'cyclooxygenase'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'prostaglandin synthesis'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Tinoridine#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01080_MESH_D013036_1', 'disease': 'West syndrome', 'disease_mesh': 'MESH:D013036', 'drug': 'vigabatrin', 'drug_mesh': 'MESH:D020888', 'drugbank': 'DB:DB01080'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020888', 'target': 'UniProt:P80404'}, {'key': 'decreases abundance of', 'source': 'UniProt:P80404', 'target': 'MESH:C009338'}, {'key': 'increases abundance of', 'source': 'MESH:C009338', 'target': 'MESH:D005680'}, {'key': 'located in', 'source': 'MESH:D005680', 'target': 'UBERON:0001017'}, {'key': 'treats', 'source': 'UBERON:0001017', 'target': 'MESH:D013036'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020888', 'label': 'Drug', 'name': 'vigabatrin'}, {'id': 'UniProt:P80404', 'label': 'Protein', 'name': 'GABA transaminase (GABA-T)'}, {'id': 'MESH:C009338', 'label': 'ChemicalSubstance', 'name': 'succinic semialdehyde'}, {'id': 'MESH:D005680', 'label': 'ChemicalSubstance', 'name': 'GABA'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'MESH:D013036', 'label': 'Disease', 'name': 'West syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01080#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D012141_1', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:480'}, {'key': 'causes', 'source': 'NCBITaxon:480', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:480', 'label': 'OrganismTaxon', 'name': 'Moraxella catarrhalis'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00447_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'loracarbef', 'drug_mesh': 'MESH:C054920', 'drugbank': 'DB:DB00447'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C054920', 'target': 'InterPro:IPR005311'}, {'key': 'prevents', 'source': 'InterPro:IPR005311', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054920', 'label': 'Drug', 'name': 'Loracarbef'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'penicillin binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'cross-linking of the peptidoglycan'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB00447#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P01275'}, {'key': 'positively regulates', 'source': 'UniProt:P01275', 'target': 'MESH:D007328'}, {'key': 'located in', 'source': 'MESH:D007328', 'target': 'CL:0000169'}, {'key': 'decreases abundance of', 'source': 'CL:0000169', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'glucagon-like peptide 1'}, {'id': 'MESH:D007328', 'label': 'ChemicalSubstance', 'name': 'insulin'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'pancreatic B-cell'}, {'id': 'MESH:D005947', 'label': 'ChemicalSubstance', 'name': 'glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08882#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_2', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P01275'}, {'key': 'decreases activity of', 'source': 'UniProt:P01275', 'target': 'UniProt:P01275'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01275', 'target': 'MESH:D006003'}, {'key': 'decreases abundance of', 'source': 'MESH:D006003', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'glucagon-like peptide 1'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'glucagon'}, {'id': 'MESH:D006003', 'label': 'ChemicalSubstance', 'name': 'glycogen'}, {'id': 'MESH:D005947', 'label': 'ChemicalSubstance', 'name': 'glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08882#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_3', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P09681'}, {'key': 'increases abundance of', 'source': 'UniProt:P09681', 'target': 'MESH:D007328'}, {'key': 'located in', 'source': 'MESH:D007328', 'target': 'CL:0000169'}, {'key': 'decreases abundance of', 'source': 'CL:0000169', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P09681', 'label': 'Protein', 'name': 'glucose-dependant insulinotropic polypeptide (GIP)'}, {'id': 'MESH:D007328', 'label': 'ChemicalSubstance', 'name': 'insulin'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'pancreatic B-cell'}, {'id': 'MESH:D005947', 'label': 'ChemicalSubstance', 'name': 'glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08882#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_4', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069476', 'target': 'UniProt:P27487'}, {'key': 'increases activity of', 'source': 'UniProt:P27487', 'target': 'UniProt:P09681'}, {'key': 'decreases activity of', 'source': 'UniProt:P09681', 'target': 'UniProt:P01275'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01275', 'target': 'MESH:D006003'}, {'key': 'decreases abundance of', 'source': 'MESH:D006003', 'target': 'MESH:D005947'}, {'key': 'treats', 'source': 'MESH:D005947', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'DPP-4'}, {'id': 'UniProt:P09681', 'label': 'Protein', 'name': 'glucose-dependant insulinotropic polypeptide (GIP)'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'glucagon'}, {'id': 'MESH:D006003', 'label': 'ChemicalSubstance', 'name': 'glycogen'}, {'id': 'MESH:D005947', 'label': 'ChemicalSubstance', 'name': 'glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08882#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08882_MESH_D003924_5', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'linagliptin', 'drug_mesh': 'MESH:D000069476', 'drugbank': 'DB:DB08882'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D000069476', 'target': 'MESH:D006442'}, {'key': 'correlated with', 'source': 'MESH:D006442', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069476', 'label': 'Drug', 'name': 'linagliptin'}, {'id': 'MESH:D006442', 'label': 'ChemicalSubstance', 'name': 'glycosylated hemoglobin'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08882#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00488_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'altretamine', 'drug_mesh': 'MESH:D006585', 'drugbank': 'DB:DB00488'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D006585', 'target': 'InterPro:IPR001128'}, {'key': 'produces', 'source': 'InterPro:IPR001128', 'target': 'MESH:D005557'}, {'key': 'enabled by', 'source': 'MESH:D005557', 'target': 'GO:0070989'}, {'key': 'disrupts', 'source': 'GO:0070989', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006585', 'label': 'Drug', 'name': 'altretamine'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'CYP450 enzymes'}, {'id': 'MESH:D005557', 'label': 'ChemicalSubstance', 'name': 'formaldehyde'}, {'id': 'GO:0070989', 'label': 'MolecularActivity', 'name': 'N-demethylation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cells'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Altretamine#Mechanism']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'MolecularActivity', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00488_MESH_D010051_2', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'altretamine', 'drug_mesh': 'MESH:D006585', 'drugbank': 'DB:DB00488'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D006585', 'target': 'InterPro:IPR001128'}, {'key': 'produces', 'source': 'InterPro:IPR001128', 'target': 'CHEBI:73080'}, {'key': 'enabled by', 'source': 'CHEBI:73080', 'target': 'GO:0070989'}, {'key': 'disrupts', 'source': 'GO:0070989', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006585', 'label': 'Drug', 'name': 'altretamine'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'CYP450 enzymes'}, {'id': 'CHEBI:73080', 'label': 'ChemicalSubstance', 'name': 'carbinolamine'}, {'id': 'GO:0070989', 'label': 'MolecularActivity', 'name': 'N-demethylation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cells'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Altretamine#Mechanism']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'MolecularActivity', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00383_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'oxyphencyclimine', 'drug_mesh': 'MESH:C100201', 'drugbank': 'DB:DB00383'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100201', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100201', 'label': 'Drug', 'name': 'oxyphencyclimine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'gastric acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00383']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00550_MESH_D006980_1', 'disease': 'Hyperthyroidism', 'disease_mesh': 'MESH:D006980', 'drug': 'propylthiouracil', 'drug_mesh': 'MESH:D011441', 'drugbank': 'DB:DB00550'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011441', 'target': 'UniProt:P07202'}, {'key': 'participates in', 'source': 'UniProt:P07202', 'target': 'GO:0006590'}, {'key': 'positively correlated with', 'source': 'GO:0006590', 'target': 'MESH:D006980'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011441', 'label': 'Drug', 'name': 'propylthiouracil'}, {'id': 'UniProt:P07202', 'label': 'Protein', 'name': 'Thyroid peroxidase'}, {'id': 'GO:0006590', 'label': 'BiologicalProcess', 'name': 'thyroid hormone generation'}, {'id': 'MESH:D006980', 'label': 'Disease', 'name': 'Hyperthyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00550']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00550_MESH_D013958_1', 'disease': 'Thyrotoxic crisis', 'disease_mesh': 'MESH:D013958', 'drug': 'propylthiouracil', 'drug_mesh': 'MESH:D011441', 'drugbank': 'DB:DB00550'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011441', 'target': 'UniProt:P07202'}, {'key': 'participates in', 'source': 'UniProt:P07202', 'target': 'GO:0006590'}, {'key': 'positively correlated with', 'source': 'GO:0006590', 'target': 'MESH:D013958'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011441', 'label': 'Drug', 'name': 'propylthiouracil'}, {'id': 'UniProt:P07202', 'label': 'Protein', 'name': 'Thyroid peroxidase'}, {'id': 'GO:0006590', 'label': 'BiologicalProcess', 'name': 'thyroid hormone generation'}, {'id': 'MESH:D013958', 'label': 'Disease', 'name': 'Thyrotoxic crisis'}], 'reference': ['https://go.drugbank.com/drugs/DB00550']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D014277_1', 'disease': 'Trigeminal neuralgia', 'disease_mesh': 'MESH:D014277', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'actively involved in', 'source': 'GO:0050806', 'target': 'GO:1904058'}, {'key': 'causes', 'source': 'GO:1904058', 'target': 'MESH:D014277'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'GO:1904058', 'label': 'BiologicalProcess', 'name': 'positive regulation of sensory perception of pain'}, {'id': 'MESH:D014277', 'label': 'Disease', 'name': 'Trigeminal neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Trigeminal_neuralgia']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D020435_1', 'disease': 'Glossopharyngeal neuralgia', 'disease_mesh': 'MESH:D020435', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'actively involved in', 'source': 'GO:0050806', 'target': 'GO:1904058'}, {'key': 'causes', 'source': 'GO:1904058', 'target': 'MESH:D020435'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'GO:1904058', 'label': 'BiologicalProcess', 'name': 'positive regulation of sensory perception of pain'}, {'id': 'MESH:D020435', 'label': 'Disease', 'name': 'Glossopharyngeal neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Neuralgia']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004828_1', 'disease': 'Simple partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Simple partial seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Focal_seizure']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D012640_1', 'disease': 'Tonic-clonic seizure', 'disease_mesh': 'MESH:D012640', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Tonic-clonic seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Generalized_tonic%E2%80%93clonic_seizure']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00564_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'carbamazepine', 'drug_mesh': 'MESH:D002220', 'drugbank': 'DB:DB00564'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002220', 'target': 'InterPro:IPR001696'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR001696', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002220', 'label': 'Drug', 'name': 'carbamazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'positive regulation of synaptic transmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00564#BE0009738', 'https://en.wikipedia.org/wiki/Epilepsy']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00611_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'butorphanol', 'drug_mesh': 'MESH:D002077', 'drugbank': 'DB:DB00611'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41145'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41143'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P41145', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002077', 'label': 'Drug', 'name': 'butorphanol'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00611#BE0000632', 'https://en.wikipedia.org/wiki/Butorphanol', 'https://pubchem.ncbi.nlm.nih.gov/compound/Butorphanol']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00611_MESH_D048949_1', 'disease': 'Labor pain', 'disease_mesh': 'MESH:D048949', 'drug': 'butorphanol', 'drug_mesh': 'MESH:D002077', 'drugbank': 'DB:DB00611'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41145'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P41143'}, {'key': 'increases activity of', 'source': 'MESH:D002077', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P41145', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D048949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002077', 'label': 'Drug', 'name': 'butorphanol'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D048949', 'label': 'Disease', 'name': 'Labor pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00611#BE0000632', 'https://en.wikipedia.org/wiki/Butorphanol', 'https://pubchem.ncbi.nlm.nih.gov/compound/Butorphanol']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00647_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'dextropropoxyphene', 'drug_mesh': 'MESH:D011431,MESH:C084813', 'drugbank': 'DB:DB00647'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00647', 'target': 'UniProt:P35372'}, {'key': 'increases activity of', 'source': 'DB:DB00647', 'target': 'UniProt:P41143'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-372790'}, {'key': 'positively regulates', 'source': 'UniProt:P41143', 'target': 'REACT:R-HSA-372790'}, {'key': 'decreases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'UniProt:Q14654'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00647', 'label': 'Drug', 'name': 'dextropropoxyphene'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'transmembrane calcium influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00647']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': \"Primaquine's mechanism of action is not well understood\", 'directed': True, 'graph': {'_id': 'DB01087_MESH_D016780_1', 'disease': 'Vivax malaria', 'disease_mesh': 'MESH:D016780', 'drug': 'primaquine', 'drug_mesh': 'MESH:D011319', 'drugbank': 'DB:DB01087'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D011319', 'target': 'GO:0006979'}, {'key': 'negatively regulates', 'source': 'GO:0006979', 'target': 'GO:0042775'}, {'key': 'occurs in', 'source': 'GO:0042775', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011319', 'label': 'Drug', 'name': 'primaquine'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'response to oxidative stress'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'mitochondrial ATP synthesis coupled electron transport'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Vivax malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01087#BE0004805', 'https://en.wikipedia.org/wiki/Primaquine#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01340_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'cilazapril', 'drug_mesh': 'MESH:C045980,MESH:D017315', 'drugbank': 'DB:DB01340'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01340', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01340', 'label': 'Drug', 'name': 'cilazapril'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01340']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06196_MESH_D054179_1', 'disease': 'hereditary angioneurotic edema', 'disease_mesh': 'MESH:D054179', 'drug': 'icatibant', 'drug_mesh': 'MESH:C065679', 'drugbank': 'DB:DB06196'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C065679', 'target': 'UniProt:P30411'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P30411', 'target': 'MESH:D001920'}, {'key': 'contributes to', 'source': 'MESH:D001920', 'target': 'GO:0043117'}, {'key': 'has phenotype', 'source': 'GO:0043117', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D054179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065679', 'label': 'Drug', 'name': 'icatibant'}, {'id': 'UniProt:P30411', 'label': 'Protein', 'name': 'B2 bradykinin receptor'}, {'id': 'MESH:D001920', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'edema'}, {'id': 'MESH:D054179', 'label': 'Disease', 'name': 'hereditary angioneurotic edema'}], 'reference': ['https://go.drugbank.com/drugs/DB06196#BE0003513', 'https://en.wikipedia.org/wiki/Hereditary_angioedema']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06756_MESH_D006712_1', 'disease': 'Homocystinuria', 'disease_mesh': 'MESH:D006712', 'drug': 'betaine', 'drug_mesh': 'MESH:D001622', 'drugbank': 'DB:DB06756'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D001622', 'target': 'MESH:D006710'}, {'key': 'positively correlated with', 'source': 'MESH:D006710', 'target': 'MESH:D006712'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001622', 'label': 'Drug', 'name': 'Betaine'}, {'id': 'MESH:D006710', 'label': 'ChemicalSubstance', 'name': 'Homocysteine'}, {'id': 'MESH:D006712', 'label': 'Disease', 'name': 'Homocystinuria'}], 'reference': ['https://go.drugbank.com/drugs/DB06756']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Betaine is not a standard treatment for cystitis https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5895837/', 'directed': True, 'graph': {'_id': 'DB06756_MESH_D003556_1', 'disease': 'Cystitis', 'disease_mesh': 'MESH:D003556', 'drug': 'Betaine', 'drug_mesh': 'MESH:D001622', 'drugbank': 'DB:DB06756'}, 'links': [{'key': 'contributes to', 'source': 'MESH:D001622', 'target': 'HP:0012072'}, {'key': 'negatively correlated with', 'source': 'HP:0012072', 'target': 'MESH:D001437'}, {'key': 'positively correlated with', 'source': 'MESH:D001437', 'target': 'MESH:D003556'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001622', 'label': 'Drug', 'name': 'Betaine'}, {'id': 'HP:0012072', 'label': 'PhenotypicFeature', 'name': 'Acidic urine'}, {'id': 'MESH:D001437', 'label': 'Disease', 'name': 'Bacteriuria'}, {'id': 'MESH:D003556', 'label': 'Disease', 'name': 'Cystitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06756', 'https://pubmed.ncbi.nlm.nih.gov/31604680/', 'https://www.aafp.org/afp/2011/1201/p1234.html']}\n", - "['Drug', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Effective only for skin itching related to scabies', 'directed': True, 'graph': {'_id': 'DB06770_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'benzyl alcohol', 'drug_mesh': 'MESH:D019905', 'drugbank': 'DB:DB06770'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D019905', 'target': 'NCBITaxon:52283'}, {'key': 'causes', 'source': 'NCBITaxon:52283', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019905', 'label': 'Drug', 'name': 'Benzyl alcohol'}, {'id': 'NCBITaxon:52283', 'label': 'OrganismTaxon', 'name': 'Sarcoptes scabiei'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06770']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09211_MESH_D013919_1', 'disease': 'Thromboangiitis obliterans', 'disease_mesh': 'MESH:D013919', 'drug': 'Limaprost', 'drug_mesh': 'MESH:C525749,MESH:C025090,MESH:C059238', 'drugbank': 'DB:DB09211'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB09211', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'REACT:R-HSA-372790'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-372790', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'MESH:D013919'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB09211', 'label': 'Drug', 'name': 'Limaprost'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'REACT:R-HSA-372790', 'label': 'Pathway', 'name': 'Signaling by GPCR'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D013919', 'label': 'Disease', 'name': 'Thromboangiitis obliterans'}], 'reference': ['https://go.drugbank.com/drugs/DB09211', 'https://en.wikipedia.org/wiki/Thromboangiitis_obliterans']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00241_MESH_D018781_1', 'disease': 'Tension-type headache', 'disease_mesh': 'MESH:D018781', 'drug': 'butalbital', 'drug_mesh': 'MESH:C004470', 'drugbank': 'DB:DB00241'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P14867'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P47869'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P34903'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P48169'}, {'key': 'increases activity of', 'source': 'MESH:C004470', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D018781'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004470', 'label': 'Drug', 'name': 'Butalbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'MESH:D018781', 'label': 'Disease', 'name': 'Tension-type headache'}], 'reference': ['https://go.drugbank.com/drugs/DB00241', 'https://en.wikipedia.org/wiki/Tension_headache']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00740_MESH_D000690_1', 'disease': 'Amyotrophic lateral sclerosis', 'disease_mesh': 'MESH:D000690', 'drug': 'riluzole', 'drug_mesh': 'MESH:D019782', 'drugbank': 'DB:DB00740'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019782', 'target': 'UniProt:Q14524'}, {'key': 'decreases activity of', 'source': 'MESH:D019782', 'target': 'GO:0004972'}, {'key': 'participates in', 'source': 'UniProt:Q14524', 'target': 'GO:0098719'}, {'key': 'positively regulates', 'source': 'GO:0004972', 'target': 'GO:0070509'}, {'key': 'capable of', 'source': 'GO:0098719', 'target': 'GO:0090280'}, {'key': 'contributes to', 'source': 'GO:0090280', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0061535'}, {'key': 'positively regulates', 'source': 'GO:0061535', 'target': 'GO:0004972'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0070997'}, {'key': 'occurs in', 'source': 'GO:0070997', 'target': 'MESH:D000690'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019782', 'label': 'Drug', 'name': 'Riluzole'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'GO:0004972', 'label': 'MolecularActivity', 'name': 'NMDA glutamate receptor activity'}, {'id': 'GO:0098719', 'label': 'BiologicalProcess', 'name': 'Sodium ion import across plasma membrane'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0090280', 'label': 'BiologicalProcess', 'name': 'Positive regulation of calcium ion import'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0070997', 'label': 'BiologicalProcess', 'name': 'Neuronal cell death'}, {'id': 'MESH:D000690', 'label': 'Disease', 'name': 'Amyotrophic lateral sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00740', 'https://pubmed.ncbi.nlm.nih.gov/25939067/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00999_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'hydrochlorothiazide', 'drug_mesh': 'MESH:D006852', 'drugbank': 'DB:DB00999'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006852', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006852', 'label': 'Drug', 'name': 'Hydrochlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00999']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00999_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'hydrochlorothiazide', 'drug_mesh': 'MESH:D006852', 'drugbank': 'DB:DB00999'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006852', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006852', 'label': 'Drug', 'name': 'Hydrochlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00999']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01029_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'irbesartan', 'drug_mesh': 'MESH:C081309', 'drugbank': 'DB:DB01029'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C081309', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081309', 'label': 'Drug', 'name': 'Irbesartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01029#BE0000062']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01029_MESH_D003928_1', 'disease': 'Diabetic Nephropathies', 'disease_mesh': 'MESH:D003928', 'drug': 'irbesartan', 'drug_mesh': 'MESH:C081309', 'drugbank': 'DB:DB01029'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C081309', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D003928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081309', 'label': 'Drug', 'name': 'Irbesartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D003928', 'label': 'Disease', 'name': 'Diabetic Nephropathies'}], 'reference': ['https://go.drugbank.com/drugs/DB01029#BE0000062']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04574_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'estrone sulphate', 'drug_mesh': 'MESH:C009927', 'drugbank': 'DB:DB04574'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C009927', 'target': 'UniProt:P03372'}, {'key': 'positively correlated with', 'source': 'UniProt:P03372', 'target': 'MESH:D004967'}, {'key': 'negatively correlated with', 'source': 'MESH:D004967', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009927', 'label': 'Drug', 'name': 'Estrone sulphate'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'MESH:D004967', 'label': 'ChemicalSubstance', 'name': 'Estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04574']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'comment': None, 'directed': True, 'graph': {'_id': 'DB06616_MESH_D001752_1', 'disease': 'Blastic phase of chronic myeloid leukemia', 'disease_mesh': 'MESH:D001752', 'drug': 'bosutinib', 'drug_mesh': 'MESH:C471992', 'drugbank': 'DB:DB06616'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C471992', 'target': 'UniProt:A9UF02'}, {'key': 'causes', 'source': 'UniProt:A9UF02', 'target': 'MESH:D001752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C471992', 'label': 'Drug', 'name': 'Bosutinib'}, {'id': 'UniProt:A9UF02', 'label': 'Protein', 'name': 'BCR/ABL protein-tyrosine kinase'}, {'id': 'MESH:D001752', 'label': 'Disease', 'name': 'Blastic phase of chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB06616']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001032', 'label': 'Drug', 'name': 'Azapropazone'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB07402', 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=38010']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001032', 'label': 'Drug', 'name': 'Azapropazone'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB07402', 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=38010']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001032', 'label': 'Drug', 'name': 'Azapropazone'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'Gout'}], 'reference': ['https://go.drugbank.com/drugs/DB07402', 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=38010', 'https://en.wikipedia.org/wiki/Gout']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB07402_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'azapropazone', 'drug_mesh': 'MESH:D001032', 'drugbank': 'DB:DB07402'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D001032', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001032', 'label': 'Drug', 'name': 'Azapropazone'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB07402', 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=38010', 'https://en.wikipedia.org/wiki/Osteoarthritis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D005076_1', 'disease': 'Exanthema', 'disease_mesh': 'MESH:D005076', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D005076'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D005076'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D005076', 'label': 'Disease', 'name': 'Exanthema'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D002179_1', 'disease': 'Candidiasis of skin', 'disease_mesh': 'MESH:D002179', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0043303'}, {'key': 'precedes', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'contributes to', 'source': 'GO:0001821', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D011538'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/', 'https://en.wikipedia.org/wiki/Pruritus_ani']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D006484_1', 'disease': 'Hemorrhoids', 'disease_mesh': 'MESH:D006484', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D006484'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D006484'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D006484', 'label': 'Disease', 'name': 'Hemorrhoids'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D003963_1', 'disease': 'Diaper rash', 'disease_mesh': 'MESH:D003963', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D003963'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D003963'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D003963', 'label': 'Disease', 'name': 'Diaper rash'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D011349_1', 'disease': 'Proctitis', 'disease_mesh': 'MESH:D011349', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015034', 'target': 'GO:0061436'}, {'key': 'negatively correlated with', 'source': 'GO:0061436', 'target': 'MESH:D011349'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D011349'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'GO:0061436', 'label': 'BiologicalProcess', 'name': 'Establishment of skin barrier'}, {'id': 'MESH:D011349', 'label': 'Disease', 'name': 'Proctitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4120804/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09321_MESH_D014010_1', 'disease': 'Pityriasis versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'zinc oxide', 'drug_mesh': 'MESH:D015034', 'drugbank': 'DB:DB09321'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D015034', 'target': 'NCBITaxon:4751'}, {'key': 'negatively regulates', 'source': 'MESH:D015034', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014010'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015034', 'label': 'Drug', 'name': 'Zinc oxide'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Pityriasis versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB09321', 'https://pubmed.ncbi.nlm.nih.gov/30299956/']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:1279'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus sp'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D010032_1', 'disease': 'Otitis externa', 'disease_mesh': 'MESH:D010032', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:2'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010032'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010032', 'label': 'Disease', 'name': 'Otitis externa'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00781_MESH_D007634_1', 'disease': 'Keratitis', 'disease_mesh': 'MESH:D007634', 'drug': 'Polymyxin B', 'drug_mesh': 'MESH:D011112', 'drugbank': 'DB:DB00781'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:16412'}, {'key': 'disrupts', 'source': 'MESH:D011112', 'target': 'CHEBI:25051'}, {'key': 'negatively regulates', 'source': 'MESH:D011112', 'target': 'InterPro:IPR005025'}, {'key': 'located in', 'source': 'CHEBI:16412', 'target': 'GO:0009274'}, {'key': 'located in', 'source': 'CHEBI:25051', 'target': 'GO:0009274'}, {'key': 'part of', 'source': 'InterPro:IPR005025', 'target': 'GO:0045272'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:1280'}, {'key': 'in taxon', 'source': 'GO:0045272', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D007634'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011112', 'label': 'Drug', 'name': 'Polymyxin B'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'CHEBI:25051', 'label': 'ChemicalSubstance', 'name': 'Lipid A'}, {'id': 'InterPro:IPR005025', 'label': 'GeneFamily', 'name': 'NADPH-dependent FMN reductase-like'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'GO:0045272', 'label': 'CellularComponent', 'name': 'plasma membrane respiratory chain complex I'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D007634', 'label': 'Disease', 'name': 'Keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00781#mechanism-of-action', 'https://en.wikipedia.org/wiki/Polymyxin_B#Mechanism_of_action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5355641/']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00828_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'fosfomycin', 'drug_mesh': 'MESH:D005578', 'drugbank': 'DB:DB00828'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D005578', 'target': 'UniProt:P0A749'}, {'key': 'positively regulates', 'source': 'UniProt:P0A749', 'target': 'GO:0019277'}, {'key': 'part of', 'source': 'GO:0019277', 'target': 'GO:0009274'}, {'key': 'in taxon', 'source': 'GO:0009274', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005578', 'label': 'Drug', 'name': 'fosfomycin'}, {'id': 'UniProt:P0A749', 'label': 'Protein', 'name': 'UDP-N-acetylglucosamine 1-carboxyvinyltransferase'}, {'id': 'GO:0019277', 'label': 'BiologicalProcess', 'name': 'UDP-N-acetylgalactosamine biosynthetic process'}, {'id': 'GO:0009274', 'label': 'CellularComponent', 'name': 'peptidoglycan-based cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00828#mechanism-of-action', 'https://en.wikipedia.org/wiki/Fosfomycin#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00494_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'entacapone', 'drug_mesh': 'MESH:C071192', 'drugbank': 'DB:DB00494'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C071192', 'target': 'UniProt:P21964'}, {'key': 'positively regulates', 'source': 'UniProt:P21964', 'target': 'GO:0102084'}, {'key': 'decreases abundance of', 'source': 'GO:0102084', 'target': 'CHEBI:15765'}, {'key': 'positively correlated with', 'source': 'CHEBI:15765', 'target': 'GO:0001963'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C071192', 'label': 'Drug', 'name': 'entacapone'}, {'id': 'UniProt:P21964', 'label': 'Protein', 'name': 'Catechol O-methyltransferase'}, {'id': 'GO:0102084', 'label': 'MolecularActivity', 'name': 'L-dopa O-methyltransferase activity'}, {'id': 'CHEBI:15765', 'label': 'ChemicalSubstance', 'name': 'L-dopa'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00494#mechanism-of-action', 'https://en.wikipedia.org/wiki/Entacapone#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D017674_1', 'disease': 'Hypophosphatemia', 'disease_mesh': 'MESH:D017674', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'positively correlated with', 'source': 'GO:0055074', 'target': 'GO:0055062'}, {'key': 'negatively correlated with', 'source': 'GO:0055062', 'target': 'MESH:D017674'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'GO:0055062', 'label': 'BiologicalProcess', 'name': 'phosphate ion homeostasis'}, {'id': 'MESH:D017674', 'label': 'Disease', 'name': 'Hypophosphatemia'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://www.targetvalidation.org/evidence/ENSG00000111424/HP_0002148?view=sec:known_drug', 'https://en.wikipedia.org/wiki/Hypophosphatemia#Causes', 'https://go.drugbank.com/drugs/DB00136#description']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://www.targetvalidation.org/evidence/ENSG00000111424/HP_0002901?view=sec:known_drug', 'https://go.drugbank.com/drugs/DB00136#description', 'https://en.wikipedia.org/wiki/Hypocalcaemia#Management']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D007011_1', 'disease': 'Hypoparathyroidism', 'disease_mesh': 'MESH:D007011', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0004363'}, {'key': 'positively correlated with', 'source': 'HP:0004363', 'target': 'MESH:D007011'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0004363', 'label': 'PhenotypicFeature', 'name': 'Abnormal circulating calcium concentration'}, {'id': 'MESH:D007011', 'label': 'Disease', 'name': 'Hypoparathyroidism'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://en.wikipedia.org/wiki/Hypoparathyroidism#Treatment', 'https://go.drugbank.com/drugs/DB00136#description']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00136_MESH_D012080_1', 'disease': 'Renal osteodystrophy', 'disease_mesh': 'MESH:D012080', 'drug': 'calcitriol', 'drug_mesh': 'MESH:D002117', 'drugbank': 'DB:DB00136'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002117', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0060558'}, {'key': 'positively correlated with', 'source': 'GO:0060558', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0004363'}, {'key': 'positively correlated with', 'source': 'HP:0004363', 'target': 'MESH:D012080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002117', 'label': 'Drug', 'name': 'calcitriol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0060558', 'label': 'BiologicalProcess', 'name': 'regulation of calcidiol 1-monooxygenase activity'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0004363', 'label': 'PhenotypicFeature', 'name': 'Abnormal circulating calcium concentration'}, {'id': 'MESH:D012080', 'label': 'Disease', 'name': 'Renal osteodystrophy'}], 'reference': ['https://en.wikipedia.org/wiki/Calcitriol#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/23713873/', 'https://pubmed.ncbi.nlm.nih.gov/16970258/', 'https://go.drugbank.com/drugs/DB00136#description', 'https://en.wikipedia.org/wiki/Renal_osteodystrophy#Pathogenesis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00165_MESH_D026681_1', 'disease': 'Vitamin B6 deficiency', 'disease_mesh': 'MESH:D026681', 'drug': 'pyridoxine', 'drug_mesh': 'MESH:D011736', 'drugbank': 'DB:DB00165'}, 'links': [{'key': 'interacts with', 'source': 'MESH:D011736', 'target': 'UniProt:O00764'}, {'key': 'positively regulates', 'source': 'UniProt:O00764', 'target': 'GO:0008478'}, {'key': 'positively correlated with', 'source': 'GO:0008478', 'target': 'CHEBI:18405'}, {'key': 'negatively correlated with', 'source': 'CHEBI:18405', 'target': 'MESH:D026681'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011736', 'label': 'Drug', 'name': 'pyridoxine'}, {'id': 'UniProt:O00764', 'label': 'Protein', 'name': 'Pyridoxal kinase'}, {'id': 'GO:0008478', 'label': 'MolecularActivity', 'name': 'pyridoxal kinase activity'}, {'id': 'CHEBI:18405', 'label': 'ChemicalSubstance', 'name': \"pyridoxal 5'-phosphate\"}, {'id': 'MESH:D026681', 'label': 'Disease', 'name': 'Vitamin B6 deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00165#mechanism-of-action', 'https://en.wikipedia.org/wiki/Pyridoxine']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", - "{'comments': 'Setiptiline is considered a weak inhibitor of norepinephrine reuptake but I could not find evidence for this drug modulating the (nore)epinephrine uptake by Q7RTT9 or P23975. These putative mechanism has been observed in vitro/model organisms studies and is on Wikipedia (https://en.wikipedia.org/wiki/Setiptiline#Pharmacodynamics) but not on DrugBank or ChEMBL for example.', 'directed': True, 'graph': {'_id': 'DB09304_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'setiptiline', 'drug_mesh': 'MESH:C050605', 'drugbank': 'DB:DB09304'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P18089'}, {'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'UniProt:P18825'}, {'key': 'correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P18089', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P18825', 'target': 'GO:0061533'}, {'key': 'correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'UniProt:P18089', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'UniProt:P18825', 'target': 'GO:0061529'}, {'key': 'correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'correlated with', 'source': 'GO:0061529', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C050605', 'label': 'Drug', 'name': 'setiptiline'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061529', 'label': 'BiologicalProcess', 'name': 'epinephrine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09304#mechanism-of-action', 'https://drugs.ncats.io/substance/7L38105Z6E#general']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09304_MESH_D003866_2', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'setiptiline', 'drug_mesh': 'MESH:C050605', 'drugbank': 'DB:DB09304'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C050605', 'target': 'InterPro:IPR002231'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002231', 'target': 'GO:0001820'}, {'key': 'precedes', 'source': 'GO:0001820', 'target': 'GO:0099153'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C050605', 'label': 'Drug', 'name': 'setiptiline'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'GO:0001820', 'label': 'BiologicalProcess', 'name': 'serotonin secretion'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09304#mechanism-of-action', 'https://drugs.ncats.io/substance/7L38105Z6E#general']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00411_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'carbachol', 'drug_mesh': 'MESH:D002217', 'drugbank': 'DB:DB00411'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002217', 'target': 'InterPro:IPR000995'}, {'key': 'participates in', 'source': 'InterPro:IPR000995', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0006939'}, {'key': 'correlated with', 'source': 'GO:0006939', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002217', 'label': 'Drug', 'name': 'carbachol'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00411#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2551#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Carbachol#Chemistry_and_pharmacology', 'https://www.kegg.jp/entry/D00524']}\n", - "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00411_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'carbachol', 'drug_mesh': 'MESH:D002217', 'drugbank': 'DB:DB00411'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002217', 'target': 'UniProt:Q15822'}, {'key': 'positively regulates', 'source': 'UniProt:Q15822', 'target': 'GO:0022848'}, {'key': 'located in', 'source': 'GO:0022848', 'target': 'GO:0031594'}, {'key': 'positively correlated with', 'source': 'GO:0031594', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002217', 'label': 'Drug', 'name': 'carbachol'}, {'id': 'UniProt:Q15822', 'label': 'Protein', 'name': 'Neuronal acetylcholine receptor subunit alpha-2'}, {'id': 'GO:0022848', 'label': 'MolecularActivity', 'name': 'acetylcholine-gated cation-selective channel activity'}, {'id': 'GO:0031594', 'label': 'CellularComponent', 'name': 'neuromuscular junction'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00411#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2551#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Carbachol#Chemistry_and_pharmacology', 'https://www.kegg.jp/entry/D00524']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'CellularComponent', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00799_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'tazarotene', 'drug_mesh': 'MESH:C086827', 'drugbank': 'DB:DB00799'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10276'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P28702'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P13631'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10826'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'UniProt:P00533'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D053536'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D053553'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D020782'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'REACT:R-HSA-181438'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'REACT:R-HSA-181438'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-181438', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'UniProt:P00533', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'MESH:D053536', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'MESH:D053553', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'MESH:D020782', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086827', 'label': 'Drug', 'name': 'tazarotene'}, {'id': 'UniProt:P10276', 'label': 'Protein', 'name': 'Retinoic acid receptor alpha'}, {'id': 'UniProt:P10826', 'label': 'Protein', 'name': 'Retinoic acid receptor beta'}, {'id': 'UniProt:P28702', 'label': 'Protein', 'name': 'Retinoic acid receptor RXR-beta'}, {'id': 'UniProt:P13631', 'label': 'Protein', 'name': 'Retinoic acid receptor gamma'}, {'id': 'MESH:D053536', 'label': 'Protein', 'name': 'Keratin-16'}, {'id': 'MESH:D053553', 'label': 'Protein', 'name': 'Keratin-6'}, {'id': 'MESH:D020782', 'label': 'Protein', 'name': 'Matrix Metalloproteinases'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'REACT:R-HSA-181438', 'label': 'Pathway', 'name': 'Toll Like Receptor 2 (TLR2) Cascade'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4043801/#__sec2title', 'https://go.drugbank.com/drugs/DB00799#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/28585191/', 'https://europepmc.org/article/med/32100454']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'MESH:D057705 refers to the movement of leukocytes (the term NCIT:C91439 would have been better suited here but could not be validated)', 'directed': True, 'graph': {'_id': 'DB00799_MESH_D011565_1', 'disease': 'Psoriasis', 'disease_mesh': 'MESH:D011565', 'drug': 'tazarotene', 'drug_mesh': 'MESH:C086827', 'drugbank': 'DB:DB00799'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10276'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P28702'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P13631'}, {'key': 'increases activity of', 'source': 'MESH:C086827', 'target': 'UniProt:P10826'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'GO:0043616'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D057705'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10276', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P28702', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P13631', 'target': 'MESH:D003873'}, {'key': 'negatively correlated with', 'source': 'UniProt:P10826', 'target': 'MESH:D003873'}, {'key': 'positively correlated with', 'source': 'MESH:D057705', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0043616', 'target': 'MESH:D011565'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011565'}, {'key': 'positively correlated with', 'source': 'MESH:D003873', 'target': 'MESH:D011565'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086827', 'label': 'Drug', 'name': 'tazarotene'}, {'id': 'UniProt:P10276', 'label': 'Protein', 'name': 'Retinoic acid receptor alpha'}, {'id': 'UniProt:P10826', 'label': 'Protein', 'name': 'Retinoic acid receptor beta'}, {'id': 'UniProt:P28702', 'label': 'Protein', 'name': 'Retinoic acid receptor RXR-beta'}, {'id': 'UniProt:P13631', 'label': 'Protein', 'name': 'Retinoic acid receptor gamma'}, {'id': 'MESH:D003873', 'label': 'PhenotypicFeature', 'name': 'Dermatitis, Exfoliative'}, {'id': 'GO:0043616', 'label': 'BiologicalProcess', 'name': 'keratinocyte proliferation'}, {'id': 'MESH:D057705', 'label': 'BiologicalProcess', 'name': 'Transendothelial Migration Pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011565', 'label': 'Disease', 'name': 'Psoriasis'}], 'reference': ['https://www.hindawi.com/journals/mi/2018/3067126/', 'https://go.drugbank.com/drugs/DB00799#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'DrugBank has this drug modulating a human target/protein (https://go.drugbank.com/drugs/DB04930#mechanism-of-action) instead of the non-vertebrate proteome. Because humans (and other mammals) share similar ion channels this drug can have some toxic effects on the vertebrate host (e.g. https://pubmed.ncbi.nlm.nih.gov/11812616/)', 'directed': True, 'graph': {'_id': 'DB04930_MESH_D012532_1', 'disease': 'Infestation by Sarcoptes scabiei var hominis', 'disease_mesh': 'MESH:D012532', 'drug': 'permethrin', 'drug_mesh': 'MESH:D026023', 'drugbank': 'DB:DB04930'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D026023', 'target': 'UniProt:Q2VKV7'}, {'key': 'positively regulates', 'source': 'UniProt:Q2VKV7', 'target': 'GO:1902305'}, {'key': 'positively correlated with', 'source': 'GO:1902305', 'target': 'GO:0086009'}, {'key': 'occurs in', 'source': 'GO:0086009', 'target': 'MESH:D001369'}, {'key': 'in taxon', 'source': 'MESH:D001369', 'target': 'NCBITaxon:52283'}, {'key': 'causes', 'source': 'NCBITaxon:52283', 'target': 'MESH:D012532'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D026023', 'label': 'Drug', 'name': 'permethrin'}, {'id': 'UniProt:Q2VKV7', 'label': 'Protein', 'name': 'Sodium channel protein'}, {'id': 'GO:1902305', 'label': 'BiologicalProcess', 'name': 'regulation of sodium ion transmembrane transport'}, {'id': 'GO:0086009', 'label': 'BiologicalProcess', 'name': 'membrane repolarization'}, {'id': 'MESH:D001369', 'label': 'Cell', 'name': 'Axons'}, {'id': 'NCBITaxon:52283', 'label': 'OrganismTaxon', 'name': 'Sarcoptes scabiei'}, {'id': 'MESH:D012532', 'label': 'Disease', 'name': 'Infestation by Sarcoptes scabiei var hominis'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1525/', 'https://dailymed.nlm.nih.gov/dailymed/lookup.cfm?setid=4de55a80-67d6-42c0-a6fc-57b89400c5b3', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL2362985/', 'https://beta.targetvalidation.org/drug/CHEMBL1525', 'https://en.wikipedia.org/wiki/Permethrin#Pharmacokinetics', 'https://en.wikipedia.org/wiki/Pyrethroid#Mode_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'this drug may bind to calmodulin therefore having an anti-neoplasmic effect (https://pubmed.ncbi.nlm.nih.gov/28062709/). For schizophrenia, the dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910. See https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy)', 'directed': True, 'graph': {'_id': 'DB00850_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'perphenazine', 'drug_mesh': 'MESH:D010546', 'drugbank': 'DB:DB00850'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010546', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D010546', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000746'}, {'key': 'manifestation of', 'source': 'HP:0000746', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010546', 'label': 'Drug', 'name': 'perphenazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0000746', 'label': 'PhenotypicFeature', 'name': 'Delusions'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00850#mechanism-of-action', 'https://en.wikipedia.org/wiki/Perphenazine', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06237_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'avanafil', 'drug_mesh': 'MESH:C553414', 'drugbank': 'DB:DB06237'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C553414', 'target': 'UniProt:O76074'}, {'key': 'increases abundance of', 'source': 'UniProt:O76074', 'target': 'MESH:D006152'}, {'key': 'causes', 'source': 'MESH:D006152', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'GO:0044557', 'target': 'GO:0008015'}, {'key': 'located in', 'source': 'GO:0008015', 'target': 'UBERON:0004713'}, {'key': 'participates in', 'source': 'UBERON:0004713', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C553414', 'label': 'Drug', 'name': 'avanafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': 'cGMP'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle relaxation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'blood flow'}, {'id': 'UBERON:0004713', 'label': 'GrossAnatomicalStructure', 'name': 'Corpus cavernosum penis'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB06237#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00878_MESH_D005891_1', 'disease': 'Gingivitis', 'disease_mesh': 'MESH:D005891', 'drug': 'chlorhexidine', 'drug_mesh': 'MESH:D002710', 'drugbank': 'DB:DB00878'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002710', 'target': 'GO:0005886'}, {'key': 'causes', 'source': 'GO:0005886', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D005891'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002710', 'label': 'Drug', 'name': 'chlorhexidine'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'cell membrane'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'bacteria'}, {'id': 'MESH:D005891', 'label': 'Disease', 'name': 'Gingivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00878#mechanismofaction']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00651_MESH_D000080445_1', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'diprophylline', 'drug_mesh': 'MESH:D004400', 'drugbank': 'DB:DB00651'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004400', 'target': 'InterPro:IPR043371'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR043371', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0097366'}, {'key': 'enables', 'source': 'GO:0097366', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'contributes to', 'source': 'UBERON:0002185', 'target': 'GO:0042311'}, {'key': 'correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004400', 'label': 'Drug', 'name': 'diprophylline'}, {'id': 'InterPro:IPR043371', 'label': 'GeneFamily', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4\"}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'bronchodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00651#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00651_MESH_D000080445_2', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'diprophylline', 'drug_mesh': 'MESH:D004400', 'drugbank': 'DB:DB00651'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004400', 'target': 'InterPro:IPR001634'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001634', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0097366'}, {'key': 'enables', 'source': 'GO:0097366', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'contributes to', 'source': 'UBERON:0002185', 'target': 'GO:0042311'}, {'key': 'correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004400', 'label': 'Drug', 'name': 'diprophylline'}, {'id': 'InterPro:IPR001634', 'label': 'GeneFamily', 'name': 'adenosine receptors'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'bronchodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00651#mechanismofaction']}\n", - 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"['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11750_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'clobetasol propionate', 'drug_mesh': 'MESH:D002990', 'drugbank': 'DB:DB11750'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002990', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'InterPro:IPR001211'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR001211', 'target': 'MESH:D016718'}, {'key': 'negatively regulates', 'source': 'MESH:D016718', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002990', 'label': 'Drug', 'name': 'clobetasol propionate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'MESH:D016718', 'label': 'ChemicalSubstance', 'name': 'arachidonic acid'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory process'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB11750#mechanismofaction']}\n", - 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"['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11750_MESH_D012536_1', 'disease': 'Dermatosis of scalp', 'disease_mesh': 'MESH:D012536', 'drug': 'clobetasol propionate', 'drug_mesh': 'MESH:D002990', 'drugbank': 'DB:DB11750'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002990', 'target': 'UniProt:P04150'}, {'key': 'decreases activity of', 'source': 'UniProt:P04150', 'target': 'InterPro:IPR001211'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR001211', 'target': 'MESH:D016718'}, {'key': 'negatively regulates', 'source': 'MESH:D016718', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012536'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002990', 'label': 'Drug', 'name': 'clobetasol propionate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'MESH:D016718', 'label': 'ChemicalSubstance', 'name': 'arachidonic acid'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory process'}, {'id': 'MESH:D012536', 'label': 'Disease', 'name': 'Dermatosis of scalp'}], 'reference': ['https://go.drugbank.com/drugs/DB11750#mechanismofaction']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11750_MESH_D012536_2', 'disease': 'Dermatosis of scalp', 'disease_mesh': 'MESH:D012536', 'drug': 'clobetasol propionate', 'drug_mesh': 'MESH:D002990', 'drugbank': 'DB:DB11750'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002990', 'target': 'MESH:D016753'}, {'key': 'decreases activity of', 'source': 'MESH:D016753', 'target': 'InterPro:IPR000451'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR000451', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012536'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002990', 'label': 'Drug', 'name': 'clobetasol propionate'}, {'id': 'MESH:D016753', 'label': 'ChemicalSubstance', 'name': 'interleukin-10'}, {'id': 'InterPro:IPR000451', 'label': 'GeneFamily', 'name': 'NF-Kappa B'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory process'}, {'id': 'MESH:D012536', 'label': 'Disease', 'name': 'Dermatosis of scalp'}], 'reference': ['https://go.drugbank.com/drugs/DB11750#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08865_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'crizotinib', 'drug_mesh': 'MESH:C551994', 'drugbank': 'DB:DB08865'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C551994', 'target': 'UniProt:Q9UM73'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9UM73', 'target': 'GO:0008283'}, {'key': 'contributes to', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551994', 'label': 'Drug', 'name': 'crizotinib'}, {'id': 'UniProt:Q9UM73', 'label': 'Protein', 'name': 'anaplastic lymphoma kinase (ALK)'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'proliferation of cells'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB08865#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08865_MESH_D002289_2', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'crizotinib', 'drug_mesh': 'MESH:C551994', 'drugbank': 'DB:DB08865'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C551994', 'target': 'UniProt:Q04912'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04912', 'target': 'GO:0008283'}, {'key': 'contributes to', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551994', 'label': 'Drug', 'name': 'crizotinib'}, {'id': 'UniProt:Q04912', 'label': 'Protein', 'name': \"Recepteur d'Origine Nantais (RON)\"}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'proliferation of cells'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB08865#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08865_MESH_D002289_3', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'crizotinib', 'drug_mesh': 'MESH:C551994', 'drugbank': 'DB:DB08865'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C551994', 'target': 'UniProt:P08581'}, {'key': 'negatively regulates', 'source': 'UniProt:P08581', 'target': 'GO:0008283'}, {'key': 'contributes to', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551994', 'label': 'Drug', 'name': 'crizotinib'}, {'id': 'UniProt:P08581', 'label': 'Protein', 'name': 'hepatocyte growth factor receptor (HGFR)'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'proliferation of cells'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB08865#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D011618_2', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P14416'}, {'key': 'located in', 'source': 'UniProt:P14416', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'psychotic disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D011618_3', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P11229'}, {'key': 'located in', 'source': 'UniProt:P11229', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'psychotic disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D011618_4', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P08172'}, {'key': 'located in', 'source': 'UniProt:P08172', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'psychotic disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D011618_5', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P41595'}, {'key': 'located in', 'source': 'UniProt:P41595', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P41595', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2B'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'psychotic disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D014839_1', 'disease': 'Vomiting', 'disease_mesh': 'MESH:D014839', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P14416'}, {'key': 'located in', 'source': 'UniProt:P14416', 'target': 'UBERON:0002162'}, {'key': 'negatively regulates', 'source': 'UBERON:0002162', 'target': 'UBERON:0001759'}, {'key': 'located in', 'source': 'UBERON:0001759', 'target': 'UBERON:0004908'}, {'key': 'prevents', 'source': 'UBERON:0004908', 'target': 'MESH:D014839'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'UBERON:0002162', 'label': 'GrossAnatomicalStructure', 'name': 'chemoreceptor trigger zone'}, {'id': 'UBERON:0001759', 'label': 'GrossAnatomicalStructure', 'name': 'vagus nerve'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'MESH:D014839', 'label': 'Disease', 'name': 'Vomitting'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D014839_2', 'disease': 'Vomiting', 'disease_mesh': 'MESH:D014839', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P11229'}, {'key': 'located in', 'source': 'UniProt:P11229', 'target': 'UBERON:0004908'}, {'key': 'decreases activity of', 'source': 'UBERON:0004908', 'target': 'GO:0001696'}, {'key': 'correlated with', 'source': 'GO:0001696', 'target': 'MESH:D014839'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D014839', 'label': 'Disease', 'name': 'Vomitting'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D014839_4', 'disease': 'Vomiting', 'disease_mesh': 'MESH:D014839', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P41595'}, {'key': 'located in', 'reference': 'DOI:10.3978/j.issn.2224-5820.2012.07.07', 'source': 'UniProt:P41595', 'target': 'UBERON:0002162'}, {'key': 'negatively regulates', 'source': 'UBERON:0002162', 'target': 'UBERON:0001759'}, {'key': 'located in', 'source': 'UBERON:0001759', 'target': 'UBERON:0004908'}, {'key': 'prevents', 'source': 'UBERON:0004908', 'target': 'MESH:D014839'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P41595', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2B'}, {'id': 'UBERON:0002162', 'label': 'GrossAnatomicalStructure', 'name': 'chemoreceptor trigger zone'}, {'id': 'UBERON:0001759', 'label': 'GrossAnatomicalStructure', 'name': 'vagus nerve'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'MESH:D014839', 'label': 'Disease', 'name': 'Vomitting'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - 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"['Drug', 'Protein', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D009325_2', 'disease': 'Nausea', 'disease_mesh': 'MESH:D009325', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P11229'}, {'key': 'located in', 'source': 'UniProt:P11229', 'target': 'UBERON:0004908'}, {'key': 'decreases activity of', 'source': 'UBERON:0004908', 'target': 'GO:0001696'}, {'key': 'correlated with', 'source': 'GO:0001696', 'target': 'MESH:D009325'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D009325', 'label': 'Disease', 'name': 'Nausea'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D009325_3', 'disease': 'Nausea', 'disease_mesh': 'MESH:D009325', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P08172'}, {'key': 'located in', 'source': 'UniProt:P08172', 'target': 'UBERON:0004908'}, {'key': 'decreases activity of', 'source': 'UBERON:0004908', 'target': 'GO:0001696'}, {'key': 'correlated with', 'source': 'GO:0001696', 'target': 'MESH:D009325'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D009325', 'label': 'Disease', 'name': 'Nausea'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00508_MESH_D009325_4', 'disease': 'Nausea', 'disease_mesh': 'MESH:D009325', 'drug': 'triflupromazine', 'drug_mesh': 'MESH:D014273', 'drugbank': 'DB:DB00508'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014273', 'target': 'UniProt:P41595'}, {'key': 'located in', 'reference': 'DOI:10.3978/j.issn.2224-5820.2012.07.07', 'source': 'UniProt:P41595', 'target': 'UBERON:0002162'}, {'key': 'negatively regulates', 'source': 'UBERON:0002162', 'target': 'UBERON:0001759'}, {'key': 'located in', 'source': 'UBERON:0001759', 'target': 'UBERON:0004908'}, {'key': 'prevents', 'source': 'UBERON:0004908', 'target': 'MESH:D009325'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014273', 'label': 'Drug', 'name': 'triflupromazine'}, {'id': 'UniProt:P41595', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2B'}, {'id': 'UBERON:0002162', 'label': 'GrossAnatomicalStructure', 'name': 'chemoreceptor trigger zone'}, {'id': 'UBERON:0001759', 'label': 'GrossAnatomicalStructure', 'name': 'vagus nerve'}, {'id': 'UBERON:0004908', 'label': 'GrossAnatomicalStructure', 'name': 'gastrointestinal tract'}, {'id': 'MESH:D009325', 'label': 'Disease', 'name': 'Nausea'}], 'reference': ['https://go.drugbank.com/drugs/DB00508#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00404_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'alprazolam', 'drug_mesh': 'MESH:D000525', 'drugbank': 'DB:DB00404'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000525', 'target': 'InterPro:IPR006028'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR006028', 'target': 'MESH:D005680'}, {'key': 'decreases activity of', 'source': 'MESH:D005680', 'target': 'UBERON:0004092'}, {'key': 'positively regulates', 'source': 'UBERON:0004092', 'target': 'GO:0060081'}, {'key': 'decreases activity of', 'source': 'GO:0060081', 'target': 'GO:0001508'}, {'key': 'actively involved in', 'source': 'GO:0001508', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000525', 'label': 'Drug', 'name': 'Alprazolam'}, {'id': 'InterPro:IPR006028', 'label': 'GeneFamily', 'name': 'GABA-A receptor'}, {'id': 'MESH:D005680', 'label': 'ChemicalSubstance', 'name': 'GABA'}, {'id': 'UBERON:0004092', 'label': 'GrossAnatomicalStructure', 'name': 'hypothalamic-pituitary-adrenal axis'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'neuronal hyperpolarization'}, {'id': 'GO:0001508', 'label': 'BiologicalProcess', 'name': 'action potential'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00404#mechanismofaction', 'https://en.wikipedia.org/wiki/Alprazolam']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00404_MESH_D016584_1', 'disease': 'Panic disorder', 'disease_mesh': 'MESH:D016584', 'drug': 'alprazolam', 'drug_mesh': 'MESH:D000525', 'drugbank': 'DB:DB00404'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000525', 'target': 'InterPro:IPR006028'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR006028', 'target': 'MESH:D005680'}, {'key': 'decreases activity of', 'source': 'MESH:D005680', 'target': 'UBERON:0004092'}, {'key': 'positively regulates', 'source': 'UBERON:0004092', 'target': 'GO:0060081'}, {'key': 'decreases activity of', 'source': 'GO:0060081', 'target': 'GO:0001508'}, {'key': 'actively involved in', 'source': 'GO:0001508', 'target': 'MESH:D016584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000525', 'label': 'Drug', 'name': 'Alprazolam'}, {'id': 'InterPro:IPR006028', 'label': 'GeneFamily', 'name': 'GABA-A receptor'}, {'id': 'MESH:D005680', 'label': 'ChemicalSubstance', 'name': 'GABA'}, {'id': 'UBERON:0004092', 'label': 'GrossAnatomicalStructure', 'name': 'hypothalamic-pituitary-adrenal axis'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'neuronal hyperpolarization'}, {'id': 'GO:0001508', 'label': 'BiologicalProcess', 'name': 'action potential'}, {'id': 'MESH:D016584', 'label': 'Disease', 'name': 'Panic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00404#mechanismofaction', 'https://en.wikipedia.org/wiki/Alprazolam']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00921_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Buprenorphine', 'drug_mesh': 'MESH:D002047', 'drugbank': 'DB:DB00921'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002047', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR013673'}, {'key': 'decreases abundance of', 'reference': 'PMID:31994020', 'source': 'InterPro:IPR013673', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'decreases activity of', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'ameliorates', 'source': 'GO:0060081', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002047', 'label': 'Drug', 'name': 'Buprenorphine'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-opioid receptor'}, {'id': 'InterPro:IPR013673', 'label': 'GeneFamily', 'name': 'G-protein–gated potassium channel'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00921#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7203271/']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00921_MESH_D059350_2', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Buprenorphine', 'drug_mesh': 'MESH:D002047', 'drugbank': 'DB:DB00921'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002047', 'target': 'UniProt:P41145'}, {'key': 'decreases response to', 'source': 'UniProt:P41145', 'target': 'HP:0000716'}, {'key': 'positively regulates', 'source': 'HP:0000716', 'target': 'GO:0048266'}, {'key': 'ameliorates', 'source': 'GO:0048266', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002047', 'label': 'Drug', 'name': 'Buprenorphine'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-opioid receptor'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'GO:0048266', 'label': 'BiologicalProcess', 'name': 'analgesic effects'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00921#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7203271/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00921_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'Buprenorphine', 'drug_mesh': 'MESH:D002047', 'drugbank': 'DB:DB00921'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002047', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR013673'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR013673', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'decreases activity of', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'decreases response to', 'source': 'GO:0060081', 'target': 'HP:0033515'}, {'key': 'ameliorates', 'source': 'HP:0033515', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002047', 'label': 'Drug', 'name': 'Buprenorphine'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-opioid receptor'}, {'id': 'InterPro:IPR013673', 'label': 'GeneFamily', 'name': 'G-protein–gated potassium channel'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'HP:0033515', 'label': 'BiologicalProcess', 'name': 'opioid addiction'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB00921#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7203271/']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00921_MESH_D009293_2', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'Buprenorphine', 'drug_mesh': 'MESH:D002047', 'drugbank': 'DB:DB00921'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002047', 'target': 'UniProt:P41145'}, {'key': 'decreases response to', 'source': 'UniProt:P41145', 'target': 'HP:0000716'}, {'key': 'caused by', 'source': 'HP:0000716', 'target': 'HP:0033515'}, {'key': 'ameliorates', 'source': 'HP:0033515', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002047', 'label': 'Drug', 'name': 'Buprenorphine'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-opioid receptor'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'HP:0033515', 'label': 'BiologicalProcess', 'name': 'opioid addiction'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB00921#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7203271/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08998_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Demexiptiline', 'drug_mesh': 'MESH:C033781', 'drugbank': 'DB:DB08998'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C033781', 'target': 'GO:0051620'}, {'key': 'prevents', 'source': 'GO:0051620', 'target': 'HP:0000716'}, {'key': 'correlated with', 'source': 'HP:0000716', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C033781', 'label': 'Drug', 'name': 'Demexiptiline'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine reuptake'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'depression'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08998#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D006660_1', 'disease': 'Histoplasmosis', 'disease_mesh': 'MESH:D006660', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:5037'}, {'key': 'causes', 'source': 'NCBITaxon:5037', 'target': 'MESH:D006660'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:5037', 'label': 'OrganismTaxon', 'name': 'Histoplasma capsulatum'}, {'id': 'MESH:D006660', 'label': 'Disease', 'name': 'Histoplasmosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D001759_1', 'disease': 'Blastomycosis', 'disease_mesh': 'MESH:D001759', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:5039'}, {'key': 'causes', 'source': 'NCBITaxon:5039', 'target': 'MESH:D001759'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:5039', 'label': 'OrganismTaxon', 'name': 'Blastomyces dermatitidis'}, {'id': 'MESH:D001759', 'label': 'Disease', 'name': 'Blastomycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D055744_1', 'disease': 'Invasive pulmonary aspergillosis', 'disease_mesh': 'MESH:D055744', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D055744'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus spp'}, {'id': 'MESH:D055744', 'label': 'Disease', 'name': 'Invasive pulmonary aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D060585_1', 'disease': 'Fusarium infection', 'disease_mesh': 'MESH:D060585', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:5506'}, {'key': 'causes', 'source': 'NCBITaxon:5506', 'target': 'MESH:D060585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:5506', 'label': 'OrganismTaxon', 'name': 'Fusarium'}, {'id': 'MESH:D060585', 'label': 'Disease', 'name': 'Fusarium infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D058387_1', 'disease': 'Candidemia', 'disease_mesh': 'MESH:D058387', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1535326'}, {'key': 'causes', 'source': 'NCBITaxon:1535326', 'target': 'MESH:D058387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:1535326', 'label': 'OrganismTaxon', 'name': 'Candida spp'}, {'id': 'MESH:D058387', 'label': 'Disease', 'name': 'Candidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01167_MESH_D001228_1', 'disease': 'Aspergillosis', 'disease_mesh': 'MESH:D001228', 'drug': 'Itraconazole', 'drug_mesh': 'MESH:D017964', 'drugbank': 'DB:DB01167'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017964', 'target': 'UniProt:Q16850'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q16850', 'target': 'MESH:D004875'}, {'key': 'affects synthesis of', 'source': 'MESH:D004875', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D001228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017964', 'label': 'Drug', 'name': 'Itraconazole'}, {'id': 'UniProt:Q16850', 'label': 'Protein', 'name': 'cytochrome P450 14α-demethylase'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'cell wall'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus spp'}, {'id': 'MESH:D001228', 'label': 'Disease', 'name': 'Aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01167#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068577', 'target': 'UniProt:P08588'}, {'key': 'located in', 'source': 'UniProt:P08588', 'target': 'UBERON:0002303'}, {'key': 'decreases abundance of', 'source': 'UBERON:0002303', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0061337'}, {'key': 'regulates', 'source': 'GO:0061337', 'target': 'GO:0008217'}, {'key': 'prevents', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'beta-1 adrenergic receptor'}, {'id': 'UBERON:0002303', 'label': 'GrossAnatomicalStructure', 'name': 'juxtaglomerular apparatus'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'renin'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_2', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068577', 'target': 'MESH:D000450'}, {'key': 'regulates', 'source': 'MESH:D000450', 'target': 'GO:0002017'}, {'key': 'decreases abundance of', 'source': 'GO:0002017', 'target': 'UniProt:P00797'}, {'key': 'negatively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'GO:0061337'}, {'key': 'prevents', 'source': 'GO:0061337', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0002017', 'label': 'BiologicalProcess', 'name': 'blood volume'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04861_MESH_D006973_3', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nebivolol', 'drug_mesh': 'MESH:D000068577', 'drugbank': 'DB:DB04861'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068577', 'target': 'UniProt:P13945'}, {'key': 'positively regulates', 'source': 'UniProt:P13945', 'target': 'UniProt:P29474'}, {'key': 'increases abundance of', 'source': 'UniProt:P29474', 'target': 'MESH:D009569'}, {'key': 'causes', 'source': 'MESH:D009569', 'target': 'GO:0060087'}, {'key': 'enables', 'source': 'GO:0060087', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0061337'}, {'key': 'prevents', 'source': 'GO:0061337', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068577', 'label': 'Drug', 'name': 'Nebivolol'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'beta-3 adrenergic receptor'}, {'id': 'UniProt:P29474', 'label': 'Protein', 'name': 'endothelial nitric oxide synthase'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'vascular smooth muscle relaxation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac output'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04861#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nebivolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01113_MESH_D016491_1', 'disease': 'Peripheral vascular disease', 'disease_mesh': 'MESH:D016491', 'drug': 'Papaverine', 'drug_mesh': 'MESH:D010208', 'drugbank': 'DB:DB01113'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010208', 'target': 'UniProt:Q07343'}, {'key': 'increases abundance of', 'source': 'UniProt:Q07343', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0005262'}, {'key': 'located in', 'source': 'GO:0005262', 'target': 'UBERON:0001133'}, {'key': 'causes', 'source': 'UBERON:0001133', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0042311', 'target': 'GO:0044557'}, {'key': 'prevents', 'source': 'GO:0044557', 'target': 'MESH:D016491'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010208', 'label': 'Drug', 'name': 'Papaverine'}, {'id': 'UniProt:Q07343', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4B\"}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0005262', 'label': 'BiologicalProcess', 'name': 'calcium channel activity'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'smooth muscle'}, {'id': 'MESH:D016491', 'label': 'Disease', 'name': 'Peripheral vascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01113#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'positively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0032869'}, {'key': 'increases response to', 'source': 'GO:0032869', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'peroxisome proliferator-activated receptor-gamma'}, {'id': 'GO:0032869', 'label': 'BiologicalProcess', 'name': 'tissue sensitivity to insulin'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'uptake of blood glucose'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01132#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_2', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'negatively regulates', 'source': 'UniProt:P37231', 'target': 'REACT:R-HSA-70263'}, {'key': 'increases response to', 'source': 'REACT:R-HSA-70263', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'peroxisome proliferator-activated receptor-gamma'}, {'id': 'REACT:R-HSA-70263', 'label': 'Pathway', 'name': 'gluconeogenesis'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'uptake of blood glucose'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01132#mechanismofaction']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01132_MESH_D003924_3', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Pioglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB01132'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01132', 'target': 'UniProt:P37231'}, {'key': 'positively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0032869'}, {'key': 'increases response to', 'source': 'GO:0032869', 'target': 'GO:0001951'}, {'key': 'decreases abundance of', 'source': 'GO:0001951', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01132', 'label': 'Drug', 'name': 'Pioglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'peroxisome proliferator-activated receptor-gamma'}, {'id': 'GO:0032869', 'label': 'BiologicalProcess', 'name': 'tissue sensitivity to insulin'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'uptake of blood glucose'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'glycated hemoglobin'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01132#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00489_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Sotalol', 'drug_mesh': 'MESH:D013015', 'drugbank': 'DB:DB00489'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013015', 'target': 'UniProt:P08588'}, {'key': 'located in', 'source': 'UniProt:P08588', 'target': 'UBERON:0002349'}, {'key': 'negatively regulates', 'source': 'UBERON:0002349', 'target': 'GO:1902608'}, {'key': 'decreases abundance of', 'source': 'GO:1902608', 'target': 'MESH:D002118'}, {'key': 'negatively regulates', 'source': 'MESH:D002118', 'target': 'GO:0015276'}, {'key': 'caused by', 'source': 'GO:0015276', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013015', 'label': 'Drug', 'name': 'Sotalol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UBERON:0002349', 'label': 'GrossAnatomicalStructure', 'name': 'myocardium'}, {'id': 'GO:1902608', 'label': 'BiologicalProcess', 'name': 'activation of calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'intracellular calcium'}, {'id': 'GO:0015276', 'label': 'BiologicalProcess', 'name': 'ionotropic effect'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00489#mechanismofaction', 'https://en.wikipedia.org/wiki/Sotalol#:~:text=Sotalol%2C%20sold%20under%20the%20brand,to%20potentially%20serious%20side%20effects']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00489_MESH_D001281_2', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Sotalol', 'drug_mesh': 'MESH:D013015', 'drugbank': 'DB:DB00489'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013015', 'target': 'UniProt:Q12809'}, {'key': 'negatively regulates', 'source': 'UniProt:Q12809', 'target': 'GO:0086009'}, {'key': 'affects activity of', 'source': 'GO:0086009', 'target': 'GO:0060047'}, {'key': 'negatively regulates', 'source': 'GO:0060047', 'target': 'GO:0015276'}, {'key': 'caused by', 'source': 'GO:0015276', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013015', 'label': 'Drug', 'name': 'Sotalol'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily H member 2'}, {'id': 'GO:0086009', 'label': 'BiologicalProcess', 'name': 'repolarization'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'relaxation of the ventricles'}, {'id': 'GO:0015276', 'label': 'BiologicalProcess', 'name': 'ionotropic effect'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00489#mechanismofaction', 'https://en.wikipedia.org/wiki/Sotalol#:~:text=Sotalol%2C%20sold%20under%20the%20brand,to%20potentially%20serious%20side%20effects']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00708_MESH_D010149_1', 'disease': 'Postoperative pain', 'disease_mesh': 'MESH:D010149', 'drug': 'Sufentanil', 'drug_mesh': 'MESH:D017409', 'drugbank': 'DB:DB00708'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D017409', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR030672'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'disrupts', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'precedes', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'ameliorates', 'source': 'GO:0060081', 'target': 'MESH:D010149'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017409', 'label': 'Drug', 'name': 'Sufentanil'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'μ-opioid receptors'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'intracellular cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D010149', 'label': 'Disease', 'name': 'Postoperative pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00708#mechanismofaction']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00775_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'Tirofiban', 'drug_mesh': None, 'drugbank': 'DB:DB00775'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00775', 'target': 'PR:000028445'}, {'key': 'negatively regulates', 'source': 'PR:000028445', 'target': 'InterPro:IPR030672'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00775', 'label': 'Drug', 'name': 'Tirofiban'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'platelet glycoprotein (GP) IIb/IIIa receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cyclic AMP'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00775#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00385_MESH_D001749_1', 'disease': 'Malignant tumor of urinary bladder', 'disease_mesh': 'MESH:D001749', 'drug': 'Valrubicin', 'drug_mesh': 'MESH:C016163', 'drugbank': 'DB:DB00385'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C016163', 'target': 'UniProt:P11388'}, {'key': 'causes', 'source': 'UniProt:P11388', 'target': 'GO:0031052'}, {'key': 'negatively regulates', 'source': 'GO:0031052', 'target': 'GO:0006412'}, {'key': 'disrupts', 'source': 'GO:0006412', 'target': 'GO:0051319'}, {'key': 'in pathway with', 'source': 'GO:0051319', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D001749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016163', 'label': 'Drug', 'name': 'Valrubicin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0031052', 'label': 'BiologicalProcess', 'name': 'chromosomal damage'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'GO:0051319', 'label': 'BiologicalProcess', 'name': 'G2 phase'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'cell cycle'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D001749', 'label': 'Disease', 'name': 'Malignant tumor of urinary bladder'}], 'reference': ['https://go.drugbank.com/drugs/DB00385#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Valrubicin']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00385_MESH_D001749_2', 'disease': 'Malignant tumor of urinary bladder', 'disease_mesh': 'MESH:D001749', 'drug': 'Valrubicin', 'drug_mesh': 'MESH:C016163', 'drugbank': 'DB:DB00385'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C016163', 'target': 'InterPro:IPR017892'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR017892', 'target': 'GO:0006351'}, {'key': 'located in', 'source': 'GO:0006351', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D001749'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016163', 'label': 'Drug', 'name': 'Valrubicin'}, {'id': 'InterPro:IPR017892', 'label': 'GeneFamily', 'name': 'protein kinase C'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'transcription'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D001749', 'label': 'Disease', 'name': 'Malignant tumor of urinary bladder'}], 'reference': ['https://go.drugbank.com/drugs/DB00385#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Valrubicin']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D001714_4', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'UniProt:P29966'}, {'key': 'negatively regulates', 'source': 'UniProt:P29966', 'target': 'UniProt:P17252'}, {'key': 'contributes to', 'source': 'UniProt:P17252', 'target': 'GO:0051823'}, {'key': 'located in', 'source': 'GO:0051823', 'target': 'UBERON:0001870'}, {'key': 'correlated with', 'source': 'UBERON:0001870', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:P17252', 'label': 'Protein', 'name': 'protein kinase C (PKC)-α'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D001714_5', 'disease': 'Bipolar disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014635', 'target': 'UniProt:P29966'}, {'key': 'negatively regulates', 'source': 'UniProt:P29966', 'target': 'UniProt:Q02156'}, {'key': 'contributes to', 'source': 'UniProt:Q02156', 'target': 'GO:0051823'}, {'key': 'located in', 'source': 'GO:0051823', 'target': 'UBERON:0001870'}, {'key': 'correlated with', 'source': 'UBERON:0001870', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:P29966', 'label': 'Protein', 'name': 'Myristoylated alanine-rich C kinase substrate'}, {'id': 'UniProt:Q02156', 'label': 'Protein', 'name': 'protein kinase C (PKC)-ε'}, {'id': 'GO:0051823', 'label': 'BiologicalProcess', 'name': 'synaptic remodeling'}, {'id': 'UBERON:0001870', 'label': 'GrossAnatomicalStructure', 'name': 'frontal cortex'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00313_MESH_D008881_2', 'disease': 'migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'valproic acid', 'drug_mesh': 'MESH:D014635', 'drugbank': 'DB:DB00313'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014635', 'target': 'UniProt:O14975'}, {'key': 'located in', 'source': 'UniProt:O14975', 'target': 'UBERON:0000955'}, {'key': 'decreases abundance of', 'source': 'UBERON:0000955', 'target': 'MESH:C026563'}, {'key': 'participates in', 'source': 'MESH:C026563', 'target': 'REACT:R-HSA-2162123'}, {'key': 'prevents', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014635', 'label': 'Drug', 'name': 'valproic acid'}, {'id': 'UniProt:O14975', 'label': 'Protein', 'name': 'microsomal long-chain fatty acyl-CoA synthetase'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'brain'}, {'id': 'MESH:C026563', 'label': 'ChemicalSubstance', 'name': 'Arachidonoyl-CoA'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'inflammatory prostaglandins production'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00313#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01282_MESH_D006473_2', 'disease': 'postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'carbetocin', 'drug_mesh': 'MESH:C020731', 'drugbank': 'DB:DB01282'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C020731', 'target': 'UniProt:P30559'}, {'key': 'positively regulates', 'source': 'UniProt:P30559', 'target': 'GO:0070474'}, {'key': 'prevents', 'source': 'GO:0070474', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020731', 'label': 'Drug', 'name': 'Carbetocin'}, {'id': 'UniProt:P30559', 'label': 'Protein', 'name': 'oxytocin receptors'}, {'id': 'GO:0070474', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle relaxation'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01282#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00248_MESH_D006966_1', 'disease': 'Hyperprolactinemia', 'disease_mesh': 'MESH:D006966', 'drug': 'cabergoline', 'drug_mesh': 'MESH:D000077465', 'drugbank': 'DB:DB00248'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000077465', 'target': 'UniProt:P14416'}, {'key': 'participates in', 'source': 'UniProt:P14416', 'target': 'GO:0007195'}, {'key': 'decreases abundance of', 'source': 'GO:0007195', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0051209'}, {'key': 'contributes to', 'source': 'GO:0051209', 'target': 'GO:1902722'}, {'key': 'causes', 'source': 'GO:1902722', 'target': 'MESH:D006966'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077465', 'label': 'Drug', 'name': 'Cabergoline'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D2 dopamine receptor'}, {'id': 'GO:0007195', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-inhibiting dopamine receptor signaling pathway'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0051209', 'label': 'BiologicalProcess', 'name': 'Release of sequestered calcium ion into cytosol'}, {'id': 'GO:1902722', 'label': 'BiologicalProcess', 'name': 'Positive regulation of\\xa0prolactin\\xa0secretion'}, {'id': 'MESH:D006966', 'label': 'Disease', 'name': 'Hyperprolactinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00248']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00289_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'atomoxetine', 'drug_mesh': 'MESH:D000069445', 'drugbank': 'DB:DB00289'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069445', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D000069445', 'target': 'GO:0004972'}, {'key': 'positively regulates', 'source': 'MESH:D000069445', 'target': 'GO:0061527'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'GO:0004972', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001289'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'correlated with', 'source': 'GO:0061535', 'target': 'MESH:D001289'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069445', 'label': 'Drug', 'name': 'Atomoxetine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0004972', 'label': 'MolecularActivity', 'name': 'NMDA glutamate receptor activity'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00289', 'https://pubmed.ncbi.nlm.nih.gov/24259638/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014006_1', 'disease': 'Tinea capitis', 'disease_mesh': 'MESH:D014006', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014006'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014006', 'label': 'Disease', 'name': 'Tinea capitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00400_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'griseofulvin', 'drug_mesh': 'MESH:D006118', 'drugbank': 'DB:DB00400'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006118', 'target': 'UniProt:Q5UBX3'}, {'key': 'participates in', 'source': 'UniProt:Q5UBX3', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006118', 'label': 'Drug', 'name': 'Griseofulvin'}, {'id': 'UniProt:Q5UBX3', 'label': 'Protein', 'name': \"Tubulin beta chain Trichophyton rubrum (Athlete's foot fungus)\"}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB00400#BE0000283']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'increases abundance of', 'source': 'GO:0043627', 'target': 'MESH:D012701'}, {'key': 'negatively correlated with', 'source': 'MESH:D012701', 'target': 'MESH:D019964'}, {'key': 'positively correlated with', 'source': 'MESH:D019964', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D019964', 'label': 'Disease', 'name': 'Mood Disorders'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123', 'https://pubmed.ncbi.nlm.nih.gov/29876339/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'treats', 'source': 'GO:0043627', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0046849'}, {'key': 'contributes to', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'contributes to', 'source': 'GO:0046849', 'target': 'MESH:D015663'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/22595550/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'prevents', 'source': 'GO:0043627', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00783#BE0000123']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00783_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Estradiol', 'drug_mesh': 'MESH:D004958', 'drugbank': 'DB:DB00783'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:D004958', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000317'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0006702'}, {'key': 'positively correlated with', 'source': 'CL:0000317', 'target': 'MESH:D000152'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'MESH:D000728'}, {'key': 'contributes to', 'source': 'MESH:D000728', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004958', 'label': 'Drug', 'name': 'Estradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000317', 'label': 'Cell', 'name': 'Sebum secreting cell'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'Androgen synthesis'}, {'id': 'MESH:D000728', 'label': 'ChemicalSubstance', 'name': 'Androgens'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D013742_1', 'disease': 'Tetanus', 'disease_mesh': 'MESH:D013742', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively regulates', 'source': 'GO:0061534', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}, {'key': 'manifestation of', 'source': 'MESH:D009128', 'target': 'MESH:D013742'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Muscle Spasticity'}, {'id': 'MESH:D013742', 'label': 'Disease', 'name': 'Tetanus'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D009128_1', 'disease': 'Muscle Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively regulates', 'source': 'GO:0061534', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Muscle Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D000430_1', 'disease': 'Alcohol withdrawal delirium', 'disease_mesh': 'MESH:D000430', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D000430'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D012640'}, {'key': 'manifestation of', 'source': 'MESH:D012640', 'target': 'MESH:D000430'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}, {'id': 'MESH:D000430', 'label': 'Disease', 'name': 'Alcohol withdrawal delirium'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1312739/']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00829_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'diazepam', 'drug_mesh': 'MESH:D003975', 'drugbank': 'DB:DB00829'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D003975', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003975', 'label': 'Drug', 'name': 'Diazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00829#BE0004797']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00842_MESH_D000430_1', 'disease': 'Alcohol withdrawal delirium', 'disease_mesh': 'MESH:D000430', 'drug': 'oxazepam', 'drug_mesh': 'MESH:D010076', 'drugbank': 'DB:DB00842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010076', 'target': 'GO:0016917'}, {'key': 'positively regulates', 'source': 'GO:0016917', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively regulates', 'source': 'GO:0022851', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'GO:0019228', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D000430'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D012640'}, {'key': 'manifestation of', 'source': 'MESH:D012640', 'target': 'MESH:D000430'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010076', 'label': 'Drug', 'name': 'Oxazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0022851', 'label': 'BiologicalProcess', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}, {'id': 'MESH:D000430', 'label': 'Disease', 'name': 'Alcohol withdrawal delirium'}], 'reference': ['https://go.drugbank.com/drugs/DB00842', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1312739/']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00842_MESH_D001007_1', 'disease': 'Sleeplessness', 'disease_mesh': 'MESH:D001007', 'drug': 'oxazepam', 'drug_mesh': 'MESH:D010076', 'drugbank': 'DB:DB00842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010076', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D001007'}, {'key': 'negatively regulates', 'source': 'GO:0061534', 'target': 'MESH:D007319'}, {'key': 'manifestation of', 'source': 'MESH:D007319', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010076', 'label': 'Drug', 'name': 'Oxazepam'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Sleeplessness'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00842']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09081_MESH_D029242_1', 'disease': \"Leber's optic atrophy\", 'disease_mesh': 'MESH:D029242', 'drug': 'Idebenone', 'drug_mesh': 'MESH:C036619', 'drugbank': 'DB:DB09081'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C036619', 'target': 'GO:0022900'}, {'key': 'has participant', 'source': 'GO:0022900', 'target': 'GO:0005747'}, {'key': 'disrupted by', 'source': 'GO:0005747', 'target': 'MESH:D029242'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C036619', 'label': 'Drug', 'name': 'Idebenone'}, {'id': 'GO:0022900', 'label': 'BiologicalProcess', 'name': 'Electron transport chain'}, {'id': 'GO:0005747', 'label': 'CellularComponent', 'name': 'Mitochondrial respiratory chain complex I'}, {'id': 'MESH:D029242', 'label': 'Disease', 'name': \"Leber's optic atrophy\"}], 'reference': ['https://go.drugbank.com/drugs/DB09081', 'https://en.wikipedia.org/wiki/Leber%27s_hereditary_optic_neuropathy']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00331_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'metformin', 'drug_mesh': 'MESH:D008687', 'drugbank': 'DB:DB00331'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008687', 'target': 'UniProt:Q16134'}, {'key': 'negatively regulates', 'source': 'MESH:D008687', 'target': 'GO:0001951'}, {'key': 'part of', 'source': 'UniProt:Q16134', 'target': 'GO:0042775'}, {'key': 'positively correlated with', 'source': 'GO:0001951', 'target': 'MESH:D006943'}, {'key': 'negatively regulates', 'source': 'GO:0042775', 'target': 'GO:0004679'}, {'key': 'decreases abundance of', 'source': 'GO:0042775', 'target': 'MESH:D000249'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0004346'}, {'key': 'decreases activity of', 'source': 'MESH:D000249', 'target': 'GO:0042132'}, {'key': 'positively regulates', 'source': 'GO:0042132', 'target': 'GO:0006094'}, {'key': 'contributes to', 'source': 'GO:0006094', 'target': 'MESH:D006943'}, {'key': 'manifestation of', 'source': 'MESH:D006943', 'target': 'MESH:D003924'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0009331'}, {'key': 'positively regulates', 'source': 'GO:0004346', 'target': 'GO:0006094'}, {'key': 'positively regulates', 'source': 'GO:0009331', 'target': 'GO:0006094'}, {'key': 'positively correlated with', 'source': 'GO:0006094', 'target': 'MESH:D003924'}, {'key': 'increases activity of', 'source': 'GO:0004679', 'target': 'InterPro:IPR002441'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002441', 'target': 'MESH:D006943'}, {'key': 'negatively regulates', 'source': 'GO:0004679', 'target': 'GO:0004611'}, {'key': 'positively regulates', 'source': 'GO:0004611', 'target': 'GO:0006094'}, {'key': 'manifestation of', 'source': 'MESH:D006943', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008687', 'label': 'Drug', 'name': 'Metformin'}, {'id': 'UniProt:Q16134', 'label': 'Protein', 'name': 'Electron transfer flavoprotein-ubiquinone oxidoreductase, mitochondrial'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'GO:0001951', 'label': 'BiologicalProcess', 'name': 'Intestinal D-glucose absorption'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}, {'id': 'GO:0004679', 'label': 'MolecularActivity', 'name': 'AMP-activated protein kinase activity'}, {'id': 'MESH:D000249', 'label': 'ChemicalSubstance', 'name': 'Adenosine Monophosphate'}, {'id': 'GO:0042132', 'label': 'MolecularActivity', 'name': 'Fructose 1,6-bisphosphate 1-phosphatase activity'}, {'id': 'GO:0006094', 'label': 'BiologicalProcess', 'name': 'Gluconeogenesis'}, {'id': 'MESH:D006943', 'label': 'Disease', 'name': 'Hyperglycemia'}, {'id': 'GO:0009331', 'label': 'CellularComponent', 'name': 'Glycerol-3-phosphate dehydrogenase complex'}, {'id': 'GO:0004346', 'label': 'MolecularActivity', 'name': 'Glucose-6-phosphatase activity'}, {'id': 'InterPro:IPR002441', 'label': 'GeneFamily', 'name': 'Glucose transporter type 4'}, {'id': 'GO:0004611', 'label': 'MolecularActivity', 'name': 'Phosphoenolpyruvate carboxykinase activity'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00331', 'https://pubmed.ncbi.nlm.nih.gov/28776086/', 'https://pubmed.ncbi.nlm.nih.gov/24847880/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'MolecularActivity', 'GeneFamily', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'MolecularActivity', 'GeneFamily', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'MolecularActivity', 'GeneFamily', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'MolecularActivity', 'GeneFamily', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01577_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'methamphetamine', 'drug_mesh': 'MESH:D008694', 'drugbank': 'DB:DB01577'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P27338'}, {'key': 'decreases activity of', 'source': 'MESH:D008694', 'target': 'UniProt:P21397'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'UniProt:Q01959', 'target': 'GO:0051583'}, {'key': 'decreases abundance of', 'source': 'UniProt:P27338', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'UniProt:P27338', 'target': 'MESH:D004298'}, {'key': 'decreases abundance of', 'source': 'UniProt:P21397', 'target': 'MESH:D004298'}, {'key': 'decreases abundance of', 'source': 'UniProt:P21397', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051583', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061533', 'target': 'MESH:D001289'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008694', 'label': 'Drug', 'name': 'Methamphetamine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase B'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase A'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0051583', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake involved in synaptic transmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D001289', 'label': 'ChemicalSubstance', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01577#BE0001044', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2626918/']}\n", - "{'directed': True, 'graph': {'_id': 'DB00515_MESH_D010051_1', 'disease': 'Ovarian Cancer', 'disease_mesh': 'MESH:D010051', 'drug': 'cisplatin', 'drug_mesh': 'MESH:D002945', 'drugbank': 'DB:DB00515'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002945', 'target': 'GO:0090592'}, {'key': 'negatively regulates', 'source': 'MESH:D002945', 'target': 'GO:0006351'}, {'key': 'disrupts', 'source': 'MESH:D002945', 'target': 'MESH:D004247'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'HP:0031377'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'HP:0031377'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002945', 'label': 'Drug', 'name': 'Cisplatin'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Ovarian Cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00515']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D014257_1', 'disease': 'Trichuriasis', 'disease_mesh': 'MESH:D014257', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:36087'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:36087'}, {'key': 'causes', 'source': 'NCBITaxon:36087', 'target': 'MESH:D014257'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:36087', 'label': 'OrganismTaxon', 'name': 'Trichuris trichiura'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D014257', 'label': 'Disease', 'name': 'Trichuriasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D001196_1', 'disease': 'Ascariasis', 'disease_mesh': 'MESH:D001196', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:6252'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:6252'}, {'key': 'causes', 'source': 'NCBITaxon:6252', 'target': 'MESH:D001196'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:6252', 'label': 'OrganismTaxon', 'name': 'Ascaris lumbricoides'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D001196', 'label': 'Disease', 'name': 'Ascariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00643_MESH_D017229_1', 'disease': 'Enterobiasis', 'disease_mesh': 'MESH:D017229', 'drug': 'mebendazole', 'drug_mesh': 'MESH:D008463', 'drugbank': 'DB:DB00643'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:Q71U36'}, {'key': 'decreases activity of', 'source': 'MESH:D008463', 'target': 'UniProt:P68371'}, {'key': 'disrupts', 'source': 'MESH:D008463', 'target': 'GO:0046323'}, {'key': 'participates in', 'source': 'UniProt:Q71U36', 'target': 'GO:0046785'}, {'key': 'participates in', 'source': 'UniProt:P68371', 'target': 'GO:0046785'}, {'key': 'positively correlated with', 'source': 'GO:0046323', 'target': 'GO:0042773'}, {'key': 'occurs in', 'source': 'GO:0042773', 'target': 'NCBITaxon:51028'}, {'key': 'precedes', 'source': 'GO:0046785', 'target': 'GO:0140014'}, {'key': 'part of', 'source': 'GO:0140014', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:51028'}, {'key': 'causes', 'source': 'NCBITaxon:51028', 'target': 'MESH:D017229'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008463', 'label': 'Drug', 'name': 'Mebendazole'}, {'id': 'UniProt:Q71U36', 'label': 'Protein', 'name': 'Tubulin alpha-1A chain'}, {'id': 'UniProt:P68371', 'label': 'Protein', 'name': 'Tubulin beta-4B chain'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'Glucose import'}, {'id': 'GO:0046785', 'label': 'BiologicalProcess', 'name': 'Microtubule assembly'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitosis'}, {'id': 'NCBITaxon:51028', 'label': 'OrganismTaxon', 'name': 'Enterobius vermicularis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'MESH:D017229', 'label': 'Disease', 'name': 'Enterobiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00643#BE0001340']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00848_MESH_D001196_1', 'disease': 'Ascariasis', 'disease_mesh': 'MESH:D001196', 'drug': 'levamisole', 'drug_mesh': 'MESH:D007978', 'drugbank': 'DB:DB00848'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1L348'}, {'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1KYN0'}, {'key': 'positively regulates', 'source': 'UniProt:F1L348', 'target': 'HP:0001257'}, {'key': 'positively regulates', 'source': 'UniProt:F1KYN0', 'target': 'HP:0001257'}, {'key': 'negatively correlated with', 'source': 'HP:0001257', 'target': 'GO:0022414'}, {'key': 'occurs in', 'source': 'GO:0022414', 'target': 'NCBITaxon:36087'}, {'key': 'causes', 'source': 'NCBITaxon:36087', 'target': 'MESH:D001196'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007978', 'label': 'Drug', 'name': 'Levamisole'}, {'id': 'UniProt:F1L348', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit alpha-type unc-38 (Ascaris lumbricoides)'}, {'id': 'UniProt:F1KYN0', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit beta-type unc-29 (Ascaris lumbricoides)'}, {'id': 'HP:0001257', 'label': 'PhenotypicFeature', 'name': 'Muscle spasticity'}, {'id': 'GO:0022414', 'label': 'BiologicalProcess', 'name': 'Reproductive process'}, {'id': 'NCBITaxon:36087', 'label': 'OrganismTaxon', 'name': 'Ascaris lumbricoides'}, {'id': 'MESH:D001196', 'label': 'Disease', 'name': 'Ascariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00848#BE0003585']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00848_MESH_D000724_1', 'disease': 'Ancylostomiasis', 'disease_mesh': 'MESH:D000724', 'drug': 'levamisole', 'drug_mesh': 'MESH:D007978', 'drugbank': 'DB:DB00848'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1L348'}, {'key': 'increases activity of', 'source': 'MESH:D007978', 'target': 'UniProt:F1KYN0'}, {'key': 'positively regulates', 'source': 'UniProt:F1L348', 'target': 'HP:0001257'}, {'key': 'positively regulates', 'source': 'UniProt:F1KYN0', 'target': 'HP:0001257'}, {'key': 'negatively correlated with', 'source': 'HP:0001257', 'target': 'GO:0022414'}, {'key': 'occurs in', 'source': 'GO:0022414', 'target': 'NCBITaxon:51022'}, {'key': 'causes', 'source': 'NCBITaxon:51022', 'target': 'MESH:D000724'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007978', 'label': 'Drug', 'name': 'Levamisole'}, {'id': 'UniProt:F1L348', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit alpha-type unc-38 (Ascaris lumbricoides)'}, {'id': 'UniProt:F1KYN0', 'label': 'Protein', 'name': 'Acetylcholine receptor subunit beta-type unc-29 (Ascaris lumbricoides)'}, {'id': 'HP:0001257', 'label': 'PhenotypicFeature', 'name': 'Muscle spasticity'}, {'id': 'GO:0022414', 'label': 'BiologicalProcess', 'name': 'Reproductive process'}, {'id': 'NCBITaxon:51022', 'label': 'OrganismTaxon', 'name': 'Ancylostoma duodenale'}, {'id': 'MESH:D000724', 'label': 'Disease', 'name': 'Ancylostomiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00848#BE0003585']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D009450_1', 'disease': 'Lichen simplex chronicus', 'disease_mesh': 'MESH:D009450', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D009450'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D009450', 'label': 'Disease', 'name': 'Lichen simplex chronicus'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D005076_1', 'disease': 'Skin Rash', 'disease_mesh': 'MESH:D005076', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D005076'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D005076', 'label': 'Disease', 'name': 'Skin Rash'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01130_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'prednicarbate', 'drug_mesh': 'MESH:C035287', 'drugbank': 'DB:DB01130'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C035287', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D008179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035287', 'label': 'Drug', 'name': 'Prednicarbate'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D008179', 'label': 'Disease', 'name': 'Discoid lupus erythematosus'}], 'reference': ['https://go.drugbank.com/drugs/DB01130#BE0000794']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01233_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'metoclopramide', 'drug_mesh': 'MESH:D008787', 'drugbank': 'DB:DB01233'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:P14416'}, {'key': 'increases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:P11229'}, {'key': 'increases activity of', 'source': 'MESH:D008787', 'target': 'UniProt:Q13639'}, {'key': 'negatively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'UniProt:Q13639', 'target': 'GO:0014055'}, {'key': 'positively regulates', 'source': 'GO:0014055', 'target': 'UBERON:0007652'}, {'key': 'positively regulates', 'source': 'GO:0014055', 'target': 'GO:0035482'}, {'key': 'negatively regulates', 'source': 'UBERON:0007652', 'target': 'MESH:D005764'}, {'key': 'positively regulates', 'source': 'GO:0035482', 'target': 'GO:0035483'}, {'key': 'negatively correlated with', 'source': 'GO:0035483', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008787', 'label': 'Drug', 'name': 'Metoclopramide'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D2 dopamine receptor'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:Q13639', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 4'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'UBERON:0007652', 'label': 'GrossAnatomicalStructure', 'name': 'Esophageal sphincter'}, {'id': 'GO:0035482', 'label': 'BiologicalProcess', 'name': 'Gastric motility'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'Gastric emptying'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01233#BE0000756']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01577_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'methamphetamine', 'drug_mesh': 'MESH:D008694', 'drugbank': 'DB:DB01577'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008694', 'target': 'GO:0004936'}, {'key': 'negatively regulates', 'source': 'GO:0004936', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008694', 'label': 'Drug', 'name': 'Methamphetamine'}, {'id': 'GO:0004936', 'label': 'MolecularActivity', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01577#BE0001044', 'https://en.wikipedia.org/wiki/Alpha-1_adrenergic_receptor']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05266_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'ibudilast', 'drug_mesh': 'MESH:C038366', 'drugbank': 'DB:DB05266'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C038366', 'target': 'InterPro:IPR043371'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR043371', 'target': 'CHEBI:17489'}, {'key': 'negatively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C038366', 'label': 'Drug', 'name': 'Ibudilast'}, {'id': 'InterPro:IPR043371', 'label': 'GeneFamily', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4\"}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB05266#BE0001133', 'https://pubmed.ncbi.nlm.nih.gov/26419847/']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06702_MESH_D053202_1', 'disease': 'Urge Incontinence', 'disease_mesh': 'MESH:D053202', 'drug': 'fesoterodine', 'drug_mesh': 'MESH:C526675', 'drugbank': 'DB:DB06702'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C526675', 'target': 'UniProt:P20309'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C526675', 'label': 'Drug', 'name': 'Fesoterodine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge Incontinence'}], 'reference': ['https://go.drugbank.com/drugs/DB06702#BE0000045', 'https://en.wikipedia.org/wiki/Urinary_incontinence']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09559_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'necitumumab', 'drug_mesh': 'MESH:C527969', 'drugbank': 'DB:DB09559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C527969', 'target': 'UniProt:P00533'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'REACT:R-HSA-5673001'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-5673001', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0008283'}, {'key': 'causes', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C527969', 'label': 'Drug', 'name': 'Necitumumab'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'REACT:R-HSA-5673001', 'label': 'Pathway', 'name': 'RAF/MAP kinase cascade'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB09559#BE0000767', 'https://pubmed.ncbi.nlm.nih.gov/30975211/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00310_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'chlortalidone', 'drug_mesh': 'MESH:D002752', 'drugbank': 'DB:DB00310'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002752', 'target': 'UniProt:Q13621'}, {'key': 'participates in', 'source': 'UniProt:Q13621', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002752', 'label': 'Drug', 'name': 'Chlortalidone'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion reabsorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00310']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00310_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'chlortalidone', 'drug_mesh': 'MESH:D002752', 'drugbank': 'DB:DB00310'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002752', 'target': 'UniProt:Q13621'}, {'key': 'participates in', 'source': 'UniProt:Q13621', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002752', 'label': 'Drug', 'name': 'Chlortalidone'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion reabsorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00310']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00553_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'methoxsalen', 'drug_mesh': 'MESH:D008730', 'drugbank': 'DB:DB00553'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008730', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'causes', 'source': 'HP:0031377', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008730', 'label': 'Drug', 'name': 'Methoxsalen'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00553']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00553_MESH_D014820_1', 'disease': 'Vitiligo', 'disease_mesh': 'MESH:D014820', 'drug': 'methoxsalen', 'drug_mesh': 'MESH:D008730', 'drugbank': 'DB:DB00553'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008730', 'target': 'CL:0000148'}, {'key': 'positively regulates', 'source': 'CL:0000148', 'target': 'GO:0043473'}, {'key': 'negatively correlated with', 'source': 'GO:0043473', 'target': 'MESH:D014820'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008730', 'label': 'Drug', 'name': 'Methoxsalen'}, {'id': 'CL:0000148', 'label': 'Cell', 'name': 'Melanocyte'}, {'id': 'GO:0043473', 'label': 'BiologicalProcess', 'name': 'Pigmentation'}, {'id': 'MESH:D014820', 'label': 'Disease', 'name': 'Vitiligo'}], 'reference': ['https://go.drugbank.com/drugs/DB00553', 'https://www.sciencedirect.com/topics/neuroscience/methoxsalen']}\n", - "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00622_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'nicardipine', 'drug_mesh': 'MESH:D009529', 'drugbank': 'DB:DB00622'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q08289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:P54289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q01668'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q08289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009529', 'label': 'Drug', 'name': 'Nicardipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:Q08289', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-2'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-1'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00622#BE0000430']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00622_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'nicardipine', 'drug_mesh': 'MESH:D009529', 'drugbank': 'DB:DB00622'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q13936'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q08289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:P54289'}, {'key': 'decreases activity of', 'source': 'MESH:D009529', 'target': 'UniProt:Q01668'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q08289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:P54289', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'UniProt:Q01668', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively correlated with', 'source': 'GO:0045907', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009529', 'label': 'Drug', 'name': 'Nicardipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'UniProt:Q08289', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-2'}, {'id': 'UniProt:P54289', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-1'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00622#BE0000430']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0120054'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0030421'}, {'key': 'occurs in', 'source': 'GO:0120054', 'target': 'MESH:D043183'}, {'key': 'occurs in', 'source': 'GO:0030421', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'GO:0030421', 'label': 'BiologicalProcess', 'name': 'Defecation'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00747']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Contraindication', 'directed': True, 'graph': {'_id': 'DB00747_MESH_D015878_1', 'disease': 'Mydriasis', 'disease_mesh': 'MESH:D015878', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'negatively correlated with', 'source': 'GO:1905144', 'target': 'HP:0011499'}, {'key': 'manifestation of', 'source': 'HP:0011499', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'HP:0011499', 'label': 'PhenotypicFeature', 'name': 'Dilated pupil'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Mydriasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5854659/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D015863_1', 'disease': 'Iridocyclitis', 'disease_mesh': 'MESH:D015863', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D015863'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D015863', 'label': 'Disease', 'name': 'Iridocyclitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'UBERON:0012278'}, {'key': 'produces', 'source': 'UBERON:0012278', 'target': 'UBERON:0002306'}, {'key': 'occurs in', 'source': 'UBERON:0002306', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'UBERON:0012278', 'label': 'GrossAnatomicalStructure', 'name': 'Gland of nasal mucosa'}, {'id': 'UBERON:0002306', 'label': 'GrossAnatomicalStructure', 'name': 'Nasal mucus'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3650956/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D009041_1', 'disease': 'Motion sickness', 'disease_mesh': 'MESH:D009041', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'HP:0002017'}, {'key': 'occurs in', 'source': 'HP:0002017', 'target': 'MESH:D009041'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'HP:0002017', 'label': 'PhenotypicFeature', 'name': 'Nausea and vomiting'}, {'id': 'MESH:D009041', 'label': 'Disease', 'name': 'Motion sickness'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/19497682/', 'https://go.drugbank.com/drugs/DB00747']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'UBERON:0012278'}, {'key': 'produces', 'source': 'UBERON:0012278', 'target': 'UBERON:0002306'}, {'key': 'occurs in', 'source': 'UBERON:0002306', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'UBERON:0012278', 'label': 'GrossAnatomicalStructure', 'name': 'Gland of nasal mucosa'}, {'id': 'UBERON:0002306', 'label': 'GrossAnatomicalStructure', 'name': 'Nasal mucus'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3650956/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'UBERON:0012278'}, {'key': 'produces', 'source': 'UBERON:0012278', 'target': 'UBERON:0002306'}, {'key': 'occurs in', 'source': 'UBERON:0002306', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'UBERON:0012278', 'label': 'GrossAnatomicalStructure', 'name': 'Gland of nasal mucosa'}, {'id': 'UBERON:0002306', 'label': 'GrossAnatomicalStructure', 'name': 'Nasal mucus'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3650956/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Scopolamine is only valid for a treatment of cough related to asthma', 'directed': True, 'graph': {'_id': 'DB00747_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P11229'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08173'}, {'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P08912'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08172', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08173', 'target': 'GO:1905144'}, {'key': 'participates in', 'source': 'UniProt:P08912', 'target': 'GO:1905144'}, {'key': 'positively regulates', 'source': 'GO:1905144', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'MESH:D001249', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08173', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M4'}, {'id': 'UniProt:P08912', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M5'}, {'id': 'GO:1905144', 'label': 'BiologicalProcess', 'name': 'Response to acetylcholine'}, {'id': 'MESH:D016084', 'label': 'Disease', 'name': 'Bronchoconstriction'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2785753/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00747_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'scopolamine', 'drug_mesh': 'MESH:D012601', 'drugbank': 'DB:DB00747'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012601', 'target': 'UniProt:P20309'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012601', 'label': 'Drug', 'name': 'Scopolamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00747', 'https://en.wikipedia.org/wiki/Peptic_ulcer_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00865_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'benzphetamine', 'drug_mesh': 'MESH:D001589', 'drugbank': 'DB:DB00865'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D001589', 'target': 'UniProt:P35348'}, {'key': 'negatively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001589', 'label': 'Drug', 'name': 'Benzphetamine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00865#BE0000118', 'https://en.wikipedia.org/wiki/Alpha-1_adrenergic_receptor']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D008271_1', 'disease': 'Mycetoma', 'disease_mesh': 'MESH:D008271', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:100816'}, {'key': 'causes', 'source': 'NCBITaxon:100816', 'target': 'MESH:D008271'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:100816', 'label': 'OrganismTaxon', 'name': 'Madurella mycetomatis'}, {'id': 'MESH:D008271', 'label': 'Disease', 'name': 'Mycetoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Mycetoma']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D001228_1', 'disease': 'Aspergillosis', 'disease_mesh': 'MESH:D001228', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:B8N2C8'}, {'key': 'positively regulates', 'source': 'UniProt:B8N2C8', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D001228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:B8N2C8', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Aspergillus flavus)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus'}, {'id': 'MESH:D001228', 'label': 'Disease', 'name': 'Aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D002862_1', 'disease': 'Chromoblastomycosis', 'disease_mesh': 'MESH:D002862', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D002862'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D002862', 'label': 'Disease', 'name': 'Chromoblastomycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Chromoblastomycosis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D060585_1', 'disease': 'Fusarium infection', 'disease_mesh': 'MESH:D060585', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5506'}, {'key': 'causes', 'source': 'NCBITaxon:5506', 'target': 'MESH:D060585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5506', 'label': 'OrganismTaxon', 'name': 'Fusarium'}, {'id': 'MESH:D060585', 'label': 'Disease', 'name': 'Fusarium infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D003047_1', 'disease': 'Coccidioidomycosis', 'disease_mesh': 'MESH:D003047', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:A0A6C1LUF2'}, {'key': 'positively regulates', 'source': 'UniProt:A0A6C1LUF2', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5501'}, {'key': 'causes', 'source': 'NCBITaxon:5501', 'target': 'MESH:D003047'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:A0A6C1LUF2', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Coccidioides immitis)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5501', 'label': 'OrganismTaxon', 'name': 'Coccidioides immitis'}, {'id': 'MESH:D003047', 'label': 'Disease', 'name': 'Coccidioidomycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233', 'https://en.wikipedia.org/wiki/Coccidioidomycosis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01263_MESH_D002177_1', 'disease': 'Candidiasis', 'disease_mesh': 'MESH:D002177', 'drug': 'posaconazole', 'drug_mesh': 'MESH:C101425', 'drugbank': 'DB:DB01263'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101425', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:1535326'}, {'key': 'causes', 'source': 'NCBITaxon:1535326', 'target': 'MESH:D002177'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101425', 'label': 'Drug', 'name': 'Posaconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:1535326', 'label': 'OrganismTaxon', 'name': 'Candida'}, {'id': 'MESH:D002177', 'label': 'Disease', 'name': 'Candidiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB01263#BE0000233']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05659_MESH_D017192_1', 'disease': 'Bacterial infection of skin', 'disease_mesh': 'MESH:D017192', 'drug': 'faropenem medoxil', 'drug_mesh': 'MESH:C528565', 'drugbank': 'DB:DB05659'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C528565', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C528565', 'label': 'Drug', 'name': 'Faropenem'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB05659']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05659_MESH_D012141_1', 'disease': 'Respiratory tract infection', 'disease_mesh': 'MESH:D012141', 'drug': 'faropenem medoxil', 'drug_mesh': 'MESH:C528565', 'drugbank': 'DB:DB05659'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C528565', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C528565', 'label': 'Drug', 'name': 'Faropenem'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Respiratory tract infection'}], 'reference': ['https://go.drugbank.com/drugs/DB05659']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00026_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'anakinra', 'drug_mesh': 'MESH:D053590', 'drugbank': 'DB:DB00026'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053590', 'target': 'UniProt:P14778'}, {'key': 'participates in', 'source': 'UniProt:P14778', 'target': 'GO:0004908'}, {'key': 'positively regulates', 'source': 'GO:0004908', 'target': 'REACT:R-HSA-1592389'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-1592389', 'target': 'HP:0100773'}, {'key': 'occurs in', 'source': 'HP:0100773', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053590', 'label': 'Drug', 'name': 'Anakinra'}, {'id': 'UniProt:P14778', 'label': 'Protein', 'name': 'Interleukin-1 receptor type 1'}, {'id': 'GO:0004908', 'label': 'MolecularActivity', 'name': 'Interleukin-1 receptor activity'}, {'id': 'REACT:R-HSA-1592389', 'label': 'Pathway', 'name': 'Activation of Matrix Metalloproteinases'}, {'id': 'HP:0100773', 'label': 'PhenotypicFeature', 'name': 'Cartilage destruction'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00026#BE0000565', 'https://pubmed.ncbi.nlm.nih.gov/17027524/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'Pathway', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00026_MESH_D056587_1', 'disease': 'Cryopyrin associated periodic syndrome', 'disease_mesh': 'MESH:D056587', 'drug': 'anakinra', 'drug_mesh': 'MESH:D053590', 'drugbank': 'DB:DB00026'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053590', 'target': 'UniProt:P14778'}, {'key': 'participates in', 'source': 'UniProt:P14778', 'target': 'GO:0004908'}, {'key': 'positively regulates', 'source': 'GO:0004908', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D056587'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053590', 'label': 'Drug', 'name': 'Anakinra'}, {'id': 'UniProt:P14778', 'label': 'Protein', 'name': 'Interleukin-1 receptor type 1'}, {'id': 'GO:0004908', 'label': 'MolecularActivity', 'name': 'Interleukin-1 receptor activity'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D056587', 'label': 'Disease', 'name': 'Cryopyrin associated periodic syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00026#BE0000565', 'https://en.wikipedia.org/wiki/Cryopyrin-associated_periodic_syndrome']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00065_MESH_D015535_1', 'disease': 'Psoriatic Arthritis', 'disease_mesh': 'MESH:D015535', 'drug': 'infliximab', 'drug_mesh': 'MESH:D000069285', 'drugbank': 'DB:DB00065'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069285', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069285', 'label': 'Drug', 'name': 'Infliximab'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriatic Arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00065#BE0000704']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Methacarbamol is a skeletal muscle relaxant with an unknown mechanism of action', 'directed': True, 'graph': {'_id': 'DB00423_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'methocarbamol', 'drug_mesh': 'MESH:D008721', 'drugbank': 'DB:DB00423'}, 'links': [{'key': 'causes', 'source': 'MESH:D008721', 'target': 'GO:0090075'}, {'key': 'negatively correlated with', 'source': 'GO:0090075', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008721', 'label': 'Drug', 'name': 'Methacarbamol'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB00423']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00496_MESH_D053202_1', 'disease': 'Urge Incontinence', 'disease_mesh': 'MESH:D053202', 'drug': 'Darifenacin', 'drug_mesh': 'MESH:C101207', 'drugbank': 'DB:DB00496'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C101207', 'target': 'UniProt:P20309'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C101207', 'label': 'Drug', 'name': 'Darifenacin'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge Incontinence'}], 'reference': ['https://go.drugbank.com/drugs/DB00496', 'https://en.wikipedia.org/wiki/Urinary_incontinence']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'Desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Cutaneous_T_cell_lymphoma']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'Desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://pubmed.ncbi.nlm.nih.gov/29230666/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Pruritus_ani']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D008179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D008179', 'label': 'Disease', 'name': 'Discoid lupus erythematosus'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Discoid_lupus_erythematosus']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Atopic_dermatitis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D009450_1', 'disease': 'Lichen simplex chronicus', 'disease_mesh': 'MESH:D009450', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D009450'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Skin itching'}, {'id': 'MESH:D009450', 'label': 'Disease', 'name': 'Lichen simplex chronicus'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Lichen_simplex_chronicus']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Contact_dermatitis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D005076_1', 'disease': 'Exanthem', 'disease_mesh': 'MESH:D005076', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D005076'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D005076', 'label': 'Disease', 'name': 'Exanthem'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Exanthem']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00547_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'desoximetasone', 'drug_mesh': 'MESH:D003899', 'drugbank': 'DB:DB00547'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003899', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003899', 'label': 'Drug', 'name': 'Desoximetasone'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Prostaglandin Synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00547#BE0000794', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00918_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'almotriptan', 'drug_mesh': 'MESH:C409045', 'drugbank': 'DB:DB00918'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C409045', 'target': 'UniProt:P28222'}, {'key': 'increases activity of', 'source': 'MESH:C409045', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'MESH:D010146'}, {'key': 'positively correlated with', 'source': 'MESH:D010146', 'target': 'MESH:D008881'}, {'key': 'negatively regulates', 'source': 'UniProt:P28222', 'target': 'MESH:D020078'}, {'key': 'negatively regulates', 'source': 'UniProt:P28221', 'target': 'MESH:D020078'}, {'key': 'positively correlated with', 'source': 'MESH:D020078', 'target': 'MESH:D008881'}, {'key': 'decreases activity of', 'source': 'UniProt:P28222', 'target': 'UBERON:0001645'}, {'key': 'decreases activity of', 'source': 'UniProt:P28221', 'target': 'UBERON:0001645'}, {'key': 'participates in', 'source': 'UBERON:0001645', 'target': 'GO:0019233'}, {'key': 'positively correlated with', 'source': 'GO:0019233', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C409045', 'label': 'Drug', 'name': 'Almotriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00918', 'https://pubmed.ncbi.nlm.nih.gov/16099727/', 'https://pubmed.ncbi.nlm.nih.gov/27312704/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Disease']\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09041_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'tavaborole', 'drug_mesh': 'MESH:C512998', 'drugbank': 'DB:DB09041'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C512998', 'target': 'UniProt:Q9HGT2'}, {'key': 'positively regulates', 'source': 'UniProt:Q9HGT2', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:5551'}, {'key': 'causes', 'source': 'NCBITaxon:5551', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C512998', 'label': 'Drug', 'name': 'Tavaborole'}, {'id': 'UniProt:Q9HGT2', 'label': 'Protein', 'name': 'Cytosolic leucyl-tRNA synthetase'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein biosynthesis'}, {'id': 'NCBITaxon:5551', 'label': 'OrganismTaxon', 'name': 'Trichophyton rubrum'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB09041#BE0002395', 'https://en.wikipedia.org/wiki/Onychomycosis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01193_MESH_D018879_1', 'disease': 'Ventricular premature beats', 'disease_mesh': 'MESH:D018879', 'drug': 'Acebutolol', 'drug_mesh': 'MESH:D000070', 'drugbank': 'DB:DB01193'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000070', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0001649'}, {'key': 'decreases activity of', 'source': 'HP:0001649', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0000822'}, {'key': 'ameliorates', 'source': 'HP:0001649', 'target': 'MESH:D018879'}, {'key': 'ameliorates', 'source': 'HP:0000822', 'target': 'MESH:D018879'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000070', 'label': 'Drug', 'name': 'Acebutolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0001649', 'label': 'PhenotypicFeature', 'name': 'heart rate'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D018879', 'label': 'Disease', 'name': 'Ventricular premature beats'}], 'reference': ['https://go.drugbank.com/drugs/DB01193#mechanismofaction', 'https://en.wikipedia.org/wiki/Acebutolol']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00414_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Acetohexamide', 'drug_mesh': 'MESH:D000092', 'drugbank': 'DB:DB00414'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000092', 'target': 'CL:0000169'}, {'key': 'increases secretion of', 'source': 'CL:0000169', 'target': 'MESH:D007328'}, {'key': 'negatively regulates', 'source': 'MESH:D007328', 'target': 'MESH:D001786'}, {'key': 'ameliorates', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000092', 'label': 'Drug', 'name': 'Acetohexamide'}, {'id': 'CL:0000169', 'label': 'Cell', 'name': 'pancreatic beta cells'}, {'id': 'MESH:D007328', 'label': 'ChemicalSubstance', 'name': 'insulin'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'blood sugar'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00414#mechanismofaction']}\n", - "['Drug', 'Cell', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00964_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Apraclonidine', 'drug_mesh': 'MESH:C016986', 'drugbank': 'DB:DB00964'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C016986', 'target': 'UniProt:P08913'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P08913', 'target': 'UBERON:0001796'}, {'key': 'negatively regulates', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'HP:0012630'}, {'key': 'negatively regulates', 'source': 'HP:0012630', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016986', 'label': 'Drug', 'name': 'Apraclonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'alpha2 adrenergic receptor'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0012630', 'label': 'PhenotypicFeature', 'name': 'uveoscleral outflow'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00964#mechanismofaction']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05015_MESH_D016411_1', 'disease': 'Peripheral T-cell lymphoma', 'disease_mesh': 'MESH:D016411', 'drug': 'Belinostat', 'drug_mesh': 'MESH:C487081', 'drugbank': 'DB:DB05015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C487081', 'target': 'InterPro:IPR000286'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'decreases activity of', 'source': 'GO:0070577', 'target': 'HP:0031377'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'causes', 'source': 'GO:0070577', 'target': 'GO:0071158'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'negatively regulates', 'source': 'GO:0070577', 'target': 'GO:0001525'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR000286', 'target': 'GO:0070577'}, {'key': 'positively regulates', 'source': 'GO:0070577', 'target': 'GO:0006915'}, {'key': 'correlated with', 'source': 'GO:0006915', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'HP:0031377', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'GO:0071158', 'target': 'MESH:D016411'}, {'key': 'correlated with', 'source': 'GO:0001525', 'target': 'MESH:D016411'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C487081', 'label': 'Drug', 'name': 'Belinostat'}, {'id': 'InterPro:IPR000286', 'label': 'GeneFamily', 'name': 'histone deacetylase'}, {'id': 'GO:0070577', 'label': 'ChemicalSubstance', 'name': 'acetylated histones'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'tumor cell proliferation'}, {'id': 'GO:0071158', 'label': 'BiologicalProcess', 'name': 'cell cycle arrest'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'angiogenesis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptosis'}, {'id': 'MESH:D016411', 'label': 'Disease', 'name': 'Peripheral T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB05015#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00468_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Quinine', 'drug_mesh': 'MESH:D011803', 'drugbank': 'DB:DB00468'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011803', 'target': 'UniProt:Q3ZJJ7'}, {'key': 'disrupts', 'reference': 'https://doi.org/10.1016/S0014-5793(99)01260-0', 'source': 'UniProt:Q3ZJJ7', 'target': 'InterPro:IPR002338'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR002338', 'target': 'MESH:D006418'}, {'key': 'enables', 'source': 'MESH:D006418', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011803', 'label': 'Drug', 'name': 'Quinine'}, {'id': 'UniProt:Q3ZJJ7', 'label': 'Protein', 'name': 'heme polymerase'}, {'id': 'InterPro:IPR002338', 'label': 'GeneFamily', 'name': 'hemoglobin'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'heme'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00468#mechanismofaction', 'https://en.wikipedia.org/wiki/Quinine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00468_MESH_D016778_2', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Quinine', 'drug_mesh': 'MESH:D011803', 'drugbank': 'DB:DB00468'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0071897'}, {'key': 'negatively regulates', 'source': 'GO:0071897', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0006351'}, {'key': 'negatively regulates', 'source': 'GO:0006351', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'GO:0006412'}, {'key': 'negatively regulates', 'source': 'GO:0006412', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:D011803', 'target': 'REACT:R-HSA-70171'}, {'key': 'enables', 'source': 'REACT:R-HSA-70171', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011803', 'label': 'Drug', 'name': 'Quinine'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'protein synthesis'}, {'id': 'REACT:R-HSA-70171', 'label': 'Pathway', 'name': 'glycolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'cell death'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00468#mechanismofaction', 'https://en.wikipedia.org/wiki/Quinine#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00700_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Eplerenone', 'drug_mesh': None, 'drugbank': 'DB:DB00700'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00700', 'target': 'UniProt:P08235'}, {'key': 'increases abundance of', 'source': 'UniProt:P08235', 'target': 'UniProt:P00797'}, {'key': 'increases abundance of', 'source': 'UniProt:P08235', 'target': 'MESH:D000450'}, {'key': 'decreases abundance of', 'source': 'UniProt:P00797', 'target': 'HP:0011104'}, {'key': 'decreases abundance of', 'source': 'MESH:D000450', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'HP:0004421'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'HP:0005117'}, {'key': 'prevents', 'source': 'HP:0004421', 'target': 'MESH:D006973'}, {'key': 'prevents', 'source': 'HP:0005117', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00700', 'label': 'Drug', 'name': 'Eplerenone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'mineralocorticoid receptor'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'plasma renin'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'serum aldosterone'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'blood volume'}, {'id': 'HP:0005117', 'label': 'PhenotypicFeature', 'name': 'diastolic blood pressure'}, {'id': 'HP:0004421', 'label': 'PhenotypicFeature', 'name': 'systolic blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00700#mechanismofaction', 'https://en.wikipedia.org/wiki/Eplerenone', 'DOI:10.1002/14651858.CD008996.pub2']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04854_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'Febuxostat', 'drug_mesh': 'MESH:D000069465', 'drugbank': 'DB:DB04854'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069465', 'target': 'UniProt:P47989'}, {'key': 'decreases abundance of', 'source': 'UniProt:P47989', 'target': 'MESH:D014527'}, {'key': 'correlated with', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069465', 'label': 'Drug', 'name': 'Febuxostat'}, {'id': 'UniProt:P47989', 'label': 'Protein', 'name': 'Xanthine dehydrogenase/oxidase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'serum uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04854#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00053_MESH_D005776_1', 'disease': 'Glucosylceramide beta-glucosidase deficiency', 'disease_mesh': 'MESH:D005776', 'drug': 'Imiglucerase', 'drug_mesh': 'MESH:C090568', 'drugbank': 'DB:DB00053'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C090568', 'target': 'MESH:D005963'}, {'key': 'enables', 'source': 'MESH:D005963', 'target': 'REACT:R-HSA-556833'}, {'key': 'prevents', 'source': 'REACT:R-HSA-556833', 'target': 'MESH:D005776'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C090568', 'label': 'Drug', 'name': 'Imiglucerase'}, {'id': 'MESH:D005963', 'label': 'ChemicalSubstance', 'name': 'Glucocerebroside'}, {'id': 'REACT:R-HSA-556833', 'label': 'Pathway', 'name': 'membrane lipid degradation'}, {'id': 'MESH:D005776', 'label': 'Disease', 'name': 'Glucosylceramide beta-glucosidase deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00053#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01131_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Proguanil', 'drug_mesh': 'MESH:D002727', 'drugbank': 'DB:DB01131'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D002727', 'target': 'MESH:C026009'}, {'key': 'decreases activity of', 'source': 'MESH:C026009', 'target': 'UniProt:P13922'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P13922', 'target': 'REACT:R-HSA-8956320'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-8956320', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002727', 'label': 'Drug', 'name': 'Proguanil'}, {'id': 'MESH:C026009', 'label': 'Drug', 'name': 'Cycloguanil'}, {'id': 'UniProt:P13922', 'label': 'Protein', 'name': 'Bifunctional dihydrofolate reductase-thymidylate synthase'}, {'id': 'REACT:R-HSA-8956320', 'label': 'Pathway', 'name': 'purines and pyrimidines'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01131#mechanismofaction']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01597_MESH_D004716_1', 'disease': 'Endometritis', 'disease_mesh': 'MESH:D004716', 'drug': 'Cilastatin', 'drug_mesh': 'MESH:D015377', 'drugbank': 'DB:DB01597'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015377', 'target': 'UniProt:P16444'}, {'key': 'disrupts', 'source': 'UniProt:P16444', 'target': 'DB:D015378'}, {'key': 'negatively regulates', 'source': 'DB:D015378', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004716'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015377', 'label': 'Drug', 'name': 'Cilastatin'}, {'id': 'UniProt:P16444', 'label': 'Protein', 'name': 'Dipeptidase 1'}, {'id': 'DB:D015378', 'label': 'Drug', 'name': 'Imipenem'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004716', 'label': 'Disease', 'name': 'Endometritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01597#mechanismofaction']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'coexists with', 'source': 'UniProt:P08913', 'target': 'InterPro:IPR001408'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001408', 'target': 'InterPro:IPR030672'}, {'key': 'positively regulates', 'source': 'InterPro:IPR030672', 'target': 'GO:0099104'}, {'key': 'causes', 'source': 'GO:0099104', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'InterPro:IPR001408', 'label': 'GeneFamily', 'name': 'Gi protein alpha subunit'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'GO:0099104', 'label': 'MolecularActivity', 'name': 'opening of a potassium channel'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'hyperpolarization'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", - "['Drug', 'Protein', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D006973_2', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'located in', 'source': 'UniProt:P08913', 'target': 'UBERON:0002298'}, {'key': 'decreases activity of', 'source': 'UBERON:0002298', 'target': 'GO:0003072'}, {'key': 'negatively regulates', 'source': 'GO:0003072', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UBERON:0002298', 'label': 'GrossAnatomicalStructure', 'name': 'Brain stem'}, {'id': 'GO:0003072', 'label': 'BiologicalProcess', 'name': 'peripheral vascular resistance'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'located in', 'source': 'UniProt:P08913', 'target': 'UBERON:0000451'}, {'key': 'prevents', 'source': 'UBERON:0000451', 'target': 'GO:0048243'}, {'key': 'disrupts', 'source': 'GO:0048243', 'target': 'HP:0007018'}, {'key': 'correlated with', 'source': 'HP:0007018', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'prefrontal cortex'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'secretion of norepinephrine'}, {'id': 'HP:0007018', 'label': 'PhenotypicFeature', 'name': 'irrelevant attention'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00575_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Clonidine', 'drug_mesh': 'MESH:D003000', 'drugbank': 'DB:DB00575'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003000', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'UniProt:P08913', 'target': 'GO:0003072'}, {'key': 'negatively regulates', 'source': 'GO:0003072', 'target': 'HP:0000822'}, {'key': 'negatively regulates', 'source': 'HP:0000822', 'target': 'HP:0007906'}, {'key': 'correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003000', 'label': 'Drug', 'name': 'Clonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'GO:0003072', 'label': 'BiologicalProcess', 'name': 'peripheral vascular resistance'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'blood pressure'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00575#mechanismofaction', 'https://en.wikipedia.org/wiki/Clonidine', 'https://pubchem.ncbi.nlm.nih.gov/compound/Clonidine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'treats', 'source': 'MESH:D002122', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006947_1', 'disease': 'Hyperkalemia', 'disease_mesh': 'MESH:D006947', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'regulates', 'source': 'MESH:D002122', 'target': 'GO:0030322'}, {'key': 'positively regulates', 'source': 'GO:0030322', 'target': 'GO:0010460'}, {'key': 'located in', 'source': 'GO:0010460', 'target': 'UBERON:0001133'}, {'key': 'ameliorates', 'source': 'UBERON:0001133', 'target': 'MESH:D006947'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'GO:0030322', 'label': 'BiologicalProcess', 'name': 'stabilization of membrane potential'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'heart rate'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006947', 'label': 'Disease', 'name': 'Hyperkalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002122', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'correlated with', 'source': 'UBERON:0001133', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01164_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium chloride', 'drug_mesh': 'MESH:D002122', 'drugbank': 'DB:DB01164'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002122', 'target': 'MESH:D002118'}, {'key': 'located in', 'source': 'MESH:D002118', 'target': 'UBERON:0001969'}, {'key': 'ameliorates', 'source': 'UBERON:0001969', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002122', 'label': 'Drug', 'name': 'Calcium chloride'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'calcium'}, {'id': 'UBERON:0001969', 'label': 'GrossAnatomicalStructure', 'name': 'blood plasma'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01164#mechanismofaction', 'https://www.aafp.org/afp/2015/0915/p487.html', 'https://en.wikipedia.org/wiki/Hyperkalemia#:~:text=Calcium%20(calcium%20chloride%20or%20calcium,is%20elevated%20abnormally%20in%20hyperkalemia', 'https://pubchem.ncbi.nlm.nih.gov/compound/Calcium-dichloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00302_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'tranexamic acid', 'drug_mesh': 'MESH:D014148', 'drugbank': 'DB:DB00302'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014148', 'target': 'UniProt:P00747'}, {'key': 'decreases activity of', 'source': 'MESH:D014148', 'target': 'MESH:D005341'}, {'key': 'positively regulates', 'source': 'MESH:D005341', 'target': 'GO:0042730'}, {'key': 'positively regulates', 'source': 'UniProt:P00747', 'target': 'GO:0042730'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'HP:0001892'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D004715'}, {'key': 'positively correlated with', 'source': 'HP:0001892', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014148', 'label': 'Drug', 'name': 'tranexamic acid'}, {'id': 'UniProt:P00747', 'label': 'Protein', 'name': 'Plasminogen'}, {'id': 'MESH:D005341', 'label': 'Protein', 'name': 'Fibrinolysin'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0001892', 'label': 'PhenotypicFeature', 'name': 'Abnormal bleeding'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00302#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tranexamic_acid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/32594031/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00302_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'tranexamic acid', 'drug_mesh': 'MESH:D014148', 'drugbank': 'DB:DB00302'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014148', 'target': 'UniProt:P00747'}, {'key': 'positively regulates', 'source': 'UniProt:P00747', 'target': 'GO:0042730'}, {'key': 'decreases activity of', 'source': 'MESH:D014148', 'target': 'MESH:D005341'}, {'key': 'positively regulates', 'source': 'MESH:D005341', 'target': 'GO:0042730'}, {'key': 'correlated with', 'source': 'GO:0042730', 'target': 'HP:0001892'}, {'key': 'positively correlated with', 'source': 'HP:0001892', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014148', 'label': 'Drug', 'name': 'tranexamic acid'}, {'id': 'UniProt:P00747', 'label': 'Protein', 'name': 'Plasminogen'}, {'id': 'MESH:D005341', 'label': 'Protein', 'name': 'Fibrinolysin'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'fibrinolysis'}, {'id': 'HP:0001892', 'label': 'PhenotypicFeature', 'name': 'Abnormal bleeding'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00302#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tranexamic_acid#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00347_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O95180'}, {'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:Q9P0X4'}, {'key': 'positively regulates', 'source': 'UniProt:O43497', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'UniProt:O95180', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'UniProt:Q9P0X4', 'target': 'GO:0005245'}, {'key': 'positively correlated with', 'source': 'GO:0005245', 'target': 'GO:0014047'}, {'key': 'positively correlated with', 'source': 'GO:0005245', 'target': 'GO:0014051'}, {'key': 'positively correlated with', 'source': 'GO:0014051', 'target': 'MESH:D004827'}, {'key': 'positively correlated with', 'source': 'GO:0014047', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'UniProt:Q9P0X4', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1I'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0005245', 'label': 'MolecularActivity', 'name': 'voltage-gated calcium channel activity'}, {'id': 'GO:0014047', 'label': 'BiologicalProcess', 'name': 'glutamate secretion'}, {'id': 'GO:0014051', 'label': 'BiologicalProcess', 'name': 'gamma-aminobutyric acid secretion'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00347#mechanism-of-action', 'https://en.wikipedia.org/wiki/Trimethadione', 'https://en.wikipedia.org/wiki/Anticonvulsant']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'DrugBank (https://go.drugbank.com/drugs/DB00668) has this drug modulating beta receptors but not for glaucoma. For this indication, the ligand should be an antagonist (and epinephrine is an agonist instead).', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476\\ufeff', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482\\ufeff', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'REACT:R-HSA-416476\\ufeff', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482\\ufeff', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL679/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'DrugBank (https://go.drugbank.com/drugs/DB00668) has this drug modulating beta receptors but not for glaucoma. For this indication, the ligand should be an antagonist (and epinephrine is an agonist instead)', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous Humor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL679/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D005902_3', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-5357956'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-5357786'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5357956', 'target': 'MESH:D016923'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5357786', 'target': 'GO:0006915'}, {'key': 'occurs in', 'source': 'MESH:D016923', 'target': 'CL:0000740'}, {'key': 'occurs in', 'source': 'GO:0006915', 'target': 'CL:0000740'}, {'key': 'disrupted by', 'source': 'CL:0000740', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-5357956', 'label': 'Pathway', 'name': 'TNFR1-induced NFkappaB signaling pathway'}, {'id': 'REACT:R-HSA-5357786', 'label': 'Pathway', 'name': 'TNFR1-induced proapoptotic signaling'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D016923', 'label': 'BiologicalProcess', 'name': 'Cell Death'}, {'id': 'CL:0000740', 'label': 'Cell', 'name': 'retinal ganglion cell'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Retinal_ganglion_cell#Pathology', 'https://europepmc.org/article/PMC/5497582', 'https://europepmc.org/article/MED/32774906', 'https://www.targetvalidation.org/evidence/ENSG00000232810/EFO_0000516?view=sec:literature']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D000707_1', 'disease': 'Anaphylaxis', 'disease_mesh': 'MESH:D000707', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416482\\ufeff'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'REACT:R-HSA-418555\\ufeff'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-418555\\ufeff', 'target': 'GO:0006939'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-418555\\ufeff', 'target': 'GO:0002553'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476\\ufeff', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482\\ufeff', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001025'}, {'key': 'positively correlated with', 'source': 'HP:0001025', 'target': 'MESH:D000707'}, {'key': 'positively correlated with', 'source': 'GO:0002553', 'target': 'MESH:D000707'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'MESH:D000707'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'REACT:R-HSA-416476\\ufeff', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482\\ufeff', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418555\\ufeff', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0001025', 'label': 'PhenotypicFeature', 'name': 'Urticaria'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'histamine secretion by mast cell'}, {'id': 'MESH:D000707', 'label': 'Disease', 'name': 'Anaphylaxis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Adrenergic_receptor', 'https://europepmc.org/article/med/32931210', 'https://allergy.org.au/patients/allergy-treatment/adrenaline-for-severe-allergies']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D007022_1', 'disease': 'Low blood pressure', 'disease_mesh': 'MESH:D007022', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0033533'}, {'key': 'negatively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D007022'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'MESH:D007022', 'label': 'Disease', 'name': 'Low blood pressure'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'http://pathwaymedicine.org/Epinephrine', 'https://en.wikipedia.org/wiki/Beta-1_adrenergic_receptor', 'https://en.wikipedia.org/wiki/Adrenergic_receptor#History']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Tiopronin is a cystine depleting agent (MESH:D065104).', 'directed': True, 'graph': {'_id': 'DB06823_MESH_D003555_1', 'disease': 'Cystinuria', 'disease_mesh': 'MESH:D003555', 'drug': 'tiopronin', 'drug_mesh': 'MESH:D008625', 'drugbank': 'DB:DB06823'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D008625', 'target': 'CHEBI:17376'}, {'key': 'causes', 'source': 'CHEBI:17376', 'target': 'HP:0000787'}, {'key': 'causes', 'source': 'CHEBI:17376', 'target': 'HP:0033067'}, {'key': 'manifestation of', 'source': 'HP:0000787', 'target': 'MESH:D003555'}, {'key': 'manifestation of', 'source': 'HP:0033067', 'target': 'MESH:D003555'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008625', 'label': 'Drug', 'name': 'Tiopronin'}, {'id': 'CHEBI:17376', 'label': 'ChemicalSubstance', 'name': 'cystine'}, {'id': 'HP:0033067', 'label': 'PhenotypicFeature', 'name': 'Cystine crystalluria'}, {'id': 'HP:0000787', 'label': 'PhenotypicFeature', 'name': 'Nephrolithiasis'}, {'id': 'MESH:D003555', 'label': 'Disease', 'name': 'Cystinuria'}], 'reference': ['https://go.drugbank.com/drugs/DB06823#mechanism-of-action', 'https://en.wikipedia.org/wiki/Tiopronin#Uses', 'https://dailymed.nlm.nih.gov/dailymed/lookup.cfm?setid=494a714e-923c-cd57-df6c-12886afb265a#nlm34090-1']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Colesevelamid is a type of ion exchange resin (MESH:D007475).', 'directed': True, 'graph': {'_id': 'DB00930_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'colesevelam', 'drug_mesh': 'MESH:D000069472', 'drugbank': 'DB:DB00930'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D000069472', 'target': 'CHEBI:47774'}, {'key': 'positively correlated with', 'source': 'CHEBI:47774', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069472', 'label': 'Drug', 'name': 'colesevelam'}, {'id': 'CHEBI:47774', 'label': 'ChemicalSubstance', 'name': 'low-density lipoprotein cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00930', 'https://en.wikipedia.org/wiki/Colesevelam']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05219_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'crisaborole', 'drug_mesh': 'MESH:C543085', 'drugbank': 'DB:DB05219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:P27815'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q07343'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q08493'}, {'key': 'negatively regulates', 'source': 'MESH:C543085', 'target': 'UniProt:Q08499'}, {'key': 'positively correlated with', 'source': 'UniProt:P27815', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q07343', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q08493', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'UniProt:Q08499', 'target': 'GO:0006198'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032680'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032674'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032663'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032673'}, {'key': 'positively correlated with', 'source': 'GO:0006198', 'target': 'GO:0032649'}, {'key': 'positively correlated with', 'source': 'GO:0032680', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032674', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032663', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032649', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032673', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0032673', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032649', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032663', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032674', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0032680', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'MESH:D003876'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543085', 'label': 'Drug', 'name': 'crisaborole'}, {'id': 'UniProt:P27815', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4A\"}, {'id': 'UniProt:Q07343', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4B\"}, {'id': 'UniProt:Q08493', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4C\"}, {'id': 'UniProt:Q08499', 'label': 'Protein', 'name': \"cAMP-specific 3',5'-cyclic phosphodiesterase 4D\"}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0032680', 'label': 'BiologicalProcess', 'name': 'regulation of tumor necrosis factor production'}, {'id': 'GO:0032674', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-5 production'}, {'id': 'GO:0032663', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-2 production'}, {'id': 'GO:0032673', 'label': 'BiologicalProcess', 'name': 'regulation of interleukin-4 production'}, {'id': 'GO:0032649', 'label': 'BiologicalProcess', 'name': 'regulation of interferon-gamma production'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'immune response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB05219#mechanism-of-action', 'https://en.wikipedia.org/wiki/Crisaborole#Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D008258_1', 'disease': 'Waldenström macroglobulinemia', 'disease_mesh': 'MESH:D008258', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D008258'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D008258'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D008258'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D008258', 'label': 'Disease', 'name': 'Waldenström macroglobulinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D020522'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D020522'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01037_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P27338'}, {'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042420'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042420'}, {'key': 'decreases abundance of', 'source': 'GO:0042420', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0001963'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0042420', 'label': 'BiologicalProcess', 'name': 'dopamine catabolic process'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01037#mechanism-of-action', 'https://en.wikipedia.org/wiki/Monoamine_oxidase_inhibitor#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01037_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P27338'}, {'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042402'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D003865'}, {'key': 'negatively correlated with', 'source': 'GO:0099155', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, noradrenergic'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01037#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01261_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'sitagliptin', 'drug_mesh': 'MESH:D000068900', 'drugbank': 'DB:DB01261'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000068900', 'target': 'UniProt:P27487'}, {'key': 'participates in', 'source': 'UniProt:P27487', 'target': 'REACT:R-HSA-381771'}, {'key': 'participates in', 'source': 'UniProt:P27487', 'target': 'REACT:R-HSA-400511'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-381771', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-400511', 'target': 'GO:0030073'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-381771', 'target': 'GO:0070091'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-400511', 'target': 'GO:0070091'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'MESH:D003924'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068900', 'label': 'Drug', 'name': 'sitagliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'REACT:R-HSA-381771', 'label': 'Pathway', 'name': 'Synthesis, secretion, and inactivation of Glucagon-like Peptide-1 (GLP-1)'}, {'id': 'REACT:R-HSA-400511', 'label': 'Pathway', 'name': 'Synthesis, secretion, and inactivation of Glucose-dependent Insulinotropic Polypeptide (GIP)'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin Secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01261#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sitagliptin', 'https://en.wikipedia.org/wiki/Dipeptidyl_peptidase-4_inhibitor', 'https://en.wikipedia.org/wiki/Incretin#Medical_uses', 'https://en.wikipedia.org/wiki/Type_2_diabetes#Pathophysiology']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05229_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'beraprost', 'drug_mesh': 'MESH:C048081', 'drugbank': 'DB:DB05229'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C048081', 'target': 'UniProt:P43119'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43119', 'target': 'MESH:D002118'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C048081', 'label': 'Drug', 'name': 'beraprost'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB05229#mechanism-of-action', 'https://en.wikipedia.org/wiki/Beraprost']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08871_MESH_D008080_1', 'disease': 'Liposarcoma', 'disease_mesh': 'MESH:D008080', 'drug': 'eribulin', 'drug_mesh': 'MESH:C490954', 'drugbank': 'DB:DB08871'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C490954', 'target': 'PR:000028799'}, {'key': 'positively regulates', 'source': 'PR:000028799', 'target': 'GO:0000278'}, {'key': 'positively regulates', 'source': 'PR:000028799', 'target': 'GO:0051225'}, {'key': 'negatively correlated with', 'source': 'GO:0000278', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0051225', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D008080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C490954', 'label': 'Drug', 'name': 'eribulin'}, {'id': 'PR:000028799', 'label': 'MacromolecularComplex', 'name': 'Tubulin'}, {'id': 'GO:0000278', 'label': 'BiologicalProcess', 'name': 'mitotic cell cycle'}, {'id': 'GO:0051225', 'label': 'BiologicalProcess', 'name': 'spindle assembly'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D008080', 'label': 'Disease', 'name': 'Liposarcoma'}], 'reference': ['https://alpha.targetvalidation.org/drug/CHEMBL1683590', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1683590/', 'https://en.wikipedia.org/wiki/Eribulin#Structure_and_mechanism', 'https://en.wikipedia.org/wiki/Microtubule#Tubulin-binding_drugs_and_chemical_effects', 'https://go.drugbank.com/drugs/DB08871#mechanism-of-action']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The reviewed (SwissProt) entry is Q05940 (supersedes entry available on DrugBank i.e.Q99870. The Ensembl gene ID is ENSG00000165646)', 'directed': True, 'graph': {'_id': 'DB11915_MESH_D000071057_1', 'disease': 'Tardive dyskinesia', 'disease_mesh': 'MESH:D000071057', 'drug': 'valbenazine', 'drug_mesh': 'MESH:C000603978', 'drugbank': 'DB:DB11915'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000603978', 'target': 'UniProt:Q05940'}, {'key': 'positively regulates', 'source': 'UniProt:Q05940', 'target': 'GO:0015842'}, {'key': 'positively correlated with', 'source': 'GO:0015842', 'target': 'REACT:R-HSA-212676'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-212676', 'target': 'MESH:D000071057'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000603978', 'label': 'Drug', 'name': 'valbenazine'}, {'id': 'UniProt:Q05940', 'label': 'Protein', 'name': 'Synaptic vesicular amine transporter'}, {'id': 'GO:0015842', 'label': 'BiologicalProcess', 'name': 'aminergic neurotransmitter loading into synaptic vesicle'}, {'id': 'REACT:R-HSA-212676', 'label': 'Pathway', 'name': 'Dopamine Neurotransmitter Release Cycle'}, {'id': 'MESH:D000071057', 'label': 'Disease', 'name': 'Tardive dyskinesia'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2364639/', 'https://go.drugbank.com/drugs/DB11915#mechanism-of-action', 'https://en.wikipedia.org/wiki/Valbenazine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12323_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'Radotinib', 'drug_mesh': 'MESH:C000606751', 'drugbank': 'DB:DB12323'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'UniProt:P00519'}, {'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'MESH:D016044'}, {'key': 'decreases activity of', 'source': 'MESH:C000606751', 'target': 'MESH:D017479'}, {'key': 'positively regulates', 'source': 'UniProt:P00519', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'MESH:D016044', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'MESH:D017479', 'target': 'GO:0004713'}, {'key': 'positively correlated with', 'source': 'UniProt:P00519', 'target': 'GO:0035791'}, {'key': 'positively correlated with', 'source': 'MESH:D016044', 'target': 'GO:0035791'}, {'key': 'positively correlated with', 'source': 'MESH:D017479', 'target': 'GO:0048008'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035791', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0004713', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0001525', 'target': 'MESH:D015464'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000606751', 'label': 'Drug', 'name': 'Radotinib'}, {'id': 'UniProt:P00519', 'label': 'Protein', 'name': 'Tyrosine-protein kinase ABL1'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'MESH:D017479', 'label': 'GeneFamily', 'name': 'Receptors, Platelet-Derived Growth Factor'}, {'id': 'GO:0004713', 'label': 'MolecularActivity', 'name': 'protein tyrosine kinase activity'}, {'id': 'GO:0035791', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor-beta signaling pathway'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0048008', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor signaling pathway'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'angiogenesis'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB12323#mechanism-of-action', 'https://en.wikipedia.org/wiki/Radotinib', 'https://drugcentral.org/drugcard/5188']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'comment': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P51787'}, {'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q12809'}, {'key': 'participates in', 'source': 'UniProt:P51787', 'target': 'REACT:R-HSA-1296072'}, {'key': 'participates in', 'source': 'UniProt:P51787', 'target': 'REACT:R-HSA-5576890'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-1296072'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-5576890'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-1296072', 'target': 'GO:0086013'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-5576890', 'target': 'GO:0086013'}, {'key': 'negatively correlated with', 'source': 'GO:0086013', 'target': 'HP:0001657'}, {'key': 'positively correlated with', 'source': 'HP:0001657', 'target': 'HP:0004308'}, {'key': 'positively correlated with', 'source': 'HP:0004308', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'bepridil'}, {'id': 'UniProt:P51787', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily KQT member 1'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily H member 2'}, {'id': 'REACT:R-HSA-5576890', 'label': 'Pathway', 'name': 'Phase 3 - rapid repolarisation'}, {'id': 'REACT:R-HSA-1296072', 'label': 'Pathway', 'name': 'Voltage gated Potassium channels'}, {'id': 'GO:0086013', 'label': 'BiologicalProcess', 'name': 'membrane repolarization during cardiac muscle cell action potential'}, {'id': 'HP:0001657', 'label': 'PhenotypicFeature', 'name': 'Prolonged QT interval'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#mechanism-of-action', 'https://www.cvpharmacology.com/antiarrhy/potassium-blockers', 'https://pubmed.ncbi.nlm.nih.gov/1280569/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_2', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015764', 'target': 'UniProt:P05023'}, {'key': 'positively regulates', 'source': 'UniProt:P05023', 'target': 'GO:0036376'}, {'key': 'positively correlated with', 'source': 'GO:0036376', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P05023', 'label': 'Protein', 'name': 'Sodium/potassium-transporting ATPase subunit alpha-1'}, {'id': 'GO:0036376', 'label': 'BiologicalProcess', 'name': 'sodium ion export across plasma membrane'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'references': 'https://go.drugbank.com/drugs/DB01244#BE0000732 https://www.ahajournals.org/doi/full/10.1161/01.STR.29.3.705'}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_3', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:O00555'}, {'key': 'positively correlated with', 'source': 'UniProt:O00555', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0060047'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1903779'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D017202'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'negatively correlated with', 'source': 'GO:1903779', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:O00555', 'label': 'Protein', 'name': 'Voltage-dependent P/Q-type calcium channel subunit alpha-1A'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'GO:1903779', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac conduction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0000356', 'https://en.wikipedia.org/wiki/Calcium_channel_blocker#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Bepridil', 'https://www.cvpharmacology.com/vasodilator/CCB']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_4', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:O95180'}, {'key': 'positively correlated with', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'UniProt:O95180', 'target': 'GO:0086046'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0060047'}, {'key': 'positively regulates', 'source': 'GO:0086046', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0086046', 'label': 'BiologicalProcess', 'name': 'membrane depolarization during SA node cell action potential'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0000864', 'https://en.wikipedia.org/wiki/T-type_calcium_channel', 'https://www.cvpharmacology.com/vasodilator/CCB']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': \"note that this drug is only associated with calcium channel blockers in ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1008/), not with potassium channel blockers (or other targets) as DrugBank has it. This drug is no longer sold in the United States. It's been implicated in causing ventricular arrhythmia.\", 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_5', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q9NY47'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NY47', 'target': 'GO:0061337'}, {'key': 'positively correlated with', 'source': 'GO:0061337', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0002396', 'https://en.wikipedia.org/wiki/T-type_calcium_channel', 'https://www.cvpharmacology.com/vasodilator/CCB', 'https://en.wikipedia.org/wiki/Voltage-gated_calcium_channel#%CE%B12%CE%B4_Subunit']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_6', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P63316'}, {'key': 'positively regulates', 'source': 'UniProt:P63316', 'target': 'GO:0055117'}, {'key': 'negatively correlated with', 'source': 'GO:0055117', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P63316', 'label': 'Protein', 'name': 'Troponin C, slow skeletal and cardiac muscles'}, {'id': 'GO:0055117', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0001024', 'https://en.wikipedia.org/wiki/Troponin_C_type_1#Troponin-binding_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_7', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P0DP23'}, {'key': 'positively regulates', 'source': 'UniProt:P0DP23', 'target': 'GO:0055117'}, {'key': 'negatively correlated with', 'source': 'GO:0055117', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P0DP23', 'label': 'Protein', 'name': 'Calmodulin-1'}, {'id': 'GO:0055117', 'label': 'BiologicalProcess', 'name': 'regulation of cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0001024']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'This drug does not interact directly with the catalytic site of PDE1 but interact at the level of calmodulin binding sites (https://en.wikipedia.org/wiki/PDE1#Inhibitors_and_their_function)', 'directed': True, 'graph': {'_id': 'DB01244_MESH_D000787_8', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'bepridil', 'drug_mesh': 'MESH:D015764', 'drugbank': 'DB:DB01244'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:Q01064'}, {'key': 'negatively regulates', 'source': 'MESH:D015764', 'target': 'UniProt:P54750'}, {'key': 'molecularly interacts with', 'source': 'UniProt:Q01064', 'target': 'MESH:D002147'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P54750', 'target': 'MESH:D002147'}, {'key': 'positively correlated with', 'source': 'MESH:D002147', 'target': 'GO:0060048'}, {'key': 'negatively correlated with', 'source': 'GO:0060048', 'target': 'MESH:D017202'}, {'key': 'positively correlated with', 'source': 'MESH:D017202', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015764', 'label': 'Drug', 'name': 'Bepridil'}, {'id': 'UniProt:P54750', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1A\"}, {'id': 'UniProt:Q01064', 'label': 'Protein', 'name': \"Calcium/calmodulin-dependent 3',5'-cyclic nucleotide phosphodiesterase 1B\"}, {'id': 'MESH:D002147', 'label': 'Protein', 'name': 'Calmodulin'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'cardiac muscle contraction'}, {'id': 'MESH:D017202', 'label': 'PhenotypicFeature', 'name': 'Myocardial Ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01244#BE0003323', 'https://go.drugbank.com/drugs/DB01244#BE0003565']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13761_MESH_D007787_1', 'disease': 'Lactose intolerance', 'disease_mesh': 'MESH:D007787', 'drug': 'Tilactase', 'drug_mesh': None, 'drugbank': 'DB:DB13761'}, 'links': [{'key': 'increases degradation of', 'source': 'DB:DB13761', 'target': 'CHEBI:17716'}, {'key': 'has metabolite', 'source': 'CHEBI:17716', 'target': 'CHEBI:28061'}, {'key': 'has metabolite', 'source': 'CHEBI:17716', 'target': 'CHEBI:4167'}, {'key': 'positively correlated with', 'source': 'CHEBI:28061', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'CHEBI:4167', 'target': 'GO:0050892'}, {'key': 'disrupted by', 'source': 'GO:0050892', 'target': 'MESH:D007787'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB13761', 'label': 'Drug', 'name': 'Tilactase'}, {'id': 'CHEBI:17716', 'label': 'ChemicalSubstance', 'name': 'Lactose'}, {'id': 'CHEBI:4167', 'label': 'ChemicalSubstance', 'name': 'D-glucopyranose'}, {'id': 'CHEBI:28061', 'label': 'ChemicalSubstance', 'name': 'α-D-galactose'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal absorption'}, {'id': 'MESH:D007787', 'label': 'Disease', 'name': 'Lactose intolerance'}], 'reference': ['https://go.drugbank.com/drugs/DB13761#mechanism-of-action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'increases abundance of', 'source': 'GO:0043627', 'target': 'MESH:D012701'}, {'key': 'negatively correlated with', 'source': 'MESH:D012701', 'target': 'MESH:D019964'}, {'key': 'positively correlated with', 'source': 'MESH:D019964', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D019964', 'label': 'Disease', 'name': 'Mood Disorders'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://pubmed.ncbi.nlm.nih.gov/29876339/', 'https://en.wikipedia.org/wiki/Premenstrual_dysphoric_disorder']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'treats', 'source': 'GO:0043627', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00977']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000317'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0006702'}, {'key': 'positively correlated with', 'source': 'CL:0000317', 'target': 'MESH:D000152'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'MESH:D000728'}, {'key': 'contributes to', 'source': 'MESH:D000728', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000317', 'label': 'Cell', 'name': 'Sebum secreting cell'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'Androgen synthesis'}, {'id': 'MESH:D000728', 'label': 'ChemicalSubstance', 'name': 'Androgens'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5015761/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'prevents', 'source': 'GO:0043627', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00977']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00977_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Ethinylestradiol', 'drug_mesh': 'MESH:D004997', 'drugbank': 'DB:DB00977'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004997', 'target': 'UniProt:P03372'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0046849'}, {'key': 'contributes to', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'contributes to', 'source': 'GO:0046849', 'target': 'MESH:D015663'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004997', 'label': 'Drug', 'name': 'Ethinylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00977', 'https://pubmed.ncbi.nlm.nih.gov/22595550/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Only for treatment of mild haemophilia', 'directed': True, 'graph': {'_id': 'DB00067_MESH_D006467_1', 'disease': 'Factor VIII Deficiency (Haemophilia A)', 'disease_mesh': 'MESH:D006467', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C016671', 'target': 'UniProt:P00451'}, {'key': 'disrupted by', 'source': 'UniProt:P00451', 'target': 'MESH:D006467'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'UniProt:P00451', 'label': 'Protein', 'name': 'Coagulation factor VIII'}, {'id': 'MESH:D006467', 'label': 'Disease', 'name': 'Hereditary factor VIII deficiency disease'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/18173690/', 'https://go.drugbank.com/drugs/DB00067']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00067_MESH_D053206_1', 'disease': 'Nocturnal enuresis', 'disease_mesh': 'MESH:D053206', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C016671', 'target': 'GO:0035810'}, {'key': 'positively correlated with', 'source': 'GO:0035810', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'GO:0035810', 'label': 'BiologicalProcess', 'name': 'Diuresis'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053206', 'label': 'Disease', 'name': 'Nocturnal enuresis'}], 'reference': ['https://go.drugbank.com/drugs/DB00067', 'https://en.wikipedia.org/wiki/Nocturnal_enuresis', 'https://pubmed.ncbi.nlm.nih.gov/29123651/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00067_MESH_D014842_1', 'disease': 'Von Willebrand disorder', 'disease_mesh': 'MESH:D014842', 'drug': 'Vasopressin', 'drug_mesh': 'MESH:C016671', 'drugbank': 'DB:DB00067'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C016671', 'target': 'UniProt:P04275'}, {'key': 'disrupted by', 'source': 'UniProt:P04275', 'target': 'MESH:D014842'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016671', 'label': 'Drug', 'name': 'Vasopressin'}, {'id': 'UniProt:P04275', 'label': 'Protein', 'name': 'Von Willebrand factor'}, {'id': 'MESH:D014842', 'label': 'Disease', 'name': 'Von Willebrand disorder'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2599976/', 'https://go.drugbank.com/drugs/DB00067']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D007172_2', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'Sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'CHEBI:16356'}, {'key': 'positively regulates', 'source': 'CHEBI:16356', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'GO:0044557', 'target': 'GO:0008015'}, {'key': 'positively correlated with', 'source': 'GO:0008015', 'target': 'GO:0043084'}, {'key': 'negatively correlated with', 'source': 'GO:0043084', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'Sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'GO:0043084', 'label': 'BiologicalProcess', 'name': 'Penile erection'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB00203#BE0000182']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00203_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'Sildenafil', 'drug_mesh': 'MESH:D000068677', 'drugbank': 'DB:DB00203'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068677', 'target': 'UniProt:O76074'}, {'key': 'decreases abundance of', 'source': 'UniProt:O76074', 'target': 'CHEBI:16356'}, {'key': 'positively regulates', 'source': 'CHEBI:16356', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068677', 'label': 'Drug', 'name': 'Sildenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00203#BE0000182']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00491_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Miglitol', 'drug_mesh': 'MESH:C045621', 'drugbank': 'DB:DB00491'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:O43451'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:P10253'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:Q14697'}, {'key': 'decreases activity of', 'source': 'MESH:C045621', 'target': 'UniProt:Q8TET4'}, {'key': 'positively regulates', 'source': 'UniProt:O43451', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:P10253', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:Q14697', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'UniProt:Q8TET4', 'target': 'GO:0044245'}, {'key': 'positively regulates', 'source': 'GO:0044245', 'target': 'GO:0106001'}, {'key': 'positively regulates', 'source': 'GO:0106001', 'target': 'MESH:D001786'}, {'key': 'positively correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045621', 'label': 'Drug', 'name': 'Miglitol'}, {'id': 'UniProt:O43451', 'label': 'Protein', 'name': 'Maltase-glucoamylase, intestinal'}, {'id': 'UniProt:P10253', 'label': 'Protein', 'name': 'Lysosomal alpha-glucosidase'}, {'id': 'UniProt:Q14697', 'label': 'Protein', 'name': 'Neutral alpha-glucosidase AB'}, {'id': 'UniProt:Q8TET4', 'label': 'Protein', 'name': 'Neutral alpha-glucosidase C'}, {'id': 'GO:0044245', 'label': 'BiologicalProcess', 'name': 'Polysaccharide digestion'}, {'id': 'GO:0106001', 'label': 'BiologicalProcess', 'name': 'Intestinal hexose absorption'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00491']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'The mode of action of pentamidine is not fully understood', 'directed': True, 'graph': {'_id': 'DB00738_MESH_D014353_1', 'disease': 'African trypanosomiasis', 'disease_mesh': 'MESH:D014353', 'drug': 'Pentamidine', 'drug_mesh': 'MESH:D010419', 'drugbank': 'DB:DB00738'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D010419', 'target': 'MESH:D004247'}, {'key': 'negatively regulates', 'source': 'MESH:D010419', 'target': 'GO:0006412'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5691'}, {'key': 'occurs in', 'source': 'GO:0006412', 'target': 'NCBITaxon:5691'}, {'key': 'causes', 'source': 'NCBITaxon:5691', 'target': 'MESH:D014353'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010419', 'label': 'Drug', 'name': 'Pentamidine'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein biosynthesis'}, {'id': 'NCBITaxon:5691', 'label': 'OrganismTaxon', 'name': 'Trypanosoma brucei'}, {'id': 'MESH:D014353', 'label': 'Disease', 'name': 'African trypanosomiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00738']}\n", - "['Drug', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Exactly how auranofin works is not well understood', 'directed': True, 'graph': {'_id': 'DB00995_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Auranofin', 'drug_mesh': 'MESH:D001310', 'drugbank': 'DB:DB00995'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001310', 'target': 'UniProt:O14920'}, {'key': 'negatively regulates', 'source': 'MESH:D001310', 'target': 'CL:0000235'}, {'key': 'positively regulates', 'source': 'UniProt:O14920', 'target': 'GO:0006955'}, {'key': 'participates in', 'source': 'CL:0000235', 'target': 'GO:0006955'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001310', 'label': 'Drug', 'name': 'Auranofin'}, {'id': 'UniProt:O14920', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit beta'}, {'id': 'CL:0000235', 'label': 'Cell', 'name': 'Macrophage'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://www.sciencedirect.com/topics/chemistry/auranofin', 'https://go.drugbank.com/drugs/DB00995']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01004_MESH_D007635_1', 'disease': 'Herpes simplex dendritic keratitis', 'disease_mesh': 'MESH:D007635', 'drug': 'Ganciclovir', 'drug_mesh': 'MESH:D015774', 'drugbank': 'DB:DB01004'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D015774', 'target': 'MESH:D004247'}, {'key': 'decreases activity of', 'source': 'MESH:D015774', 'target': 'UniProt:P04293'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0019079'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10298'}, {'key': 'causes', 'source': 'NCBITaxon:10298', 'target': 'MESH:D007635'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015774', 'label': 'Drug', 'name': 'Ganciclovir'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit (Human herpesvirus 1)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:10298', 'label': 'OrganismTaxon', 'name': 'Human herpesvirus type 1'}, {'id': 'MESH:D007635', 'label': 'Disease', 'name': 'Herpes simplex dendritic keratitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01004#BE0000308', 'https://en.wikipedia.org/wiki/Cytomegalovirus_retinitis']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01004_MESH_D017726_1', 'disease': 'Cytomegaloviral retinitis', 'disease_mesh': 'MESH:D017726', 'drug': 'Ganciclovir', 'drug_mesh': 'MESH:D015774', 'drugbank': 'DB:DB01004'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D015774', 'target': 'MESH:D004247'}, {'key': 'decreases activity of', 'source': 'MESH:D015774', 'target': 'UniProt:P08546'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0019079'}, {'key': 'positively regulates', 'source': 'UniProt:P08546', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10359'}, {'key': 'causes', 'source': 'NCBITaxon:10359', 'target': 'MESH:D017726'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015774', 'label': 'Drug', 'name': 'Ganciclovir'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'UniProt:P08546', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit (Human cytomegalovirus)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:10359', 'label': 'OrganismTaxon', 'name': 'Human cytomegalovirus'}, {'id': 'MESH:D017726', 'label': 'Disease', 'name': 'Cytomegaloviral retinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01004#BE0000308', 'https://en.wikipedia.org/wiki/Cytomegalovirus_retinitis']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0086003'}, {'key': 'negatively correlated with', 'source': 'GO:0086003', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0086003', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell contraction'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D054537_1', 'disease': 'Atrioventricular block', 'disease_mesh': 'MESH:D054537', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0086003'}, {'key': 'negatively correlated with', 'source': 'GO:0086003', 'target': 'MESH:D054537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0086003', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell contraction'}, {'id': 'MESH:D054537', 'label': 'Disease', 'name': 'Atrioventricular block'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172', 'https://en.wikipedia.org/wiki/Atrioventricular_block']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D002303_1', 'disease': 'Low cardiac output syndrome', 'disease_mesh': 'MESH:D002303', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D002303'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'MESH:D002303', 'label': 'Disease', 'name': 'Low cardiac output syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'HP:0002098'}, {'key': 'occurs in', 'source': 'HP:0002098', 'target': 'MESH:D003139'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0006954'}, {'key': 'occurs in', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Smooth muscle relaxation'}, {'id': 'HP:0002098', 'label': 'PhenotypicFeature', 'name': 'Respiratory distress'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5904268/', 'https://pubmed.ncbi.nlm.nih.gov/33219396/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01064_MESH_D012769_1', 'disease': 'Hypovolemic shock', 'disease_mesh': 'MESH:D012769', 'drug': 'Isoprenaline', 'drug_mesh': 'MESH:D007545', 'drugbank': 'DB:DB01064'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P08588'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P07550'}, {'key': 'increases activity of', 'source': 'MESH:D007545', 'target': 'UniProt:P13945'}, {'key': 'increases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'HP:0033532'}, {'key': 'positively correlated with', 'source': 'HP:0033532', 'target': 'MESH:D012769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007545', 'label': 'Drug', 'name': 'Isoprenaline'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'HP:0033532', 'label': 'PhenotypicFeature', 'name': 'Decreased cardiac output'}, {'id': 'MESH:D012769', 'label': 'Disease', 'name': 'Hypovolemic shock'}], 'reference': ['https://go.drugbank.com/drugs/DB01064#BE0000172']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB06692_MESH_D006470_1', 'disease': 'Hemorrhage', 'disease_mesh': 'MESH:D006470', 'drug': 'Aprotinin', 'drug_mesh': 'MESH:D007611', 'drugbank': 'DB:DB06692'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007611', 'target': 'InterPro:IPR001254'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001254', 'target': 'GO:0042730'}, {'key': 'positively correlated with', 'source': 'GO:0042730', 'target': 'MESH:D006470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007611', 'label': 'Drug', 'name': 'Aprotinin'}, {'id': 'InterPro:IPR001254', 'label': 'GeneFamily', 'name': 'Serine proteases, trypsin domain'}, {'id': 'GO:0042730', 'label': 'BiologicalProcess', 'name': 'Fibrinolysis'}, {'id': 'MESH:D006470', 'label': 'Disease', 'name': 'Hemorrhage'}], 'reference': ['https://en.wikipedia.org/wiki/Aprotinin', 'https://go.drugbank.com/drugs/DB06692']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09036_MESH_D005871_1', 'disease': 'Angiofollicular lymph node hyperplasia', 'disease_mesh': 'MESH:D005871', 'drug': 'Siltuximab', 'drug_mesh': 'MESH:C504234', 'drugbank': 'DB:DB09036'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C504234', 'target': 'UniProt:P05231'}, {'key': 'positively correlated with', 'source': 'UniProt:P05231', 'target': 'MESH:D005871'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C504234', 'label': 'Drug', 'name': 'Siltuximab'}, {'id': 'UniProt:P05231', 'label': 'Protein', 'name': 'Interleukin-6'}, {'id': 'MESH:D005871', 'label': 'Disease', 'name': 'Angiofollicular lymph node hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB09036']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11770_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Talinolol', 'drug_mesh': 'MESH:C011550', 'drugbank': 'DB:DB11770'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C011550', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011550', 'label': 'Drug', 'name': 'Talinolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/Talinolol#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/8829891/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Hives']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Sneeze']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/14561186/', 'https://go.drugbank.com/drugs/DB00434']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00960_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Pindolol', 'drug_mesh': 'MESH:D010869', 'drugbank': 'DB:DB00960'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010869', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010869', 'label': 'Drug', 'name': 'Pindolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://en.wikipedia.org/wiki/Beta-1_adrenergic_receptor', 'https://go.drugbank.com/drugs/DB00960#BE0000694']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00188_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'Bortezomib', 'drug_mesh': 'MESH:D000069286', 'drugbank': 'DB:DB00188'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'GO:0071159'}, {'key': 'participates in', 'source': 'UniProt:P28074', 'target': 'GO:0043161'}, {'key': 'participates in', 'source': 'UniProt:P20618', 'target': 'GO:0043161'}, {'key': 'negatively regulates', 'source': 'GO:0071159', 'target': 'GO:0006915'}, {'key': 'negatively regulates', 'source': 'GO:0043161', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069286', 'label': 'Drug', 'name': 'Bortezomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0043161', 'label': 'BiologicalProcess', 'name': 'Proteasome-mediated ubiquitin-dependent protein catabolic process'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://en.wikipedia.org/wiki/Bortezomib', 'https://go.drugbank.com/drugs/DB00188']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00188_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Bortezomib', 'drug_mesh': 'MESH:D000069286', 'drugbank': 'DB:DB00188'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'MESH:D000069286', 'target': 'GO:0071159'}, {'key': 'participates in', 'source': 'UniProt:P28074', 'target': 'GO:0043161'}, {'key': 'participates in', 'source': 'UniProt:P20618', 'target': 'GO:0043161'}, {'key': 'negatively regulates', 'source': 'GO:0071159', 'target': 'GO:0006915'}, {'key': 'negatively regulates', 'source': 'GO:0043161', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069286', 'label': 'Drug', 'name': 'Bortezomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0043161', 'label': 'BiologicalProcess', 'name': 'Proteasome-mediated ubiquitin-dependent protein catabolic process'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://en.wikipedia.org/wiki/Bortezomib', 'https://go.drugbank.com/drugs/DB00188']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01042_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Melphalan', 'drug_mesh': 'MESH:D008558', 'drugbank': 'DB:DB01042'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008558', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0090592'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008558', 'label': 'Drug', 'name': 'Melphalan'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://go.drugbank.com/drugs/DB01042']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01042_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Melphalan', 'drug_mesh': 'MESH:D008558', 'drugbank': 'DB:DB01042'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008558', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0090592'}, {'key': 'part of', 'source': 'GO:0090592', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008558', 'label': 'Drug', 'name': 'Melphalan'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://go.drugbank.com/drugs/DB01042']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01138_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'Sulfinpyrazone', 'drug_mesh': 'MESH:D013442', 'drugbank': 'DB:DB01138'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013442', 'target': 'UniProt:Q96S37'}, {'key': 'negatively correlated with', 'source': 'UniProt:Q96S37', 'target': 'GO:0097744'}, {'key': 'negatively correlated with', 'source': 'GO:0097744', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013442', 'label': 'Drug', 'name': 'Sulfinpyrazone'}, {'id': 'UniProt:Q96S37', 'label': 'Protein', 'name': 'Solute carrier family 22 member 12'}, {'id': 'GO:0097744', 'label': 'BiologicalProcess', 'name': 'Urate salt excretion'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01138']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D002062_1', 'disease': 'Bursitis', 'disease_mesh': 'MESH:D002062', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D002062'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D002062', 'label': 'Disease', 'name': 'Bursitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D018771_1', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D013585_1', 'disease': 'Synovitis', 'disease_mesh': 'MESH:D013585', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013585', 'label': 'Disease', 'name': 'Synovitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'CHEBI:15551'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'CHEBI:15551'}, {'key': 'positively regulates', 'source': 'CHEBI:15551', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'CHEBI:15551', 'label': 'ChemicalSubstance', 'name': 'Prostaglandin E2'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB01397', 'https://en.wikipedia.org/wiki/Fever']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01397_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Magnesium salicylate', 'drug_mesh': 'MESH:C496892', 'drugbank': 'DB:DB01397'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C496892', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C496892', 'label': 'Drug', 'name': 'Magnesium salicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01397']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06794_MESH_D003233_1', 'disease': 'Vernal conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Lodoxamide', 'drug_mesh': 'MESH:C021702,MESH:C022028', 'drugbank': 'DB:DB06794'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB06794', 'target': 'GO:0043303'}, {'key': 'positively regulates', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06794', 'label': 'Drug', 'name': 'Lodoxamide'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Vernal conjunctivitis'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201266/', 'https://go.drugbank.com/drugs/DB06794']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09449_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'Sodium phosphate', 'drug_mesh': 'MESH:C018279', 'drugbank': 'DB:DB09449'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C018279', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C018279', 'label': 'Drug', 'name': 'Sodium phosphate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://go.drugbank.com/drugs/DB09449']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00434_MESH_D012912_2', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Cyproheptadine', 'drug_mesh': 'MESH:D003533', 'drugbank': 'DB:DB00434'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003533', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003533', 'label': 'Drug', 'name': 'Cyproheptadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00434', 'https://en.wikipedia.org/wiki/Sneeze']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00300_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Tenofovir disoproxil', 'drug_mesh': None, 'drugbank': 'DB:DB00300'}, 'links': [{'key': 'increases abundance of', 'source': 'DB:DB00300', 'target': 'MESH:D000068698'}, {'key': 'has metabolite', 'source': 'MESH:D000068698', 'target': 'MESH:C583447'}, {'key': 'decreases activity of', 'source': 'MESH:C583447', 'target': 'UniProt:Q72547'}, {'key': 'negatively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0006351'}, {'key': 'in taxon', 'source': 'GO:0006351', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00300', 'label': 'Drug', 'name': 'Tenofovir disoproxil'}, {'id': 'MESH:D000068698', 'label': 'Drug', 'name': 'tenofovir'}, {'id': 'MESH:C583447', 'label': 'ChemicalSubstance', 'name': 'tenofovir diphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'DNA transcription'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00300#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tenofovir-disoproxil#section=MeSH-Pharmacological-Classification', 'https://en.wikipedia.org/wiki/Tenofovir_disoproxil']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00300_MESH_D019694_1', 'disease': 'Chronic type B viral hepatitis', 'disease_mesh': 'MESH:D019694', 'drug': 'Tenofovir disoproxil', 'drug_mesh': None, 'drugbank': 'DB:DB00300'}, 'links': [{'key': 'increases abundance of', 'source': 'DB:DB00300', 'target': 'MESH:D000068698'}, {'key': 'has metabolite', 'source': 'MESH:D000068698', 'target': 'MESH:C583447'}, {'key': 'decreases activity of', 'source': 'MESH:C583447', 'target': 'UniProt:P24024'}, {'key': 'negatively regulates', 'source': 'UniProt:P24024', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:10407'}, {'key': 'causes', 'source': 'NCBITaxon:10407', 'target': 'MESH:D019694'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00300', 'label': 'Drug', 'name': 'Tenofovir disoproxil'}, {'id': 'MESH:D000068698', 'label': 'Drug', 'name': 'tenofovir'}, {'id': 'MESH:C583447', 'label': 'ChemicalSubstance', 'name': 'tenofovir diphosphate'}, {'id': 'UniProt:P24024', 'label': 'Protein', 'name': 'Hepatitis B polymerase'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:10407', 'label': 'OrganismTaxon', 'name': 'Hepatitis B virus'}, {'id': 'MESH:D019694', 'label': 'Disease', 'name': 'Chronic type B viral hepatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00300#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tenofovir-disoproxil#section=MeSH-Pharmacological-Classification', 'https://en.wikipedia.org/wiki/Tenofovir_disoproxil']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01266_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'Sinecatechins', 'drug_mesh': None, 'drugbank': 'DB:DB01266'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR001245'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001245', 'target': 'GO:1900119'}, {'key': 'increases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P04637'}, {'key': 'positively regulates', 'source': 'UniProt:P04637', 'target': 'GO:1900119'}, {'key': 'increases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P06400'}, {'key': 'positively regulates', 'source': 'UniProt:P06400', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR000837'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000837', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'InterPro:IPR003545'}, {'key': 'positively regulates', 'source': 'InterPro:IPR003545', 'target': 'GO:1900119'}, {'key': 'decreases activity of', 'source': 'DB:DB01266', 'target': 'UniProt:P03129'}, {'key': 'positively regulates', 'source': 'UniProt:P03129', 'target': 'GO:1900119'}, {'key': 'in taxon', 'source': 'GO:1900119', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01266', 'label': 'Drug', 'name': 'Sinecatechins'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Transcription factor NF-κB'}, {'id': 'InterPro:IPR001245', 'label': 'GeneFamily', 'name': 'receptor tyrosine kinase'}, {'id': 'UniProt:P04637', 'label': 'Protein', 'name': 'tumor suppressor gene p53'}, {'id': 'InterPro:IPR000837', 'label': 'GeneFamily', 'name': 'Transcription factor Activator protein-1'}, {'id': 'InterPro:IPR003545', 'label': 'GeneFamily', 'name': 'telomerase'}, {'id': 'UniProt:P06400', 'label': 'Protein', 'name': 'tumor suppressor gene pRb'}, {'id': 'GO:1900119', 'label': 'BiologicalProcess', 'name': 'apoptosis'}, {'id': 'UniProt:P03129', 'label': 'Protein', 'name': 'HPV-E7 gene expression'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://go.drugbank.com/drugs/DB01266#mechanismofaction', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4066610/', 'doi:10.4103/2589-0557.132415']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11817_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Baricitinib', 'drug_mesh': 'MESH:C000596027', 'drugbank': 'DB:DB11817'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:P23458'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:O60674'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:P52333'}, {'key': 'decreases activity of', 'source': 'MESH:C000596027', 'target': 'UniProt:Q14289'}, {'key': 'positively regulates', 'source': 'UniProt:P23458', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:O60674', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:P52333', 'target': 'InterPro:IPR001217'}, {'key': 'positively regulates', 'source': 'UniProt:Q14289', 'target': 'InterPro:IPR001217'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR001217', 'target': 'MESH:D016207'}, {'key': 'prevents', 'source': 'MESH:D016207', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000596027', 'label': 'Drug', 'name': 'Baricitinib'}, {'id': 'UniProt:P23458', 'label': 'Protein', 'name': 'Janus kinase 1'}, {'id': 'UniProt:O60674', 'label': 'Protein', 'name': 'Janus kinase 2'}, {'id': 'UniProt:P52333', 'label': 'Protein', 'name': 'Janus kinase 3'}, {'id': 'UniProt:Q14289', 'label': 'Protein', 'name': 'Tyrosine Kinase 2'}, {'id': 'InterPro:IPR001217', 'label': 'GeneFamily', 'name': 'signal transducers and activators of transcription (STATs)'}, {'id': 'MESH:D016207', 'label': 'ChemicalSubstance', 'name': 'inflammatory cytokines'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB11817#mechanismofaction']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09279_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Fimasartan', 'drug_mesh': 'MESH:C558933', 'drugbank': 'DB:DB09279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C558933', 'target': 'InterPro:IPR001004'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001004', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'MESH:C558933', 'target': 'UniProt:P30556'}, {'key': 'positively regulates', 'source': 'UniProt:P30556', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'GO:0048243', 'target': 'GO:0042310'}, {'key': 'decreases secretion of', 'source': 'MESH:C558933', 'target': 'MESH:D000450'}, {'key': 'increases response to', 'source': 'MESH:D000450', 'target': 'GO:0035819'}, {'key': 'decreases activity of', 'source': 'GO:0035819', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0011104'}, {'key': 'negatively regulates', 'source': 'HP:0011104', 'target': 'GO:0045776'}, {'key': 'correlated with', 'source': 'GO:0045776', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C558933', 'label': 'Drug', 'name': 'Fimasartan'}, {'id': 'InterPro:IPR001004', 'label': 'GeneFamily', 'name': 'α1-adrenergic receptors'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Angiotensin II receptor type 1'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'noradrenaline release'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D000450', 'label': 'ChemicalSubstance', 'name': 'aldosterone'}, {'id': 'GO:0035819', 'label': 'BiologicalProcess', 'name': 'natriuresis'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'blood volume'}, {'id': 'GO:0045776', 'label': 'BiologicalProcess', 'name': 'blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09279#mechanismofaction', 'https://en.wikipedia.org/wiki/Fimasartan#:~:text=Fimasartan%20is%20a%20non%2Dpeptide,of%20hypertension%20and%20heart%20failure.']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'negatively regulates', 'source': 'UniProt:P04150', 'target': 'REACT:R-HSA-177662'}, {'key': 'prevents', 'source': 'REACT:R-HSA-177662', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'REACT:R-HSA-177662', 'label': 'Pathway', 'name': 'NF-Kappa B pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D003424_2', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D001249_2', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01222_MESH_D065631_2', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Budesonide', 'drug_mesh': 'MESH:D019819', 'drugbank': 'DB:DB01222'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019819', 'target': 'UniProt:P04150'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'InterPro:IPR001211'}, {'key': 'increases abundance of', 'source': 'UniProt:P04150', 'target': 'UniProt:P22301'}, {'key': 'decreases activity of', 'source': 'UniProt:P22301', 'target': 'InterPro:IPR001211'}, {'key': 'prevents', 'source': 'InterPro:IPR001211', 'target': 'GO:0050482'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0019370'}, {'key': 'prevents', 'source': 'GO:0019370', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'GO:0050482', 'target': 'GO:0001516'}, {'key': 'prevents', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019819', 'label': 'Drug', 'name': 'Budesonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P22301', 'label': 'Protein', 'name': 'Interleukin 10'}, {'id': 'GO:0019370', 'label': 'Protein', 'name': 'leukotriene synthesis'}, {'id': 'InterPro:IPR001211', 'label': 'GeneFamily', 'name': 'phospholipase A2'}, {'id': 'GO:0050482', 'label': 'BiologicalProcess', 'name': 'arachidonic acid release'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01222#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Budesonide#section=Pharmacology', 'doi:10.1165/rcmb.2016-0068OC']}\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06724_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium carbonate', 'drug_mesh': 'MESH:D002119', 'drugbank': 'DB:DB06724'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D002119', 'target': 'MESH:D002118'}, {'key': 'contributes to', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002119', 'label': 'Drug', 'name': 'Calcium carbonate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB06724#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06724_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Calcium carbonate', 'drug_mesh': 'MESH:D002119', 'drugbank': 'DB:DB06724'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'InterPro:IPR034162'}, {'key': 'prevents', 'source': 'InterPro:IPR034162', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'GO:0009268'}, {'key': 'prevents', 'source': 'GO:0009268', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'GO:0032310'}, {'key': 'prevents', 'source': 'GO:0032310', 'target': 'GO:0046717'}, {'key': 'decreases activity of', 'source': 'MESH:D002119', 'target': 'InterPro:IPR034162'}, {'key': 'prevents', 'source': 'InterPro:IPR034162', 'target': 'GO:0046717'}, {'key': 'causes', 'source': 'GO:0046717', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002119', 'label': 'Drug', 'name': 'Calcium carbonate'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin'}, {'id': 'GO:0009268', 'label': 'BiologicalProcess', 'name': 'Response to pH'}, {'id': 'GO:0032310', 'label': 'BiologicalProcess', 'name': 'Prostaglandin secretion'}, {'id': 'GO:0046717', 'label': 'BiologicalProcess', 'name': 'Acid secretion'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB06724#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1313'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D012141_1', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:P45299'}, {'key': 'negatively regulates', 'source': 'UniProt:P45299', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:727'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:P45299', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0042546'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'MESH:C052018', 'target': 'GO:0018104'}, {'key': 'contributes to', 'source': 'GO:0018104', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1280'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00215_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Citalopram', 'drug_mesh': 'MESH:D015283', 'drugbank': 'DB:DB00215'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015283', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'located in', 'source': 'GO:0051610', 'target': 'GO:0043083'}, {'key': 'correlated with', 'source': 'GO:0043083', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015283', 'label': 'Drug', 'name': 'Citalopram'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Solute carrier family 6 member 4, SLC6A4'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0043083', 'label': 'CellularComponent', 'name': 'Synaptic cleft'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00215#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Citalopram#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00215_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Citalopram', 'drug_mesh': 'MESH:D015283', 'drugbank': 'DB:DB00215'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015283', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'located in', 'source': 'GO:0051610', 'target': 'GO:0043083'}, {'key': 'correlated with', 'source': 'GO:0043083', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015283', 'label': 'Drug', 'name': 'Citalopram'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Solute carrier family 6 member 4, SLC6A4'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0043083', 'label': 'CellularComponent', 'name': 'Synaptic cleft'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00215#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Citalopram#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00401_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nisoldipine', 'drug_mesh': 'MESH:D015737', 'drugbank': 'DB:DB00401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015737', 'target': 'InterPro:IPR031649'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR031649', 'target': 'MESH:D002118'}, {'key': 'negatively regulates', 'source': 'MESH:D002118', 'target': 'GO:0006939'}, {'key': 'precedes', 'source': 'GO:0006939', 'target': 'GO:0042311'}, {'key': 'prevents', 'source': 'GO:0042311', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015737', 'label': 'Drug', 'name': 'Nisoldipine'}, {'id': 'InterPro:IPR031649', 'label': 'GeneFamily', 'name': 'L-type calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00401#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Nisoldipine#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01267_MESH_D011618_1', 'disease': 'Schizoaffective disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'Paliperidone', 'drug_mesh': None, 'drugbank': 'DB:DB01267'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-162582'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-162582', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01267', 'label': 'Drug', 'name': 'Paliperidone'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha 1 adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha 2 adrenergic receptor'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-162582', 'label': 'Pathway', 'name': 'Signal transduction'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'Schizoaffective disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01267#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Paliperidone']}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'comment': \"This drug seems to be used for prophylaxis only because of its high cost and limited efficacy (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7096974/#CR20). It's believed to elicit an antibody-dependent cell-mediated cytotoxicity activity in vivo ()https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4000855/.\", 'directed': True, 'graph': {'_id': 'DB00110_MESH_D018357_1', 'disease': 'Respiratory syncytial virus infection', 'disease_mesh': 'MESH:D018357', 'drug': 'palivizumab', 'drug_mesh': 'MESH:D000069455', 'drugbank': 'DB:DB00110'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069455', 'target': 'UniProt:P13843'}, {'key': 'positively regulates', 'source': 'UniProt:P13843', 'target': 'GO:0019064'}, {'key': 'positively regulates', 'source': 'UniProt:P13843', 'target': 'GO:0046718'}, {'key': 'in taxon', 'source': 'GO:0046718', 'target': 'NCBITaxon:12814'}, {'key': 'in taxon', 'source': 'GO:0019064', 'target': 'NCBITaxon:12814'}, {'key': 'causes', 'source': 'NCBITaxon:12814', 'target': 'MESH:D018357'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069455', 'label': 'Drug', 'name': 'palivizumab'}, {'id': 'UniProt:P13843', 'label': 'Protein', 'name': 'Fusion glycoprotein F0'}, {'id': 'GO:0019064', 'label': 'BiologicalProcess', 'name': 'fusion of virus membrane with host plasma membrane'}, {'id': 'GO:0046718', 'label': 'BiologicalProcess', 'name': 'viral entry into host cell'}, {'id': 'NCBITaxon:12814', 'label': 'OrganismTaxon', 'name': 'Respiratory syncytial virus'}, {'id': 'MESH:D018357', 'label': 'Disease', 'name': 'Respiratory syncytial virus infection'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201586/', 'https://go.drugbank.com/drugs/DB00110#BE0000686', 'https://en.wikipedia.org/wiki/Respiratory_syncytial_virus#Immunoprophylaxis', 'https://en.wikipedia.org/wiki/Palivizumab']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01603_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'meticillin', 'drug_mesh': 'MESH:D008712', 'drugbank': 'DB:DB01603'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:P0A3M6'}, {'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0008955'}, {'key': 'positively correlated with', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0008955', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008712', 'label': 'Drug', 'name': 'meticillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0008955', 'label': 'MolecularActivity', 'name': 'peptidoglycan glycosyltransferase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01603#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sinusitis#Acute', 'https://en.wikipedia.org/wiki/Methicillin#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01603_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'meticillin', 'drug_mesh': 'MESH:D008712', 'drugbank': 'DB:DB01603'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:P0A3M6'}, {'key': 'negatively regulates', 'source': 'MESH:D008712', 'target': 'UniProt:Q8DR59'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'positively regulates', 'source': 'UniProt:Q8DR59', 'target': 'GO:0008955'}, {'key': 'positively correlated with', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0008955', 'target': 'GO:0018104'}, {'key': 'positively correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008712', 'label': 'Drug', 'name': 'meticillin'}, {'id': 'UniProt:Q8DR59', 'label': 'Protein', 'name': 'Penicillin-binding protein 1A'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0008955', 'label': 'MolecularActivity', 'name': 'peptidoglycan glycosyltransferase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01603#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methicillin#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0A9Z7'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD63'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P62593'}, {'key': 'positively regulates', 'source': 'UniProt:P0A9Z7', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P62593', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P0A9Z7', 'label': 'Protein', 'name': 'Beta-lactamase SHV-2'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'UniProt:P62593', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_2', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD64'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:Q9F663'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD64', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:Q9F663', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:Q9F663', 'label': 'Protein', 'name': 'Carbapenem-hydrolyzing beta-lactamase KPC'}, {'id': 'UniProt:P0AD64', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_3', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P05364'}, {'key': 'positively regulates', 'source': 'UniProt:P05364', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:550'}, {'key': 'causes', 'source': 'NCBITaxon:550', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P05364', 'label': 'Protein', 'name': 'Beta-lactamase'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:550', 'label': 'OrganismTaxon', 'name': 'Enterobacter cloacae'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D059413_4', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P37321'}, {'key': 'positively regulates', 'source': 'UniProt:P37321', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:287'}, {'key': 'causes', 'source': 'NCBITaxon:287', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P37321', 'label': 'Protein', 'name': 'Extended-spectrum beta-lactamase PER-1'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:287', 'label': 'OrganismTaxon', 'name': 'Pseudomonas aeruginosa'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This antibiotic inhbits beta-lactamases, enzymes that break antibiotics and therefore provide resistance to ampicillin and related beta-lacam antibiotics. Avibactam therefore is useful to treat infections caused by bacteria that are multi-resistant to β-lactam antibiotics. The majority of cases of pyelonephritis are caused by E.coli (https://en.wikipedia.org/wiki/Pyelonephritis#Causes), hence using this species in the indication path here.', 'directed': True, 'graph': {'_id': 'DB09060_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'avibactam', 'drug_mesh': 'MESH:C543519', 'drugbank': 'DB:DB09060'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0A9Z7'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P0AD63'}, {'key': 'negatively regulates', 'source': 'MESH:C543519', 'target': 'UniProt:P62593'}, {'key': 'positively regulates', 'source': 'UniProt:P0A9Z7', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD63', 'target': 'GO:0008800'}, {'key': 'positively regulates', 'source': 'UniProt:P62593', 'target': 'GO:0008800'}, {'key': 'in taxon', 'source': 'GO:0008800', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543519', 'label': 'Drug', 'name': 'avibactam'}, {'id': 'UniProt:P0A9Z7', 'label': 'Protein', 'name': 'Beta-lactamase SHV-2'}, {'id': 'UniProt:P0AD63', 'label': 'Protein', 'name': 'Beta-lactamase SHV-1'}, {'id': 'UniProt:P62593', 'label': 'Protein', 'name': 'Beta-lactamase TEM'}, {'id': 'GO:0008800', 'label': 'MolecularActivity', 'name': 'beta-lactamase activity'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09060#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'No mechanism of action available either in DrugBank (https://go.drugbank.com/drugs/DB12225#mechanism-of-action) or ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3126842/) as per 02032021.', 'directed': True, 'graph': {'_id': 'DB12225_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'beclabuvir', 'drug_mesh': 'MESH:C587012', 'drugbank': 'DB:DB12225'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C587012', 'target': 'UniProt:P27958'}, {'key': 'positively regulates', 'source': 'UniProt:P27958', 'target': 'GO:0039694'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:63746'}, {'key': 'causes', 'source': 'NCBITaxon:63746', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587012', 'label': 'Drug', 'name': 'beclabuvir'}, {'id': 'UniProt:P27958', 'label': 'Protein', 'name': 'Genome polyprotein'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'NCBITaxon:63746', 'label': 'OrganismTaxon', 'name': 'Hepatitis C virus (isolate H77)'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://en.wikipedia.org/wiki/Beclabuvir', 'https://pubchem.ncbi.nlm.nih.gov/compound/56934415#section=Pharmacology-and-Biochemistry', 'https://www.kegg.jp/entry/D10610', 'https://en.wikipedia.org/wiki/Hepatitis_C_virus#Molecular_biology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This drug converts uric acid into allantoin, therefore it clears uric acid from the blood (whose elevated levels - Hyperuricemia - can lead to gout).', 'directed': True, 'graph': {'_id': 'DB09208_MESH_D006073_1', 'disease': 'Gout', 'disease_mesh': 'MESH:D006073', 'drug': 'pegloticase', 'drug_mesh': 'MESH:C031545', 'drugbank': 'DB:DB09208'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C031545', 'target': 'CHEBI:27226'}, {'key': 'positively correlated with', 'source': 'CHEBI:27226', 'target': 'HP:0002149'}, {'key': 'manifestation of', 'source': 'HP:0002149', 'target': 'MESH:D006073'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C031545', 'label': 'Drug', 'name': 'pegloticase'}, {'id': 'CHEBI:27226', 'label': 'ChemicalSubstance', 'name': 'uric acid'}, {'id': 'HP:0002149', 'label': 'PhenotypicFeature', 'name': 'Hyperuricemia'}, {'id': 'MESH:D006073', 'label': 'Disease', 'name': 'Gout'}], 'reference': ['https://go.drugbank.com/drugs/DB09208#mechanism-of-action', 'https://en.wikipedia.org/wiki/Pegloticase#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06684_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'vilazodone', 'drug_mesh': 'MESH:D000069503', 'drugbank': 'DB:DB06684'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000069503', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069503', 'label': 'Drug', 'name': 'vilazodone'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB06684#mechanism-of-action', 'https://go.drugbank.com/drugs/DB06684#BE0000749']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'this drug is a partial agonist at postsynaptic 5-HT1A receptors (https://en.wikipedia.org/wiki/5-HT1A_receptor#Partial_agonists) and are sometimes used in low doses as augmentation to SSRIs (https://en.wikipedia.org/wiki/5-HT1A_receptor#Neuromodulation).', 'directed': True, 'graph': {'_id': 'DB06684_MESH_D003865_2', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'vilazodone', 'drug_mesh': 'MESH:D000069503', 'drugbank': 'DB:DB06684'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000069503', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069503', 'label': 'Drug', 'name': 'vilazodone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'serotonin secretion, neurotransmission'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB06684#mechanism-of-action', 'https://go.drugbank.com/drugs/DB06684#BE0000291', 'https://en.wikipedia.org/wiki/5-HT1A_receptor', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4841022/', 'https://en.wikipedia.org/wiki/5-HT1A_receptor#cite_note-pmid2883013-21', 'https://pubmed.ncbi.nlm.nih.gov/12559651/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The drug name available in the original file (before curation) was Rutoside. This is one of the synonyms of Rutin, which is the canonical name in DrugBank). Its mechanism of action is not well reported. Some sources have it as an aid to enhance the action of vitamin C (https://www.drugs.com/mtm/rutin.html), whereas others describe rutin (aka vitamin P) acting as a \"sparing factor, which slows the oxidation of vitamin C\" into dehydroascorbic acid (https://en.wikipedia.org/wiki/Dehydroascorbic_acid).', 'directed': True, 'graph': {'_id': 'DB01698_MESH_D001206_1', 'disease': 'Ascorbic acid deficiency', 'disease_mesh': 'MESH:D001206', 'drug': 'Rutin', 'drug_mesh': 'MESH:D012431', 'drugbank': 'DB:DB01698'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D012431', 'target': 'CHEBI:21241'}, {'key': 'positively correlated with', 'source': 'CHEBI:21241', 'target': 'MESH:D001205'}, {'key': 'negatively correlated with', 'source': 'MESH:D001205', 'target': 'MESH:D001206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012431', 'label': 'Drug', 'name': 'Rutin'}, {'id': 'CHEBI:21241', 'label': 'ChemicalSubstance', 'name': 'vitamin C'}, {'id': 'MESH:D001205', 'label': 'ChemicalSubstance', 'name': 'Ascorbic Acid'}, {'id': 'MESH:D001206', 'label': 'Disease', 'name': 'Ascorbic acid deficiency'}], 'reference': ['https://en.wikipedia.org/wiki/Vitamin_C#Significance', 'https://en.wikipedia.org/wiki/Rutin']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12865_MESH_D006962_1', 'disease': 'Secondary hyperparathyroidism', 'disease_mesh': 'MESH:D006962', 'drug': 'etelcalcetide', 'drug_mesh': 'MESH:C583569', 'drugbank': 'DB:DB12865'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C583569', 'target': 'UniProt:P41180'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'HP:0002901'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'HP:0003165'}, {'key': 'positively correlated with', 'source': 'HP:0003165', 'target': 'MESH:D006962'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C583569', 'label': 'Drug', 'name': 'etelcalcetide'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'An abnormally decreased calcium concentration in the blood'}, {'id': 'HP:0003165', 'label': 'PhenotypicFeature', 'name': 'Elevated circulating parathyroid hormone level'}, {'id': 'MESH:D006962', 'label': 'Disease', 'name': 'Secondary hyperparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB12865#mechanism-of-action', 'https://en.wikipedia.org/wiki/Parathyroid_hormone#Disorders', 'https://en.wikipedia.org/wiki/Secondary_hyperparathyroidism#Cause', 'https://en.wikipedia.org/wiki/Etelcalcetide#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01166_MESH_D007383_1', 'disease': 'Intermittent claudication', 'disease_mesh': 'MESH:D007383', 'drug': 'cilostazol', 'drug_mesh': 'MESH:C045645', 'drugbank': 'DB:DB01166'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C045645', 'target': 'UniProt:Q14432'}, {'key': 'positively regulates', 'source': 'UniProt:Q14432', 'target': 'GO:0004115'}, {'key': 'decreases abundance of', 'source': 'GO:0004115', 'target': 'CHEBI:17489'}, {'key': 'increases activity of', 'source': 'CHEBI:17489', 'target': 'MESH:D017868'}, {'key': 'positively correlated with', 'source': 'MESH:D017868', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'MESH:D017868', 'target': 'GO:0070527'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D007383'}, {'key': 'positively correlated with', 'source': 'GO:0070527', 'target': 'MESH:D007383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045645', 'label': 'Drug', 'name': 'cilostazol'}, {'id': 'UniProt:Q14432', 'label': 'Protein', 'name': \"cGMP-inhibited 3',5'-cyclic phosphodiesterase A\"}, {'id': 'GO:0004115', 'label': 'MolecularActivity', 'name': \"3',5'-cyclic-AMP phosphodiesterase activity\"}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D017868', 'label': 'GeneFamily', 'name': 'Cyclic AMP-Dependent Protein Kinases'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D007383', 'label': 'Disease', 'name': 'Intermittent claudication'}], 'reference': ['https://go.drugbank.com/drugs/DB01166#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cilostazol#Mechanism', 'https://www.sciencedirect.com/science/article/pii/S1078588402917958', 'https://www.jvascsurg.org/article/0741-5214(86)90027-3/fulltext']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01144_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'dichlorphenamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB01144'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:O43570'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:O43570', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'alt_names': ['Diclofenamide'], 'id': 'MESH:D004005', 'label': 'Drug', 'name': 'dichlorphenamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'UniProt:O43570', 'label': 'Protein', 'name': 'Carbonic anhydrase 12'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01144#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL17/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08842_MESH_D000544_1', 'disease': \"Alzheimer's disease\", 'disease_mesh': 'MESH:D000544', 'drug': 'acetylcarnitine', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB08842'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004005', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'GO:0014055'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D000544'}, {'key': 'positively regulates', 'source': 'MESH:D004005', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'GO:0061535'}, {'key': 'negatively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D000544'}, {'key': 'increases activity of', 'source': 'MESH:D004005', 'target': 'GO:0005947'}, {'key': 'positively regulates', 'source': 'GO:0005947', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'increases activity of', 'source': 'MESH:D004005', 'target': 'GO:0004129'}, {'key': 'positively regulates', 'source': 'GO:0004129', 'target': 'GO:0006979'}, {'key': 'correlated with', 'source': 'GO:0006979', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'decreases abundance of', 'source': 'MESH:D004005', 'target': 'MESH:D005609'}, {'key': 'positively correlated with', 'source': 'MESH:D005609', 'target': 'HP:0025464'}, {'key': 'positively correlated with', 'source': 'HP:0025464', 'target': 'GO:0150076'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D000544'}, {'key': 'increases expression of', 'source': 'MESH:D004005', 'target': 'MESH:D017475'}, {'key': 'positively correlated with', 'source': 'MESH:D017475', 'target': 'GO:0007613'}, {'key': 'negatively correlated with', 'source': 'GO:0007613', 'target': 'HP:0002354'}, {'key': 'positively correlated with', 'source': 'HP:0002354', 'target': 'MESH:D000544'}, {'key': 'positively correlated with', 'source': 'MESH:D004005', 'target': 'GO:0018393'}, {'key': 'occurs in', 'source': 'GO:0018393', 'target': 'CHEBI:64645'}, {'key': 'contributes to', 'source': 'CHEBI:64645', 'target': 'CHEBI:60425'}, {'key': 'positively correlated with', 'source': 'CHEBI:60425', 'target': 'MESH:D000544'}, {'key': 'positively correlated with', 'source': 'MESH:D004005', 'target': 'GO:0018393'}, {'key': 'occurs in', 'source': 'GO:0018393', 'target': 'InterPro:IPR002955'}, {'key': 'contributes to', 'source': 'InterPro:IPR002955', 'target': 'HP:0002185'}, {'key': 'positively correlated with', 'source': 'HP:0002185', 'target': 'MESH:D000544'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004005', 'label': 'Drug', 'name': 'acetylcarnitine'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion, neurotransmission (BP)'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission (BP)'}, {'id': 'GO:0005947', 'label': 'CellularComponent', 'name': 'mitochondrial alpha-ketoglutarate dehydrogenase complex'}, {'id': 'GO:0004129', 'label': 'MolecularActivity', 'name': 'cytochrome-c oxidase activity'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'response to oxidative stress'}, {'id': 'GO:0150076', 'label': 'BiologicalProcess', 'name': 'neuroinflammatory response'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'HP:0025464', 'label': 'PhenotypicFeature', 'name': 'Increased reactive oxygen species production'}, {'id': 'MESH:D017475', 'label': 'GeneFamily', 'name': 'Receptors, Nerve Growth Factor'}, {'id': 'GO:0007613', 'label': 'BiologicalProcess', 'name': 'memory'}, {'id': 'HP:0002354', 'label': 'PhenotypicFeature', 'name': 'Memory impairment'}, {'id': 'GO:0018393', 'label': 'BiologicalProcess', 'name': 'peptidyl-lysine acetylation'}, {'id': 'InterPro:IPR002955', 'label': 'GeneFamily', 'name': 'Microtubule-associated protein Tau'}, {'id': 'HP:0002185', 'label': 'PhenotypicFeature', 'name': 'Neurofibrillary Tangles'}, {'id': 'CHEBI:64645', 'label': 'ChemicalSubstance', 'name': 'amyloid-beta'}, {'id': 'CHEBI:60425', 'label': 'ChemicalSubstance', 'name': 'amyloid fibril'}, {'alt_ids': ['MESH:C566998'], 'id': 'MESH:D000544', 'label': 'Disease', 'name': \"Alzheimer's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB08842#mechanism-of-action', 'https://www.nature.com/articles/4000805', 'https://en.wikipedia.org/wiki/Acetylcarnitine', 'https://pubmed.ncbi.nlm.nih.gov/16273023/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5791143/', 'https://en.wikipedia.org/wiki/Alzheimer%27s_disease#Causes', 'https://pubmed.ncbi.nlm.nih.gov/8937831/', 'https://pubmed.ncbi.nlm.nih.gov/22729864/', 'https://pubmed.ncbi.nlm.nih.gov/10381209/', 'https://en.wikipedia.org/wiki/Oxoglutarate_dehydrogenase_complex#Pathology']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00903_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'ethacrynic acid', 'drug_mesh': 'MESH:D004976', 'drugbank': 'DB:DB00903'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004976', 'target': 'UniProt:Q13621'}, {'key': 'positively regulates', 'source': 'UniProt:Q13621', 'target': 'GO:0008511'}, {'key': 'negatively correlated with', 'source': 'GO:0008511', 'target': 'GO:0036359'}, {'key': 'negatively correlated with', 'source': 'GO:0008511', 'target': 'GO:0035812'}, {'key': 'negatively correlated with', 'source': 'GO:0036359', 'target': 'GO:0003092'}, {'key': 'negatively correlated with', 'source': 'GO:0035812', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004976', 'label': 'Drug', 'name': 'ethacrynic acid'}, {'id': 'UniProt:Q13621', 'label': 'Protein', 'name': 'Solute carrier family 12 member 1'}, {'id': 'GO:0008511', 'label': 'MolecularActivity', 'name': 'sodium:potassium:chloride symporter activity'}, {'id': 'GO:0035812', 'label': 'BiologicalProcess', 'name': 'renal sodium excretion'}, {'id': 'GO:0036359', 'label': 'BiologicalProcess', 'name': 'renal potassium excretion'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://en.wikipedia.org/wiki/Etacrynic_acid#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Loop_diuretic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Na-K-Cl_cotransporter#NKCC2', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL456/', 'https://go.drugbank.com/drugs/DB00903#BE0000502', 'https://en.wikipedia.org/wiki/Diuretic#High_ceiling/loop_diuretic']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00038_MESH_D013921_1', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'oprelvekin', 'drug_mesh': 'MESH:C105308', 'drugbank': 'DB:DB00038'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C105308', 'target': 'UniProt:Q14626'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0004921'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0035726'}, {'key': 'positively regulates', 'source': 'GO:0004921', 'target': 'GO:0030220'}, {'key': 'positively regulates', 'source': 'GO:0035726', 'target': 'GO:0030220'}, {'key': 'negatively correlated with', 'source': 'GO:0030220', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C105308', 'label': 'Drug', 'name': 'oprelvekin'}, {'id': 'UniProt:Q14626', 'label': 'Protein', 'name': 'Interleukin-11 receptor subunit alpha'}, {'id': 'GO:0004921', 'label': 'MolecularActivity', 'name': 'interleukin-11 receptor activity'}, {'id': 'GO:0035726', 'label': 'BiologicalProcess', 'name': 'common myeloid progenitor cell proliferation'}, {'id': 'GO:0030220', 'label': 'BiologicalProcess', 'name': 'platelet formation'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00038#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oprelvekin']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00038_MESH_D013921_2', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'oprelvekin', 'drug_mesh': 'MESH:C105308', 'drugbank': 'DB:DB00038'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C105308', 'target': 'UniProt:Q14626'}, {'key': 'positively regulates', 'source': 'UniProt:Q14626', 'target': 'GO:0004921'}, {'key': 'positively correlated with', 'source': 'GO:0004921', 'target': 'GO:0035726'}, {'key': 'positively correlated with', 'source': 'GO:0035726', 'target': 'MESH:D034061'}, {'key': 'negatively correlated with', 'source': 'MESH:D034061', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C105308', 'label': 'Drug', 'name': 'oprelvekin'}, {'id': 'UniProt:Q14626', 'label': 'Protein', 'name': 'Interleukin-11 receptor subunit alpha'}, {'id': 'GO:0004921', 'label': 'MolecularActivity', 'name': 'interleukin-11 receptor activity'}, {'id': 'GO:0035726', 'label': 'BiologicalProcess', 'name': 'common myeloid progenitor cell proliferation'}, {'id': 'MESH:D034061', 'label': 'BiologicalProcess', 'name': 'Thrombopoiesis'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00038#mechanism-of-action', 'https://en.wikipedia.org/wiki/Oprelvekin']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Sclerosing solutions cause the vein to scar, forcing blood to reroute through healthier veins. The collapsed vein is reabsorbed into local tissue and eventually fades (https://www.mayoclinic.org/tests-procedures/sclerotherapy/about/pac-20384592).', 'directed': True, 'graph': {'_id': 'DB00464_MESH_D014648_1', 'disease': 'Venous varices', 'disease_mesh': 'MESH:D014648', 'drug': 'sodium tetradecyl sulfate', 'drug_mesh': 'MESH:D012981', 'drugbank': 'DB:DB00464'}, 'links': [{'key': 'part of', 'source': 'MESH:D012981', 'target': 'MESH:D012597'}, {'key': 'negatively correlated with', 'source': 'MESH:D012597', 'target': 'HP:0012514'}, {'key': 'negatively correlated with', 'source': 'MESH:D012597', 'target': 'HP:0010741'}, {'key': 'manifestation of', 'source': 'HP:0012514', 'target': 'MESH:D014648'}, {'key': 'manifestation of', 'source': 'HP:0010741', 'target': 'MESH:D014648'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012981', 'label': 'Drug', 'name': 'sodium tetradecyl sulfate'}, {'id': 'MESH:D012597', 'label': 'ChemicalSubstance', 'name': 'Sclerosing Solutions'}, {'id': 'HP:0012514', 'label': 'PhenotypicFeature', 'name': 'Lower limb pain'}, {'id': 'HP:0010741', 'label': 'PhenotypicFeature', 'name': 'Pedal edema'}, {'id': 'MESH:D014648', 'label': 'Disease', 'name': 'Venous varices'}], 'reference': ['https://en.wikipedia.org/wiki/Sodium_tetradecyl_sulfate']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'MESH:D014652 was initially denoted as Disorder of blood vessel in the original xls file but the name on the MESH website, Vascular Diseases, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00797_MESH_D014652_1', 'disease': 'Vascular Diseases', 'disease_mesh': 'MESH:D014652', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D014652'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D014652', 'label': 'Disease', 'name': 'Vascular Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'MESH:D014652 was initially denoted as Disorder of blood vessel in the original xls file but the name on the MESH website, Vascular Diseases, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00797_MESH_D014652_2', 'disease': 'Vascular Diseases', 'disease_mesh': 'MESH:D014652', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D014652'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D014652', 'label': 'Disease', 'name': 'Vascular Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://www.ajol.info/index.php/njps/article/view/120209/109692']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00797_MESH_D002561_1', 'disease': 'Cerebrovascular disease', 'disease_mesh': 'MESH:D002561', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D002561'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D002561'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D002561', 'label': 'Disease', 'name': 'Cerebrovascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://en.wikipedia.org/wiki/Cerebrovascular_disease#Treatment']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00797_MESH_D010547_1', 'disease': 'Persistent pulmonary hypertension of the newborn', 'disease_mesh': 'MESH:D010547', 'drug': 'tolazoline', 'drug_mesh': 'MESH:D014043', 'drugbank': 'DB:DB00797'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P25021'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D010547'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D014043', 'target': 'UniProt:P08913'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416482'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416482', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418594', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418597', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D010547'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014043', 'label': 'Drug', 'name': 'tolazoline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'REACT:R-HSA-416482', 'label': 'Pathway', 'name': 'G alpha (12/13) signalling events'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D010547', 'label': 'Disease', 'name': 'Persistent pulmonary hypertension of the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB00797#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL770/', 'https://en.wikipedia.org/wiki/Persistent_fetal_circulation#Treatment']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01144_MESH_D015812_1', 'disease': 'Angle-closure glaucoma', 'disease_mesh': 'MESH:D015812', 'drug': 'dichlorphenamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB01144'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:O43570'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:O43570', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D015812'}], 'multigraph': True, 'nodes': [{'alt_names': ['Diclofenamide'], 'id': 'MESH:D004005', 'label': 'Drug', 'name': 'dichlorphenamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'UniProt:O43570', 'label': 'Protein', 'name': 'Carbonic anhydrase 12'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D015812', 'label': 'Disease', 'name': 'Angle-closure glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB01144#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL17/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication\\\\', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'This drug is fungistatic at concetrations up to 20 mcg/mL, and is fungicidal in vitro when used at higher concentrations. Also please note that MESH:D002181 was initially denoted as Candidal vulvovaginitis in the original xls file but the name on the MESH website, which is Candidiasis, Vulvovaginal, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002181_1', 'disease': 'Candidiasis, Vulvovaginal', 'disease_mesh': 'MESH:D002181', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis, Vulvovaginal'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comment': \"Diaper rash can be caused by different factors, including fungus, when it's known as diaper candidiasis. If a fungal origin is identified, the treatment is based on antifungals (e.g. clotrimazole). Therefore the original cause must be determined first as the treatments vary (https://en.wikipedia.org/wiki/Irritant_diaper_dermatitis#Secondary_infections).\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D003963_1', 'disease': 'Diaper rash', 'disease_mesh': 'MESH:D003963', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D003963'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D003963', 'label': 'Disease', 'name': 'Diaper rash'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'MESH:D002179 was initially denoted as Candidiasis of skin in the original xls file but the name on the MESH website, which is Candidiasis, Cutaneous, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002179_1', 'disease': 'Candidiasis, Cutaneous', 'disease_mesh': 'MESH:D002179', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis, Cutaneous'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'MESH:D002180 was initially denoted as Candidiasis of mouth in the original xls file but the name on the MESH website, which is Candidiasis, Oral, is the one used here.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D002180_1', 'disease': 'Candidiasis, Oral', 'disease_mesh': 'MESH:D002180', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002180', 'label': 'Disease', 'name': 'Candidiasis, Oral'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D003022', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'MESH:D014010 was initially denoted as Pityriasis versicolor in the original xls file but the name on the MESH website, Tinea Versicolor, is the one used here for our annotation.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D014010_1', 'disease': 'Tinea Versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'clotrimazole', 'drug_mesh': 'MESH:D003022', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003022', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003022', 'label': 'Drug', 'name': 'clotrimazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Tinea Versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB00257#BE0000233', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Ergosterol#Target_for_antifungal_drugs']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'MESH:D016780 was initially denoted as Falciparum malaria in the original xls file but the name on the MESH website is Malaria, Falciparum, which is the name used here.', 'directed': True, 'graph': {'_id': 'DB09274_MESH_D016778_1', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Artesunate', 'drug_mesh': 'MESH:D000077332', 'drugbank': 'DB:DB09274'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000077332', 'target': 'UniProt:P04926'}, {'key': 'in taxon', 'source': 'UniProt:P04926', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C111789'], 'id': 'MESH:D000077332', 'label': 'Drug', 'name': 'Artesunate'}, {'id': 'UniProt:P04926', 'label': 'Protein', 'name': 'Malaria protein EXP-1'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://go.drugbank.com/drugs/DB09274#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/6917864#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'MESH:D016780 was initially denoted as Vivax malaria in the original xls file but the name on the MESH website, Malaria, Vivax, is the one used here.', 'directed': True, 'graph': {'_id': 'DB09274_MESH_D016780_1', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Artesunate', 'drug_mesh': 'MESH:D000077332', 'drugbank': 'DB:DB09274'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000077332', 'target': 'Pfam:PF06589'}, {'key': 'in taxon', 'source': 'Pfam:PF06589', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C111789'], 'id': 'MESH:D000077332', 'label': 'Drug', 'name': 'Artesunate'}, {'id': 'Pfam:PF06589', 'label': 'GeneFamily', 'name': 'Circumsporozoite-related antigen (CRA)'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://go.drugbank.com/drugs/DB09274#pharmacodynamics', 'https://pubchem.ncbi.nlm.nih.gov/compound/6917864#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'GeneFamily', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'ABT-267 is also known as ombitasvir (see Other names at https://en.wikipedia.org/wiki/Ombitasvir).', 'directed': True, 'graph': {'_id': 'DB09296_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'ABT-267', 'drug_mesh': 'MESH:C586094', 'drugbank': 'DB:DB09296'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C586094', 'target': 'UniProt:Q5L478'}, {'key': 'molecularly interacts with', 'source': 'UniProt:Q5L478', 'target': 'MESH:C000618292'}, {'key': 'increases abundance of', 'source': 'MESH:C000618292', 'target': 'MESH:C037178'}, {'key': 'positively correlated with', 'source': 'MESH:C037178', 'target': 'MESH:D002784'}, {'key': 'located in', 'source': 'MESH:D002784', 'target': 'MESH:D000086969'}, {'key': 'location of', 'source': 'MESH:D000086969', 'target': 'GO:0039694'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0003968'}, {'key': 'positively regulates', 'source': 'GO:0003968', 'target': 'GO:0039694'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0004197'}, {'key': 'positively regulates', 'source': 'UniProt:Q5L478', 'target': 'GO:0004252'}, {'key': 'positively correlated with', 'source': 'GO:0004197', 'target': 'MESH:D014779'}, {'key': 'positively correlated with', 'source': 'GO:0004252', 'target': 'MESH:D014779'}, {'key': 'positively correlated with', 'source': 'MESH:D014779', 'target': 'MESH:D019065'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'in taxon', 'source': 'MESH:D019065', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C586094', 'label': 'Drug', 'name': 'ABT-267'}, {'id': 'UniProt:Q5L478', 'label': 'Protein', 'name': 'Nonstructural protein 5A'}, {'id': 'GO:0003968', 'label': 'MolecularActivity', 'name': \"RNA-directed 5'-3' RNA polymerase activity\"}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'viral RNA genome replication'}, {'id': 'MESH:C000618292', 'label': 'Protein', 'name': 'PI4KIIIalpha protein, human'}, {'id': 'MESH:C037178', 'label': 'ChemicalSubstance', 'name': 'phosphatidylinositol 4-phosphate'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D000086969', 'label': 'CellularComponent', 'name': 'Viral Replication Compartments'}, {'id': 'GO:0004197', 'label': 'MolecularActivity', 'name': 'cysteine-type endopeptidase activity'}, {'id': 'GO:0004252', 'label': 'MolecularActivity', 'name': 'serine-type endopeptidase activity'}, {'id': 'MESH:D014779', 'label': 'BiologicalProcess', 'name': 'Virus Replication'}, {'id': 'MESH:D019065', 'label': 'BiologicalProcess', 'name': 'Virus Assembly'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB09296#mechanism-of-action', 'https://en.wikipedia.org/wiki/Discovery_and_development_of_NS5A_inhibitors#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Discovery_and_development_of_NS5A_inhibitors#Function', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4246218/', 'https://www.ncbi.nlm.nih.gov/books/NBK1623/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate).\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D052456_1', 'disease': 'Hypoalphalipoproteinemia', 'disease_mesh': 'MESH:D052456', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'positively regulates', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases abundance of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D008075'}, {'key': 'increases abundance of', 'source': 'UniProt:P49019', 'target': 'MESH:D008075'}, {'key': 'negatively correlated with', 'source': 'MESH:D008075', 'target': 'MESH:D052456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'MESH:D008075', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, HDL'}, {'id': 'MESH:D052456', 'label': 'Disease', 'name': 'Hypoalphalipoproteinemia'}], 'reference': ['https://en.wikipedia.org/wiki/Hypoalphalipoproteinemia', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'comment': \"This disease was named Mixed hyperlipidemia in the original file for curation but it's known as Hyperlipidemia, Familial Combined in MESH. Note there does not seem to be any evidence supporting this drug indication (e.g. https://en.wikipedia.org/wiki/Combined_hyperlipidemia#Treatment), so this path is hypothetic and based on the disease phenotype (i.e increased LDL and triglyceride concentrations). Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D006950_1', 'disease': 'Hyperlipidemia, Familial Combined', 'disease_mesh': 'MESH:D006950', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:C032607'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:C032607', 'target': 'MESH:D006950'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006950'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:C032607', 'label': 'ChemicalSubstance', 'name': 'low density lipoprotein triglyceride'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Hyperlipidemia, Familial Combined'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Triglyceride#Role_in_disease', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypertriglyceridemia#Treatment', 'https://en.wikipedia.org/wiki/Triglyceride#Role_in_disease', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'MESH:C005193', 'target': 'UniProt:Q8TDS4'}, {'key': 'participates in', 'source': 'UniProt:P49019', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:Q8TDS4', 'target': 'REACT:R-HSA-418594'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:C032607'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:C032607', 'target': 'MESH:D006937'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006937'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:C032607', 'label': 'ChemicalSubstance', 'name': 'low density lipoprotein triglyceride'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypercholesterolemia#Medication', 'https://pubmed.ncbi.nlm.nih.gov/15083592/', 'https://www.sciencedirect.com/science/article/pii/B978032329738700037X', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441126/']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'MESH:D015451 can also be denoted as Chronic lymphoid leukemia.', 'directed': True, 'graph': {'_id': 'DB11581_MESH_D015451_1', 'disease': 'Leukemia, Lymphocytic, Chronic, B-Cell', 'disease_mesh': 'MESH:D015451', 'drug': 'venetoclax', 'drug_mesh': 'MESH:C579720', 'drugbank': 'DB:DB11581'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C579720', 'target': 'UniProt:P10415'}, {'key': 'positively regulates', 'source': 'UniProt:P10415', 'target': 'GO:0006915'}, {'key': 'located in', 'source': 'GO:0006915', 'target': 'CL:0000542'}, {'key': 'location of', 'source': 'CL:0000542', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C579720', 'label': 'Drug', 'name': 'venetoclax'}, {'id': 'UniProt:P10415', 'label': 'Protein', 'name': 'Apoptosis regulator Bcl-2'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'CL:0000542', 'label': 'Cell', 'name': 'lymphocyte'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Leukemia, Lymphocytic, Chronic, B-Cell'}], 'reference': ['https://go.drugbank.com/drugs/DB11581#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bcl-2#Venetoclax_(ABT-199)']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'FDA has withdrawn the approval for marketing this drug as per its cardiovascular side-effects.', 'directed': True, 'graph': {'_id': 'DB01191_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'dexfenfluramine', 'drug_mesh': 'MESH:D020372', 'drugbank': 'DB:DB01191'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D020372', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'affects risk for', 'source': 'GO:0051610', 'target': 'HP:0100738'}, {'key': 'positively correlated with', 'source': 'HP:0100738', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020372', 'label': 'Drug', 'name': 'dexfenfluramine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'HP:0100738', 'label': 'PhenotypicFeature', 'name': 'Abnormal eating behavior'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01191#mechanism-of-action', 'https://en.wikipedia.org/wiki/Dexfenfluramine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'FDA has withdrawn the approval for marketing this drug as per its cardiovascular side-effects.', 'directed': True, 'graph': {'_id': 'DB01191_MESH_D009765_2', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'dexfenfluramine', 'drug_mesh': 'MESH:D020372', 'drugbank': 'DB:DB01191'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D020372', 'target': 'UniProt:P28335'}, {'key': 'participates in', 'source': 'UniProt:P28335', 'target': 'REACT:R-HSA-416476'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0007631'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0032098'}, {'key': 'positively correlated with', 'source': 'GO:0007631', 'target': 'MESH:D009765'}, {'key': 'negatively correlated with', 'source': 'GO:0032098', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020372', 'label': 'Drug', 'name': 'dexfenfluramine'}, {'id': 'UniProt:P28335', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2C'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'GO:0007631', 'label': 'BiologicalProcess', 'name': 'feeding behavior'}, {'id': 'GO:0032098', 'label': 'BiologicalProcess', 'name': 'regulation of appetite'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB01191#mechanism-of-action', 'https://en.wikipedia.org/wiki/5-HT2C_receptor_agonist#Obesity', 'https://en.wikipedia.org/wiki/5-HT2C_receptor_agonist#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0005059'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0005059', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0005059', 'label': 'PhenotypicFeature', 'name': 'Arthralgia/arthritis'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ketoprofen#Mechanism', 'https://en.wikipedia.org/wiki/Rheumatoid_arthritis#Anti-inflammatory_and_analgesic_agents']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D001172_2', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P25024'}, {'key': 'positively regulates', 'source': 'UniProt:P25024', 'target': 'GO:0030593'}, {'key': 'positively regulates', 'source': 'UniProt:P25024', 'target': 'GO:0002407'}, {'key': 'positively correlated with', 'source': 'GO:0030593', 'target': 'HP:0005059'}, {'key': 'positively correlated with', 'source': 'GO:0030593', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'GO:0002407', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0005059', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P25024', 'label': 'Protein', 'name': 'C-X-C chemokine receptor type 1'}, {'id': 'GO:0030593', 'label': 'BiologicalProcess', 'name': 'neutrophil chemotaxis'}, {'id': 'GO:0002407', 'label': 'BiologicalProcess', 'name': 'dendritic cell chemotaxis'}, {'id': 'HP:0005059', 'label': 'PhenotypicFeature', 'name': 'Arthralgia/arthritis'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009#BE0003552', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4943798/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01009', 'https://en.wikipedia.org/wiki/Analgesic#COX-2_inhibitors']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01009_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0070471'}, {'key': 'positively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01009', 'https://www.aafp.org/afp/1999/0801/p489.html']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In contrast to rheumatoid arthritis, in osteoarthritis the joints do not become hot or red. (https://en.wikipedia.org/wiki/Osteoarthritis#cite_note-NIH2015-1)', 'directed': True, 'graph': {'_id': 'DB01009_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'ketoprofen', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB01009'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'MESH:D007660', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'ketoprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01009']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"Other commonly used names for this drug are inositol nicotinate (CHEBI:50134), myo-inositol hexanicotinate (CHEBI:31699) and inositol hexanicotinate (CHEBI:33064)(https://en.wikipedia.org/wiki/Inositol_nicotinate). This drug is made of niacin (vitamin B3, MESH:D009525) and inositol (MESH:D007294. Note the original drug to curate for this disease was inositol but there is no evidence for it to be used as treatment unless it's bound to nicotinic acid to form inositol hexanicotinate.\", 'directed': True, 'graph': {'_id': 'DB08949_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'Inositol Niacinate', 'drug_mesh': 'MESH:C005193', 'drugbank': 'DB:DB08949'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C005193', 'target': 'CHEBI:15940'}, {'key': 'increases abundance of', 'source': 'CHEBI:15940', 'target': 'CHEBI:17154'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17154', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005193', 'label': 'Drug', 'name': 'Inositol Niacinate'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'nicotinic acid'}, {'id': 'CHEBI:17154', 'label': 'ChemicalSubstance', 'name': 'nicotinamide'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://go.drugbank.com/drugs/DB08949#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/3720#section=Drug-and-Medication-Information', 'https://en.wikipedia.org/wiki/Pellagra#Treatment', 'https://en.wikipedia.org/wiki/Nicotinamide', 'https://en.wikipedia.org/wiki/Nicotinamide#Niacin_deficiency', 'https://onlinelibrary.wiley.com/doi/epdf/10.1002/jppr.1250']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Adapalene', 'drug_mesh': 'MESH:D000068816', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068816', 'target': 'MESH:D018168'}, {'key': 'negatively regulates', 'source': 'MESH:D018168', 'target': 'GO:0031424'}, {'key': 'increases abundance of', 'source': 'GO:0031424', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068816', 'label': 'Drug', 'name': 'Adapalene'}, {'id': 'MESH:D018168', 'label': 'GeneFamily', 'name': 'Receptors, Retinoic Acid'}, {'id': 'GO:0031424', 'label': 'BiologicalProcess', 'name': 'keratinization'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00210#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374937/', 'https://en.wikipedia.org/wiki/Adapalene#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/19929446/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_2', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Adapalene', 'drug_mesh': 'MESH:D000068816', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000068816', 'target': 'UniProt:O60603'}, {'key': 'positively regulates', 'source': 'UniProt:O60603', 'target': 'UniProt:P05412'}, {'key': 'positively correlated with', 'source': 'UniProt:P05412', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:1747'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068816', 'label': 'Drug', 'name': 'Adapalene'}, {'id': 'UniProt:O60603', 'label': 'Protein', 'name': 'Toll-like receptor 2'}, {'id': 'UniProt:P05412', 'label': 'Protein', 'name': 'Transcription factor AP-1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00210#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374937/', 'https://en.wikipedia.org/wiki/Adapalene#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/19929446/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09256_MESH_D013274_1', 'disease': 'Malignant tumor of stomach', 'disease_mesh': 'MESH:D013274', 'drug': 'Tegafur', 'drug_mesh': 'MESH:D005641', 'drugbank': 'DB:DB09256'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005641', 'target': 'InterPro:IPR001128'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001128', 'target': 'MESH:D005472'}, {'key': 'has metabolite', 'source': 'MESH:D005472', 'target': 'MESH:D005468'}, {'key': 'has metabolite', 'source': 'MESH:D005472', 'target': 'MESH:C025635'}, {'key': 'negatively regulates', 'source': 'MESH:C025635', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'MESH:C025635', 'target': 'GO:0006412'}, {'key': 'decreases activity of', 'source': 'MESH:D005468', 'target': 'UniProt:P04818'}, {'key': 'negatively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0071897'}, {'key': 'located in', 'source': 'GO:0071897', 'target': 'CL:0001063'}, {'key': 'located in', 'source': 'GO:0032774', 'target': 'CL:0001063'}, {'key': 'located in', 'source': 'GO:0006412', 'target': 'CL:0001063'}, {'key': 'contributes to', 'source': 'CL:0001063', 'target': 'MESH:D013274'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005641', 'label': 'Drug', 'name': 'Tegafur'}, {'id': 'InterPro:IPR001128', 'label': 'GeneFamily', 'name': 'cytochrome P-450'}, {'id': 'MESH:D005472', 'label': 'ChemicalSubstance', 'name': '5-fluorouracil'}, {'id': 'MESH:D005468', 'label': 'ChemicalSubstance', 'name': '5-fluoro-2-deoxyuridine monophosphate'}, {'id': 'MESH:C025635', 'label': 'ChemicalSubstance', 'name': '5-fluorouridine triphosphate'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D013274', 'label': 'Disease', 'name': 'Malignant tumor of stomach'}], 'reference': ['https://go.drugbank.com/drugs/DB09256#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tegafur#section=Mechanism-of-Action']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01267_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Paliperidone', 'drug_mesh': None, 'drugbank': 'DB:DB01267'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'REACT:R-HSA-162582'}, {'key': 'decreases activity of', 'source': 'DB:DB01267', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-162582'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-162582', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01267', 'label': 'Drug', 'name': 'Paliperidone'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha 1 adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha 2 adrenergic receptor'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-162582', 'label': 'Pathway', 'name': 'Signal transduction'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01267#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Paliperidone']}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12833_MESH_D002012_1', 'disease': 'Bruxism (teeth grinding)', 'disease_mesh': 'MESH:D002012', 'drug': 'Tandospirone', 'drug_mesh': 'MESH:C055267', 'drugbank': 'DB:DB12833'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C055267', 'target': 'UniProt:P08908'}, {'key': 'negatively regulates', 'source': 'UniProt:P08908', 'target': 'HP:0000739'}, {'key': 'correlated with', 'source': 'HP:0000739', 'target': 'MESH:D002012'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C055267', 'label': 'Drug', 'name': 'Tandospirone'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-HT1A receptor'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'MESH:D002012', 'label': 'Disease', 'name': 'Bruxism'}], 'reference': ['https://go.drugbank.com/drugs/DB12833#mechanismofaction']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09079_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'Nintedanib', 'drug_mesh': 'MESH:C530716', 'drugbank': 'DB:DB09079'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR009135'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR009135', 'target': 'REACT:R-HSA-194138'}, {'key': 'participates in', 'source': 'REACT:R-HSA-194138', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR016248'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR016248', 'target': 'REACT:R-HSA-190236'}, {'key': 'participates in', 'source': 'REACT:R-HSA-190236', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'InterPro:IPR006782'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR006782', 'target': 'REACT:R-HSA-186797'}, {'key': 'participates in', 'source': 'REACT:R-HSA-186797', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P36888'}, {'key': 'negatively regulates', 'source': 'UniProt:P36888', 'target': 'REACT:R-HSA-9607240'}, {'key': 'participates in', 'source': 'REACT:R-HSA-9607240', 'target': 'GO:0001525'}, {'key': 'prevents', 'source': 'GO:0001525', 'target': 'GO:0008283'}, {'key': 'contributes to', 'source': 'GO:0008283', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530716', 'label': 'Drug', 'name': 'Nintedanib'}, {'id': 'InterPro:IPR009135', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor receptor'}, {'id': 'REACT:R-HSA-194138', 'label': 'Pathway', 'name': 'Signaling by VEGF'}, {'id': 'UniProt:P36888', 'label': 'Protein', 'name': 'fms like tyrosine kinase 3 (FLT-3)'}, {'id': 'REACT:R-HSA-9607240', 'label': 'Pathway', 'name': 'FLT3 Signaling'}, {'id': 'InterPro:IPR006782', 'label': 'GeneFamily', 'name': 'Platelet-derived growth factor receptor'}, {'id': 'REACT:R-HSA-186797', 'label': 'Pathway', 'name': 'Signaling by PDGF'}, {'id': 'InterPro:IPR016248', 'label': 'GeneFamily', 'name': 'Fibroblast growth factor receptor'}, {'id': 'REACT:R-HSA-190236', 'label': 'Pathway', 'name': 'Signaling by FGFR'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB09079#mechanismofaction', 'https://en.wikipedia.org/wiki/Nintedanib', 'doi:10.1183/09031936.00174914']}\n", - "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09079_MESH_D000080203_1', 'disease': 'Hamman-Rich syndrome', 'disease_mesh': 'MESH:D000080203', 'drug': 'Nintedanib', 'drug_mesh': 'MESH:C530716', 'drugbank': 'DB:DB09079'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P12931'}, {'key': 'negatively regulates', 'source': 'UniProt:P12931', 'target': 'REACT:R-HSA-9006927'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P06239'}, {'key': 'negatively regulates', 'source': 'UniProt:P06239', 'target': 'REACT:R-HSA-9006927'}, {'key': 'decreases activity of', 'source': 'MESH:C530716', 'target': 'UniProt:P07948'}, {'key': 'negatively regulates', 'source': 'UniProt:P07948', 'target': 'REACT:R-HSA-9006927'}, {'key': 'prevents', 'source': 'REACT:R-HSA-9006927', 'target': 'HP:0006530'}, {'key': 'correlated with', 'source': 'HP:0006530', 'target': 'MESH:D000080203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530716', 'label': 'Drug', 'name': 'Nintedanib'}, {'id': 'UniProt:P12931', 'label': 'Protein', 'name': 'Proto-oncogene tyrosine-protein kinase Src'}, {'id': 'UniProt:P07948', 'label': 'Protein', 'name': 'Tyrosine-protein kinase Lyn'}, {'id': 'UniProt:P06239', 'label': 'Protein', 'name': 'Tyrosine-protein kinase Lck'}, {'id': 'REACT:R-HSA-9006927', 'label': 'Pathway', 'name': 'Signaling by Non-Receptor Tyrosine Kinases'}, {'id': 'HP:0006530', 'label': 'PhenotypicFeature', 'name': 'lung fibrosis'}, {'id': 'MESH:D000080203', 'label': 'Disease', 'name': 'Hamman-Rich syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB09079#mechanismofaction', 'https://en.wikipedia.org/wiki/Nintedanib', 'doi:10.1183/09031936.00174914']}\n", - "['Drug', 'Protein', 'Pathway', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05336_MESH_C571912_1', 'disease': 'Inhalational anthrax', 'disease_mesh': 'MESH:C571912', 'drug': 'Obiltoxaximab', 'drug_mesh': 'MESH:C000611266', 'drugbank': 'DB:DB05336'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C000611266', 'target': 'InterPro:IPR027439'}, {'key': 'part of', 'source': 'InterPro:IPR027439', 'target': 'MESH:C030325'}, {'key': 'prevents', 'source': 'MESH:C030325', 'target': 'GO:0035635'}, {'key': 'in taxon', 'source': 'GO:0035635', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:C571912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000611266', 'label': 'Drug', 'name': 'Obiltoxaximab'}, {'id': 'InterPro:IPR027439', 'label': 'GeneFamily', 'name': 'Protective Antigen'}, {'id': 'MESH:C030325', 'label': 'ChemicalSubstance', 'name': 'Anthrax toxin'}, {'id': 'GO:0035635', 'label': 'BiologicalProcess', 'name': 'Entry of bacterium into host cell'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:C571912', 'label': 'Disease', 'name': 'Inhalational anthrax'}], 'reference': ['https://go.drugbank.com/drugs/DB05336#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13125_MESH_D013921_1', 'disease': 'Thrombocytopenic disorder', 'disease_mesh': 'MESH:D013921', 'drug': 'Lusutrombopag', 'drug_mesh': 'MESH:C000611387', 'drugbank': 'DB:DB13125'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C000611387', 'target': 'UniProt:P40238'}, {'key': 'positively regulates', 'source': 'UniProt:P40238', 'target': 'GO:0007259'}, {'key': 'enables', 'source': 'GO:0007259', 'target': 'MESH:D034061'}, {'key': 'expressed in', 'source': 'MESH:D034061', 'target': 'CL:0000556'}, {'key': 'increases activity of', 'source': 'CL:0000556', 'target': 'GO:0008283'}, {'key': 'increases abundance of', 'source': 'GO:0008283', 'target': 'HP:0001873'}, {'key': 'increases activity of', 'source': 'CL:0000556', 'target': 'GO:0030154'}, {'key': 'increases abundance of', 'source': 'GO:0030154', 'target': 'HP:0001873'}, {'key': 'manifestation of', 'source': 'HP:0001873', 'target': 'MESH:D013921'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000611387', 'label': 'Drug', 'name': 'Lusutrombopag'}, {'id': 'UniProt:P40238', 'label': 'Protein', 'name': 'thrombopoietin receptor'}, {'id': 'GO:0007259', 'label': 'BiologicalProcess', 'name': 'Receptor signaling pathway via JAK-STAT'}, {'id': 'MESH:D034061', 'label': 'BiologicalProcess', 'name': 'Thrombocytopoiesis'}, {'id': 'CL:0000556', 'label': 'Cell', 'name': 'Megakaryocytes'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'Cell differentiation'}, {'id': 'HP:0001873', 'label': 'PhenotypicFeature', 'name': 'Platelet counts'}, {'id': 'MESH:D013921', 'label': 'Disease', 'name': 'Thrombocytopenic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB13125#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04897_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Lucinactant', 'drug_mesh': 'MESH:C502722', 'drugbank': 'DB:DB04897'}, 'links': [{'key': 'chemically similar to', 'source': 'MESH:C502722', 'target': 'UniProt:P07988'}, {'key': 'decreases activity of', 'source': 'UniProt:P07988', 'target': 'GO:0050828'}, {'key': 'located in', 'source': 'GO:0050828', 'target': 'UBERON:0002299'}, {'key': 'increases activity of', 'source': 'UBERON:0002299', 'target': 'GO:0043576'}, {'key': 'correlated with', 'source': 'GO:0043576', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C502722', 'label': 'Drug', 'name': 'Lucinactant'}, {'id': 'UniProt:P07988', 'label': 'Protein', 'name': 'Surfactant protein B (SP-B)'}, {'id': 'GO:0050828', 'label': 'BiologicalProcess', 'name': 'Surface tension at the air-liquid interface'}, {'id': 'UBERON:0002299', 'label': 'GrossAnatomicalStructure', 'name': 'Alveolus of lung'}, {'id': 'GO:0043576', 'label': 'BiologicalProcess', 'name': 'Respiratory gaseous exchange'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB04897#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_2', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'decreases response to', 'source': 'GO:0051381', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'Levocabastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1-receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Itching'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01106#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01106_MESH_D003233_3', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Levocabastine', 'drug_mesh': 'MESH:C047340', 'drugbank': 'DB:DB01106'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047340', 'target': 'UniProt:O95665'}, {'key': 'decreases response to', 'source': 'UniProt:O95665', 'target': 'HP:0012531'}, {'key': 'correlated with', 'source': 'HP:0012531', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047340', 'label': 'Drug', 'name': 'Levocabastine'}, {'id': 'UniProt:O95665', 'label': 'Protein', 'name': 'Neurotensin receptor type 2'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01106#mechanismofaction']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00593_MESH_D004832_1', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'Ethosuximide', 'drug_mesh': 'MESH:D005013', 'drugbank': 'DB:DB00593'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D005013', 'target': 'UniProt:O43497'}, {'key': 'increases transport of', 'source': 'UniProt:O43497', 'target': 'MESH:D002118'}, {'key': 'decreases activity of', 'source': 'MESH:D002118', 'target': 'GO:0099608'}, {'key': 'located in', 'source': 'GO:0099608', 'target': 'UBERON:0000955'}, {'key': 'prevents', 'source': 'UBERON:0000955', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005013', 'label': 'Drug', 'name': 'Ethosuximide'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'T-type voltage sensitive calcium channels'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium ions'}, {'id': 'GO:0099608', 'label': 'BiologicalProcess', 'name': 'Regulation of action potential firing pattern'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00593#mechanismofaction', 'doi:10.1111/j.1527-3458.2007.00009.x', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ethosuximide#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00593_MESH_D004832_2', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'Ethosuximide', 'drug_mesh': 'MESH:D005013', 'drugbank': 'DB:DB00593'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005013', 'target': 'GO:0005228'}, {'key': 'increases transport of', 'source': 'GO:0005228', 'target': 'MESH:D009569'}, {'key': 'decreases activity of', 'source': 'MESH:D005013', 'target': 'GO:0015269'}, {'key': 'increases transport of', 'source': 'GO:0015269', 'target': 'MESH:D009569'}, {'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'GO:0042747'}, {'key': 'prevents', 'source': 'GO:0042747', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005013', 'label': 'Drug', 'name': 'Ethosuximide'}, {'id': 'GO:0005228', 'label': 'MolecularActivity', 'name': 'Intracellular sodium activated potassium channel activity'}, {'id': 'GO:0015269', 'label': 'MolecularActivity', 'name': 'Calcium-activated potassium channel activity'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'Nitric oxide'}, {'id': 'GO:0042747', 'label': 'BiologicalProcess', 'name': 'Paradoxical sleep'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00593#mechanismofaction', 'doi:10.1111/j.1527-3458.2007.00009.x', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ethosuximide#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'MolecularActivity', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Empagliflozin is used in combination with proper diet and exercise', 'directed': True, 'graph': {'_id': 'DB09038_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Empagliflozin', 'drug_mesh': 'MESH:C570240', 'drugbank': 'DB:DB09038'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C570240', 'target': 'UniProt:P31639'}, {'key': 'negatively regulates', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'has phenotype', 'source': 'GO:0035623', 'target': 'HP:0003076'}, {'key': 'decreases abundance of', 'source': 'HP:0003076', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C570240', 'label': 'Drug', 'name': 'Empagliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'HP:0003076', 'label': 'PhenotypicFeature', 'name': 'Glycosuria'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09038#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D004381_1', 'disease': 'Duodenal ulcer disease', 'disease_mesh': 'MESH:D004381', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D004381'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D004381', 'label': 'Disease', 'name': 'Duodenal ulcer disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D013276_1', 'disease': 'Gastric ulcer', 'disease_mesh': 'MESH:D013276', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D013276'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D013276', 'label': 'Disease', 'name': 'Gastric ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D015043_1', 'disease': 'Zollinger-Ellison syndrome', 'disease_mesh': 'MESH:D015043', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0034776'}, {'key': 'negatively regulates', 'source': 'GO:0034776', 'target': 'InterPro:IPR000072'}, {'key': 'correlated with', 'source': 'InterPro:IPR000072', 'target': 'MESH:D015043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'Response to histamine'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'MESH:D015043', 'label': 'Disease', 'name': 'Zollinger-Ellison syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D009377_1', 'disease': 'Multiple endocrine adenomas', 'disease_mesh': 'MESH:D009377', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0034776'}, {'key': 'negatively regulates', 'source': 'GO:0034776', 'target': 'InterPro:IPR000072'}, {'key': 'correlated with', 'source': 'InterPro:IPR000072', 'target': 'MESH:D009377'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'Response to histamine'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'MESH:D009377', 'label': 'Disease', 'name': 'Multiple endocrine adenomas'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00501_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0051381'}, {'key': 'negatively regulates', 'source': 'GO:0051381', 'target': 'GO:0001696'}, {'key': 'contributes to', 'source': 'GO:0001696', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0051381', 'label': 'BiologicalProcess', 'name': 'Histamine binding'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Cimetidine has a role in treating the symptoms of systemic mastocytosis', 'directed': True, 'graph': {'_id': 'DB00501_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'Cimetidine', 'drug_mesh': 'MESH:D002927', 'drugbank': 'DB:DB00501'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002927', 'target': 'UniProt:P25021'}, {'key': 'prevents', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'located in', 'source': 'GO:0001821', 'target': 'CL:0000097'}, {'key': 'correlated with', 'source': 'CL:0000097', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002927', 'label': 'Drug', 'name': 'Cimetidine'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'CL:0000097', 'label': 'Cell', 'name': 'Mast cell'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Cimetidine#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01183_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'Naloxone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB01183'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'negatively regulates', 'source': 'UniProt:P41143', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'negatively regulates', 'source': 'UniProt:P41145', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR000276', 'target': 'InterPro:IPR000274'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR000274', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'MESH:D013375'}, {'key': 'correlated with', 'source': 'MESH:D013375', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naloxone'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G-Protein coupled receptor'}, {'id': 'InterPro:IPR000274', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP levels'}, {'id': 'MESH:D013375', 'label': 'Disease', 'name': 'Withdrawal symptoms'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01183#mechanismofaction', 'DOI:10.18773/austprescr/1996.063', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3999180/']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01183_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Naloxone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB01183'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'negatively regulates', 'source': 'UniProt:P41143', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'negatively regulates', 'source': 'UniProt:P41145', 'target': 'InterPro:IPR000276'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR000276', 'target': 'InterPro:IPR000274'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR000274', 'target': 'MESH:D000242'}, {'key': 'positively regulates', 'source': 'MESH:D000242', 'target': 'GO:0048265'}, {'key': 'caused by', 'source': 'GO:0048265', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naloxone'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G-Protein coupled receptor'}, {'id': 'InterPro:IPR000274', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP levels'}, {'id': 'GO:0048265', 'label': 'BiologicalProcess', 'name': 'Response to pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01183#mechanismofaction', 'DOI:10.18773/austprescr/1996.063', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3999180/']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D013832_1', 'disease': 'Thiamin deficiency', 'disease_mesh': 'MESH:D013832', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0014055'}, {'key': 'negatively regulates', 'source': 'MESH:D013831', 'target': 'GO:0019249'}, {'key': 'positively regulates', 'source': 'GO:0006006', 'target': 'GO:0042775'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D013832'}, {'key': 'positively correlated with', 'source': 'GO:0019249', 'target': 'MESH:D013832'}, {'key': 'negatively correlated with', 'source': 'GO:0042775', 'target': 'MESH:D013832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'GO:0019249', 'label': 'BiologicalProcess', 'name': 'Lactate biosynthetic process'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'MESH:D013832', 'label': 'Disease', 'name': 'Thiamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Thiamine_deficiency']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Please note that there appears to be no connection between thiamin and cobalamin deficiency', 'directed': True, 'graph': {'_id': 'DB00152_MESH_D014806_1', 'disease': 'Cobalamin deficiency', 'disease_mesh': 'MESH:D014806', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'treats', 'source': 'MESH:D013831', 'target': 'MESH:D014806'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'MESH:D014806', 'label': 'Disease', 'name': 'Cobalamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://drugcentral.org/drugcard/2832?q=thiamine']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D020915_1', 'disease': 'Korsakoff Syndrome', 'disease_mesh': 'MESH:D020915', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'occurs in', 'source': 'GO:0006006', 'target': 'UBERON:0002206'}, {'key': 'positively regulates', 'source': 'UBERON:0002206', 'target': 'GO:0007616'}, {'key': 'negatively correlated with', 'source': 'GO:0007616', 'target': 'MESH:D020915'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'UBERON:0002206', 'label': 'GrossAnatomicalStructure', 'name': 'Mammillary body'}, {'id': 'GO:0007616', 'label': 'BiologicalProcess', 'name': 'Long-term memory'}, {'id': 'MESH:D020915', 'label': 'Disease', 'name': 'Korsakoff Syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Korsakoff_syndrome']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00152_MESH_D001361_1', 'disease': 'Avitaminosis', 'disease_mesh': 'MESH:D001361', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0006006'}, {'key': 'positively regulates', 'source': 'MESH:D013831', 'target': 'GO:0014055'}, {'key': 'negatively regulates', 'source': 'MESH:D013831', 'target': 'GO:0019249'}, {'key': 'positively regulates', 'source': 'GO:0006006', 'target': 'GO:0042775'}, {'key': 'negatively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D001361'}, {'key': 'positively correlated with', 'source': 'GO:0019249', 'target': 'MESH:D001361'}, {'key': 'negatively correlated with', 'source': 'GO:0042775', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'GO:0006006', 'label': 'BiologicalProcess', 'name': 'Glucose metabolic process'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'Acetylcholine secretion, neurotransmission'}, {'id': 'GO:0019249', 'label': 'BiologicalProcess', 'name': 'Lactate biosynthetic process'}, {'id': 'GO:0042775', 'label': 'BiologicalProcess', 'name': 'Mitochondrial ATP synthesis coupled electron transport'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Avitaminosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://en.wikipedia.org/wiki/Thiamine_deficiency', 'https://en.wikipedia.org/wiki/Vitamin_deficiency']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Please note that the pernicious anemia is a megaloblastic anemia caused by vitamin B12 deficiency not thiamine deficiency. Differential diagnosis for pernicious anemia includes thiamine-responsive megaloblastic anemia syndrome which is treated high doses of thiamine', 'directed': True, 'graph': {'_id': 'DB00152_MESH_D000752_1', 'disease': 'Pernicious anemia', 'disease_mesh': 'MESH:D000752', 'drug': 'Thiamine', 'drug_mesh': 'MESH:D013831', 'drugbank': 'DB:DB00152'}, 'links': [{'key': 'treats', 'source': 'MESH:D013831', 'target': 'MESH:D000752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013831', 'label': 'Drug', 'name': 'Thiamine'}, {'id': 'MESH:D000752', 'label': 'Disease', 'name': 'Pernicious anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00152', 'https://drugcentral.org/drugcard/2832?q=thiamine']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Midodrine is a prodrug, i.e., the therapeutic effect of orally administered midodrine is due to the major metabolite desglymidodrine', 'directed': True, 'graph': {'_id': 'DB00211_MESH_D007024_1', 'disease': 'Orthostatic hypotension', 'disease_mesh': 'MESH:D007024', 'drug': 'Midodrine', 'drug_mesh': 'MESH:D008879', 'drugbank': 'DB:DB00211'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D008879', 'target': 'CHEBI:73248'}, {'key': 'increases activity of', 'source': 'CHEBI:73248', 'target': 'UniProt:P35348'}, {'key': 'increases activity of', 'source': 'CHEBI:73248', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'HP:0032263'}, {'key': 'negatively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D007024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008879', 'label': 'Drug', 'name': 'Midodrine'}, {'id': 'CHEBI:73248', 'label': 'ChemicalSubstance', 'name': 'Deglymidodrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D007024', 'label': 'Disease', 'name': 'Orthostatic hypotension'}], 'reference': ['https://go.drugbank.com/drugs/DB00211#BE0000501']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D010301'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Postencephalitic parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D020734'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001480'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D001480'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'MESH:D001480', 'label': 'Disease', 'name': 'Basal Ganglia Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00245_MESH_D010300_1', 'disease': 'Parkinson Disease', 'disease_mesh': 'MESH:D010300', 'drug': 'Benzatropine', 'drug_mesh': 'MESH:D001590', 'drugbank': 'DB:DB00245'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D001590', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively correlated with', 'source': 'UniProt:P11229', 'target': 'CHEBI:15355'}, {'key': 'negatively regulates', 'source': 'GO:0090494', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'CHEBI:15355', 'target': 'HP:0001337'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'manifestation of', 'source': 'HP:0001337', 'target': 'MESH:D010300'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001590', 'label': 'Drug', 'name': 'Benzatropine'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'HP:0001337', 'label': 'BiologicalProcess', 'name': 'Tremor'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': 'Parkinson Disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00245#BE0000647', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00458_MESH_D053206_1', 'disease': 'Nocturnal enuresis', 'disease_mesh': 'MESH:D053206', 'drug': 'Imipramine', 'drug_mesh': 'MESH:D007099', 'drugbank': 'DB:DB00458'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'InterPro:IPR000995'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000995', 'target': 'CHEBI:15355'}, {'key': 'positively regulates', 'source': 'CHEBI:15355', 'target': 'UBERON:0000381'}, {'key': 'positively regulates', 'source': 'UBERON:0000381', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053206'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007099', 'label': 'Drug', 'name': 'Imipramine'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'UBERON:0000381', 'label': 'GrossAnatomicalStructure', 'name': 'Urinary bladder detrusor smooth muscle'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Micturition'}, {'id': 'MESH:D053206', 'label': 'Disease', 'name': 'Nocturnal enuresis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/22761613/', 'https://go.drugbank.com/drugs/DB00458']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00458_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Imipramine', 'drug_mesh': 'MESH:D007099', 'drugbank': 'DB:DB00458'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D007099', 'target': 'UniProt:P31645'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'negatively regulates', 'source': 'GO:0051620', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0051610', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007099', 'label': 'Drug', 'name': 'Imipramine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Norepinephrine uptake'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00458']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Please note Porfimer sodium is a photosensitizing agent used in combination with a specific type of light in so called photodynamic therapy', 'directed': True, 'graph': {'_id': 'DB00707_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'Porfimer sodium', 'drug_mesh': 'MESH:D017323', 'drugbank': 'DB:DB00707'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D017323', 'target': 'GO:0006979'}, {'key': 'positively correlated with', 'source': 'GO:0006979', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017323', 'label': 'Drug', 'name': 'Porfimer sodium'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Response to oxidative stress'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB00707']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Please note Porfimer sodium is a photosensitizing agent used in combination with a specific type of light in so called photodynamic therapy', 'directed': True, 'graph': {'_id': 'DB00707_MESH_D004938_1', 'disease': 'Malignant tumor of esophagus', 'disease_mesh': 'MESH:D004938', 'drug': 'Porfimer sodium', 'drug_mesh': 'MESH:D017323', 'drugbank': 'DB:DB00707'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D017323', 'target': 'GO:0006979'}, {'key': 'positively correlated with', 'source': 'GO:0006979', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D004938'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017323', 'label': 'Drug', 'name': 'Porfimer sodium'}, {'id': 'GO:0006979', 'label': 'BiologicalProcess', 'name': 'Response to oxidative stress'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D004938', 'label': 'Disease', 'name': 'Malignant tumor of esophagus'}], 'reference': ['https://go.drugbank.com/drugs/DB00707']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The mechanism of action of trimipramine is not fully clear', 'directed': True, 'graph': {'_id': 'DB00726_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Trimipramine', 'drug_mesh': 'MESH:D014299', 'drugbank': 'DB:DB00726'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014299', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'MESH:D014299', 'target': 'GO:0042421'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'negatively regulates', 'source': 'MESH:D006632', 'target': 'GO:0030431'}, {'key': 'positively correlated with', 'source': 'GO:0042421', 'target': 'GO:0061533'}, {'key': 'negatively correlated with', 'source': 'GO:0030431', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014299', 'label': 'Drug', 'name': 'Trimipramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0042421', 'label': 'BiologicalProcess', 'name': 'Norepinephrine biosynthetic proces'}, {'id': 'GO:0030431', 'label': 'BiologicalProcess', 'name': 'Sleep'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00726', 'https://pubmed.ncbi.nlm.nih.gov/8863001/', 'https://en.wikipedia.org/wiki/Trimipramine']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively regulates', 'source': 'GO:0045907', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood Pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D000788_1', 'disease': 'Prinzmetal angina', 'disease_mesh': 'MESH:D000788', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'positively correlated with', 'source': 'GO:0045907', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Prinzmetal angina'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430', 'https://en.wikipedia.org/wiki/Variant_angina#Mechanism']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01115_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Nifedipine', 'drug_mesh': 'MESH:D009543', 'drugbank': 'DB:DB01115'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009543', 'target': 'UniProt:Q13936'}, {'key': 'participates in', 'source': 'UniProt:Q13936', 'target': 'GO:0070509'}, {'key': 'contributes to', 'source': 'GO:0070509', 'target': 'GO:0045907'}, {'key': 'negatively regulates', 'source': 'GO:0045907', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009543', 'label': 'Drug', 'name': 'Nifedipine'}, {'id': 'UniProt:Q13936', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit alpha-1C'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0045907', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB01115#BE0000430', 'https://en.wikipedia.org/wiki/Angina']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01178_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'Chlormezanone', 'drug_mesh': 'MESH:D002720', 'drugbank': 'DB:DB01178'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D002720', 'target': 'GO:0016917'}, {'key': 'positively correlated with', 'source': 'GO:0016917', 'target': 'GO:0061534'}, {'key': 'negatively correlated with', 'source': 'GO:0061534', 'target': 'MESH:D001007'}, {'key': 'negatively regulates', 'source': 'GO:0061534', 'target': 'MESH:D007319'}, {'key': 'manifestation of', 'source': 'MESH:D007319', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002720', 'label': 'Drug', 'name': 'Chlormezanone'}, {'id': 'GO:0016917', 'label': 'MolecularActivity', 'name': 'GABA receptor activity'}, {'id': 'GO:0061534', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid secretion, neurotransmission'}, {'id': 'MESH:D007319', 'label': 'Disease', 'name': 'Sleeplessness'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB01178']}\n", - "['Drug', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09101_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Elvitegravir', 'drug_mesh': 'MESH:C509700', 'drugbank': 'DB:DB09101'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C509700', 'target': 'UniProt:Q7ZJM1'}, {'key': 'positively regulates', 'source': 'UniProt:Q7ZJM1', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C509700', 'label': 'Drug', 'name': 'Elvitegravir'}, {'id': 'UniProt:Q7ZJM1', 'label': 'Protein', 'name': 'Integrase (Human immunodeficiency virus 1)'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB09101#BE0004855']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P75352'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P22446'}, {'key': 'participates in', 'source': 'UniProt:P75352', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:P22446', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P75352', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P22446', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Mycoplasma pneumoniae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P72525'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:Q8DPM2'}, {'key': 'participates in', 'source': 'UniProt:P72525', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q8DPM2', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:Q8DPM2', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Streptococcus pneumoniae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:Q9Z7I9'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:Q54A16'}, {'key': 'participates in', 'source': 'UniProt:Q9Z7I9', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:Q54A16', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:Q9Z7I9', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Chlamydial pneumoniae)'}, {'id': 'UniProt:Q54A16', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Chlamydial pneumoniae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydial pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01208_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Sparfloxacin', 'drug_mesh': 'MESH:C061363', 'drugbank': 'DB:DB01208'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P43702'}, {'key': 'decreases activity of', 'source': 'MESH:C061363', 'target': 'UniProt:P43700'}, {'key': 'participates in', 'source': 'UniProt:P43702', 'target': 'GO:0044787'}, {'key': 'participates in', 'source': 'UniProt:P43700', 'target': 'GO:0044787'}, {'key': 'occurs in', 'source': 'GO:0044787', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061363', 'label': 'Drug', 'name': 'Sparfloxacin'}, {'id': 'UniProt:P43702', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Haemophilus influenzae)'}, {'id': 'UniProt:P43700', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Haemophilus influenzae)'}, {'id': 'GO:0044787', 'label': 'BiologicalProcess', 'name': 'bacterial-type DNA replication'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01208#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01219_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'dantrolene', 'drug_mesh': 'MESH:D003620', 'drugbank': 'DB:DB01219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003620', 'target': 'UniProt:P21817'}, {'key': 'part of', 'source': 'UniProt:P21817', 'target': 'GO:1990425'}, {'key': 'participates in', 'source': 'GO:1990425', 'target': 'GO:0005219'}, {'key': 'participates in', 'source': 'GO:0005219', 'target': 'GO:0032470'}, {'key': 'participates in', 'source': 'GO:0032470', 'target': 'GO:0006936'}, {'key': 'regulates', 'source': 'GO:0006936', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003620', 'label': 'Drug', 'name': 'Dantrolene'}, {'id': 'UniProt:P21817', 'label': 'Protein', 'name': 'Ryanodine receptor 1'}, {'id': 'GO:1990425', 'label': 'CellularComponent', 'name': 'Ryanodine receptor complex'}, {'id': 'GO:0005219', 'label': 'MolecularActivity', 'name': 'ryanodine-sensitive calcium-release channel activity'}, {'id': 'GO:0032470', 'label': 'BiologicalProcess', 'name': 'positive regulation of endoplasmic reticulum calcium ion concentration'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'muscle contraction'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01219#mechanism-of-action']}\n", - "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01219_MESH_C535694_1', 'disease': 'Malignant hyperthermia', 'disease_mesh': 'MESH:C535694', 'drug': 'dantrolene', 'drug_mesh': 'MESH:D003620', 'drugbank': 'DB:DB01219'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D003620', 'target': 'UniProt:P21817'}, {'key': 'part of', 'source': 'UniProt:P21817', 'target': 'GO:1990425'}, {'key': 'participates in', 'source': 'GO:1990425', 'target': 'GO:0005219'}, {'key': 'participates in', 'source': 'GO:0005219', 'target': 'GO:0032470'}, {'key': 'participates in', 'source': 'GO:0032470', 'target': 'GO:0006936'}, {'key': 'regulates', 'source': 'GO:0006936', 'target': 'MESH:C535694'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003620', 'label': 'Drug', 'name': 'Dantrolene'}, {'id': 'UniProt:P21817', 'label': 'Protein', 'name': 'Ryanodine receptor 1'}, {'id': 'GO:1990425', 'label': 'CellularComponent', 'name': 'Ryanodine receptor complex'}, {'id': 'GO:0005219', 'label': 'MolecularActivity', 'name': 'ryanodine-sensitive calcium-release channel activity'}, {'id': 'GO:0032470', 'label': 'BiologicalProcess', 'name': 'positive regulation of endoplasmic reticulum calcium ion concentration'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'muscle contraction'}, {'id': 'MESH:C535694', 'label': 'Disease', 'name': 'Malignant hyperthermia'}], 'reference': ['https://go.drugbank.com/drugs/DB01219#mechanism-of-action', 'https://en.wikipedia.org/wiki/Malignant_hyperthermia#Disease_mechanism']}\n", - "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6751347/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D000799_1', 'disease': 'Angioedema', 'disease_mesh': 'MESH:D000799', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000799'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000799', 'label': 'Disease', 'name': 'Angioedema'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01246_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'alimemazine', 'drug_mesh': 'MESH:D014291,MESH:C031242', 'drugbank': 'DB:DB01246'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB01246', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0034776'}, {'key': 'causes', 'source': 'GO:0034776', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01246', 'label': 'Drug', 'name': 'alimemazine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0034776', 'label': 'BiologicalProcess', 'name': 'histamine response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic Rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01246#BE0000442']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:Q54906'}, {'key': 'positively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding protein (Streptococcus pyogenes)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0AD65'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD65', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:562'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding protein 2 (Escherichia coli)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3049134/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0AD65'}, {'key': 'positively regulates', 'source': 'UniProt:P0AD65', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0AD65', 'label': 'Protein', 'name': 'Penicillin-binding protein 2 (Streptococcus pneumoniae)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:Q53725'}, {'key': 'positively regulates', 'source': 'UniProt:Q53725', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:Q53725', 'label': 'Protein', 'name': 'Cell division protein FtsI (Staphylococcus aureus)'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01413_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cefepime', 'drug_mesh': 'MESH:C043266', 'drugbank': 'DB:DB01413'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043266', 'target': 'UniProt:P0A3M6'}, {'key': 'positively regulates', 'source': 'UniProt:P0A3M6', 'target': 'GO:0071972'}, {'key': 'participates in', 'source': 'GO:0071972', 'target': 'GO:0018104'}, {'key': 'correlated with', 'source': 'GO:0018104', 'target': 'GO:0031504'}, {'key': 'in taxon', 'source': 'GO:0031504', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043266', 'label': 'Drug', 'name': 'Cefepime'}, {'id': 'UniProt:P0A3M6', 'label': 'Protein', 'name': 'Penicillin-binding protein 2B'}, {'id': 'GO:0071972', 'label': 'MolecularActivity', 'name': 'peptidoglycan L,D-transpeptidase activity'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-protein cross-linking'}, {'id': 'GO:0031504', 'label': 'BiologicalProcess', 'name': 'peptidoglycan-based cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01413#mechanism-of-action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04884_MESH_D061686_1', 'disease': 'Premature ejaculation', 'disease_mesh': 'MESH:D061686', 'drug': 'dapoxetine', 'drug_mesh': 'MESH:C080598', 'drugbank': 'DB:DB04884'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C080598', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'increases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'prevents', 'source': 'MESH:D012701', 'target': 'MESH:D061686'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C080598', 'label': 'Drug', 'name': 'dapoxetine'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'sodium dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Neuronal serotonin reuptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D061686', 'label': 'Disease', 'name': 'Premature ejaculation'}], 'reference': ['https://go.drugbank.com/drugs/DB04884#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1936309/', 'https://pubmed.ncbi.nlm.nih.gov/19557098/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2695237/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06788_MESH_D011629_1', 'disease': 'Precocious puberty', 'disease_mesh': 'MESH:D011629', 'drug': 'Histrelin', 'drug_mesh': 'MESH:C029256', 'drugbank': 'DB:DB06788'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C029256', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0005183'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006703'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006702'}, {'key': 'regulates', 'source': 'GO:0005183', 'target': 'GO:0006701'}, {'key': 'positively correlated with', 'source': 'GO:0006703', 'target': 'MESH:D011629'}, {'key': 'positively correlated with', 'source': 'GO:0006702', 'target': 'MESH:D011629'}, {'key': 'positively correlated with', 'source': 'GO:0006701', 'target': 'MESH:D011629'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C029256', 'label': 'Drug', 'name': 'Histrelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'gonadotropin hormone-releasing hormone activity'}, {'id': 'GO:0006703', 'label': 'BiologicalProcess', 'name': 'estrogen biosynthetic process'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'GO:0006701', 'label': 'BiologicalProcess', 'name': 'progesterone biosynthetic process'}, {'id': 'MESH:D011629', 'label': 'Disease', 'name': 'Precocious puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB06788#mechanism-of-action', 'https://en.wikipedia.org/wiki/Precocious_puberty', 'https://en.wikipedia.org/wiki/Histrelin']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09013_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Befunolol', 'drug_mesh': 'MESH:C006034', 'drugbank': 'DB:DB09013'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P07550'}, {'key': 'regulates', 'source': 'UniProt:P08588', 'target': 'HP:0007906'}, {'key': 'regulates', 'source': 'UniProt:P07550', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006034', 'label': 'Drug', 'name': 'Befunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09013', 'https://pubmed.ncbi.nlm.nih.gov/12480285/', 'https://pubmed.ncbi.nlm.nih.gov/37605/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09013_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Befunolol', 'drug_mesh': 'MESH:C006034', 'drugbank': 'DB:DB09013'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C006034', 'target': 'UniProt:P07550'}, {'key': 'regulates', 'source': 'UniProt:P08588', 'target': 'HP:0007906'}, {'key': 'regulates', 'source': 'UniProt:P07550', 'target': 'HP:0007906'}, {'key': 'treats', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C006034', 'label': 'Drug', 'name': 'Befunolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'intraocular pressure'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB09013', 'https://pubmed.ncbi.nlm.nih.gov/12480285/', 'https://pubmed.ncbi.nlm.nih.gov/37605/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00099_MESH_C537592_1', 'disease': 'Congenital neutropenia', 'disease_mesh': 'MESH:C537592', 'drug': 'Filgrastim', 'drug_mesh': 'MESH:D000069585', 'drugbank': 'DB:DB00099'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069585', 'target': 'UniProt:Q99062'}, {'key': 'positively regulates', 'source': 'UniProt:Q99062', 'target': 'GO:0030223'}, {'key': 'negatively correlated with', 'source': 'GO:0030223', 'target': 'MESH:C537592'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069585', 'label': 'Drug', 'name': 'Filgrastim'}, {'id': 'UniProt:Q99062', 'label': 'Protein', 'name': 'Granulocyte colony-stimulating factor receptor'}, {'id': 'GO:0030223', 'label': 'BiologicalProcess', 'name': 'Neutrophil differentiation'}, {'id': 'MESH:C537592', 'label': 'Disease', 'name': 'Congenital neutropenia'}], 'reference': ['https://en.wikipedia.org/wiki/Severe_congenital_neutropenia', 'https://go.drugbank.com/drugs/DB00099#BE0000793']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00099_MESH_C536227_1', 'disease': 'Cyclical neutropenia', 'disease_mesh': 'MESH:C536227', 'drug': 'Filgrastim', 'drug_mesh': 'MESH:D000069585', 'drugbank': 'DB:DB00099'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069585', 'target': 'UniProt:Q99062'}, {'key': 'positively regulates', 'source': 'UniProt:Q99062', 'target': 'GO:0030223'}, {'key': 'negatively correlated with', 'source': 'GO:0030223', 'target': 'MESH:C536227'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069585', 'label': 'Drug', 'name': 'Filgrastim'}, {'id': 'UniProt:Q99062', 'label': 'Protein', 'name': 'Granulocyte colony-stimulating factor receptor'}, {'id': 'GO:0030223', 'label': 'BiologicalProcess', 'name': 'Neutrophil differentiation'}, {'id': 'MESH:C536227', 'label': 'Disease', 'name': 'Cyclical neutropenia'}], 'reference': ['https://en.wikipedia.org/wiki/Severe_congenital_neutropenia', 'https://go.drugbank.com/drugs/DB00099#BE0000793']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D014552_1', 'disease': 'Urinary Tract Infections', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary Tract Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB00274', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D059413_1', 'disease': 'Intraabdominal Infections', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Intraabdominal Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00274_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefmetazole', 'drug_mesh': 'MESH:D015311', 'drugbank': 'DB:DB00274'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015311', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015311', 'label': 'Drug', 'name': 'Cefmetazole'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00274']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00574_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'Fenfluramine', 'drug_mesh': 'MESH:D005277', 'drugbank': 'DB:DB00574'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D005277', 'target': 'UniProt:P28221'}, {'key': 'positively correlated with', 'source': 'UniProt:P28221', 'target': 'MESH:D012701'}, {'key': 'negatively regulates', 'source': 'MESH:D012701', 'target': 'GO:0032100'}, {'key': 'positively correlated with', 'source': 'GO:0032100', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005277', 'label': 'Drug', 'name': 'Fenfluramine'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0032100', 'label': 'BiologicalProcess', 'name': 'Appetite stimulation'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00574', 'https://pubmed.ncbi.nlm.nih.gov/2692639/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00808_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'Indapamide', 'drug_mesh': 'MESH:D007190', 'drugbank': 'DB:DB00808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007190', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007190', 'label': 'Drug', 'name': 'Indapamide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00808']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00808_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Indapamide', 'drug_mesh': 'MESH:D007190', 'drugbank': 'DB:DB00808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007190', 'target': 'UniProt:P55017'}, {'key': 'participates in', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'HP:0011104'}, {'key': 'contributes to', 'source': 'HP:0011104', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007190', 'label': 'Drug', 'name': 'Indapamide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'HP:0011104', 'label': 'PhenotypicFeature', 'name': 'Abnormality of blood volume homeostasis'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Up regulation of blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00808']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00939', 'https://pubmed.ncbi.nlm.nih.gov/6344539/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00939_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Meclofenamic acid', 'drug_mesh': 'MESH:D008469', 'drugbank': 'DB:DB00939'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D008469', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008469', 'label': 'Drug', 'name': 'Meclofenamic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00939']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00953_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Rizatriptan', 'drug_mesh': 'MESH:C093622', 'drugbank': 'DB:DB00953'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'MESH:C093622', 'target': 'UniProt:P30939'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0004993'}, {'key': 'positively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0004993'}, {'key': 'positively regulates', 'source': 'UniProt:P30939', 'target': 'GO:0004993'}, {'key': 'positively correlated with', 'source': 'GO:0004993', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093622', 'label': 'Drug', 'name': 'Rizatriptan'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'UniProt:P30939', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1F'}, {'id': 'GO:0004993', 'label': 'MolecularActivity', 'name': 'G protein-coupled serotonin receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00953#BE0000659']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01045_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Rifampicin', 'drug_mesh': 'MESH:D012293', 'drugbank': 'DB:DB01045'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D012293', 'target': 'UniProt:P9WGY9'}, {'key': 'positively regulates', 'source': 'UniProt:P9WGY9', 'target': 'GO:0006351'}, {'key': 'in taxon', 'source': 'GO:0006351', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012293', 'label': 'Drug', 'name': 'Rifampicin'}, {'id': 'UniProt:P9WGY9', 'label': 'Protein', 'name': 'DNA-directed RNA polymerase subunit beta (Mycobacterium tuberculosis)'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01045#BE0000257']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09046_MESH_C562448_1', 'disease': 'Acquired partial lipodystrophy', 'disease_mesh': 'MESH:C562448', 'drug': 'Metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'positively correlated with', 'source': 'UniProt:P48357', 'target': 'MESH:D020738'}, {'key': 'produced by', 'source': 'MESH:D020738', 'target': 'UBERON:0001013'}, {'key': 'negatively correlated with', 'source': 'UBERON:0001013', 'target': 'MESH:C562448'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'Metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'Leptin receptor'}, {'id': 'MESH:D020738', 'label': 'ChemicalSubstance', 'name': 'Leptin'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'MESH:C562448', 'label': 'Disease', 'name': 'Acquired partial lipodystrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB09046#BE0003376', 'https://en.wikipedia.org/wiki/Lipodystrophy']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09046_MESH_D052497_1', 'disease': 'Congenital generalized lipodystrophy', 'disease_mesh': 'MESH:D052497', 'drug': 'Metreleptin', 'drug_mesh': 'MESH:C415771', 'drugbank': 'DB:DB09046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C415771', 'target': 'UniProt:P48357'}, {'key': 'positively correlated with', 'source': 'UniProt:P48357', 'target': 'MESH:D020738'}, {'key': 'produced by', 'source': 'MESH:D020738', 'target': 'UBERON:0001013'}, {'key': 'negatively correlated with', 'source': 'UBERON:0001013', 'target': 'MESH:D052497'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C415771', 'label': 'Drug', 'name': 'Metreleptin'}, {'id': 'UniProt:P48357', 'label': 'Protein', 'name': 'Leptin receptor'}, {'id': 'MESH:D020738', 'label': 'ChemicalSubstance', 'name': 'Leptin'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'MESH:D052497', 'label': 'Disease', 'name': 'Congenital generalized lipodystrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB09046#BE0003376', 'https://en.wikipedia.org/wiki/Congenital_generalized_lipodystrophy']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09093_MESH_D014141_1', 'disease': 'Trachoma', 'disease_mesh': 'MESH:D014141', 'drug': 'Chlortetracycline', 'drug_mesh': 'MESH:D002751', 'drugbank': 'DB:DB09093'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002751', 'target': 'InterPro:IPR030826'}, {'key': 'decreases activity of', 'source': 'MESH:D002751', 'target': 'MESH:D012336'}, {'key': 'participates in', 'source': 'InterPro:IPR030826', 'target': 'GO:0006412'}, {'key': 'participates in', 'source': 'MESH:D012336', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D014141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002751', 'label': 'Drug', 'name': 'Chlortetracycline'}, {'id': 'InterPro:IPR030826', 'label': 'GeneFamily', 'name': '30S ribosomal protein'}, {'id': 'MESH:D012336', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 16S'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D014141', 'label': 'Disease', 'name': 'Trachoma'}], 'reference': ['https://go.drugbank.com/drugs/DB09093#BE0004799', 'https://en.wikipedia.org/wiki/Trachoma']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Diagnostic aid', 'directed': True, 'graph': {'_id': 'DB09352_MESH_D015878_1', 'disease': 'Mydriasis', 'disease_mesh': 'MESH:D015878', 'drug': 'Hydroxyamfetamine', 'drug_mesh': 'MESH:D010136', 'drugbank': 'DB:DB09352'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D010136', 'target': 'GO:0061533'}, {'key': 'positively regulates', 'source': 'GO:0061533', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010136', 'label': 'Drug', 'name': 'Hydroxyamfetamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmissions'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Mydriasis'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/3651', 'https://go.drugbank.com/drugs/DB09352']}\n", - "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", - "{'comment': 'Heme (MESH:D006418) and hemin (MESH:D006427) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016780_1', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C027871', 'target': 'GO:0042540'}, {'key': 'increases abundance of', 'source': 'GO:0042540', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'GO:0042540', 'label': 'BiologicalProcess', 'name': 'hemoglobin catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3483207/']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Hemin (MESH:D006427) and heme (MESH:D006418) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016780_2', 'disease': 'Malaria, Vivax', 'disease_mesh': 'MESH:D016780', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C027871', 'target': 'MESH:D006427'}, {'key': 'disrupts', 'source': 'MESH:D006427', 'target': 'CL:0000232'}, {'key': 'location of', 'source': 'CL:0000232', 'target': 'GO:0019954'}, {'key': 'in taxon', 'source': 'GO:0019954', 'target': 'NCBITaxon:5855'}, {'key': 'causes', 'source': 'NCBITaxon:5855', 'target': 'MESH:D016780'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'MESH:D006427', 'label': 'ChemicalSubstance', 'name': 'Hemin'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocyte'}, {'id': 'GO:0019954', 'label': 'BiologicalProcess', 'name': 'asexual reproduction'}, {'id': 'NCBITaxon:5855', 'label': 'OrganismTaxon', 'name': 'Plasmodium vivax'}, {'id': 'MESH:D016780', 'label': 'Disease', 'name': 'Malaria, Vivax'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf']}\n", - "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Heme (MESH:D006418) and hemin (MESH:D006427) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016778_1', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C027871', 'target': 'GO:0042540'}, {'key': 'increases abundance of', 'source': 'GO:0042540', 'target': 'MESH:D006418'}, {'key': 'disrupts', 'source': 'MESH:D006418', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'GO:0042540', 'label': 'BiologicalProcess', 'name': 'hemoglobin catabolic process'}, {'id': 'MESH:D006418', 'label': 'ChemicalSubstance', 'name': 'Heme'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3483207/']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Hemin (MESH:D006427) and heme (MESH:D006418) are related substances resulting from the parasite hemoglobin catabolism. Heme is bound to iron whereas hemin is the hydroxide counterpart of heme. Both are cytotoxic. Hemin is also known as hematin.', 'directed': True, 'graph': {'_id': 'DB12975_MESH_D016778_2', 'disease': 'Malaria, Falciparum', 'disease_mesh': 'MESH:D016778', 'drug': 'Pyronaridine', 'drug_mesh': 'MESH:C027871', 'drugbank': 'DB:DB12975'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C027871', 'target': 'MESH:D006427'}, {'key': 'disrupts', 'source': 'MESH:D006427', 'target': 'CL:0000232'}, {'key': 'location of', 'source': 'CL:0000232', 'target': 'GO:0019954'}, {'key': 'in taxon', 'source': 'GO:0019954', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C027871', 'label': 'Drug', 'name': 'Pyronaridine'}, {'id': 'MESH:D006427', 'label': 'ChemicalSubstance', 'name': 'Hemin'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'erythrocyte'}, {'id': 'GO:0019954', 'label': 'BiologicalProcess', 'name': 'asexual reproduction'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Malaria, Falciparum'}], 'reference': ['https://www.ema.europa.eu/en/documents/medicine-outside-eu/pyramax-product-information_en.pdf']}\n", - "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00257_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D007641'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000935'}, {'key': 'disrupts', 'source': 'MESH:D000935', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}, {'key': 'negatively correlated with', 'source': 'MESH:D007641', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000935', 'label': 'Drug', 'name': 'Antifungal Agents'}, {'id': 'MESH:D007641', 'label': 'Drug', 'name': 'Keratolytic Agents'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis#Causes']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Disease']\n", - "{'comment': 'The disease is denoted as Acute necrotizing ulcerative gingivitis in the original file but the name used for the path is the one seen in the MESH website.', 'directed': True, 'graph': {'_id': 'DB00257_MESH_D005892_1', 'disease': 'Gingivitis, Necrotizing Ulcerative', 'disease_mesh': 'MESH:D005892', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:28131'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:848'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:157'}, {'key': 'causes', 'source': 'NCBITaxon:157', 'target': 'MESH:D005892'}, {'key': 'causes', 'source': 'NCBITaxon:848', 'target': 'MESH:D005892'}, {'key': 'causes', 'source': 'NCBITaxon:28131', 'target': 'MESH:D005892'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'NCBITaxon:157', 'label': 'OrganismTaxon', 'name': 'Treponema'}, {'id': 'NCBITaxon:848', 'label': 'OrganismTaxon', 'name': 'Fusobacterium'}, {'id': 'NCBITaxon:28131', 'label': 'OrganismTaxon', 'name': 'Prevotella intermedia'}, {'id': 'MESH:D005892', 'label': 'Disease', 'name': 'Gingivitis, Necrotizing Ulcerative'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://en.wikipedia.org/wiki/Acute_necrotizing_ulcerative_gingivitis#Causes']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'comment': \"Sulfur's usefulness as a topical remedy for acne dates back to at least the reign of Cleopatra i.e. 69–30 BCE (https://en.wikipedia.org/wiki/Acne#History).\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D000152_3', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D007641'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:1747'}, {'key': 'decreases abundance of', 'source': 'MESH:D007641', 'target': 'HP:0025249'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'MESH:D007641', 'label': 'Drug', 'name': 'Keratolytic Agents'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"The disease is denoted as Aphthous ulcer of mouth in the original file but the name used for the path is the one seen in the MESH website. The causes for this disease are not well known (https://ada.com/conditions/aphthous-ulcers/#causes). It's important to prevent secondary infection of the ulcers (https://en.wikipedia.org/wiki/Aphthous_stomatitis#Medication); that's when anti-bacterial agents can be administered.\", 'directed': True, 'graph': {'_id': 'DB00257_MESH_D013281_1', 'disease': 'Stomatitis, Aphthous', 'disease_mesh': 'MESH:D013281', 'drug': 'sulfur', 'drug_mesh': 'MESH:D013455', 'drugbank': 'DB:DB00257'}, 'links': [{'key': 'precedes', 'source': 'MESH:D013455', 'target': 'CHEBI:16136'}, {'key': 'subclass of', 'source': 'CHEBI:16136', 'target': 'MESH:D000900'}, {'key': 'disrupts', 'source': 'MESH:D000900', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D013281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013455', 'label': 'Drug', 'name': 'sulfur'}, {'id': 'CHEBI:16136', 'label': 'ChemicalSubstance', 'name': 'hydrogen sulfide'}, {'id': 'MESH:D000900', 'label': 'Drug', 'name': 'Anti-Bacterial Agents'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'MESH:D013281', 'label': 'Disease', 'name': 'Stomatitis, Aphthous'}], 'reference': ['https://go.drugbank.com/drugs/DB09353#mechanism-of-action', 'https://ada.com/conditions/aphthous-ulcers/#causes', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4441245/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4002348/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3227248/', 'https://www.mayoclinic.org/diseases-conditions/canker-sore/symptoms-causes/syc-20370615']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1392'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D018410'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Tonsillitis#Causes']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Cefpodoxime', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01416_MESH_D006069_1', 'disease': 'Gonorrhea', 'disease_mesh': 'MESH:D006069', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:485'}, {'key': 'causes', 'source': 'NCBITaxon:485', 'target': 'MESH:D006069'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:485', 'label': 'OrganismTaxon', 'name': 'Neisseria gonorrhoeae'}, {'id': 'MESH:D006069', 'label': 'Disease', 'name': 'Gonorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action', 'https://en.wikipedia.org/wiki/Gonorrhea#Cause']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': \"This disease is denoted as Streptococcus pyogenes infection in the original file but it's named Streptococcal Infections by MESH.\", 'directed': True, 'graph': {'_id': 'DB01416_MESH_D013290_1', 'disease': 'Streptococcal Infections', 'disease_mesh': 'MESH:D013290', 'drug': 'cefpodoxime proxetil', 'drug_mesh': 'MESH:C053267', 'drugbank': 'DB:DB01416'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR012338'}, {'key': 'decreases activity of', 'source': 'MESH:C053267', 'target': 'InterPro:IPR037532'}, {'key': 'positively regulates', 'source': 'InterPro:IPR012338', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'InterPro:IPR037532', 'target': 'GO:0009252'}, {'key': 'positively correlated with', 'source': 'GO:0009252', 'target': 'GO:0071555'}, {'key': 'in taxon', 'source': 'GO:0071555', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C053268'], 'id': 'MESH:C053267', 'label': 'Drug', 'name': 'cefpodoxime proxetil'}, {'id': 'InterPro:IPR012338', 'label': 'GeneFamily', 'name': 'Beta-lactamase/transpeptidase-like'}, {'id': 'InterPro:IPR037532', 'label': 'GeneFamily', 'name': 'Peptidoglycan D,D-transpeptidase FtsI'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'GO:0071555', 'label': 'BiologicalProcess', 'name': 'cell wall organization'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcal Infections'}], 'reference': ['https://go.drugbank.com/drugs/DB01416#mechanism-of-action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The disease is denoted Menopausal flushing in the original file but Hot flashes in MESH. The etiology of hot flashes has yet to be determined (https://pubmed.ncbi.nlm.nih.gov/15065632/).', 'directed': True, 'graph': {'_id': 'DB06710_MESH_D019584_1', 'disease': 'Menopausal Flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'precedes', 'source': 'MESH:D008777', 'target': 'CHEBI:34179'}, {'key': 'increases activity of', 'source': 'CHEBI:34179', 'target': 'UniProt:P03372'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'correlated with', 'source': 'UniProt:P10275', 'target': 'GO:0097746'}, {'key': 'correlated with', 'source': 'GO:0097746', 'target': 'MESH:D014666'}, {'key': 'regulates', 'source': 'GO:0006874', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'CHEBI:34179', 'label': 'Drug', 'name': '17alpha-Methylestradiol'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0097746', 'label': 'BiologicalProcess', 'name': 'blood vessel diameter maintenance'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal Flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methyltestosterone#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Methylestradiol#Pharmacodynamics', 'https://en.wikipedia.org/wiki/Hot_flash#Mechanism', 'https://academic.oup.com/jcem/article/100/11/3975/2836060']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'MESH:D005058 is named male hypogonadism in the original file.', 'directed': True, 'graph': {'_id': 'DB06710_MESH_D005058_1', 'disease': 'Eunuchism', 'disease_mesh': 'MESH:D005058', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060742'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0007283'}, {'key': 'positively correlated with', 'source': 'GO:0060742', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0048808', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0008584', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0019102', 'target': 'CHEBI:17347'}, {'key': 'positively correlated with', 'source': 'GO:0007283', 'target': 'CHEBI:17347'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17347', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060742', 'label': 'BiologicalProcess', 'name': 'epithelial cell differentiation involved in prostate gland development'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'male somatic sex determination'}, {'id': 'GO:0007283', 'label': 'BiologicalProcess', 'name': 'spermatogenesis'}, {'id': 'CHEBI:17347', 'label': 'ChemicalSubstance', 'name': 'testosterone'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Eunuchism'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Hypogonadism#Treatment', 'https://en.wikipedia.org/wiki/Hypogonadism#Men']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06710_MESH_D011628_1', 'disease': 'Puberty, Delayed', 'disease_mesh': 'MESH:D011628', 'drug': 'methyltestosterone', 'drug_mesh': 'MESH:D008777', 'drugbank': 'DB:DB06710'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008777', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030518'}, {'key': 'positively correlated with', 'source': 'GO:0030518', 'target': 'GO:0071394'}, {'key': 'positively correlated with', 'source': 'GO:0030518', 'target': 'GO:0071391'}, {'key': 'positively correlated with', 'source': 'GO:0071394', 'target': 'GO:0048808'}, {'key': 'positively correlated with', 'source': 'GO:0071391', 'target': 'GO:0048807'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D011628'}, {'key': 'negatively correlated with', 'source': 'GO:0048807', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008777', 'label': 'Drug', 'name': 'methyltestosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030518', 'label': 'BiologicalProcess', 'name': 'intracellular steroid hormone receptor signaling pathway'}, {'id': 'GO:0071394', 'label': 'BiologicalProcess', 'name': 'cellular response to testosterone stimulus'}, {'id': 'GO:0071391', 'label': 'BiologicalProcess', 'name': 'cellular response to estrogen stimulus'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'male genitalia morphogenesis'}, {'id': 'GO:0048807', 'label': 'BiologicalProcess', 'name': 'female genitalia morphogenesis'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Puberty, Delayed'}], 'reference': ['https://go.drugbank.com/drugs/DB06710#mechanism-of-action', 'https://en.wikipedia.org/wiki/Delayed_pubertydrugs/DB06710#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission (https://go.drugbank.com/drugs/DB00555#BE0000013). However this is rather contentious, so it has not been annotated as such in here. Besides if the drug does modulate gamma-aminobutyric acid receptor it's a rather weak inhibition seen in animal models (yet to be determined in humans). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, note that this disease is denoted as Tonic-clonic seizure in the original file but known as Seizures in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D012640_1', 'disease': 'Seizures', 'disease_mesh': 'MESH:D012640', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission (https://go.drugbank.com/drugs/DB00555#BE0000013). However this is rather contentious, so it has not been annotated as such in here. Besides if the drug does inhibit gamma-aminobutyric acid receptor it's a rather weak inhibition seen in animal models (yet to be determined in humans). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Tonic-clonic seizure in the original file but known as Seizures in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D012640_2', 'disease': 'Seizures', 'disease_mesh': 'MESH:D012640', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Seizures'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Simple partial seizure in the original file but known as Epilepsies, Partial in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004828_1', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'HP:0032843', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032843', 'label': 'PhenotypicFeature', 'name': 'Focal-onset epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology', 'https://en.wikipedia.org/wiki/Focal_seizure']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/). Finally, this disease is denoted as Simple partial seizure in the original file but known as Epilepsies, Partial in MESH.\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004828_2', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032843'}, {'key': 'positively correlated with', 'source': 'HP:0032843', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032843', 'label': 'PhenotypicFeature', 'name': 'Focal-onset epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D065768_2', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061530'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061530', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0061530', 'label': 'BiologicalProcess', 'name': 'aspartate secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#mechanism-of-action', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Glutamate_(neurotransmitter)#Disease,_disabilities,_and_pharmacology']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"This drug may also affect GABA-mediated synaptic transmission as listed by DrugBank (https://go.drugbank.com/drugs/DB00555#BE0000013). However, this is contentious and if the drug does modulate GABA it's not known whether it is as agonist or antagonist due to conflicting data (at best it would be a weak modulation seen in animal models only). Note that the drug could be contraindicated for treatment of seizures as it can exacerbate them, specially the myoclonic type (https://pubmed.ncbi.nlm.nih.gov/9596203/).\", 'directed': True, 'graph': {'_id': 'DB00555_MESH_D004827_2', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'lamotrigine', 'drug_mesh': 'MESH:C047781', 'drugbank': 'DB:DB00555'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C047781', 'target': 'UniProt:Q15878'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'participates in', 'source': 'UniProt:Q15878', 'target': 'REACT:R-HSA-112308'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-112308', 'target': 'GO:0007268'}, {'key': 'positively correlated with', 'source': 'GO:0007268', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0020219'}, {'key': 'positively correlated with', 'source': 'HP:0020219', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047781', 'label': 'Drug', 'name': 'lamotrigine'}, {'id': 'UniProt:Q15878', 'label': 'Protein', 'name': 'Voltage-dependent R-type calcium channel subunit alpha-1E'}, {'id': 'REACT:R-HSA-112308', 'label': 'Pathway', 'name': 'Presynaptic depolarization and calcium channel opening'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'glutamate secretion, neurotransmission'}, {'id': 'HP:0020219', 'label': 'PhenotypicFeature', 'name': 'Motor seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00555#BE0009609', 'https://en.wikipedia.org/wiki/Lamotrigine#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/10530688/', 'https://pubmed.ncbi.nlm.nih.gov/9579933/', 'https://en.wikipedia.org/wiki/Anticonvulsant', 'https://en.wikipedia.org/wiki/Neuroprotection']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00850_MESH_D012559_2', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'prochlorperazine', 'drug_mesh': 'MESH:D011346', 'drugbank': 'DB:DB00850'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011346', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'positively correlated with', 'source': 'CHEBI:18243', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011346', 'label': 'Drug', 'name': 'prochlorperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00433#mechanism-of-action', 'https://en.wikipedia.org/wiki/Prochlorperazine#Pharmacology', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Aminosalicylic acid is often administered in association with isoniazid', 'directed': True, 'graph': {'_id': 'DB00233_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Aminosalicylic acid', 'drug_mesh': 'MESH:D010131', 'drugbank': 'DB:DB00233'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010131', 'target': 'InterPro:IPR001796'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001796', 'target': 'GO:0071897'}, {'key': 'positively correlated with', 'source': 'GO:0071897', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010131', 'label': 'Drug', 'name': 'Aminosalicylic acid'}, {'id': 'InterPro:IPR001796', 'label': 'GeneFamily', 'name': 'Dihydrofolate reductase domain'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA biosynthetic process'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00233', 'https://en.wikipedia.org/wiki/4-Aminosalicylic_acid#Pharmacology']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D011015_1', 'disease': 'Aspiration pneumonia', 'disease_mesh': 'MESH:D011015', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011015'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011015', 'label': 'Disease', 'name': 'Aspiration pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01061', 'https://en.wikipedia.org/wiki/Aspiration_pneumonia']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D016868_1', 'disease': 'Bacterial infection due to Serratia', 'disease_mesh': 'MESH:D016868', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:615'}, {'key': 'causes', 'source': 'NCBITaxon:615', 'target': 'MESH:D016868'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:615', 'label': 'OrganismTaxon', 'name': 'Serratia marcescens'}, {'id': 'MESH:D016868', 'label': 'Disease', 'name': 'Bacterial infection due to Serratia'}], 'reference': ['https://go.drugbank.com/drugs/DB01061']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01061_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Azlocillin', 'drug_mesh': 'MESH:D001390', 'drugbank': 'DB:DB01061'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001390', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001390', 'label': 'Drug', 'name': 'Azlocillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01061', 'https://en.wikipedia.org/wiki/Urinary_tract_infection']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01147']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01147']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01147', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01147_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'Cloxacillin', 'drug_mesh': 'MESH:D003023', 'drugbank': 'DB:DB01147'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003023', 'target': 'InterPro:IPR005311'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005311', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003023', 'label': 'Drug', 'name': 'Cloxacillin'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'InterPro:IPR005311', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01147', 'https://en.wikipedia.org/wiki/Sinusitis#Causes']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001172'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D010003'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01401_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Choline magnesium trisalicylate', 'drug_mesh': 'MESH:C017959', 'drugbank': 'DB:DB01401'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C017959', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017959', 'label': 'Drug', 'name': 'Choline magnesium trisalicylate'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB01401']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB02383_MESH_D048909_1', 'disease': 'Diabetic complication', 'disease_mesh': 'MESH:D048909', 'drug': 'Tolrestat', 'drug_mesh': 'MESH:C040550', 'drugbank': 'DB:DB02383'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C040550', 'target': 'UniProt:P15121'}, {'key': 'increases abundance of', 'source': 'UniProt:P15121', 'target': 'MESH:D013012'}, {'key': 'causes', 'source': 'MESH:D013012', 'target': 'GO:0006970'}, {'key': 'positively correlated with', 'source': 'GO:0006970', 'target': 'HP:0000518'}, {'key': 'manifestation of', 'source': 'HP:0000518', 'target': 'MESH:D048909'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C040550', 'label': 'Drug', 'name': 'Tolrestat'}, {'id': 'UniProt:P15121', 'label': 'Protein', 'name': 'Aldose reductase'}, {'id': 'MESH:D013012', 'label': 'ChemicalSubstance', 'name': 'Sorbitol'}, {'id': 'GO:0006970', 'label': 'BiologicalProcess', 'name': 'Response to osmotic stress'}, {'id': 'HP:0000518', 'label': 'PhenotypicFeature', 'name': 'Cataract'}, {'id': 'MESH:D048909', 'label': 'Disease', 'name': 'Diabetic complication'}], 'reference': ['https://go.drugbank.com/drugs/DB02383', 'https://en.wikipedia.org/wiki/Aldose_reductase_inhibitor']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05351_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Dexlansoprazole', 'drug_mesh': 'MESH:D064748', 'drugbank': 'DB:DB05351'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P20648'}, {'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P51164'}, {'key': 'positively regulates', 'source': 'UniProt:P20648', 'target': 'GO:0001696'}, {'key': 'positively regulates', 'source': 'UniProt:P51164', 'target': 'GO:0001696'}, {'key': 'increases abundance of', 'source': 'GO:0001696', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064748', 'label': 'Drug', 'name': 'Dexlansoprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'UniProt:P51164', 'label': 'Protein', 'name': 'Potassium-transporting ATPase subunit beta'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB05351#BE0000349']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05351_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Dexlansoprazole', 'drug_mesh': 'MESH:D064748', 'drugbank': 'DB:DB05351'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P20648'}, {'key': 'decreases activity of', 'source': 'MESH:D064748', 'target': 'UniProt:P51164'}, {'key': 'positively regulates', 'source': 'UniProt:P20648', 'target': 'GO:0001696'}, {'key': 'positively regulates', 'source': 'UniProt:P51164', 'target': 'GO:0001696'}, {'key': 'increases abundance of', 'source': 'GO:0001696', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064748', 'label': 'Drug', 'name': 'Dexlansoprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'UniProt:P51164', 'label': 'Protein', 'name': 'Potassium-transporting ATPase subunit beta'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB05351#BE0000349']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB05521_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Telaprevir', 'drug_mesh': 'MESH:C486464', 'drugbank': 'DB:DB05521'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C486464', 'target': 'UniProt:B0B3C9'}, {'key': 'positively regulates', 'source': 'UniProt:B0B3C9', 'target': 'GO:0039694'}, {'key': 'capable of', 'source': 'UniProt:B0B3C9', 'target': 'GO:0008236'}, {'key': 'in taxon', 'source': 'GO:0039694', 'target': 'NCBITaxon:11103'}, {'key': 'in taxon', 'source': 'GO:0008236', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C486464', 'label': 'Drug', 'name': 'Telaprevir'}, {'id': 'UniProt:B0B3C9', 'label': 'Protein', 'name': 'Genome polyprotein'}, {'id': 'GO:0039694', 'label': 'BiologicalProcess', 'name': 'Viral RNA genome replication'}, {'id': 'GO:0008236', 'label': 'MolecularActivity', 'name': 'Serine-type peptidase activity'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepacivirus C'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB05521']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D051474_1', 'disease': 'Postherpetic neuralgia', 'disease_mesh': 'MESH:D051474', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D051474'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D051474', 'label': 'Disease', 'name': 'Postherpetic neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D009437_1', 'disease': 'Neuralgia', 'disease_mesh': 'MESH:D009437', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D009437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D009437', 'label': 'Disease', 'name': 'Neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06774_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Capsaicin', 'drug_mesh': 'MESH:D002211', 'drugbank': 'DB:DB06774'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002211', 'target': 'UniProt:Q8NER1'}, {'key': 'decreases abundance of', 'source': 'MESH:D002211', 'target': 'MESH:D013373'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'MESH:D013373', 'target': 'MESH:D010146'}, {'key': 'disrupts', 'source': 'GO:0070509', 'target': 'GO:0005739'}, {'key': 'located in', 'source': 'GO:0005739', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'CL:0000198', 'target': 'MESH:D010146'}, {'key': 'manifestation of', 'source': 'MESH:D010146', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002211', 'label': 'Drug', 'name': 'Capsaicin'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0005739', 'label': 'CellularComponent', 'name': 'Mitochondrion'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Pain receptor cell'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB06774#BE0001023', 'https://pubmed.ncbi.nlm.nih.gov/21852280/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'Cell', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09040_MESH_D014009_1', 'disease': 'Onychomycosis due to dermatophyte', 'disease_mesh': 'MESH:D014009', 'drug': 'Efinaconazole', 'drug_mesh': 'MESH:C431707', 'drugbank': 'DB:DB09040'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C431707', 'target': 'PR:000006147'}, {'key': 'positively regulates', 'source': 'PR:000006147', 'target': 'GO:0006696'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'MESH:D004875'}, {'key': 'participates in', 'source': 'MESH:D004875', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:5551'}, {'key': 'causes', 'source': 'NCBITaxon:5551', 'target': 'MESH:D014009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C431707', 'label': 'Drug', 'name': 'Efinaconazole'}, {'id': 'PR:000006147', 'label': 'MacromolecularComplex', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'MESH:D004875', 'label': 'ChemicalSubstance', 'name': 'Ergosterol'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5551', 'label': 'OrganismTaxon', 'name': 'Trichophyton rubrum'}, {'id': 'MESH:D014009', 'label': 'Disease', 'name': 'Onychomycosis due to dermatophyte'}], 'reference': ['https://go.drugbank.com/drugs/DB09040#BE0000690', 'https://en.wikipedia.org/wiki/Onychomycosis#Dermatophytes']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11606_MESH_C536392_1', 'disease': 'Acquired factor VIII deficiency disease', 'disease_mesh': 'MESH:C536392', 'drug': 'Susoctocog alfa', 'drug_mesh': None, 'drugbank': 'DB:DB11606'}, 'links': [{'key': 'participates in', 'source': 'DB:DB11606', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:C536392'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB11606', 'label': 'Drug', 'name': 'Susoctocog alfa'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'MESH:C536392', 'label': 'Disease', 'name': 'Acquired factor VIII deficiency disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11606']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11607_MESH_D006467_1', 'disease': 'Hereditary factor VIII deficiency disease', 'disease_mesh': 'MESH:D006467', 'drug': 'Efmoroctocog alfa', 'drug_mesh': 'MESH:C587014', 'drugbank': 'DB:DB11607'}, 'links': [{'key': 'participates in', 'source': 'MESH:C587014', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:D006467'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587014', 'label': 'Drug', 'name': 'Efmoroctocog alfa'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'MESH:D006467', 'label': 'Disease', 'name': 'Hereditary factor VIII deficiency disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11607']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'This drug is most commonly used to treat epileptic conditions that are resistant to other treatments due to its toxicity (https://en.wikipedia.org/wiki/Trimethadione, https://go.drugbank.com/drugs/DB00347).', 'directed': True, 'graph': {'_id': 'DB00347_MESH_D004832_2', 'disease': 'Absence seizure', 'disease_mesh': 'MESH:D004832', 'drug': 'trimethadione', 'drug_mesh': 'MESH:D014293', 'drugbank': 'DB:DB00347'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014293', 'target': 'UniProt:O43497'}, {'key': 'positively regulates', 'source': 'UniProt:O43497', 'target': 'GO:0007268'}, {'key': 'correlated with', 'source': 'GO:0007268', 'target': 'HP:0012535'}, {'key': 'correlated with', 'source': 'HP:0012535', 'target': 'HP:0002121'}, {'key': 'positively correlated with', 'source': 'HP:0002121', 'target': 'MESH:D004832'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014293', 'label': 'Drug', 'name': 'trimethadione'}, {'id': 'UniProt:O43497', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1G'}, {'id': 'GO:0007268', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission'}, {'id': 'HP:0012535', 'label': 'PhenotypicFeature', 'name': 'Abnormal synaptic transmission'}, {'id': 'HP:0002121', 'label': 'PhenotypicFeature', 'name': 'Generalized non-motor (absence) seizure'}, {'id': 'MESH:D004832', 'label': 'Disease', 'name': 'Absence seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00347#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D001987_1', 'disease': 'Bronchiectasis', 'disease_mesh': 'MESH:D001987', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0001005'}, {'key': 'location of', 'source': 'UBERON:0001005', 'target': 'MESH:D001987'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0001005', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory airway'}, {'id': 'MESH:D001987', 'label': 'Disease', 'name': 'Bronchiectasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668', 'https://en.wikipedia.org/wiki/Bronchodilator#Common_bronchodilators', 'https://en.wikipedia.org/wiki/Adrenaline#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Bronchiectasis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0002185'}, {'key': 'location of', 'source': 'UBERON:0002185', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00668', 'https://en.wikipedia.org/wiki/Bronchodilator#Common_bronchodilators', 'https://en.wikipedia.org/wiki/Bronchitis']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comments': 'The use of bronchodilators does not seem to improve the condition per se as it does for other respiratory conditions such as asthma for example. The benefit is rather small (https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators).', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0044557'}, {'key': 'negatively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0044557'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002187'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0002187'}, {'key': 'location of', 'source': 'UBERON:0002187', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002187', 'label': 'GrossAnatomicalStructure', 'name': 'terminal bronchiole'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chronic_obstructive_pulmonary_disease#Bronchodilators']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comments': 'MESH:D012135 is denoted as Wheezing in the original file. Note that wheezing is commonly experienced by patients with a lung disease where the respiratory tract is somehow obstructed.', 'directed': True, 'graph': {'_id': 'DB00668_MESH_D012135_1', 'disease': 'Respiratory Sounds', 'disease_mesh': 'MESH:D012135', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042311'}, {'key': 'located in', 'source': 'GO:0042311', 'target': 'UBERON:0000065'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0000065'}, {'key': 'location of', 'source': 'UBERON:0000065', 'target': 'MESH:D012135'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'UBERON:0000065', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory tract'}, {'id': 'MESH:D012135', 'label': 'Disease', 'name': 'Respiratory Sounds'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00668_MESH_D004417_1', 'disease': 'Dyspnea', 'disease_mesh': 'MESH:D004417', 'drug': 'epinephrine', 'drug_mesh': 'MESH:D004837', 'drugbank': 'DB:DB00668'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P25100'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08588'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35368'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P08913'}, {'key': 'positively regulates', 'source': 'MESH:D004837', 'target': 'UniProt:P18089'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08588', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'located in', 'source': 'GO:0042310', 'target': 'UBERON:0000065'}, {'key': 'location of', 'source': 'UBERON:0000065', 'target': 'MESH:D004417'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004837', 'label': 'Drug', 'name': 'epinephrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'UBERON:0000065', 'label': 'GrossAnatomicalStructure', 'name': 'respiratory tract'}, {'id': 'MESH:D004417', 'label': 'Disease', 'name': 'Dyspnea'}], 'reference': ['https://go.drugbank.com/drugs/DB00668#BE0000694', 'https://en.wikipedia.org/wiki/Shortness_of_breath#Chronic_obstructive_pulmonary_disease', 'https://en.wikipedia.org/wiki/Beta2-adrenergic_agonist#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09053_MESH_D015451_1', 'disease': 'Chronic lymphoid leukemia, disease', 'disease_mesh': 'MESH:D015451', 'drug': 'ibrutinib', 'drug_mesh': 'MESH:C551803', 'drugbank': 'DB:DB09053'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C551803', 'target': 'UniProt:Q06187'}, {'key': 'positively regulates', 'source': 'UniProt:Q06187', 'target': 'GO:0050853'}, {'key': 'positively regulates', 'source': 'GO:0050853', 'target': 'GO:0002368'}, {'key': 'negatively correlated with', 'source': 'GO:0050853', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0050853', 'target': 'GO:0060326'}, {'key': 'positively correlated with', 'source': 'GO:0060326', 'target': 'MESH:D015451'}, {'key': 'positively correlated with', 'source': 'GO:0002368', 'target': 'MESH:D015451'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C551803', 'label': 'Drug', 'name': 'ibrutinib'}, {'id': 'UniProt:Q06187', 'label': 'Protein', 'name': 'Tyrosine-protein kinase BTK'}, {'id': 'GO:0050853', 'label': 'BiologicalProcess', 'name': 'B cell receptor signaling pathway'}, {'id': 'GO:0002368', 'label': 'BiologicalProcess', 'name': 'B cell cytokine production'}, {'id': 'GO:0060326', 'label': 'BiologicalProcess', 'name': 'cell chemotaxis'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Chronic lymphoid leukemia, disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09053#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ibrutinib#Mechanism', 'https://en.wikipedia.org/wiki/Ibrutinib#Medical_uses', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4632638/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'Many other members of the sodium channel protein alpha unit family (MESH:D061566 or CHEMBL:2331043) could also be targets for this drug, presumably through the same MoA, according to ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201754/) and Pharos (https://pharos.nih.gov/ligands/rufinamide).', 'directed': True, 'graph': {'_id': 'DB06201_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'rufinamide', 'drug_mesh': 'MESH:C079703', 'drugbank': 'DB:DB06201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C079703', 'target': 'UniProt:Q15858'}, {'key': 'positively regulates', 'source': 'UniProt:Q15858', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0007269'}, {'key': 'positively correlated with', 'source': 'GO:0007269', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C079703', 'label': 'Drug', 'name': 'rufinamide'}, {'id': 'UniProt:Q15858', 'label': 'Protein', 'name': 'Sodium channel protein type 9 subunit alpha'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter secretion'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06201#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rufinamide', 'https://pubmed.ncbi.nlm.nih.gov/30391662/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Seizures']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The drug will inhibit the glutamate receptor only at high concentration (https://pubchem.ncbi.nlm.nih.gov/compound/129228#section=Pharmacology-and-Biochemistry).', 'directed': True, 'graph': {'_id': 'DB06201_MESH_D065768_2', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'rufinamide', 'drug_mesh': 'MESH:C079703', 'drugbank': 'DB:DB06201'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C079703', 'target': 'UniProt:P41594'}, {'key': 'positively correlated with', 'source': 'UniProt:P41594', 'target': 'GO:0099530'}, {'key': 'positively correlated with', 'source': 'GO:0099530', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'HP:0032792'}, {'key': 'positively correlated with', 'source': 'HP:0032792', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C079703', 'label': 'Drug', 'name': 'rufinamide'}, {'id': 'UniProt:P41594', 'label': 'Protein', 'name': 'Metabotropic glutamate receptor 5'}, {'id': 'GO:0099530', 'label': 'MolecularActivity', 'name': 'G protein-coupled receptor activity involved in regulation of postsynaptic membrane potential'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'HP:0032792', 'label': 'PhenotypicFeature', 'name': 'Tonic seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06201#mechanism-of-action', 'https://en.wikipedia.org/wiki/Rufinamide', 'https://pubmed.ncbi.nlm.nih.gov/30391662/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7461817/', 'https://en.wikipedia.org/wiki/Lennox%E2%80%93Gastaut_syndrome#Seizures']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'This drug seems to have mixed effects in the dopamine, serotonin, and noradrenaline systems (https://pubmed.ncbi.nlm.nih.gov/2869188/), suggesting it can compensate for deficits in disease and in aging while preventing the pathological effects that result from excessive activity in these systems in normal individuals. This drug is contraindicated in patients who have psychosis, acute or chronic (https://en.wikipedia.org/wiki/Ergoloid#Contraindications).', 'directed': True, 'graph': {'_id': 'DB01049_MESH_D003704_1', 'disease': 'Dementia', 'disease_mesh': 'MESH:D003704', 'drug': 'Ergoloid mesylates', 'drug_mesh': 'MESH:D004877', 'drugbank': 'DB:DB01049'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR000929'}, {'key': 'positively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR002231'}, {'key': 'negatively regulates', 'source': 'MESH:D004877', 'target': 'InterPro:IPR002233'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000929', 'target': 'GO:0001963'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0001963'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002231', 'target': 'GO:0051932'}, {'key': 'negatively correlated with', 'source': 'GO:0007271', 'target': 'HP:0001268'}, {'key': 'negatively correlated with', 'source': 'GO:0035249', 'target': 'HP:0001268'}, {'key': 'negatively correlated with', 'source': 'GO:0051932', 'target': 'HP:0001268'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR002233', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0002354'}, {'key': 'manifestation of', 'source': 'HP:0002354', 'target': 'MESH:D003704'}, {'key': 'negatively correlated with', 'source': 'GO:0001963', 'target': 'HP:0001268'}, {'key': 'manifestation of', 'source': 'HP:0001268', 'target': 'MESH:D003704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004877', 'label': 'Drug', 'name': 'Ergoloid mesylates'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'InterPro:IPR002233', 'label': 'GeneFamily', 'name': 'Adrenoceptor family'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'GO:0001963', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, dopaminergic'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, glutamatergic'}, {'id': 'GO:0051932', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, GABAergic'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0002354', 'label': 'PhenotypicFeature', 'name': 'Memory impairment'}, {'id': 'HP:0001268', 'label': 'PhenotypicFeature', 'name': 'Mental deterioration'}, {'id': 'MESH:D003704', 'label': 'Disease', 'name': 'Dementia'}], 'reference': ['https://go.drugbank.com/drugs/DB01049#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ergoloid#Mechanism_of_action', 'https://selfhacked.com/blog/hydergine/#Mechanism_of_Action', 'https://en.wikipedia.org/wiki/5-HT_receptor']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'This drug could potentially modulate UniProt:P43115 as it has little selectivity. However, the action upon activing this target would be vasoconstriction, which would be contraindicated in Pulmonary arterial hypertension. This could explain the hypertension adverse event reported in https://www.targetvalidation.org/summary?drug=CHEMBL494. DrugBank has the phosphodiesterase gene family as possible targets for this drug but this is based on experiments where Iloprost was used in combination with phosphodiesterase inhibitors. So, Iloprost on its own does not modulate phosphodiesterases.', 'directed': True, 'graph': {'_id': 'DB01088_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'iloprost', 'drug_mesh': 'MESH:D016285', 'drugbank': 'DB:DB01088'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P43119'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P34995'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P43116'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:P35408'}, {'key': 'increases activity of', 'source': 'MESH:D016285', 'target': 'UniProt:Q9Y5Y4'}, {'key': 'decreases abundance of', 'source': 'UniProt:P34995', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43116', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q9Y5Y4', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P35408', 'target': 'MESH:D002118'}, {'key': 'decreases abundance of', 'source': 'UniProt:P43119', 'target': 'MESH:D002118'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016285', 'label': 'Drug', 'name': 'iloprost'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'UniProt:P34995', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP1 subtype'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'UniProt:P35408', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP4 subtype'}, {'id': 'UniProt:Q9Y5Y4', 'label': 'Protein', 'name': 'Prostaglandin D2 receptor 2'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB01088#BE0000475', 'https://en.wikipedia.org/wiki/Iloprost#Clinical_pharmacology', 'https://en.wikipedia.org/wiki/Vasodilation#Examples_and_individual_mechanisms', 'https://en.wikipedia.org/wiki/Prostacyclin#Mechanism', 'https://en.wikipedia.org/wiki/Prostaglandin_EP3_receptor#Therapeutics']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'the exact mechanism by which anagrelide lowers platelet count is unclear', 'directed': True, 'graph': {'_id': 'DB00261_MESH_D013920_1', 'disease': 'Essential thrombocythemia', 'disease_mesh': 'MESH:D013920', 'drug': 'Anagrelide', 'drug_mesh': 'MESH:C021139', 'drugbank': 'DB:DB00261'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C021139', 'target': 'GO:0035855'}, {'key': 'positively correlated with', 'source': 'GO:0035855', 'target': 'GO:0030220'}, {'key': 'positively correlated with', 'source': 'GO:0030220', 'target': 'HP:0001894'}, {'key': 'manifestation of', 'source': 'HP:0001894', 'target': 'MESH:D013920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C021139', 'label': 'Drug', 'name': 'Anagrelid'}, {'id': 'GO:0035855', 'label': 'BiologicalProcess', 'name': 'Megakaryocyte development'}, {'id': 'GO:0030220', 'label': 'BiologicalProcess', 'name': 'Platelet formation'}, {'id': 'HP:0001894', 'label': 'PhenotypicFeature', 'name': 'Thrombocytosis'}, {'id': 'MESH:D013920', 'label': 'Disease', 'name': 'Essential thrombocythemia'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/12487784/', 'https://go.drugbank.com/drugs/DB00261#BE0000436', 'https://en.wikipedia.org/wiki/Essential_thrombocythemia']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D008545_1', 'disease': 'Malignant melanoma', 'disease_mesh': 'MESH:D008545', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0097325'}, {'key': 'positively correlated with', 'source': 'GO:0097325', 'target': 'MESH:D008545'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0097325', 'label': 'BiologicalProcess', 'name': 'Melanocyte proliferation'}, {'id': 'MESH:D008545', 'label': 'Disease', 'name': 'Malignant melanoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00309', 'https://en.wikipedia.org/wiki/Melanoma']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D008175_1', 'disease': 'Lung Neoplasms', 'disease_mesh': 'MESH:D008175', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008175'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008175', 'label': 'Disease', 'name': 'Lung Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB00309']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00309_MESH_D015464_1', 'disease': 'Chronic myeloid leukemia', 'disease_mesh': 'MESH:D015464', 'drug': 'Vindesine', 'drug_mesh': 'MESH:D014751', 'drugbank': 'DB:DB00309'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014751', 'target': 'UniProt:Q9H4B7'}, {'key': 'part of', 'source': 'UniProt:Q9H4B7', 'target': 'GO:1902850'}, {'key': 'positively regulates', 'source': 'GO:1902850', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015464'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014751', 'label': 'Drug', 'name': 'Vindesine'}, {'id': 'UniProt:Q9H4B7', 'label': 'Protein', 'name': 'Tubulin beta-1 chain'}, {'id': 'GO:1902850', 'label': 'BiologicalProcess', 'name': 'Microtubule cytoskeleton organization involved in mitosis'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D015464', 'label': 'Disease', 'name': 'Chronic myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00309']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': \"Capreomycin is a member of the aminoglycoside family of antibiotics, but little is known about capreomycin's exact mechanism of action. Capreomycin is used in the treatment of tuberculosis in combination with other drugs.\", 'directed': True, 'graph': {'_id': 'DB00314_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Capreomycin', 'drug_mesh': 'MESH:D002207', 'drugbank': 'DB:DB00314'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002207', 'target': 'GO:0005840'}, {'key': 'participates in', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002207', 'label': 'Drug', 'name': 'Capreomycin'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00314#BE0009727']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Ethambutol is indicated in combination with other anti-tuberculosis drugs in the treatment of pulmonary tuberculosis', 'directed': True, 'graph': {'_id': 'DB00330_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Ethambutol', 'drug_mesh': 'MESH:D004977', 'drugbank': 'DB:DB00330'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL5'}, {'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL7'}, {'key': 'decreases activity of', 'source': 'MESH:D004977', 'target': 'UniProt:P9WNL9'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL5', 'target': 'GO:0071766'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL7', 'target': 'GO:0071766'}, {'key': 'positively regulates', 'source': 'UniProt:P9WNL9', 'target': 'GO:0071766'}, {'key': 'positively correlated with', 'source': 'GO:0071766', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004977', 'label': 'Drug', 'name': 'Ethambutol'}, {'id': 'UniProt:P9WNL5', 'label': 'Protein', 'name': 'Probable arabinosyltransferase C'}, {'id': 'UniProt:P9WNL7', 'label': 'Protein', 'name': 'Probable arabinosyltransferase B'}, {'id': 'UniProt:P9WNL9', 'label': 'Protein', 'name': 'Probable arabinosyltransferase A'}, {'id': 'GO:0071766', 'label': 'BiologicalProcess', 'name': 'Actinobacterium-type cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00330']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00374_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'Treprostinil', 'drug_mesh': 'MESH:C427248', 'drugbank': 'DB:DB00374'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C427248', 'target': 'UniProt:P43119'}, {'key': 'positively regulates', 'source': 'UniProt:P43119', 'target': 'GO:0007189'}, {'key': 'increases activity of', 'source': 'GO:0007189', 'target': 'InterPro:IPR044109'}, {'key': 'positively regulates', 'source': 'InterPro:IPR044109', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C427248', 'label': 'Drug', 'name': 'Treprostinil'}, {'id': 'UniProt:P43119', 'label': 'Protein', 'name': 'Prostacyclin receptor'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'InterPro:IPR044109', 'label': 'GeneFamily', 'name': 'cAMP-dependent protein kinase catalytic subunit'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00374#BE0000475', 'https://en.wikipedia.org/wiki/Treprostinil#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01196_MESH_D011471_1', 'disease': 'Neoplasm of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'Estramustine', 'drug_mesh': 'MESH:D004961', 'drugbank': 'DB:DB01196'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004961', 'target': 'UniProt:P11137'}, {'key': 'decreases activity of', 'source': 'MESH:D004961', 'target': 'UniProt:P78559'}, {'key': 'disrupts', 'source': 'MESH:D004961', 'target': 'MESH:D004247'}, {'key': 'positively correlated with', 'source': 'UniProt:P11137', 'target': 'GO:0005874'}, {'key': 'positively correlated with', 'source': 'UniProt:P78559', 'target': 'GO:0005874'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0140014'}, {'key': 'positively regulates', 'source': 'GO:0005874', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004961', 'label': 'Drug', 'name': 'Estramustine'}, {'id': 'UniProt:P11137', 'label': 'Protein', 'name': 'Microtubule-associated protein 2'}, {'id': 'UniProt:P78559', 'label': 'Protein', 'name': 'Microtubule-associated protein 1A'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0005874', 'label': 'CellularComponent', 'name': 'Microtubule'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'Mitotic nuclear division'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Neoplasm of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB01196#BE0001100']}\n", - "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01418_MESH_D011655_2', 'disease': 'Pulmonary embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'Acenocoumarol', 'drug_mesh': 'MESH:D000074', 'drugbank': 'DB:DB01418'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000074', 'target': 'UniProt:Q9BQB6'}, {'key': 'participates in', 'source': 'UniProt:Q9BQB6', 'target': 'GO:0042373'}, {'key': 'positively correlated with', 'source': 'GO:0042373', 'target': 'GO:0007596'}, {'key': 'has output', 'source': 'GO:0007596', 'target': 'UBERON:0010210'}, {'key': 'positively correlated with', 'source': 'UBERON:0010210', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000074', 'label': 'Drug', 'name': 'Acenocoumarol'}, {'id': 'UniProt:Q9BQB6', 'label': 'Protein', 'name': 'Vitamin K epoxide reductase complex subunit 1'}, {'id': 'GO:0042373', 'label': 'BiologicalProcess', 'name': 'Vitamin K metabolic process'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood coagulation'}, {'id': 'UBERON:0010210', 'label': 'GrossAnatomicalStructure', 'name': 'Blood clot'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB01418#BE0000713', 'https://en.wikipedia.org/wiki/Pulmonary_embolism']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D003456_1', 'disease': 'Undescended testicle', 'disease_mesh': 'MESH:D003456', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D003456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D003456', 'label': 'Disease', 'name': 'Undescended testicle'}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D003456_1', 'disease': 'Undescended testicle', 'disease_mesh': 'MESH:D003456', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D003456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D003456', 'label': 'Disease', 'name': 'Undescended testicle'}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D011628_1', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Delayed puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D011628_1', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Delayed puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D005058_1', 'disease': 'Male hypogonadism', 'disease_mesh': 'MESH:D005058', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D005058_1', 'disease': 'Male hypogonadism', 'disease_mesh': 'MESH:D005058', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01420_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone propionate', 'drug_mesh': 'MESH:D043343', 'drugbank': 'DB:DB01420'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D043343', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D043343', 'label': 'Drug', 'name': 'Testosterone propionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://go.drugbank.com/drugs/DB01420']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://go.drugbank.com/drugs/DB00624']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04911_MESH_D013207_1', 'disease': 'Staphylococcal infection of skin', 'disease_mesh': 'MESH:D013207', 'drug': 'Oritavancin', 'drug_mesh': 'MESH:C100708', 'drugbank': 'DB:DB04911'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C100708', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:280'}, {'key': 'causes', 'source': 'NCBITaxon:280', 'target': 'MESH:D013207'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100708', 'label': 'Drug', 'name': 'Oritavancin'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013207', 'label': 'Disease', 'name': 'Staphylococcal infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB04911#BE0009914']}\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04911_MESH_D017192_1', 'disease': 'Bacterial infection of skin', 'disease_mesh': 'MESH:D017192', 'drug': 'Oritavancin', 'drug_mesh': 'MESH:C100708', 'drugbank': 'DB:DB04911'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C100708', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D017192'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100708', 'label': 'Drug', 'name': 'Oritavancin'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D017192', 'label': 'Disease', 'name': 'Bacterial infection of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB04911#BE0009914']}\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06414_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Etravirine', 'drug_mesh': 'MESH:C451734', 'drugbank': 'DB:DB06414'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C451734', 'target': 'InterPro:IPR000477'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR000477', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:12721'}, {'key': 'causes', 'source': 'NCBITaxon:12721', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C451734', 'label': 'Drug', 'name': 'Etravirine'}, {'id': 'InterPro:IPR000477', 'label': 'GeneFamily', 'name': 'Reverse transcriptase domain'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:12721', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB06414', 'https://en.wikipedia.org/wiki/Etravirine']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08907_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Canagliflozin', 'drug_mesh': 'MESH:D000068896', 'drugbank': 'DB:DB08907'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068896', 'target': 'UniProt:P31639'}, {'key': 'participates in', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:0035623', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068896', 'label': 'Drug', 'name': 'Canagliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08907#BE0004753']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09054_MESH_D008224_1', 'disease': \"Follicular non-Hodgkin's lymphoma\", 'disease_mesh': 'MESH:D008224', 'drug': 'Idelalisib', 'drug_mesh': 'MESH:C552946', 'drugbank': 'DB:DB09054'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C552946', 'target': 'UniProt:O00329'}, {'key': 'participates in', 'source': 'UniProt:O00329', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D008224'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C552946', 'label': 'Drug', 'name': 'Idelalisib'}, {'id': 'UniProt:O00329', 'label': 'Protein', 'name': 'Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit delta isoform'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D008224', 'label': 'Disease', 'name': \"Follicular non-Hodgkin's lymphoma\"}], 'reference': ['https://go.drugbank.com/drugs/DB09054#BE0002406', 'https://en.wikipedia.org/wiki/Follicular_lymphoma']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09054_MESH_D015451_1', 'disease': 'Leukemia, Lymphocytic, Chronic, B-Cell', 'disease_mesh': 'MESH:D015451', 'drug': 'Idelalisib', 'drug_mesh': 'MESH:C552946', 'drugbank': 'DB:DB09054'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C552946', 'target': 'UniProt:O00329'}, {'key': 'participates in', 'source': 'UniProt:O00329', 'target': 'REACT:R-HSA-109704'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-109704', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C552946', 'label': 'Drug', 'name': 'Idelalisib'}, {'id': 'UniProt:O00329', 'label': 'Protein', 'name': 'Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit delta isoform'}, {'id': 'REACT:R-HSA-109704', 'label': 'Pathway', 'name': 'PI3K Cascade'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Leukemia, Lymphocytic, Chronic, B-Cell'}], 'reference': ['https://go.drugbank.com/drugs/DB09054#BE0002406', 'https://en.wikipedia.org/wiki/Chronic_lymphocytic_leukemia']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Commonly recommended for a treatment of ovarian cancer patients with deleterious or suspected deleterious germline BRCA-mutations', 'directed': True, 'graph': {'_id': 'DB09074_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Olaparib', 'drug_mesh': 'MESH:C531550', 'drugbank': 'DB:DB09074'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:P09874'}, {'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:Q9UGN5'}, {'key': 'decreases activity of', 'source': 'MESH:C531550', 'target': 'UniProt:Q9Y6F1'}, {'key': 'positively regulates', 'source': 'UniProt:P09874', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UGN5', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:Q9Y6F1', 'target': 'GO:0006281'}, {'key': 'prevents', 'source': 'GO:0006281', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'GO:0007048'}, {'key': 'positively correlated with', 'source': 'GO:0007048', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C531550', 'label': 'Drug', 'name': 'Olaparib'}, {'id': 'UniProt:P09874', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 1'}, {'id': 'UniProt:Q9UGN5', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 2'}, {'id': 'UniProt:Q9Y6F1', 'label': 'Protein', 'name': 'Poly [ADP-ribose] polymerase 3'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'GO:0007048', 'label': 'BiologicalProcess', 'name': 'Obsolete oncogenesis'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://go.drugbank.com/drugs/DB09074#BE0001717']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': ':Lumacaftor is used to treat people with cystic fibrosis who are homozygous for the F508del mutation', 'directed': True, 'graph': {'_id': 'DB09280_MESH_D003550_1', 'disease': 'Cystic fibrosis of the lung', 'disease_mesh': 'MESH:D003550', 'drug': 'Lumacaftor', 'drug_mesh': 'MESH:C569105', 'drugbank': 'DB:DB09280'}, 'links': [{'key': 'increases stability of', 'source': 'MESH:C569105', 'target': 'UniProt:P13569'}, {'key': 'disrupted by', 'source': 'UniProt:P13569', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569105', 'label': 'Drug', 'name': 'Lumacaftor'}, {'id': 'UniProt:P13569', 'label': 'Protein', 'name': 'Cystic fibrosis transmembrane conductance regulator'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis of the lung'}], 'reference': ['https://go.drugbank.com/drugs/DB09280#BE0001195', 'https://en.wikipedia.org/wiki/Lumacaftor']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'REACT:R-HSA-388396'}, {'key': 'increases activity of', 'source': 'REACT:R-HSA-388396', 'target': 'UniProt:P19838'}, {'key': 'positively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0010061'}, {'key': 'affected by', 'source': 'UBERON:0010061', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'REACT:R-HSA-388396', 'label': 'Pathway', 'name': 'GPCR downstream signalling'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor NF-kappa-B p105 subunit'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0010061', 'label': 'GrossAnatomicalStructure', 'name': 'Nasopharynx cavity'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00405', 'https://en.wikipedia.org/wiki/Hives']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00405', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00405_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Dexbrompheniramine', 'drug_mesh': 'MESH:C015121', 'drugbank': 'DB:DB00405'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C015121', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C015121', 'label': 'Drug', 'name': 'Dexbrompheniramine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00405']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00751_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Epinastine', 'drug_mesh': 'MESH:C053090', 'drugbank': 'DB:DB00751'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C053090', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C053090', 'target': 'UniProt:P25021'}, {'key': 'negatively regulates', 'source': 'MESH:C053090', 'target': 'GO:0043303'}, {'key': 'increases abundance of', 'source': 'GO:0043303', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P25021', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053090', 'label': 'Drug', 'name': 'Epinastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00751#BE0000112']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D001480'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D001480', 'label': 'Disease', 'name': 'Basal Ganglia Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Basal_ganglia_disease']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Parkinsonism', 'https://en.wikipedia.org/wiki/Dementia_with_Lewy_bodies#Causes']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00915_MESH_D010301_1', 'disease': 'Postencephalitic parkinsonism', 'disease_mesh': 'MESH:D010301', 'drug': 'Amantadine', 'drug_mesh': 'MESH:D000547', 'drugbank': 'DB:DB00915'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000547', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'occurs in', 'source': 'GO:0061527', 'target': 'UBERON:0002038'}, {'key': 'disrupted by', 'source': 'UBERON:0002038', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000547', 'label': 'Drug', 'name': 'Amantadine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Postencephalitic parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB00915#BE0000756', 'https://en.wikipedia.org/wiki/Postencephalitic_parkinsonism']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01084_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01084', 'https://en.wikipedia.org/wiki/Hives']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01084_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01084', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01084_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Emedastine', 'drug_mesh': 'MESH:C043345', 'drugbank': 'DB:DB01084'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043345', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043345', 'label': 'Drug', 'name': 'Emedastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01084']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'For use as a diagnostic aid in the screening of patients presumed to have adrenocortical insufficiency. Please note tetracosactide does not significantly increase plasma cortisol concentration in patients with primary or secondary adrenocortical insufficiency.', 'directed': True, 'graph': {'_id': 'DB01284_MESH_D000309_1', 'disease': 'Adrenal cortical hypofunction', 'disease_mesh': 'MESH:D000309', 'drug': 'Tetracosactide', 'drug_mesh': 'MESH:D003366', 'drugbank': 'DB:DB01284'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003366', 'target': 'UniProt:Q01718'}, {'key': 'positively regulates', 'source': 'UniProt:Q01718', 'target': 'REACT:R-HSA-170660'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-170660', 'target': 'GO:0006694'}, {'key': 'increases abundance of', 'source': 'GO:0006694', 'target': 'MESH:D000305'}, {'key': 'negatively correlated with', 'source': 'MESH:D000305', 'target': 'MESH:D000309'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003366', 'label': 'Drug', 'name': 'Tetracosactide'}, {'id': 'UniProt:Q01718', 'label': 'Protein', 'name': 'Adrenocorticotropic hormone receptor'}, {'id': 'REACT:R-HSA-170660', 'label': 'Pathway', 'name': 'Adenylate cyclase activating pathway'}, {'id': 'GO:0006694', 'label': 'BiologicalProcess', 'name': 'Steroid biosynthetic process'}, {'id': 'MESH:D000305', 'label': 'ChemicalSubstance', 'name': 'Adrenal Cortex Hormones'}, {'id': 'MESH:D000309', 'label': 'Disease', 'name': 'Adrenal cortical hypofunction'}], 'reference': ['https://go.drugbank.com/drugs/DB01284#BE0000848', 'https://en.wikipedia.org/wiki/Adrenocorticotropic_hormone#Function', 'https://en.wikipedia.org/wiki/ACTH_stimulation_test']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Illicit, Withdrawn. Please note that amineptine selectively inhibits the reuptake of dopamine and to a lesser extent norepinephrine.', 'directed': True, 'graph': {'_id': 'DB04836_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Amineptine', 'drug_mesh': 'MESH:C011597', 'drugbank': 'DB:DB04836'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C011597', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:C011597', 'target': 'UniProt:Q01959'}, {'key': 'positively regulates', 'source': 'MESH:C011597', 'target': 'GO:0061527'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'participates in', 'source': 'UniProt:Q01959', 'target': 'GO:0051583'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051583', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0061527', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C011597', 'label': 'Drug', 'name': 'Amineptine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'GO:0051583', 'label': 'BiologicalProcess', 'name': 'Dopamine uptake involved in synaptic transmission'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04836', 'https://en.wikipedia.org/wiki/Amineptine#Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04843_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Mepenzolate', 'drug_mesh': 'MESH:C005101', 'drugbank': 'DB:DB04843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005101', 'label': 'Drug', 'name': 'Mepenzolate'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB04843#BE0000092']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04843_MESH_D013276_1', 'disease': 'Gastric ulcer', 'disease_mesh': 'MESH:D013276', 'drug': 'Mepenzolate', 'drug_mesh': 'MESH:C005101', 'drugbank': 'DB:DB04843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005101', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'contributes to', 'source': 'MESH:D005744', 'target': 'MESH:D013276'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005101', 'label': 'Drug', 'name': 'Mepenzolate'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'MESH:D013276', 'label': 'Disease', 'name': 'Gastric ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB04843#BE0000092']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04890_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'bepotastine', 'drug_mesh': 'MESH:C511534,MESH:C108476', 'drugbank': 'DB:DB04890'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB04890', 'target': 'UniProt:P35367'}, {'key': 'negatively regulates', 'source': 'DB:DB04890', 'target': 'GO:0043303'}, {'key': 'increases abundance of', 'source': 'GO:0043303', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB04890', 'label': 'Drug', 'name': 'Bepotastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04890#BE0000442']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Please note that the mechanism by which peginterferon beta-1a exerts its effects in patients with multiple sclerosis is not fully known. Although DrugBank states that Peginterferon beta-1a is an Interferon alpha/beta receptor 1 downregulator, there is an evidence in the literature showing that Peginterferon beta-1a is in fact Interferon alpha/beta receptor 1 activator https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4303928/', 'directed': True, 'graph': {'_id': 'DB09122_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Peginterferon beta-1a', 'drug_mesh': 'MESH:C428112', 'drugbank': 'DB:DB09122'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C428112', 'target': 'UniProt:P17181'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0042100'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0050798'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0019882'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0050798', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0019882', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C428112', 'label': 'Drug', 'name': 'Peginterferon beta-1a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'GO:0050798', 'label': 'BiologicalProcess', 'name': 'Activated T cell proliferation'}, {'id': 'GO:0019882', 'label': 'BiologicalProcess', 'name': 'Antigen processing and presentation'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB09122', 'https://pubmed.ncbi.nlm.nih.gov/28638705/', 'https://pubmed.ncbi.nlm.nih.gov/17562848/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09128_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Brexpiprazole', 'drug_mesh': 'MESH:C000591922', 'drugbank': 'DB:DB09128'}, 'links': [{'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P08908'}, {'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C000591922', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P08908', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003865'}, {'key': 'disrupted by', 'source': 'GO:0060096', 'target': 'MESH:D003865'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000591922', 'label': 'Drug', 'name': 'Brexpiprazole'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09128#BE0000291', 'https://en.wikipedia.org/wiki/Major_depressive_disorder', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5716179/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09128_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Brexpiprazole', 'drug_mesh': 'MESH:C000591922', 'drugbank': 'DB:DB09128'}, 'links': [{'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P08908'}, {'key': 'regulates', 'source': 'MESH:C000591922', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C000591922', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P08908', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D012559'}, {'key': 'disrupted by', 'source': 'GO:0060096', 'target': 'MESH:D012559'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000591922', 'label': 'Drug', 'name': 'Brexpiprazole'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB09128#BE0000291', 'https://en.wikipedia.org/wiki/Schizophrenia']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00060_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Interferon beta-1a', 'drug_mesh': 'MESH:D000068556', 'drugbank': 'DB:DB00060'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068556', 'target': 'UniProt:P17181'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0042100'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0050798'}, {'key': 'negatively regulates', 'source': 'UniProt:P17181', 'target': 'GO:0019882'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0050798', 'target': 'MESH:D020529'}, {'key': 'positively correlated with', 'source': 'GO:0019882', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068556', 'label': 'Drug', 'name': 'Interferon beta-1a'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'GO:0050798', 'label': 'BiologicalProcess', 'name': 'Activated T cell proliferation'}, {'id': 'GO:0019882', 'label': 'BiologicalProcess', 'name': 'Antigen processing and presentation'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00060', 'https://pubmed.ncbi.nlm.nih.gov/28638705/', 'https://pubmed.ncbi.nlm.nih.gov/17562848/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00162_MESH_D014802_1', 'disease': 'Vitamin A deficiency', 'disease_mesh': 'MESH:D014802', 'drug': 'Retinol', 'drug_mesh': 'MESH:D014801', 'drugbank': 'DB:DB00162'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D014801', 'target': 'GO:0016063'}, {'key': 'positively regulates', 'source': 'MESH:D014801', 'target': 'GO:0042098'}, {'key': 'increases abundance of', 'source': 'GO:0016063', 'target': 'UniProt:P08100'}, {'key': 'participates in', 'source': 'UniProt:P08100', 'target': 'GO:0007603'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0007603', 'target': 'HP:0000662'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:D014802'}, {'key': 'manifestation of', 'source': 'HP:0000662', 'target': 'MESH:D014802'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014801', 'label': 'Drug', 'name': 'Retinol'}, {'id': 'GO:0016063', 'label': 'BiologicalProcess', 'name': 'Rhodopsin biosynthetic process'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'UniProt:P08100', 'label': 'Protein', 'name': 'Rhodopsin'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'GO:0007603', 'label': 'BiologicalProcess', 'name': 'Phototransduction, visible light'}, {'id': 'HP:0000662', 'label': 'PhenotypicFeature', 'name': 'Nyctalopia'}, {'id': 'MESH:D014802', 'label': 'Disease', 'name': 'Vitamin A deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00162', 'https://en.wikipedia.org/wiki/Vitamin_A_deficiency#Signs_and_symptoms']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00162_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Retinol', 'drug_mesh': 'MESH:D014801', 'drugbank': 'DB:DB00162'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D014801', 'target': 'GO:0016063'}, {'key': 'positively regulates', 'source': 'MESH:D014801', 'target': 'GO:0042098'}, {'key': 'increases abundance of', 'source': 'GO:0016063', 'target': 'UniProt:P08100'}, {'key': 'participates in', 'source': 'UniProt:P08100', 'target': 'GO:0007603'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0007603', 'target': 'HP:0000662'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:D001361'}, {'key': 'manifestation of', 'source': 'HP:0000662', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014801', 'label': 'Drug', 'name': 'Retinol'}, {'id': 'GO:0016063', 'label': 'BiologicalProcess', 'name': 'Rhodopsin biosynthetic process'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'UniProt:P08100', 'label': 'Protein', 'name': 'Rhodopsin'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'GO:0007603', 'label': 'BiologicalProcess', 'name': 'Phototransduction, visible light'}, {'id': 'HP:0000662', 'label': 'PhenotypicFeature', 'name': 'Nyctalopia'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00162', 'https://en.wikipedia.org/wiki/Vitamin_A_deficiency#Signs_and_symptoms']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D008101_1', 'disease': 'Amebic liver abscess', 'disease_mesh': 'MESH:D008101', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5759'}, {'key': 'causes', 'source': 'NCBITaxon:5759', 'target': 'MESH:D008101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5759', 'label': 'OrganismTaxon', 'name': 'Entamoeba histolytica'}, {'id': 'MESH:D008101', 'label': 'Disease', 'name': 'Amebic liver abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Amoebic_liver_abscess']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D016585_1', 'disease': 'Bacterial vaginosis', 'disease_mesh': 'MESH:D016585', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016585', 'label': 'Disease', 'name': 'Bacterial vaginosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00911']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D014245_1', 'disease': 'Infection by Trichomonas', 'disease_mesh': 'MESH:D014245', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5722'}, {'key': 'causes', 'source': 'NCBITaxon:5722', 'target': 'MESH:D014245'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5722', 'label': 'OrganismTaxon', 'name': 'Trichomonas vaginalis'}, {'id': 'MESH:D014245', 'label': 'Disease', 'name': 'Infection by Trichomonas'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Trichomoniasis#Treatment']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Tinidazole is a prodrug', 'directed': True, 'graph': {'_id': 'DB00911_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Tinidazole', 'drug_mesh': 'MESH:D014011', 'drugbank': 'DB:DB00911'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D014011', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014011', 'label': 'Drug', 'name': 'Tinidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00911', 'https://en.wikipedia.org/wiki/Giardiasis']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01117_MESH_D016778_1', 'disease': 'Falciparum malaria', 'disease_mesh': 'MESH:D016778', 'drug': 'Atovaquone', 'drug_mesh': 'MESH:D053626', 'drugbank': 'DB:DB01117'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D053626', 'target': 'UniProt:Q02768'}, {'key': 'decreases activity of', 'source': 'MESH:D053626', 'target': 'UniProt:Q08210'}, {'key': 'positively regulates', 'source': 'UniProt:Q02768', 'target': 'GO:0042773'}, {'key': 'positively regulates', 'source': 'UniProt:Q08210', 'target': 'GO:0019856'}, {'key': 'in taxon', 'source': 'GO:0042773', 'target': 'NCBITaxon:5833'}, {'key': 'in taxon', 'source': 'GO:0019856', 'target': 'NCBITaxon:5833'}, {'key': 'causes', 'source': 'NCBITaxon:5833', 'target': 'MESH:D016778'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D053626', 'label': 'Drug', 'name': 'Atovaquone'}, {'id': 'UniProt:Q02768', 'label': 'Protein', 'name': 'Cytochrome b (Plasmodium falciparum)'}, {'id': 'UniProt:Q08210', 'label': 'Protein', 'name': 'Dihydroorotate dehydrogenase (quinone), mitochondrial'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'GO:0019856', 'label': 'BiologicalProcess', 'name': 'Pyrimidine nucleobase biosynthetic process'}, {'id': 'NCBITaxon:5833', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum'}, {'id': 'MESH:D016778', 'label': 'Disease', 'name': 'Falciparum malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01117#BE0004428']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Infective_endocarditis#Cause']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae subsp. rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Rhinoscleroma']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Pneumonia#Cause']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01139', 'https://en.wikipedia.org/wiki/Streptococcus_pneumoniae']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01139_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefapirin', 'drug_mesh': 'MESH:D002514', 'drugbank': 'DB:DB01139'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002514', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002514', 'label': 'Drug', 'name': 'Cefapirin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01139']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Propylene glycol helps create an ocular shield, allowing for epithelial repair.', 'directed': True, 'graph': {'_id': 'DB01839_MESH_D015352_1', 'disease': 'Dry Eye Syndromes', 'disease_mesh': 'MESH:D015352', 'drug': 'Propylene glycol', 'drug_mesh': 'MESH:D019946', 'drugbank': 'DB:DB01839'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D019946', 'target': 'GO:0010669'}, {'key': 'negatively correlated with', 'source': 'GO:0010669', 'target': 'MESH:D015352'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019946', 'label': 'Drug', 'name': 'Propylene glycol'}, {'id': 'GO:0010669', 'label': 'BiologicalProcess', 'name': 'Epithelial structure maintenance'}, {'id': 'MESH:D015352', 'label': 'Disease', 'name': 'Dry Eye Syndromes'}], 'reference': ['https://go.drugbank.com/drugs/DB01839#BE0002565', 'https://en.wikipedia.org/wiki/Dry_eye_syndrome']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06720_MESH_D005776_1', 'disease': \"Chronic non-neuropathic Gaucher's disease\", 'disease_mesh': 'MESH:D005776', 'drug': 'Velaglucerase alfa', 'drug_mesh': None, 'drugbank': 'DB:DB06720'}, 'links': [{'key': 'decreases abundance of', 'source': 'DB:DB06720', 'target': 'MESH:D005963'}, {'key': 'causes', 'source': 'MESH:D005963', 'target': 'MESH:D005776'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06720', 'label': 'Drug', 'name': 'Velaglucerase alfa'}, {'id': 'MESH:D005963', 'label': 'ChemicalSubstance', 'name': 'Glucosylceramides'}, {'id': 'MESH:D005776', 'label': 'Disease', 'name': \"Chronic non-neuropathic Gaucher's disease\"}], 'reference': ['https://en.wikipedia.org/wiki/Gaucher%27s_disease', 'https://go.drugbank.com/drugs/DB06720']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09045_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Dulaglutide', 'drug_mesh': 'MESH:C555680', 'drugbank': 'DB:DB09045'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C555680', 'target': 'UniProt:P43220'}, {'key': 'positively correlated with', 'source': 'UniProt:P43220', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C555680', 'label': 'Drug', 'name': 'Dulaglutide'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'Glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09045#BE0000857', 'https://en.wikipedia.org/wiki/Glucagon-like_peptide-1']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09477_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Enalaprilat', 'drug_mesh': 'MESH:D015773', 'drugbank': 'DB:DB09477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09477#BE0000221']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09477_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Enalaprilat', 'drug_mesh': 'MESH:D015773', 'drugbank': 'DB:DB09477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'HP:0000822'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D006333', 'label': 'Disease', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB09477#BE0000221', 'https://en.wikipedia.org/wiki/Heart_failure']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'nicotinamide', 'drug_mesh': 'MESH:D009536', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'correlated with', 'source': 'MESH:D009536', 'target': 'CHEBI:15940'}, {'key': 'negatively correlated with', 'source': 'CHEBI:15940', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009536', 'label': 'Drug', 'name': 'nicotinamide'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'nicotinic acid'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://en.wikipedia.org/wiki/Nicotinamide', 'https://en.wikipedia.org/wiki/Pellagra#Treatment']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'nicotinamide', 'drug_mesh': 'MESH:D009536', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009536', 'target': 'REACT:R-HSA-181438'}, {'key': 'part of', 'source': 'REACT:R-HSA-181438', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:1747'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}, {'key': 'decreases abundance of', 'source': 'MESH:D009536', 'target': 'UBERON:0001866'}, {'key': 'positively correlated with', 'source': 'UBERON:0001866', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009536', 'label': 'Drug', 'name': 'nicotinamide'}, {'id': 'UBERON:0001866', 'label': 'GrossAnatomicalStructure', 'name': 'sebum'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'REACT:R-HSA-181438', 'label': 'Pathway', 'name': 'Toll Like Receptor 2 (TLR2) Cascade'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://en.wikipedia.org/wiki/Nicotinamide#Acne']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Muscarinic receptor antagonists (also known as anticholinergics) seem to be used in patients with Schizophrenia to alleviate motor side effects caused by first-generation antipsychotics. However these antagonists do seem to lead to cognitive dysfunction in healthy controls. So whether these muscarinic receptors should be positively or negatively regulated in schizophrenia is a matter of debate (see https://www.nature.com/articles/4001924 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3726271/). In addition, some suggest that that schizophrenia involves an overactivation of cholinergic neurons, which could provide cholinergic input to dopaminergic neurons. The dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910). See https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy for more details.', 'directed': True, 'graph': {'_id': 'DB01239_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'chlorprothixene', 'drug_mesh': 'MESH:D002749', 'drugbank': 'DB:DB01239'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR000995'}, {'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR000929'}, {'key': 'decreases activity of', 'source': 'MESH:D002749', 'target': 'InterPro:IPR002231'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0007274'}, {'key': 'positively correlated with', 'source': 'GO:0007274', 'target': 'HP:0011442'}, {'key': 'manifestation of', 'source': 'HP:0011442', 'target': 'MESH:D012559'}, {'key': 'positively regulates', 'source': 'InterPro:IPR002231', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0007213'}, {'key': 'positively correlated with', 'source': 'GO:0007213', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000929', 'target': 'GO:0014046'}, {'key': 'positively correlated with', 'source': 'GO:0014046', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002749', 'label': 'Drug', 'name': 'chlorprothixene'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine receptor family'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'GO:0007274', 'label': 'BiologicalProcess', 'name': 'neuromuscular synaptic transmission'}, {'id': 'GO:0007213', 'label': 'BiologicalProcess', 'name': 'G protein-coupled acetylcholine receptor signaling pathway'}, {'id': 'HP:0011442', 'label': 'PhenotypicFeature', 'name': 'Abnormal central motor function'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01239#mechanism-of-action', 'https://go.drugbank.com/drugs/DB01239#BE0000092', 'https://www.targetvalidation.org/summary?drug=CHEMBL908', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders', 'https://en.wikipedia.org/wiki/Schizophrenia#Medication']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB02701_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'ecabet', 'drug_mesh': 'MESH:C061681', 'drugbank': 'DB:DB02701'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C061681', 'target': 'MESH:C047874'}, {'key': 'located in', 'source': 'MESH:C047874', 'target': 'MESH:D005753'}, {'key': 'produces', 'source': 'MESH:D005753', 'target': 'UBERON:0000912'}, {'key': 'negatively correlated with', 'source': 'UBERON:0000912', 'target': 'MESH:D010437'}, {'key': 'disrupts', 'source': 'MESH:C061681', 'target': 'CHEBI:16412'}, {'key': 'positively regulates', 'source': 'CHEBI:16412', 'target': 'REACT:R-HSA-166016'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-166016', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001276'}, {'key': 'location of', 'source': 'UBERON:0001276', 'target': 'MESH:D010437'}, {'key': 'negatively regulates', 'source': 'MESH:C061681', 'target': 'InterPro:IPR017950'}, {'key': 'positively regulates', 'source': 'InterPro:IPR017950', 'target': 'GO:0009039'}, {'key': 'in taxon', 'source': 'GO:0009039', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061681', 'label': 'Drug', 'name': 'ecabet'}, {'id': 'CHEBI:16412', 'label': 'ChemicalSubstance', 'name': 'lipopolysaccharide'}, {'id': 'REACT:R-HSA-166016', 'label': 'Pathway', 'name': 'Toll Like Receptor 4 (TLR4) Cascade'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0001276', 'label': 'GrossAnatomicalStructure', 'name': 'epithelium of stomach'}, {'id': 'InterPro:IPR017950', 'label': 'GeneFamily', 'name': 'Urease active site'}, {'id': 'GO:0009039', 'label': 'MolecularActivity', 'name': 'urease activity'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'MESH:C047874', 'label': 'GeneFamily', 'name': 'gastric mucus glycoproteins'}, {'id': 'UBERON:0000912', 'label': 'GrossAnatomicalStructure', 'name': 'Mucus'}, {'id': 'MESH:D005753', 'label': 'GrossAnatomicalStructure', 'name': 'Gastric Mucosa'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB05265#mechanism-of-action', 'https://en.wikipedia.org/wiki/Peptic_ulcer_disease#H._pylori', 'https://drugs.ncats.io/drug/2K02669KW']}\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00880_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'chlorothiazide', 'drug_mesh': 'MESH:D002740', 'drugbank': 'DB:DB00880'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P55017'}, {'key': 'positively regulates', 'source': 'UniProt:P55017', 'target': 'GO:0015378'}, {'key': 'participates in', 'source': 'GO:0015378', 'target': 'GO:0035812'}, {'key': 'positively correlated with', 'source': 'GO:0035812', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002740', 'label': 'Drug', 'name': 'chlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0015378', 'label': 'MolecularActivity', 'name': 'sodium:chloride symporter activity'}, {'id': 'GO:0035812', 'label': 'BiologicalProcess', 'name': 'renal sodium excretion'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00880#BE0000419', 'https://en.wikipedia.org/wiki/Diuretic#Thiazides', 'https://en.wikipedia.org/wiki/Thiazide']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The hypotensive effects of chlorothiazide and other thiazides are not necessarily due to their diuretic activity (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2904515/#S1title). The exact mechanism is yet not fully understood.', 'directed': True, 'graph': {'_id': 'DB00880_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'chlorothiazide', 'drug_mesh': 'MESH:D002740', 'drugbank': 'DB:DB00880'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P55017'}, {'key': 'positively regulates', 'source': 'UniProt:P55017', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'decreases activity of', 'source': 'MESH:D002740', 'target': 'UniProt:P00918'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0038166'}, {'key': 'positively correlated with', 'source': 'GO:0038166', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively regulates', 'source': 'MESH:D002740', 'target': 'UniProt:Q12791'}, {'key': 'positively regulates', 'source': 'UniProt:Q12791', 'target': 'GO:0060087'}, {'key': 'negatively correlated with', 'source': 'GO:0060087', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002740', 'label': 'Drug', 'name': 'chlorothiazide'}, {'id': 'UniProt:P55017', 'label': 'Protein', 'name': 'Solute carrier family 12 member 3'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'UniProt:Q12791', 'label': 'Protein', 'name': 'Calcium-activated potassium channel subunit alpha-1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'relaxation of vascular associated smooth muscle'}, {'id': 'GO:0038166', 'label': 'BiologicalProcess', 'name': 'angiotensin-activated signaling pathway'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00880#BE0000322', 'https://go.drugbank.com/drugs/DB00880#BE0000419', 'https://en.wikipedia.org/wiki/Category:Carbonic_anhydrase_inhibitors', 'https://pubchem.ncbi.nlm.nih.gov/compound/2720#section=Mechanism-of-Action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'This drug may be able to bind to UniProt:P08908 but its pharmacological activity (agonism vs. antagonism) is not known (https://go.drugbank.com/drugs/DB00422#BE0000291).', 'directed': True, 'graph': {'_id': 'DB00422_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'methylphenidate', 'drug_mesh': 'MESH:D008774', 'drugbank': 'DB:DB00422'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D001289'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008774', 'label': 'Drug', 'name': 'methylphenidate'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00422#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methylphenidate#Pharmacodynamics', 'https://www.targetvalidation.org/summary?drug=CHEMBL796']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'This drug may be able to bind to UniProt:P08908 but its pharmacological activity (agonism vs. antagonism) is not known (https://go.drugbank.com/drugs/DB00422#BE0000291).', 'directed': True, 'graph': {'_id': 'DB00422_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'methylphenidate', 'drug_mesh': 'MESH:D008774', 'drugbank': 'DB:DB00422'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:Q01959'}, {'key': 'decreases activity of', 'source': 'MESH:D008774', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:Q01959', 'target': 'GO:0090494'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'MESH:D009290'}, {'key': 'positively correlated with', 'source': 'GO:0090494', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008774', 'label': 'Drug', 'name': 'methylphenidate'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0090494', 'label': 'BiologicalProcess', 'name': 'dopamine uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Narcolepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00422#mechanism-of-action', 'https://en.wikipedia.org/wiki/Methylphenidate#Pharmacodynamics', 'https://www.targetvalidation.org/summary?drug=CHEMBL796', 'https://en.wikipedia.org/wiki/Narcolepsy#Treatment']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D014860_1', 'disease': 'Verruca', 'disease_mesh': 'MESH:D014860', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D014860'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D014860', 'label': 'Disease', 'name': 'Verruca'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Wart#Treatment']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Genital_wart#Topical_agents']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00724_MESH_D055623_1', 'disease': 'Actinic keratosis', 'disease_mesh': 'MESH:D055623', 'drug': 'imiquimod', 'drug_mesh': 'MESH:C056493', 'drugbank': 'DB:DB00724'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C056493', 'target': 'UniProt:Q9NYK1'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032609'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032635'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032637'}, {'key': 'positively regulates', 'source': 'UniProt:Q9NYK1', 'target': 'GO:0032606'}, {'key': 'part of', 'source': 'GO:0032609', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032635', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032637', 'target': 'GO:0051607'}, {'key': 'part of', 'source': 'GO:0032606', 'target': 'GO:0051607'}, {'key': 'decreases abundance of', 'source': 'GO:0051607', 'target': 'NCBITaxon:333922'}, {'key': 'causes', 'source': 'NCBITaxon:333922', 'target': 'MESH:D055623'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C056493', 'label': 'Drug', 'name': 'imiquimod'}, {'id': 'UniProt:Q9NYK1', 'label': 'Protein', 'name': 'Toll-like receptor 7'}, {'id': 'GO:0032609', 'label': 'BiologicalProcess', 'name': 'interferon-gamma production'}, {'id': 'GO:0032606', 'label': 'BiologicalProcess', 'name': 'type I interferon production'}, {'id': 'GO:0032637', 'label': 'BiologicalProcess', 'name': 'interleukin-8 production'}, {'id': 'GO:0032635', 'label': 'BiologicalProcess', 'name': 'interleukin-6 production'}, {'id': 'GO:0051607', 'label': 'BiologicalProcess', 'name': 'defense response to virus'}, {'id': 'NCBITaxon:333922', 'label': 'OrganismTaxon', 'name': 'Betapapillomavirus'}, {'id': 'MESH:D055623', 'label': 'Disease', 'name': 'Actinic keratosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00724#BE0000155', 'https://en.wikipedia.org/wiki/Imiquimod#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Other_risk_factors', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Medication']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This drug can also inhbit human proteins and affect with the mammalian cell division/replication, which make them an attractive antitumour agent (https://pubmed.ncbi.nlm.nih.gov/11102564/).', 'directed': True, 'graph': {'_id': 'DB01179_MESH_D003218_1', 'disease': 'Condyloma acuminatum', 'disease_mesh': 'MESH:D003218', 'drug': 'podophyllotoxin', 'drug_mesh': 'MESH:D011034', 'drugbank': 'DB:DB01179'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011034', 'target': 'UniProt:P03120'}, {'key': 'positively regulates', 'source': 'UniProt:P03120', 'target': 'GO:0039693'}, {'key': 'in taxon', 'source': 'GO:0039693', 'target': 'NCBITaxon:10566'}, {'key': 'causes', 'source': 'NCBITaxon:10566', 'target': 'MESH:D003218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011034', 'label': 'Drug', 'name': 'podophyllotoxin'}, {'id': 'UniProt:P03120', 'label': 'Protein', 'name': 'Regulatory protein E2'}, {'id': 'GO:0039693', 'label': 'BiologicalProcess', 'name': 'viral DNA genome replication'}, {'id': 'NCBITaxon:10566', 'label': 'OrganismTaxon', 'name': 'Human papillomavirus'}, {'id': 'MESH:D003218', 'label': 'Disease', 'name': 'Condyloma acuminatum'}], 'reference': ['https://drugcentral.org/drugcard/3481?q=Podofilox']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'A right balance needs to be struck for normal bone formation, which involved bone resorption, the breaking down of bone tissue. This drug is actually a portion of the physiologically procuded hormone, PTH, which does increase bone resorption. So the right amount of drug (and frequency) is needed to be achieved to have a net effect of stimulating new bone formation therefore preventing osteoporosis.', 'directed': True, 'graph': {'_id': 'DB06285_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'teriparatide', 'drug_mesh': 'MESH:D019379', 'drugbank': 'DB:DB06285'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D019379', 'target': 'UniProt:Q03431'}, {'key': 'positively regulates', 'source': 'UniProt:Q03431', 'target': 'GO:0004991'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002076'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002062'}, {'key': 'positively correlated with', 'source': 'GO:0004991', 'target': 'GO:0002076'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002076', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002062', 'target': 'HP:0004349'}, {'key': 'negatively correlated with', 'source': 'GO:0002076', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019379', 'label': 'Drug', 'name': 'teriparatide'}, {'id': 'UniProt:Q03431', 'label': 'Protein', 'name': 'Parathyroid hormone/parathyroid hormone-related peptide receptor'}, {'id': 'GO:0004991', 'label': 'MolecularActivity', 'name': 'parathyroid hormone receptor activity'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0002076', 'label': 'BiologicalProcess', 'name': 'osteoblast development'}, {'id': 'GO:0002062', 'label': 'BiologicalProcess', 'name': 'chondrocyte differentiation'}, {'id': 'HP:0004349', 'label': 'Disease', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06285#mechanism-of-action', 'https://en.wikipedia.org/wiki/Teriparatide#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09030_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'vorapaxar', 'drug_mesh': 'MESH:C530299', 'drugbank': 'DB:DB09030'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C530299', 'target': 'UniProt:P25116'}, {'key': 'positively regulates', 'source': 'UniProt:P25116', 'target': 'GO:0015057'}, {'key': 'participates in', 'source': 'GO:0015057', 'target': 'REACT:R-HSA-140877'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-140877', 'target': 'GO:0070527'}, {'key': 'positively correlated with', 'source': 'GO:0070527', 'target': 'MESH:D013927'}, {'key': 'positively correlated with', 'source': 'MESH:D013927', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C530299', 'label': 'Drug', 'name': 'vorapaxar'}, {'id': 'UniProt:P25116', 'label': 'Protein', 'name': 'Proteinase-activated receptor 1'}, {'id': 'GO:0015057', 'label': 'MolecularActivity', 'name': 'thrombin-activated receptor activity'}, {'id': 'REACT:R-HSA-140877', 'label': 'Pathway', 'name': 'Formation of Fibrin Clot (Clotting Cascade)'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'platelet aggregation'}, {'id': 'MESH:D013927', 'label': 'PhenotypicFeature', 'name': 'Thrombosis'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB09030#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vorapaxar#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11792_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'mirodenafil', 'drug_mesh': 'MESH:C528396', 'drugbank': 'DB:DB11792'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C528396', 'target': 'UniProt:O76074'}, {'key': 'positively regulates', 'source': 'UniProt:O76074', 'target': 'GO:0046069'}, {'key': 'decreases abundance of', 'source': 'GO:0046069', 'target': 'CHEBI:16356'}, {'key': 'positively correlated with', 'source': 'CHEBI:16356', 'target': 'GO:0007263'}, {'key': 'positively correlated with', 'source': 'GO:0007263', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'HP:0100639'}, {'key': 'manifestation of', 'source': 'HP:0100639', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'all_id': ['MESH:C518762'], 'id': 'MESH:C528396', 'label': 'Drug', 'name': 'mirodenafil'}, {'id': 'UniProt:O76074', 'label': 'Protein', 'name': \"cGMP-specific 3',5'-cyclic phosphodiesterase\"}, {'id': 'GO:0046069', 'label': 'BiologicalProcess', 'name': 'cGMP catabolic process'}, {'id': 'CHEBI:16356', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic GMP\"}, {'id': 'GO:0007263', 'label': 'BiologicalProcess', 'name': 'nitric oxide mediated signal transduction'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'HP:0100639', 'label': 'PhenotypicFeature', 'name': 'Erectile dysfunction'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://en.wikipedia.org/wiki/Mirodenafil', 'https://en.wikipedia.org/wiki/PDE5_inhibitor#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Nitric_oxide#Biological_functions']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12214_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'luseogliflozin', 'drug_mesh': 'MESH:C549343', 'drugbank': 'DB:DB12214'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C549343', 'target': 'UniProt:P13866'}, {'key': 'negatively regulates', 'source': 'MESH:C549343', 'target': 'UniProt:Q8WWX8'}, {'key': 'positively regulates', 'source': 'UniProt:P13866', 'target': 'GO:0098708'}, {'key': 'positively regulates', 'source': 'UniProt:Q8WWX8', 'target': 'GO:1904659'}, {'key': 'positively correlated with', 'source': 'GO:0098708', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:1904659', 'target': 'GO:0035623'}, {'key': 'positively correlated with', 'source': 'GO:0035623', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C549343', 'label': 'Drug', 'name': 'luseogliflozin'}, {'id': 'UniProt:P13866', 'label': 'Protein', 'name': 'Sodium/glucose cotransporter 1'}, {'id': 'UniProt:Q8WWX8', 'label': 'Protein', 'name': 'Sodium/myo-inositol cotransporter 2'}, {'id': 'GO:0098708', 'label': 'BiologicalProcess', 'name': 'glucose import across plasma membrane'}, {'id': 'GO:1904659', 'label': 'BiologicalProcess', 'name': 'glucose transmembrane transport'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'renal glucose absorption'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://en.wikipedia.org/wiki/Luseogliflozin', 'https://en.wikipedia.org/wiki/SGLT2_inhibitor']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043308'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0043308', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'GO:0043308', 'label': 'BiologicalProcess', 'name': 'eosinophil degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'This condition does not seem to be a true ocular allergic reaction, rather caused by repeated mechanical irritation of the conjunctiva (https://en.wikipedia.org/wiki/Allergic_conjunctivitis#Giant_papillary_conjunctivitis). So the treatment with cromoglicic acid may not be needed/useful at all but interruption of contact lens wearing.', 'directed': True, 'graph': {'_id': 'DB01003_MESH_D003233_1', 'disease': 'Giant papillary conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043308'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0043308', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D003233'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'GO:0043308', 'label': 'BiologicalProcess', 'name': 'eosinophil degranulation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Giant papillary conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://en.wikipedia.org/wiki/S100P#Interactions']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D034721_1', 'disease': 'Systemic mast cell disease', 'disease_mesh': 'MESH:D034721', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Systemic mast cell disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions', 'https://en.wikipedia.org/wiki/Mastocytosis#Anti-mediator_therapy', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01003_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'cromoglicic acid', 'drug_mesh': 'MESH:D004205', 'drugbank': 'DB:DB01003'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004205', 'target': 'UniProt:P25815'}, {'key': 'positively correlated with', 'source': 'UniProt:P25815', 'target': 'GO:0043303'}, {'key': 'caused by', 'source': 'GO:0043303', 'target': 'REACT:R-HSA-2454202'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002441'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2454202', 'target': 'GO:0002540'}, {'key': 'positively correlated with', 'source': 'GO:0002441', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'GO:0002540', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004205', 'label': 'Drug', 'name': 'cromoglicic acid'}, {'id': 'UniProt:P25815', 'label': 'Protein', 'name': 'Protein S100-P'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'mast cell degranulation'}, {'id': 'REACT:R-HSA-2454202', 'label': 'Pathway', 'name': 'Allergen dependent IgE bound FCERI aggregation'}, {'id': 'GO:0002540', 'label': 'BiologicalProcess', 'name': 'leukotriene production involved in inflammatory response'}, {'id': 'GO:0002441', 'label': 'BiologicalProcess', 'name': 'histamine secretion involved in inflammatory response'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB01003#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/25450399/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2882#section=Pharmacology-and-Biochemistry', 'https://pubmed.ncbi.nlm.nih.gov/12645002/', 'https://en.wikipedia.org/wiki/RAGE_(receptor)#RAGE_and_disease', 'https://en.wikipedia.org/wiki/S100P#Interactions', 'https://en.wikipedia.org/wiki/Mastocytosis#Anti-mediator_therapy', 'https://en.wikipedia.org/wiki/Mast_cell_stabilizer', 'https://en.wikipedia.org/wiki/Asthma#Management']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11824_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Tofogliflozin', 'drug_mesh': 'MESH:C575086', 'drugbank': 'DB:DB11824'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C575086', 'target': 'UniProt:P31639'}, {'key': 'prevents', 'source': 'UniProt:P31639', 'target': 'GO:0035623'}, {'key': 'decreases abundance of', 'source': 'GO:0035623', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C575086', 'label': 'Drug', 'name': 'Tofogliflozin'}, {'id': 'UniProt:P31639', 'label': 'Protein', 'name': 'SGLT2'}, {'id': 'GO:0035623', 'label': 'BiologicalProcess', 'name': 'Renal glucose absorption'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB11824#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'contributes to', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-8866423'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-8866423', 'target': 'MESH:D008077'}, {'key': 'contributes to', 'source': 'MESH:D008077', 'target': 'MESH:D006950'}, {'key': 'contributes to', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'REACT:R-HSA-8866423', 'label': 'Pathway', 'name': 'Very low density lipoprotein (VLDL) synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Low density lipoprotein-cholesterol (LDL-C)'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D014280'}, {'key': 'contributes to', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D052456_1', 'disease': 'Hypoalphalipoproteinemia', 'disease_mesh': 'MESH:D052456', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'increases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D008075'}, {'key': 'contributes to', 'source': 'MESH:D008075', 'target': 'MESH:D052456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D008075', 'label': 'ChemicalSubstance', 'name': 'High density lipoprotein-cholesterol (HDL-C)'}, {'id': 'MESH:D052456', 'label': 'Disease', 'name': 'Hypoalphalipoproteinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D006952_1', 'disease': 'Familial type 3 hyperlipoproteinemia', 'disease_mesh': 'MESH:D006952', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'decreases abundance of', 'source': 'UniProt:P04035', 'target': 'MESH:D001055'}, {'key': 'contributes to', 'source': 'MESH:D001055', 'target': 'MESH:D006952'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'MESH:D001055', 'label': 'ChemicalSubstance', 'name': 'Apolipoprotein B (apoB)'}, {'id': 'MESH:D006952', 'label': 'Disease', 'name': 'Familial type 3 hyperlipoproteinemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'prevents', 'source': 'MESH:D002784', 'target': 'HP:0007201'}, {'key': 'correlated with', 'source': 'HP:0007201', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'HP:0007201', 'label': 'PhenotypicFeature', 'name': 'Cerebral artery plaque formation'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin', 'https://pubmed.ncbi.nlm.nih.gov/15083596/#:~:text=Epidemiological%20studies%20indicate%20that%20high,the%20frequency%20of%20hemorrhagic%20stroke.']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00641_MESH_D001161_1', 'disease': 'Arteriosclerotic vascular disease', 'disease_mesh': 'MESH:D001161', 'drug': 'Simvastatin', 'drug_mesh': 'MESH:D019821', 'drugbank': 'DB:DB00641'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019821', 'target': 'UniProt:P04035'}, {'key': 'negatively regulates', 'source': 'UniProt:P04035', 'target': 'REACT:R-HSA-191273'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-191273', 'target': 'MESH:D002784'}, {'key': 'prevents', 'source': 'MESH:D002784', 'target': 'HP:0002621'}, {'key': 'correlated with', 'source': 'HP:0002621', 'target': 'MESH:D001161'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019821', 'label': 'Drug', 'name': 'Simvastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'HP:0002621', 'label': 'PhenotypicFeature', 'name': 'atherosclerotic plaque formation'}, {'id': 'MESH:D001161', 'label': 'Disease', 'name': 'Arteriosclerotic vascular disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00641#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Simvastatin', 'https://pubmed.ncbi.nlm.nih.gov/15083596/#:~:text=Epidemiological%20studies%20indicate%20that%20high,the%20frequency%20of%20hemorrhagic%20stroke.']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01621_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Pipotiazine palmitate', 'drug_mesh': None, 'drugbank': 'DB:DB01621'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01621', 'target': 'InterPro:IPR000929'}, {'key': 'located in', 'source': 'InterPro:IPR000929', 'target': 'UBERON:0000349'}, {'key': 'location of', 'source': 'UBERON:0000349', 'target': 'GO:0004952'}, {'key': 'decreases activity of', 'source': 'DB:DB01621', 'target': 'InterPro:IPR002231'}, {'key': 'located in', 'source': 'InterPro:IPR002231', 'target': 'UBERON:0000956'}, {'key': 'location of', 'source': 'UBERON:0000956', 'target': 'GO:0004952'}, {'key': 'positively regulates', 'source': 'GO:0004952', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01621', 'label': 'Drug', 'name': 'Pipotiazine palmitate'}, {'id': 'InterPro:IPR000929', 'label': 'GeneFamily', 'name': 'Dopamine receptor family'}, {'id': 'UBERON:0000349', 'label': 'GrossAnatomicalStructure', 'name': 'Limbic system'}, {'id': 'InterPro:IPR002231', 'label': 'GeneFamily', 'name': '5-hydroxytryptamine receptor family'}, {'id': 'UBERON:0000956', 'label': 'GrossAnatomicalStructure', 'name': 'Cerebral cortex'}, {'id': 'GO:0004952', 'label': 'BiologicalProcess', 'name': 'Dopamine neurotransmitter receptor activity'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01621#mechanismofaction', 'https://academic.oup.com/bmb/article/114/1/169/246291']}\n", - "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00790_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Perindopril', 'drug_mesh': 'MESH:D020913', 'drugbank': 'DB:DB00790'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D020913', 'target': 'MESH:C053500'}, {'key': 'decreases activity of', 'source': 'MESH:C053500', 'target': 'UniProt:P12821'}, {'key': 'negatively regulates', 'source': 'UniProt:P12821', 'target': 'REACT:R-HSA-2022377'}, {'key': 'prevents', 'source': 'REACT:R-HSA-2022377', 'target': 'GO:0042310'}, {'key': 'negatively regulates', 'source': 'UniProt:P12821', 'target': 'GO:0035932'}, {'key': 'located in', 'source': 'GO:0035932', 'target': 'UBERON:0001235'}, {'key': 'positively regulates', 'source': 'UBERON:0001235', 'target': 'GO:0003095'}, {'key': 'negatively regulates', 'source': 'GO:0003095', 'target': 'HP:0000822'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020913', 'label': 'Drug', 'name': 'Perindopril'}, {'id': 'MESH:C053500', 'label': 'Drug', 'name': 'Perindoprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'REACT:R-HSA-2022377', 'label': 'Pathway', 'name': 'Renin-angiotensin-aldosterone system'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0035932', 'label': 'BiologicalProcess', 'name': 'Aldosterone secretion'}, {'id': 'GO:0003095', 'label': 'BiologicalProcess', 'name': 'Pressure natriuresis'}, {'id': 'UBERON:0001235', 'label': 'GrossAnatomicalStructure', 'name': 'Adrenal cortex'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00790#mechanismofaction']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Paromomycin helps to treat hepatic encephalopathy by stopping the growth of certain bacteria in your intestines that make ammonia', 'directed': True, 'graph': {'_id': 'DB01421_MESH_D006501_1', 'disease': 'Hepatic coma', 'disease_mesh': 'MESH:D006501', 'drug': 'Paromomycin', 'drug_mesh': 'MESH:D010303', 'drugbank': 'DB:DB01421'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D010303', 'target': 'MESH:D012336'}, {'key': 'negatively regulates', 'source': 'MESH:D012336', 'target': 'MESH:D014176'}, {'key': 'produces', 'source': 'MESH:D014176', 'target': 'GO:0030163'}, {'key': 'precedes', 'source': 'GO:0030163', 'target': 'GO:0001896'}, {'key': 'in taxon', 'source': 'GO:0001896', 'target': 'NCBITaxon:543'}, {'key': 'contributes to', 'source': 'NCBITaxon:543', 'target': 'MESH:D006501'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010303', 'label': 'Drug', 'name': 'Paromomycin'}, {'id': 'MESH:D012336', 'label': 'ChemicalSubstance', 'name': '16S ribosomal RNA'}, {'id': 'MESH:D014176', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'GO:0030163', 'label': 'BiologicalProcess', 'name': 'Defective polypeptide chains'}, {'id': 'GO:0001896', 'label': 'BiologicalProcess', 'name': 'Bacterial death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D006501', 'label': 'Disease', 'name': 'Hepatic coma'}], 'reference': ['https://go.drugbank.com/drugs/DB01421#mechanismofaction', 'https://www.webmd.com/drugs/2/drug-5160/paromomycin-oral/details']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Iproniazid is stated as Withdrawn from the Canadian market in July 1964 due to interactions with food products containing tyrosine', 'directed': True, 'graph': {'_id': 'DB04818_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Iproniazid', 'drug_mesh': 'MESH:D007490', 'drugbank': 'DB:DB04818'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007490', 'target': 'InterPro:IPR001613'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001613', 'target': 'HP:0000716'}, {'key': 'has metabolite', 'source': 'MESH:D007490', 'target': 'MESH:C044821'}, {'key': 'decreases activity of', 'source': 'MESH:C044821', 'target': 'InterPro:IPR001613'}, {'key': 'causes', 'source': 'HP:0000716', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007490', 'label': 'Drug', 'name': 'Iproniazid'}, {'id': 'InterPro:IPR001613', 'label': 'GeneFamily', 'name': 'Monoamine oxidase'}, {'id': 'MESH:C044821', 'label': 'ChemicalSubstance', 'name': 'Isopropylhydrazine'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depression'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04818#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Iproniazid#section=MeSH-Pharmacological-Classification']}\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D012148_2', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Gabapentin', 'drug_mesh': None, 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00996', 'target': 'UniProt:Q9NY47'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR018882'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR018882', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR037440'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR037440', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR000884'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR000884', 'target': 'UniProt:Q00975'}, {'key': 'located in', 'source': 'UniProt:Q00975', 'target': 'GO:0098793'}, {'key': 'prevents', 'source': 'GO:0098793', 'target': 'GO:0015278'}, {'key': 'positively regulates', 'source': 'GO:0015278', 'target': 'GO:0007269'}, {'key': 'negatively regulates', 'source': 'GO:0098793', 'target': 'GO:0005262'}, {'key': 'positively regulates', 'source': 'GO:0005262', 'target': 'GO:0007269'}, {'key': 'ameliorates', 'source': 'GO:0007269', 'target': 'HP:0012514'}, {'key': 'correlated with', 'source': 'HP:0012514', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00996', 'label': 'Drug', 'name': 'Gabapentin'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'InterPro:IPR018882', 'label': 'GeneFamily', 'name': 'NMDA receptors'}, {'id': 'InterPro:IPR037440', 'label': 'GeneFamily', 'name': 'Neurexins'}, {'id': 'InterPro:IPR000884', 'label': 'GeneFamily', 'name': 'Thrombospondins'}, {'id': 'UniProt:Q00975', 'label': 'Protein', 'name': 'Voltage-gated calcium channels'}, {'id': 'GO:0098793', 'label': 'CellularComponent', 'name': 'Presynapse'}, {'id': 'GO:0015278', 'label': 'MolecularActivity', 'name': 'Calcium-release channel activity'}, {'id': 'GO:0005262', 'label': 'MolecularActivity', 'name': 'Calcium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter release'}, {'id': 'HP:0012514', 'label': 'PhenotypicFeature', 'name': 'Lower limb pain'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00996#mechanismofaction', 'https://en.wikipedia.org/wiki/Gabapentin']}\n", - "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00996_MESH_D051474_1', 'disease': 'Postherpetic neuralgia', 'disease_mesh': 'MESH:D051474', 'drug': 'Gabapentin', 'drug_mesh': None, 'drugbank': 'DB:DB00996'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00996', 'target': 'UniProt:Q9NY47'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR018882'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR018882', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR037440'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR037440', 'target': 'UniProt:Q00975'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9NY47', 'target': 'InterPro:IPR000884'}, {'key': 'decreases expression of', 'source': 'InterPro:IPR000884', 'target': 'UniProt:Q00975'}, {'key': 'located in', 'source': 'UniProt:Q00975', 'target': 'GO:0098793'}, {'key': 'prevents', 'source': 'GO:0098793', 'target': 'GO:0015278'}, {'key': 'positively regulates', 'source': 'GO:0015278', 'target': 'GO:0007269'}, {'key': 'negatively regulates', 'source': 'GO:0098793', 'target': 'GO:0005262'}, {'key': 'positively regulates', 'source': 'GO:0005262', 'target': 'GO:0007269'}, {'key': 'ameliorates', 'source': 'GO:0007269', 'target': 'HP:0012531'}, {'key': 'correlated with', 'source': 'HP:0012531', 'target': 'MESH:D051474'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00996', 'label': 'Drug', 'name': 'Gabapentin'}, {'id': 'UniProt:Q9NY47', 'label': 'Protein', 'name': 'Voltage-dependent calcium channel subunit alpha-2/delta-2'}, {'id': 'InterPro:IPR018882', 'label': 'GeneFamily', 'name': 'NMDA receptors'}, {'id': 'InterPro:IPR037440', 'label': 'GeneFamily', 'name': 'Neurexins'}, {'id': 'InterPro:IPR000884', 'label': 'GeneFamily', 'name': 'Thrombospondins'}, {'id': 'UniProt:Q00975', 'label': 'Protein', 'name': 'Voltage-gated calcium channels'}, {'id': 'GO:0098793', 'label': 'CellularComponent', 'name': 'Presynapse'}, {'id': 'GO:0015278', 'label': 'MolecularActivity', 'name': 'Calcium-release channel activity'}, {'id': 'GO:0005262', 'label': 'MolecularActivity', 'name': 'Calcium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter release'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D051474', 'label': 'Disease', 'name': 'Postherpetic neuralgia'}], 'reference': ['https://go.drugbank.com/drugs/DB00996#mechanismofaction', 'https://en.wikipedia.org/wiki/Gabapentin']}\n", - "['Drug', 'Protein', 'CellularComponent', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01320_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Fosphenytoin', 'drug_mesh': 'MESH:C043114', 'drugbank': 'DB:DB01320'}, 'links': [{'key': 'derives into', 'source': 'MESH:C043114', 'target': 'MESH:D010672'}, {'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043114', 'label': 'Drug', 'name': 'Fosphenytoin'}, {'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01320#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Fosphenytoin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01320_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'Fosphenytoin', 'drug_mesh': 'MESH:C043114', 'drugbank': 'DB:DB01320'}, 'links': [{'key': 'derives into', 'source': 'MESH:C043114', 'target': 'MESH:D010672'}, {'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043114', 'label': 'Drug', 'name': 'Fosphenytoin'}, {'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB01320#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Fosphenytoin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D013226_1', 'disease': 'Status epilepticus', 'disease_mesh': 'MESH:D013226', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D013226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D013226', 'label': 'Disease', 'name': 'Status epilepticus'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01158_MESH_D014693_1', 'disease': 'Ventricular fibrillation', 'disease_mesh': 'MESH:D014693', 'drug': 'Bretylium', 'drug_mesh': 'MESH:C045166', 'drugbank': 'DB:DB01158'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C045166', 'target': 'GO:0048243'}, {'key': 'decreases activity of', 'source': 'GO:0048243', 'target': 'InterPro:IPR005821'}, {'key': 'decreases response to', 'source': 'InterPro:IPR005821', 'target': 'GO:0001508'}, {'key': 'prevents', 'source': 'GO:0001508', 'target': 'HP:0004308'}, {'key': 'causes', 'source': 'HP:0004308', 'target': 'MESH:D014693'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C045166', 'label': 'Drug', 'name': 'Bretylium'}, {'id': 'GO:0048243', 'label': 'BiologicalProcess', 'name': 'Release of norepinephrine'}, {'id': 'InterPro:IPR005821', 'label': 'GeneFamily', 'name': 'Voltage-gated potassium channel'}, {'id': 'GO:0001508', 'label': 'BiologicalProcess', 'name': 'Action potential'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmias'}, {'id': 'MESH:D014693', 'label': 'Disease', 'name': 'Ventricular fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB01158#mechanismofaction']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004828_1', 'disease': 'Localization-related epilepsy', 'disease_mesh': 'MESH:D004828', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Localization-related epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D012640_1', 'disease': 'Tonic-clonic seizure', 'disease_mesh': 'MESH:D012640', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D012640'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D012640', 'label': 'Disease', 'name': 'Tonic-clonic seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00252_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'Phenytoin', 'drug_mesh': 'MESH:D010672', 'drugbank': 'DB:DB00252'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010672', 'target': 'UniProt:Q14524'}, {'key': 'increases transport of', 'source': 'UniProt:Q14524', 'target': 'MESH:D012964'}, {'key': 'located in', 'source': 'MESH:D012964', 'target': 'UBERON:0001384'}, {'key': 'negatively regulates', 'source': 'UBERON:0001384', 'target': 'GO:0099611'}, {'key': 'ameliorates', 'source': 'GO:0099611', 'target': 'HP:0001250'}, {'key': 'caused by', 'source': 'HP:0001250', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010672', 'label': 'Drug', 'name': 'Phenytoin'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'MESH:D012964', 'label': 'ChemicalSubstance', 'name': 'Sodium'}, {'id': 'UBERON:0001384', 'label': 'GrossAnatomicalStructure', 'name': 'Primary motor cortex'}, {'id': 'GO:0099611', 'label': 'BiologicalProcess', 'name': 'Action potential firing threshold'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00252#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Phenytoin']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"Please note that the original drug to curate for this disease was aspartic acid but there is no evidence for it to be used as a treatment for hypokalemia unless it's a potassium salt of aspartic acid.\", 'directed': True, 'graph': {'_id': 'DB00128_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Aspartic Acid, Potassium Salt', 'drug_mesh': 'MESH:D001224', 'drugbank': 'DB:DB00128'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D001224', 'target': 'MESH:D011188'}, {'key': 'negatively correlated with', 'source': 'MESH:D011188', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001224', 'label': 'Drug', 'name': 'Aspartic Acid, Potassium Salt'}, {'id': 'MESH:D011188', 'label': 'ChemicalSubstance', 'name': 'Potassium'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://en.wikipedia.org/wiki/Hypokalemia', 'https://go.drugbank.com/drugs/DB00128']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010146_2', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D010146'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'MESH:D010146'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D010146'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'has phenotype', 'source': 'GO:0019233', 'target': 'HP:0012531'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'HP:0012531'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00193_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Tramadol', 'drug_mesh': 'MESH:D014147', 'drugbank': 'DB:DB00193'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P35372'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D014147', 'target': 'UniProt:P31645'}, {'key': 'participates in', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'participates in', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'decreases abundance of', 'source': 'GO:0051610', 'target': 'MESH:D012701'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0060096'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0060096', 'target': 'GO:0019233'}, {'key': 'negatively regulates', 'source': 'GO:0061533', 'target': 'GO:0019233'}, {'key': 'causes', 'source': 'GO:0019233', 'target': 'MESH:D059350'}, {'key': 'decreases activity of', 'source': 'UniProt:P35372', 'target': 'UniProt:B7Z2C7'}, {'key': 'decreases activity of', 'source': 'UniProt:B7Z2C7', 'target': 'UniProt:Q14654'}, {'key': 'negatively regulates', 'source': 'UniProt:P35372', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14654', 'target': 'GO:0099610'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:1990793'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:1990793', 'target': 'MESH:D059350'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D059350'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014147', 'label': 'Drug', 'name': 'Tramadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'Nociceptor'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'Sensory perception of pain'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00193', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811866/', 'https://en.wikipedia.org/wiki/Opioid_receptor#Mechanism_of_activation']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00270_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Isradipine', 'drug_mesh': 'MESH:D017275', 'drugbank': 'DB:DB00270'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR005446'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR000584'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'InterPro:IPR013680'}, {'key': 'decreases activity of', 'source': 'MESH:D017275', 'target': 'UniProt:O95180'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000584', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013680', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'UniProt:O95180', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0004687'}, {'key': 'positively regulates', 'source': 'GO:0004687', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'GO:0006939', 'target': 'GO:0042310'}, {'key': 'affects risk for', 'source': 'GO:0042310', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017275', 'label': 'Drug', 'name': 'Isradipine'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'InterPro:IPR000584', 'label': 'GeneFamily', 'name': 'Voltage-dependent L-type calcium channel subunit beta'}, {'id': 'InterPro:IPR013680', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, alpha-2/delta subunit, conserved regio'}, {'id': 'UniProt:O95180', 'label': 'Protein', 'name': 'Voltage-dependent T-type calcium channel subunit alpha-1H'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0004687', 'label': 'BiologicalProcess', 'name': 'Myosin light chain kinase activity'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00270#BE0000864']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'There is an evidence indicating that levonorgestrel activates progesteron receptor https://pubmed.ncbi.nlm.nih.gov/16112947/', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D008595_2', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016912', 'target': 'UniProt:P06401'}, {'key': 'negatively regulates', 'source': 'UniProt:P06401', 'target': 'GO:0050673'}, {'key': 'positively correlated with', 'source': 'GO:0050673', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'GO:0050673', 'label': 'BiologicalProcess', 'name': 'Epithelial cell proliferation'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://pubmed.ncbi.nlm.nih.gov/8671392/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Norgestrel is composed of a racemic mixture of two stereoisomers, dextronorgestrel and levonorgestrel. However, only the levorotary enantiomer (levonorgestrel) is biologically active. There is an evidence indicating that levonorgestrel activates progesteron receptor https://pubmed.ncbi.nlm.nih.gov/16112947/', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009644', 'target': 'UniProt:P06401'}, {'key': 'negatively regulates', 'source': 'UniProt:P06401', 'target': 'GO:0050673'}, {'key': 'positively correlated with', 'source': 'GO:0050673', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'GO:0050673', 'label': 'BiologicalProcess', 'name': 'Epithelial cell proliferation'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://pubmed.ncbi.nlm.nih.gov/8671392/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Levonorgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent osteoporosis and in this case estradiol is the acive drug that prevents oseoporosis, while levonorgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'treats', 'source': 'MESH:D016912', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Levonorgestrel#Hormone_therapy']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Norgestrel is composed of a racemic mixture of two stereoisomers, dextronorgestrel and levonorgestrel. However, only the levorotary enantiomer (levonorgestrel) is biologically active. Norgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent osteoporosis and in this case estradiol is the acive drug that prevents oseoporosis, while norgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'treats', 'source': 'MESH:D009644', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Norgestrel#Medical_uses']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Levonorgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent menopausal flushing and in this case estradiol is the acive drug, while levonorgestrel is added for the protection of the endometrium', 'directed': True, 'graph': {'_id': 'DB00367_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Levonorgestrel', 'drug_mesh': 'MESH:D016912', 'drugbank': 'DB:DB00367'}, 'links': [{'key': 'treats', 'source': 'MESH:D016912', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016912', 'label': 'Drug', 'name': 'Levonorgestrel'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Levonorgestrel#Hormone_therapy']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Norgestrel is prescribed in combination with estradiol as a hormone therapy during menopause to prevent menopausal flushing; in this drug combination estradiol is the acive drug, while norgestrel is added for the protection of the endometrium.', 'directed': True, 'graph': {'_id': 'DB09389_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'Norgestrel', 'drug_mesh': 'MESH:D009644', 'drugbank': 'DB:DB09389'}, 'links': [{'key': 'treats', 'source': 'MESH:D009644', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009644', 'label': 'Drug', 'name': 'Norgestrel'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB00367#BE0000557', 'https://en.wikipedia.org/wiki/Norgestrel#Medical_uses']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00471_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Montelukast', 'drug_mesh': 'MESH:C093875', 'drugbank': 'DB:DB00471'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093875', 'target': 'UniProt:Q9Y271'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0070254'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0070254', 'target': 'MESH:D065631'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D065631'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093875', 'label': 'Drug', 'name': 'Montelukast'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'Mucus secretion'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00471#BE0000705', 'https://en.wikipedia.org/wiki/Montelukast#Pharmacology']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D004828_1', 'disease': 'Simple partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Simple partial seizure'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The mechanism by which felbamate exerts its anticonvulsant activity is not fully known.', 'directed': True, 'graph': {'_id': 'DB00949_MESH_D065768_1', 'disease': 'Lennox-Gastaut syndrome', 'disease_mesh': 'MESH:D065768', 'drug': 'Felbamate', 'drug_mesh': 'MESH:C047360', 'drugbank': 'DB:DB00949'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q13224'}, {'key': 'decreases activity of', 'source': 'MESH:C047360', 'target': 'UniProt:Q12879'}, {'key': 'positively correlated with', 'source': 'UniProt:Q13224', 'target': 'HP:0001250'}, {'key': 'positively correlated with', 'source': 'UniProt:Q12879', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D065768'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047360', 'label': 'Drug', 'name': 'Felbamate'}, {'id': 'UniProt:Q13224', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2B'}, {'id': 'UniProt:Q12879', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D065768', 'label': 'Disease', 'name': 'Lennox-Gastaut syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00949#BE0000417', 'https://pubmed.ncbi.nlm.nih.gov/32197322/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01133_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'Tiludronic acid', 'drug_mesh': 'MESH:C058651', 'drugbank': 'DB:DB01133'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C058651', 'target': 'MESH:D000255'}, {'key': 'located in', 'source': 'MESH:D000255', 'target': 'CL:0000092'}, {'key': 'participates in', 'source': 'CL:0000092', 'target': 'GO:0046849'}, {'key': 'causes', 'source': 'GO:0046849', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C058651', 'label': 'Drug', 'name': 'Tiludronic acid'}, {'id': 'MESH:D000255', 'label': 'ChemicalSubstance', 'name': 'Adenosine Triphosphate'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://en.wikipedia.org/wiki/Tiludronic_acid', 'https://go.drugbank.com/drugs/DB01133', 'https://en.wikipedia.org/wiki/Paget%27s_disease_of_bone']}\n", - "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Potentially non-efficacious https://pubmed.ncbi.nlm.nih.gov/26615034/', 'directed': True, 'graph': {'_id': 'DB04837_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D012220_1', 'disease': 'Rhinitis', 'disease_mesh': 'MESH:D012220', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'GO:0071159'}, {'key': 'positively regulates', 'source': 'GO:0071159', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'MESH:D012220'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'GO:0071159', 'label': 'CellularComponent', 'name': 'NF-kappaB complex'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'id': 'MESH:D012220', 'label': 'Disease', 'name': 'Rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB04837']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Clofedanol suppresses the cough reflex by a direct effect on the cough center in the medulla of the brain', 'directed': True, 'graph': {'_id': 'DB04837_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'GO:0060004'}, {'key': 'positively correlated with', 'source': 'GO:0060004', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'GO:0060004', 'label': 'BiologicalProcess', 'name': 'Reflex'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB04837', 'https://pubchem.ncbi.nlm.nih.gov/compound/2795']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04837_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Clofedanol', 'drug_mesh': 'MESH:C010432', 'drugbank': 'DB:DB04837'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C010432', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:D006632', 'target': 'MESH:D013373'}, {'key': 'participates in', 'source': 'MESH:D013373', 'target': 'MESH:D020078'}, {'key': 'contributes to', 'source': 'MESH:D020078', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010432', 'label': 'Drug', 'name': 'Clofedanol'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'MESH:D013373', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'MESH:D020078', 'label': 'Disease', 'name': 'Neurogenic Inflammation'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://en.wikipedia.org/wiki/Rhinitis#Nonallergic_rhinitis', 'https://go.drugbank.com/drugs/DB04837', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3764847/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'comment': \"The precise mechanism of brivaracetam's anti-epileptogenic activity is unknown. It is thought that brivaracetam binds to SV2A and causes the reduction in the rate of vesicle release including release of excitatory neurotransmitters.\", 'directed': True, 'graph': {'_id': 'DB05541_MESH_D004828_1', 'disease': 'Partial seizure', 'disease_mesh': 'MESH:D004828', 'drug': 'Brivaracetam', 'drug_mesh': 'MESH:C482793', 'drugbank': 'DB:DB05541'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C482793', 'target': 'UniProt:Q7L0J3'}, {'key': 'negatively regulates', 'source': 'MESH:C482793', 'target': 'GO:0005248'}, {'key': 'participates in', 'source': 'UniProt:Q7L0J3', 'target': 'GO:0007269'}, {'key': 'positively correlated with', 'source': 'GO:0005248', 'target': 'HP:0001250'}, {'key': 'correlated with', 'source': 'GO:0007269', 'target': 'MESH:D004828'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C482793', 'label': 'Drug', 'name': 'Brivaracetam'}, {'id': 'UniProt:Q7L0J3', 'label': 'Protein', 'name': 'Synaptic vesicle glycoprotein 2A'}, {'id': 'GO:0005248', 'label': 'MolecularActivity', 'name': 'Voltage-gated sodium channel activity'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'Neurotransmitter secretion'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Partial seizure'}], 'reference': ['https://en.wikipedia.org/wiki/Brivaracetam#Pharmacology', 'https://go.drugbank.com/drugs/DB05541', 'https://pubmed.ncbi.nlm.nih.gov/27768878/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4888813/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'MolecularActivity', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09205_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'Moxisylyte', 'drug_mesh': 'MESH:D013948', 'drugbank': 'DB:DB09205'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013948', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'GO:0004936', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013948', 'label': 'Drug', 'name': 'Moxisylyte'}, {'id': 'GO:0004936', 'label': 'BiologicalProcess', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB09205#BE0004888']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09205_MESH_D011928_1', 'disease': \"Raynaud's disease\", 'disease_mesh': 'MESH:D011928', 'drug': 'Moxisylyte', 'drug_mesh': 'MESH:D013948', 'drugbank': 'DB:DB09205'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013948', 'target': 'GO:0004936'}, {'key': 'positively regulates', 'source': 'GO:0004936', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D011928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013948', 'label': 'Drug', 'name': 'Moxisylyte'}, {'id': 'GO:0004936', 'label': 'BiologicalProcess', 'name': 'Alpha-adrenergic receptor activity'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D011928', 'label': 'Disease', 'name': \"Raynaud's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB09205#BE0004888', 'https://en.wikipedia.org/wiki/Raynaud_syndrome']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00108_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Natalizumab', 'drug_mesh': 'MESH:D000069442', 'drugbank': 'DB:DB00108'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D000069442', 'target': 'UniProt:P13612'}, {'key': 'participates in', 'source': 'UniProt:P13612', 'target': 'GO:0007159'}, {'key': 'regulates', 'source': 'GO:0007159', 'target': 'GO:0050900'}, {'key': 'regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069442', 'label': 'Drug', 'name': 'Natalizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'GO:0007159', 'label': 'BiologicalProcess', 'name': 'leukocyte cell-cell adhesion'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00108#BE0000590', 'https://en.wikipedia.org/wiki/Natalizumab', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2721358/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00108_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'Natalizumab', 'drug_mesh': 'MESH:D000069442', 'drugbank': 'DB:DB00108'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D000069442', 'target': 'UniProt:P13612'}, {'key': 'participates in', 'source': 'UniProt:P13612', 'target': 'GO:1904994'}, {'key': 'regulates', 'source': 'GO:1904994', 'target': 'GO:0050900'}, {'key': 'regulates', 'source': 'GO:0050900', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069442', 'label': 'Drug', 'name': 'Natalizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'GO:1904994', 'label': 'BiologicalProcess', 'name': 'regulation of leukocyte adhesion to vascular endothelial cell'}, {'id': 'GO:0050900', 'label': 'BiologicalProcess', 'name': 'leukocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammation'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00108#BE0000590', 'https://en.wikipedia.org/wiki/Natalizumab']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00843_MESH_D000544_1', 'disease': \"Alzheimer's disease\", 'disease_mesh': 'MESH:D000544', 'drug': 'donepezil', 'drug_mesh': 'MESH:C076946', 'drugbank': 'DB:DB00843'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C076946', 'target': 'UniProt:P22303'}, {'key': 'increases abundance of', 'source': 'UniProt:P22303', 'target': 'MESH:D000109'}, {'key': 'located in', 'source': 'MESH:D000109', 'target': 'GO:0045202'}, {'key': 'participates in', 'source': 'GO:0045202', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'GO:0007613'}, {'key': 'prevents', 'source': 'GO:0007613', 'target': 'MESH:D000544'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C076946', 'label': 'Drug', 'name': 'donepezil'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'acetylcholinesterase'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'acetylcholine'}, {'id': 'GO:0045202', 'label': 'CellularComponent', 'name': 'synapse'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0007613', 'label': 'BiologicalProcess', 'name': 'memory'}, {'id': 'MESH:D000544', 'label': 'Disease', 'name': \"Alzheimer's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00843#BE0000426', 'https://en.wikipedia.org/wiki/Donepezil']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00938_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'salmeterol', 'drug_mesh': 'MESH:D000068299', 'drugbank': 'DB:DB00938'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000068299', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'UniProt:B7Z2C7'}, {'key': 'increases abundance of', 'source': 'UniProt:B7Z2C7', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'located in', 'source': 'GO:0044557', 'target': 'UBERON:0002185'}, {'key': 'affected by', 'source': 'UBERON:0002185', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068299', 'label': 'Drug', 'name': 'salmeterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:B7Z2C7', 'label': 'Protein', 'name': 'Adenylate cyclase'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'UBERON:0002185', 'label': 'GrossAnatomicalStructure', 'name': 'bronchus'}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00938#BE0000694', 'https://en.wikipedia.org/wiki/Salmeterol']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:80308'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:3165'}, {'key': 'located in', 'source': 'CHEBI:80308', 'target': 'UBERON:0000176'}, {'key': 'located in', 'source': 'CHEBI:3165', 'target': 'UBERON:0000176'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0025095'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0000989'}, {'key': 'correlated with', 'source': 'HP:0025095', 'target': 'MESH:D006255'}, {'key': 'correlated with', 'source': 'HP:0000989', 'target': 'MESH:D006255'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'CHEBI:80308', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'CHEBI:3165', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'UBERON:0000176', 'label': 'GrossAnatomicalStructure', 'name': 'oronasal secretion'}, {'id': 'HP:0025095', 'label': 'PhenotypicFeature', 'name': 'Sneeze'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:80308'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:3165'}, {'key': 'located in', 'source': 'CHEBI:80308', 'target': 'UBERON:0000176'}, {'key': 'located in', 'source': 'CHEBI:3165', 'target': 'UBERON:0000176'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0025095'}, {'key': 'causes', 'source': 'UBERON:0000176', 'target': 'HP:0000989'}, {'key': 'correlated with', 'source': 'HP:0025095', 'target': 'MESH:D065631'}, {'key': 'correlated with', 'source': 'HP:0000989', 'target': 'MESH:D065631'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'CHEBI:80308', 'label': 'ChemicalSubstance', 'name': 'Substance P'}, {'id': 'CHEBI:3165', 'label': 'ChemicalSubstance', 'name': 'bradykinin'}, {'id': 'UBERON:0000176', 'label': 'GrossAnatomicalStructure', 'name': 'oronasal secretion'}, {'id': 'HP:0025095', 'label': 'PhenotypicFeature', 'name': 'Sneeze'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00972_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'azelastine', 'drug_mesh': 'MESH:C020976', 'drugbank': 'DB:DB00972'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P25021'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:P04054'}, {'key': 'decreases activity of', 'source': 'MESH:C020976', 'target': 'UniProt:Q16873'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'UniProt:P25021', 'target': 'GO:0001821'}, {'key': 'positively correlated with', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P04054', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'UniProt:Q16873', 'target': 'GO:0019370'}, {'key': 'participates in', 'source': 'GO:0019370', 'target': 'GO:0043303'}, {'key': 'decreases abundance of', 'source': 'MESH:C020976', 'target': 'CHEBI:25029'}, {'key': 'correlated with', 'source': 'CHEBI:25029', 'target': 'GO:0043303'}, {'key': 'correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020976', 'label': 'Drug', 'name': 'azelastine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'UniProt:P25021', 'label': 'Protein', 'name': 'Histamine H2 receptor'}, {'id': 'UniProt:P04054', 'label': 'Protein', 'name': 'Phospholipase A2'}, {'id': 'UniProt:Q16873', 'label': 'Protein', 'name': 'Leukotriene C4 synthase'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'histamine secretion'}, {'id': 'GO:0019370', 'label': 'BiologicalProcess', 'name': 'leukotriene biosynthetic process'}, {'id': 'CHEBI:25029', 'label': 'ChemicalSubstance', 'name': 'leukotriene'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00972#BE0000442', 'https://en.wikipedia.org/wiki/Azelastine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01253_MESH_D006473_1', 'disease': 'Postpartum hemorrhage', 'disease_mesh': 'MESH:D006473', 'drug': 'ergometrine', 'drug_mesh': 'MESH:D004874', 'drugbank': 'DB:DB01253'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004874', 'target': 'UniProt:P35348'}, {'key': 'located in', 'source': 'UniProt:P35348', 'target': 'UBERON:0001135'}, {'key': 'location of', 'source': 'UBERON:0001135', 'target': 'UBERON:0000995'}, {'key': 'increases activity of', 'source': 'UBERON:0000995', 'target': 'GO:0070471'}, {'key': 'negatively correlated with', 'source': 'GO:0070471', 'target': 'MESH:D006473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004874', 'label': 'Drug', 'name': 'ergometrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UBERON:0001135', 'label': 'GrossAnatomicalStructure', 'name': 'smooth muscle'}, {'id': 'UBERON:0000995', 'label': 'GrossAnatomicalStructure', 'name': 'uterus'}, {'id': 'GO:0070471', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle contraction'}, {'id': 'MESH:D006473', 'label': 'Disease', 'name': 'Postpartum hemorrhage'}], 'reference': ['https://go.drugbank.com/drugs/DB01253#BE0000501']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01430_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'almitrine', 'drug_mesh': 'MESH:D015765,MESH:C037558', 'drugbank': 'DB:DB01430'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB01430', 'target': 'UniProt:P05023'}, {'key': 'located in', 'source': 'UniProt:P05023', 'target': 'UBERON:0001629'}, {'key': 'participates in', 'source': 'UBERON:0001629', 'target': 'GO:0003039'}, {'key': 'participates in', 'source': 'UBERON:0001629', 'target': 'GO:0003035'}, {'key': 'positively correlated with', 'source': 'GO:0003039', 'target': 'GO:0007585'}, {'key': 'positively correlated with', 'source': 'GO:0003035', 'target': 'GO:0007585'}, {'key': 'treats', 'source': 'GO:0007585', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01430', 'label': 'Drug', 'name': 'almitrine'}, {'id': 'UniProt:P05023', 'label': 'Protein', 'name': 'Sodium/potassium-transporting ATPase subunit alpha-1'}, {'id': 'UBERON:0001629', 'label': 'GrossAnatomicalStructure', 'name': 'carotid body'}, {'id': 'GO:0003039', 'label': 'BiologicalProcess', 'name': 'detection of reduced oxygen by carotid body chemoreceptor signaling'}, {'id': 'GO:0003035', 'label': 'BiologicalProcess', 'name': 'detection of increased carbon dioxide by carotid body chemoreceptor signaling'}, {'id': 'GO:0007585', 'label': 'BiologicalProcess', 'name': 'respiratory gaseous exchange by respiratory system'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01430']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01433_MESH_D009293_1', 'disease': 'Opioid dependence', 'disease_mesh': 'MESH:D009293', 'drug': 'acetylmethadol', 'drug_mesh': 'MESH:D008692', 'drugbank': 'DB:DB01433'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008692', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'InterPro:IPR013673'}, {'key': 'decreases abundance of', 'source': 'InterPro:IPR013673', 'target': 'MESH:D000242'}, {'key': 'prevents', 'source': 'MESH:D000242', 'target': 'GO:0007269'}, {'key': 'decreases activity of', 'source': 'GO:0007269', 'target': 'GO:0060081'}, {'key': 'decreases response to', 'source': 'GO:0060081', 'target': 'HP:0033515'}, {'key': 'ameliorates', 'source': 'HP:0033515', 'target': 'MESH:D009293'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008692', 'label': 'Drug', 'name': 'acetylmethadol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu opioid receptor'}, {'id': 'InterPro:IPR013673', 'label': 'GeneFamily', 'name': 'G-protein–gated potassium channel'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'cAMP'}, {'id': 'GO:0007269', 'label': 'BiologicalProcess', 'name': 'neurotransmitter release'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'HP:0033515', 'label': 'PhenotypicFeature', 'name': 'opioid addiction'}, {'id': 'MESH:D009293', 'label': 'Disease', 'name': 'Opioid dependence'}], 'reference': ['https://go.drugbank.com/drugs/DB01433', 'https://smpdb.ca/view/SMP0000678?highlight[compounds][]=DB01433&highlight[proteins][]=DB01433']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01626_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'pargyline', 'drug_mesh': 'MESH:D010293', 'drugbank': 'DB:DB01626'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D010293', 'target': 'UniProt:P27338'}, {'key': 'positively regulates', 'source': 'UniProt:P27338', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'negatively correlated with', 'source': 'GO:0099153', 'target': 'MESH:D006973'}, {'key': 'negatively correlated with', 'source': 'GO:0099155', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010293', 'label': 'Drug', 'name': 'pargyline'}, {'id': 'UniProt:P27338', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] B'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, noradrenergic'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01626#BE0002196', 'https://pubmed.ncbi.nlm.nih.gov/8489485/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08900_MESH_D012778_1', 'disease': 'Short bowel syndrome', 'disease_mesh': 'MESH:D012778', 'drug': 'teduglutide', 'drug_mesh': 'MESH:C438272,MESH:C494910', 'drugbank': 'DB:DB08900'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB08900', 'target': 'UniProt:O95838'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'UBERON:0002439'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'UBERON:0005304'}, {'key': 'located in', 'source': 'UniProt:O95838', 'target': 'CL:1001516'}, {'key': 'positively correlated with', 'source': 'UBERON:0002439', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'UBERON:0005304', 'target': 'GO:0050892'}, {'key': 'positively correlated with', 'source': 'CL:1001516', 'target': 'GO:0050892'}, {'key': 'negatively correlated with', 'source': 'UniProt:O95838', 'target': 'GO:1990768'}, {'key': 'positively correlated with', 'source': 'UniProt:O95838', 'target': 'GO:0001696'}, {'key': 'treats', 'source': 'GO:0001696', 'target': 'MESH:D012778'}, {'key': 'treats', 'source': 'GO:1990768', 'target': 'MESH:D012778'}, {'key': 'treats', 'source': 'GO:0050892', 'target': 'MESH:D012778'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08900', 'label': 'Drug', 'name': 'teduglutide'}, {'id': 'UniProt:O95838', 'label': 'Protein', 'name': 'Glucagon-like peptide receptor'}, {'id': 'UBERON:0002439', 'label': 'GrossAnatomicalStructure', 'name': 'myenteric nerve plexus'}, {'id': 'UBERON:0005304', 'label': 'GrossAnatomicalStructure', 'name': 'submucous nerve plexus'}, {'id': 'CL:1001516', 'label': 'Cell', 'name': 'intestinal enteroendocrine cell'}, {'id': 'GO:0050892', 'label': 'BiologicalProcess', 'name': 'intestinal absorption'}, {'id': 'GO:1990768', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric mucosal blood circulation'}, {'id': 'MESH:D012778', 'label': 'Disease', 'name': 'Short bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB01253#BE0000501']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08936_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'chlorcyclizine', 'drug_mesh': 'MESH:C084597', 'drugbank': 'DB:DB08936'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C084597', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084597', 'label': 'Drug', 'name': 'chlorcyclizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB08936', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D011704_2', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Pyelonephritis#Causes', 'https://en.wikipedia.org/wiki/Pyelonephritis#Simple']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D000881_1', 'disease': 'Anthrax', 'disease_mesh': 'MESH:D000881', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1392'}, {'key': 'causes', 'source': 'NCBITaxon:1392', 'target': 'MESH:D000881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1392', 'label': 'OrganismTaxon', 'name': 'Bacillus anthracis'}, {'id': 'MESH:D000881', 'label': 'Disease', 'name': 'Anthrax'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Anthrax#Bacteria', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Gram-positive', 'https://en.wikipedia.org/wiki/Staphylococcus_aureus#Role_in_disease', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chlamydia#Infants', 'https://pubmed.ncbi.nlm.nih.gov/32809709/', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bacterial_pneumonia#Types', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01137_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus sp.'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Conjunctivitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'Different bacterial species can cause pneumonia, the most frequent ones are Streptococcus pneumoniae,\\xa0Staphylococcus aureus, and\\xa0Bacillus anthracis, among the gram-positive types of bacteria. Gram-negative examples of bacteria causing pneumonia are Haemophilus influenzae, Klebsiella pneumoniae and Escherichia coli.', 'directed': True, 'graph': {'_id': 'DB01137_MESH_D003234_2', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D003234', 'drug': 'levofloxacin', 'drug_mesh': 'MESH:D064704', 'drugbank': 'DB:DB01137'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR035516'}, {'key': 'negatively regulates', 'source': 'MESH:D064704', 'target': 'InterPro:IPR013760'}, {'key': 'positively regulates', 'source': 'InterPro:IPR035516', 'target': 'GO:0006260'}, {'key': 'positively regulates', 'source': 'InterPro:IPR013760', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064704', 'label': 'Drug', 'name': 'levofloxacin'}, {'id': 'InterPro:IPR035516', 'label': 'GeneFamily', 'name': 'DNA gyrase/topoisomerase IV, subunit A, C-terminal'}, {'id': 'InterPro:IPR013760', 'label': 'GeneFamily', 'name': 'DNA topoisomerase, type IIA-like domain superfamily'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01137#mechanism-of-action', 'https://en.wikipedia.org/wiki/Levofloxacin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Conjunctivitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This drug is used in combination with dalfopristin. Both interfere with the bacterial protein synthesis, at different stages of the translation. Quinupristin inhibits the late phase of protein synthesis, whereas dalfopristin inhibits the early phase of protein synthesis in the bacterial ribosome. In combination, both drugs are more effective than each used individually (https://go.drugbank.com/drugs/DB01369#description).', 'directed': True, 'graph': {'_id': 'DB01369_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'quinupristin', 'drug_mesh': 'MESH:C113825', 'drugbank': 'DB:DB01369'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C113825', 'target': 'MESH:D054681'}, {'key': 'negatively regulates', 'source': 'MESH:C113825', 'target': 'Pfam:PF00466'}, {'key': 'negatively regulates', 'source': 'MESH:C113825', 'target': 'Pfam:PF00237'}, {'key': 'positively regulates', 'source': 'Pfam:PF00466', 'target': 'GO:0006412'}, {'key': 'positively regulates', 'source': 'Pfam:PF00237', 'target': 'GO:0006412'}, {'key': 'location of', 'source': 'MESH:D054681', 'target': 'GO:0000048'}, {'key': 'positively correlated with', 'source': 'GO:0000048', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C113825', 'label': 'Drug', 'name': 'quinupristin'}, {'id': 'MESH:D054681', 'label': 'ChemicalSubstance', 'name': 'Ribosome Subunits, Large, Bacterial'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'GO:0000048', 'label': 'MolecularActivity', 'name': 'peptidyltransferase activity'}, {'id': 'Pfam:PF00237', 'label': 'GeneFamily', 'name': 'Ribosomal protein L22p/L17e'}, {'id': 'Pfam:PF00466', 'label': 'GeneFamily', 'name': 'Ribosomal protein L10'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01369#mechanism-of-action', 'https://en.wikipedia.org/wiki/Quinupristin', 'https://www.tandfonline.com/doi/abs/10.1517/13543784.7.4.591', 'https://en.wikipedia.org/wiki/Quinupristin/dalfopristin#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Nabumetone is a prodrug, which is metabolised into the pharmacologically active drug (CHEBI:35628, 6-methoxy-2-naphthyl acetic acid). Note that the drug preferentially blocks COX-2 activity.', 'directed': True, 'graph': {'_id': 'DB00461_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Nabumetone', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB00461'}, 'links': [{'key': 'produces', 'source': 'MESH:D007660', 'target': 'CHEBI:35628'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'Nabumetone'}, {'id': 'CHEBI:35628', 'label': 'Drug', 'name': '(6-methoxy-2-naphthyl)acetic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00461#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nabumetone']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Nabumetone is a prodrug, which is metabolised into the pharmacologically active drug (CHEBI:35628, 6-methoxy-2-naphthyl acetic acid). Note that the drug preferentially blocks COX-2 activity.', 'directed': True, 'graph': {'_id': 'DB00461_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Nabumetone', 'drug_mesh': 'MESH:D007660', 'drugbank': 'DB:DB00461'}, 'links': [{'key': 'produces', 'source': 'MESH:D007660', 'target': 'CHEBI:35628'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'CHEBI:35628', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007660', 'label': 'Drug', 'name': 'Nabumetone'}, {'id': 'CHEBI:35628', 'label': 'Drug', 'name': '(6-methoxy-2-naphthyl)acetic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00461#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nabumetone']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"The activation of Atrial natriuretic peptide receptor 1 has been observed in vitro (https://pubmed.ncbi.nlm.nih.gov/12890708/) and it's reported in DrugBank whereas ChEMBL favours the Soluble Guanylyl Cyclase route. Also note that when the drug is admnistered at low doses, it dilates veins and reduces the volume of blood in the heart after filling (this is supposedly the main mechanism of action). At higher doses, it dilates arteries as well.\", 'directed': True, 'graph': {'_id': 'DB00727_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'glyceryl trinitrate', 'drug_mesh': 'MESH:D005996', 'drugbank': 'DB:DB00727'}, 'links': [{'key': 'produces', 'source': 'MESH:D005996', 'target': 'CHEBI:16480'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0038060'}, {'key': 'positively correlated with', 'source': 'GO:0038060', 'target': 'GO:0042311'}, {'key': 'positively regulates', 'source': 'CHEBI:16480', 'target': 'UniProt:P16066'}, {'key': 'positively regulates', 'source': 'UniProt:P16066', 'target': 'GO:0007168'}, {'key': 'positively correlated with', 'source': 'GO:0007168', 'target': 'GO:0042311'}, {'key': 'negatively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'alt_names': ['Nitroglycerin'], 'id': 'MESH:D005996', 'label': 'Drug', 'name': 'glyceryl trinitrate'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'UniProt:P16066', 'label': 'Protein', 'name': 'Atrial natriuretic peptide receptor 1'}, {'id': 'GO:0038060', 'label': 'BiologicalProcess', 'name': 'nitric oxide-cGMP-mediated signaling pathway'}, {'id': 'GO:0007168', 'label': 'BiologicalProcess', 'name': 'receptor guanylyl cyclase signaling pathway'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00727#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL730/', 'https://en.wikipedia.org/wiki/Nitroglycerin#Medical_use']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01280_MESH_D054218_1', 'disease': 'T-cell acute lymphoblastic leukemia', 'disease_mesh': 'MESH:D054218', 'drug': 'nelarabine', 'drug_mesh': 'MESH:C104457', 'drugbank': 'DB:DB01280'}, 'links': [{'key': 'produces', 'source': 'MESH:C104457', 'target': 'MESH:C022206'}, {'key': 'decreases activity of', 'source': 'MESH:C022206', 'target': 'UniProt:P09884'}, {'key': 'positively regulates', 'source': 'UniProt:P09884', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031379'}, {'key': 'prevents', 'source': 'MESH:C022206', 'target': 'GO:0090592'}, {'key': 'positively correlated with', 'source': 'GO:0090592', 'target': 'HP:0031379'}, {'key': 'positively correlated with', 'source': 'HP:0031379', 'target': 'MESH:D054218'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C104457', 'label': 'Drug', 'name': 'nelarabine'}, {'id': 'MESH:C022206', 'label': 'ChemicalSubstance', 'name': \"9-beta-D-arabinofuranosylguanosine 5'-triphosphate\"}, {'id': 'UniProt:P09884', 'label': 'Protein', 'name': 'DNA polymerase alpha catalytic subunit'}, {'id': 'GO:0090592', 'label': 'BiologicalProcess', 'name': 'DNA synthesis involved in DNA replication'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031379', 'label': 'PhenotypicFeature', 'name': 'Abnormal T cell proliferation'}, {'id': 'MESH:D054218', 'label': 'Disease', 'name': 'T-cell acute lymphoblastic leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01280#mechanism-of-action', 'https://en.wikipedia.org/wiki/Nelarabine']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'There appears to be no connection between Niacin deficiency and nicotine. Although niacin and nicotine are somehow related (nicotine can turn into nicotinic acid via oxidation), nicotine may not be able to replace niacin as treatment for Niacin deficiency. Actually nicotine could compete with niacin for binding sites in the enzymes necessary for vitamin B3 metabolism, and therefore would decrease the amount of B3 available for the cells.', 'directed': True, 'graph': {'_id': 'DB00184_MESH_D010383_1', 'disease': 'Niacin deficiency', 'disease_mesh': 'MESH:D010383', 'drug': 'nicotine', 'drug_mesh': 'MESH:D009538', 'drugbank': 'DB:DB00184'}, 'links': [{'key': 'treats', 'source': 'MESH:D009538', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D061485'], 'id': 'MESH:D009538', 'label': 'Drug', 'name': 'nicotine'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Niacin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00184#indication', 'https://en.wikipedia.org/wiki/Nicotine#Biosynthesis', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3/', 'https://hopes.stanford.edu/nicotinamide/#relationship-between-nicotinamide-and-nicotine']}\n", - "['Drug', 'Disease']\n", - "{'comment': \"Both DrugBank (https://go.drugbank.com/drugs/DB06718#mechanism-of-action) and ChEMBL (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL2079587/) have this drug modulating target AR (UniProt:P10275) but that's not the mechanism of action for this indication (MESH:D054179).\", 'directed': True, 'graph': {'_id': 'DB06718_MESH_D054179_1', 'disease': 'Hereditary angioneurotic edema', 'disease_mesh': 'MESH:D054179', 'drug': 'stanozolol', 'drug_mesh': 'MESH:D013197', 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D013197', 'target': 'UniProt:P05155'}, {'key': 'negatively regulates', 'source': 'UniProt:P05155', 'target': 'GO:0006956'}, {'key': 'positively correlated with', 'source': 'GO:0006956', 'target': 'Pfam:PF06753'}, {'key': 'negatively correlated with', 'source': 'UniProt:P05155', 'target': 'MESH:D007610'}, {'key': 'positively correlated with', 'source': 'MESH:D007610', 'target': 'Pfam:PF06753'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06753', 'target': 'MESH:D002199'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06753', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'MESH:D002199', 'target': 'MESH:D054179'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'MESH:D054179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013197', 'label': 'Drug', 'name': 'stanozolol'}, {'id': 'UniProt:P05155', 'label': 'Protein', 'name': 'Plasma protease C1 inhibitor'}, {'id': 'GO:0006956', 'label': 'BiologicalProcess', 'name': 'complement activation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'vasodilation'}, {'id': 'MESH:D007610', 'label': 'GeneFamily', 'name': 'Kallikreins'}, {'id': 'Pfam:PF06753', 'label': 'GeneFamily', 'name': 'Bradykinin'}, {'id': 'MESH:D002199', 'label': 'BiologicalProcess', 'name': 'Capillary Permeability'}, {'id': 'MESH:D054179', 'label': 'Disease', 'name': 'Hereditary angioneurotic edema'}], 'reference': ['https://en.wikipedia.org/wiki/C1-inhibitor', 'https://en.wikipedia.org/wiki/Bradykinin', 'https://en.wikipedia.org/wiki/Kallikrein', 'https://en.wikipedia.org/wiki/Kinin%E2%80%93kallikrein_system#C1-INH_Involvement', 'https://en.wikipedia.org/wiki/Hereditary_angioedema', 'https://en.wikipedia.org/wiki/Complement_system#Regulation', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3666183/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'Marketing for this drug has been discontinued and is not available in North America due to its likely carcinogenic potential and cytotoxic properties.', 'directed': True, 'graph': {'_id': 'DB06718_MESH_D006470_1', 'disease': 'Hemorrhage', 'disease_mesh': 'MESH:D006470', 'drug': 'menadiol sodium diphosphate', 'drug_mesh': None, 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00734'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P08709'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00740'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P00742'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P04070'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P38435'}, {'key': 'positively regulates', 'source': 'DB:DB06718', 'target': 'UniProt:P07225'}, {'key': 'regulates', 'source': 'UniProt:P07225', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P38435', 'target': 'GO:0007596'}, {'key': 'regulates', 'source': 'UniProt:P04070', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00740', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P08709', 'target': 'GO:0007596'}, {'key': 'positively regulates', 'source': 'UniProt:P00734', 'target': 'GO:0007596'}, {'key': 'negatively correlated with', 'source': 'GO:0007596', 'target': 'MESH:D006470'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06718', 'label': 'Drug', 'name': 'menadiol sodium diphosphate'}, {'id': 'UniProt:P00734', 'label': 'Protein', 'name': 'Prothrombin'}, {'id': 'UniProt:P08709', 'label': 'Protein', 'name': 'Coagulation factor VII'}, {'id': 'UniProt:P00740', 'label': 'Protein', 'name': 'Coagulation factor IX'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'UniProt:P04070', 'label': 'Protein', 'name': 'Vitamin K-dependent protein C'}, {'id': 'UniProt:P38435', 'label': 'Protein', 'name': 'Vitamin K-dependent gamma-carboxylase'}, {'id': 'UniProt:P07225', 'label': 'Protein', 'name': 'Vitamin K-dependent protein S'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'MESH:D006470', 'label': 'Disease', 'name': 'Hemorrhage'}], 'reference': ['https://journals.sagepub.com/doi/abs/10.3181/00379727-37-9668P', 'https://www.medicalnewstoday.com/articles/165749#complications', 'https://en.wikipedia.org/wiki/Vitamin_K#History']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06718_MESH_D010673_1', 'disease': 'Pheochromocytoma', 'disease_mesh': 'MESH:D010673', 'drug': 'phenoxybenzamine', 'drug_mesh': 'MESH:D010643', 'drugbank': 'DB:DB06718'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P35348'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P08913'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P18825'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P25100'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P35368'}, {'key': 'decreases activity of', 'source': 'MESH:D010643', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'regulates', 'source': 'UniProt:P08913', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P18825', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P25100', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P35368', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D014655'}, {'key': 'positively correlated with', 'source': 'MESH:D014655', 'target': 'HP:0002640'}, {'key': 'manifestation of', 'source': 'HP:0002640', 'target': 'MESH:D010673'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010643', 'label': 'Drug', 'name': 'phenoxybenzamine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D014655', 'label': 'BiologicalProcess', 'name': 'Vascular Resistance'}, {'id': 'HP:0002640', 'label': 'PhenotypicFeature', 'name': 'Hypertension associated with pheochromocytoma'}, {'id': 'MESH:D010673', 'label': 'Disease', 'name': 'Pheochromocytoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00925#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL753/', 'https://en.wikipedia.org/wiki/Alpha_blocker#Hypertension', 'https://en.wikipedia.org/wiki/Phenoxybenzamine#Pharmacology', 'https://en.wikipedia.org/wiki/Pheochromocytoma#Alpha_blockade']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00184_MESH_D014029_1', 'disease': 'Nicotine dependence', 'disease_mesh': 'MESH:D014029', 'drug': 'nicotine', 'drug_mesh': 'MESH:D009538', 'drugbank': 'DB:DB00184'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009538', 'target': 'MESH:D011950'}, {'key': 'participates in', 'source': 'MESH:D011950', 'target': 'REACT:R-HSA-629587\\ufeff'}, {'key': 'participates in', 'source': 'MESH:D011950', 'target': 'REACT:R-HSA-629594\\ufeff'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-629587\\ufeff', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-629594\\ufeff', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'GO:0051899', 'target': 'GO:0014046'}, {'key': 'positively correlated with', 'source': 'GO:0014046', 'target': 'HP:0030858'}, {'key': 'positively correlated with', 'source': 'HP:0030858', 'target': 'MESH:D014029'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D061485'], 'id': 'MESH:D009538', 'label': 'Drug', 'name': 'nicotine'}, {'id': 'MESH:D011950', 'label': 'GeneFamily', 'name': 'Receptors, Cholinergic'}, {'id': 'REACT:R-HSA-629587\\ufeff', 'label': 'Pathway', 'name': 'Highly sodium permeable postsynaptic acetylcholine nicotinic receptors'}, {'id': 'REACT:R-HSA-629594\\ufeff', 'label': 'Pathway', 'name': 'Highly calcium permeable postsynaptic nicotinic acetylcholine receptors'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'membrane depolarization'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'HP:0030858', 'label': 'PhenotypicFeature', 'name': 'Addictive behavior'}, {'id': 'MESH:D014029', 'label': 'Disease', 'name': 'Nicotine dependence'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL3/', 'https://en.wikipedia.org/wiki/Nicotine_replacement_therapy#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Nicotine_dependence#Biomolecular', 'https://en.wikipedia.org/wiki/Nicotine#Pharmacodynamics']}\n", - "['Drug', 'GeneFamily', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00507_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Nitazoxanide', 'drug_mesh': 'MESH:C041747', 'drugbank': 'DB:DB00507'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C041747', 'target': 'UniProt:A8B852'}, {'key': 'positively regulates', 'source': 'UniProt:A8B852', 'target': 'GO:0006754'}, {'key': 'in taxon', 'source': 'GO:0006754', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C041747', 'label': 'Drug', 'name': 'Nitazoxanide'}, {'id': 'UniProt:A8B852', 'label': 'Protein', 'name': 'Pyruvate-flavodoxin oxidoreductase (Giardia intestinalis)'}, {'id': 'GO:0006754', 'label': 'BiologicalProcess', 'name': 'ATP biosynthetic process'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://en.wikipedia.org/wiki/Giardiasis', 'https://go.drugbank.com/drugs/DB00507', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC88984/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00507_MESH_D003457_1', 'disease': 'Infection by Cryptosporidium', 'disease_mesh': 'MESH:D003457', 'drug': 'Nitazoxanide', 'drug_mesh': 'MESH:C041747', 'drugbank': 'DB:DB00507'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C041747', 'target': 'UniProt:Q968X7'}, {'key': 'positively regulates', 'source': 'UniProt:Q968X7', 'target': 'GO:0006754'}, {'key': 'in taxon', 'source': 'GO:0006754', 'target': 'NCBITaxon:5806'}, {'key': 'causes', 'source': 'NCBITaxon:5806', 'target': 'MESH:D003457'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C041747', 'label': 'Drug', 'name': 'Nitazoxanide'}, {'id': 'UniProt:Q968X7', 'label': 'Protein', 'name': 'Pyruvate dehydrogenase [NADP(+)] (Cryptosporidium parvum)'}, {'id': 'GO:0006754', 'label': 'BiologicalProcess', 'name': 'ATP biosynthetic process'}, {'id': 'NCBITaxon:5806', 'label': 'OrganismTaxon', 'name': 'Cryptosporidium'}, {'id': 'MESH:D003457', 'label': 'Disease', 'name': 'Infection by Cryptosporidium'}], 'reference': ['https://go.drugbank.com/drugs/DB00507', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1803158/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00713']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D013203_1', 'disease': 'Staphylococcal infectious disease', 'disease_mesh': 'MESH:D013203', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Staphylococcal infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00713']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00713', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00713_MESH_D012852_1', 'disease': 'Sinusitis', 'disease_mesh': 'MESH:D012852', 'drug': 'Oxacillin', 'drug_mesh': 'MESH:D010068', 'drugbank': 'DB:DB00713'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D010068', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D012852'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010068', 'label': 'Drug', 'name': 'Oxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D012852', 'label': 'Disease', 'name': 'Sinusitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00713', 'https://en.wikipedia.org/wiki/Sinusitis#Causes', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00716_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Nedocromil', 'drug_mesh': 'MESH:D017835', 'drugbank': 'DB:DB00716'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9NS75'}, {'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9Y271'}, {'key': 'negatively regulates', 'source': 'MESH:D017835', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9NS75', 'target': 'MESH:D017998'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'precedes', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D003233'}, {'key': 'positively regulates', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017835', 'label': 'Drug', 'name': 'Nedocromil'}, {'id': 'UniProt:Q9NS75', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 2'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00716', 'https://en.wikipedia.org/wiki/Allergic_conjunctivitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00716_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Nedocromil', 'drug_mesh': 'MESH:D017835', 'drugbank': 'DB:DB00716'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9NS75'}, {'key': 'decreases activity of', 'source': 'MESH:D017835', 'target': 'UniProt:Q9Y271'}, {'key': 'negatively regulates', 'source': 'MESH:D017835', 'target': 'GO:0043303'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9NS75', 'target': 'MESH:D017998'}, {'key': 'positively correlated with', 'source': 'UniProt:Q9Y271', 'target': 'MESH:D017998'}, {'key': 'precedes', 'source': 'GO:0043303', 'target': 'GO:0001821'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'MESH:D016084'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D001249'}, {'key': 'manifestation of', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively regulates', 'source': 'GO:0001821', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006954', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017835', 'label': 'Drug', 'name': 'Nedocromil'}, {'id': 'UniProt:Q9NS75', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 2'}, {'id': 'UniProt:Q9Y271', 'label': 'Protein', 'name': 'Cysteinyl leukotriene receptor 1'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016084', 'label': 'Disease', 'name': 'Bronchoconstriction'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00716', 'https://en.wikipedia.org/wiki/Asthma']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'participates in', 'source': 'UniProt:P35367', 'target': 'GO:0051381'}, {'key': 'positively regulates', 'source': 'GO:0051381', 'target': 'GO:0023041'}, {'key': 'located in', 'source': 'GO:0023041', 'target': 'UBERON:0000004'}, {'key': 'affected by', 'source': 'UBERON:0000004', 'target': 'UBERON:0001645'}, {'key': 'contributes to', 'source': 'UBERON:0001645', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0051381', 'label': 'MolecularActivity', 'name': 'Histamine binding'}, {'id': 'GO:0023041', 'label': 'BiologicalProcess', 'name': 'Neuronal signal transduction'}, {'id': 'UBERON:0000004', 'label': 'GrossAnatomicalStructure', 'name': 'Nose'}, {'alt_ids': 'MESH:D014276', 'id': 'UBERON:0001645', 'label': 'GrossAnatomicalStructure', 'name': 'Trigeminal nerve'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00950', 'https://en.wikipedia.org/wiki/Sneeze']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00950_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Fexofenadine', 'drug_mesh': 'MESH:C093230', 'drugbank': 'DB:DB00950'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C093230', 'label': 'Drug', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00950']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01121_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'Phenacemide', 'drug_mesh': 'MESH:C005396', 'drugbank': 'DB:DB01121'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005396', 'target': 'UniProt:P35498'}, {'key': 'positively regulates', 'source': 'UniProt:P35498', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'HP:0001250'}, {'key': 'manifestation of', 'source': 'HP:0001250', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005396', 'label': 'Drug', 'name': 'Phenacemide'}, {'id': 'UniProt:P35498', 'label': 'Protein', 'name': 'Sodium channel protein type 1 subunit alpha'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'HP:0001250', 'label': 'PhenotypicFeature', 'name': 'Seizure'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB01121#BE0000141']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01136_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Carvedilol', 'drug_mesh': 'MESH:C043211', 'drugbank': 'DB:DB01136'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C043211', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'MESH:C043211', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P08588', 'target': 'UniProt:P00797'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'UniProt:P00797', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C043211', 'label': 'Drug', 'name': 'Carvedilol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'UniProt:P00797', 'label': 'Protein', 'name': 'Renin'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01136#BE0000172']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D010051_1', 'disease': 'Malignant tumor of ovary', 'disease_mesh': 'MESH:D010051', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D010051'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D010051'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D010051'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D010051'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D010051', 'label': 'Disease', 'name': 'Malignant tumor of ovary'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D007890_1', 'disease': 'Leiomyosarcoma', 'disease_mesh': 'MESH:D007890', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D007890'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D007890'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D007890'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D007890'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D007890', 'label': 'Disease', 'name': 'Leiomyosarcoma'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05109_MESH_D008080_1', 'disease': 'Liposarcoma', 'disease_mesh': 'MESH:D008080', 'drug': 'Trabectedin', 'drug_mesh': 'MESH:C099150', 'drugbank': 'DB:DB05109'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0006283'}, {'key': 'decreases activity of', 'source': 'MESH:C099150', 'target': 'UniProt:P08183'}, {'key': 'negatively regulates', 'source': 'MESH:C099150', 'target': 'GO:0007049'}, {'key': 'disrupts', 'source': 'MESH:C099150', 'target': 'MESH:D004247'}, {'key': 'positively regulates', 'source': 'GO:0006283', 'target': 'GO:0006281'}, {'key': 'positively regulates', 'source': 'UniProt:P08183', 'target': 'HP:0020174'}, {'key': 'positively regulates', 'source': 'GO:0007049', 'target': 'GO:0008283'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'MESH:D008080'}, {'key': 'occurs in', 'source': 'GO:0006281', 'target': 'MESH:D008080'}, {'key': 'occurs in', 'source': 'HP:0020174', 'target': 'MESH:D008080'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008080'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099150', 'label': 'Drug', 'name': 'Trabectedin'}, {'id': 'GO:0006283', 'label': 'BiologicalProcess', 'name': 'Transcription-coupled nucleotide-excision repair'}, {'id': 'UniProt:P08183', 'label': 'Protein', 'name': 'ATP-dependent translocase ABCB1'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'Cell cycle'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006281', 'label': 'BiologicalProcess', 'name': 'DNA repair'}, {'id': 'HP:0020174', 'label': 'PhenotypicFeature', 'name': 'Refractory drug response'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008080', 'label': 'Disease', 'name': 'Liposarcoma'}], 'reference': ['https://en.wikipedia.org/wiki/Trabectedin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB05109']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Colfosceril palmitate will form a very thin film that will cover the surface of the alveolar cells, thus reducing the tension and stabilizing the alveoli from collapsing.', 'directed': True, 'graph': {'_id': 'DB09114_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Colfosceril palmitate', 'drug_mesh': 'MESH:C081581', 'drugbank': 'DB:DB09114'}, 'links': [{'key': 'capable of', 'source': 'MESH:C081581', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081581', 'label': 'Drug', 'name': 'Colfosceril palmitate'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB09114', 'https://en.wikipedia.org/wiki/Infant_respiratory_distress_syndrome']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Talaporfin (INN, also known as aspartyl chlorin, mono-L-aspartyl chlorin e6, NPe6, or LS11) is a chlorin based photosensitizer used in photodynamic therapy.', 'directed': True, 'graph': {'_id': 'DB11812_MESH_D001932_1', 'disease': 'Primary malignant neoplasm of brain', 'disease_mesh': 'MESH:D001932', 'drug': 'Talaporfin', 'drug_mesh': 'MESH:C053434', 'drugbank': 'DB:DB11812'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C053434', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D001932'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053434', 'label': 'Drug', 'name': 'Talaporfin'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D001932', 'label': 'Disease', 'name': 'Primary malignant neoplasm of brain'}], 'reference': ['https://en.wikipedia.org/wiki/Talaporfin']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Talaporfin (INN, also known as aspartyl chlorin, mono-L-aspartyl chlorin e6, NPe6, or LS11) is a chlorin based photosensitizer used in photodynamic therapy.', 'directed': True, 'graph': {'_id': 'DB11812_MESH_D008175_1', 'disease': 'Malignant tumor of lung', 'disease_mesh': 'MESH:D008175', 'drug': 'Talaporfin', 'drug_mesh': 'MESH:C053434', 'drugbank': 'DB:DB11812'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C053434', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D008175'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053434', 'label': 'Drug', 'name': 'Talaporfin'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D008175', 'label': 'Disease', 'name': 'Malignant tumor of lung'}], 'reference': ['https://en.wikipedia.org/wiki/Talaporfin']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Trilostane was withdrawn from the United States market in April 1994 | MESH:D000308 refers to higher term Adrenocortical Hyperfunction that includes Hypercortisolism', 'directed': True, 'graph': {'_id': 'DB01108_MESH_D000308_1', 'disease': 'Hypercortisolism', 'disease_mesh': 'MESH:D000308', 'drug': 'Trilostane', 'drug_mesh': 'MESH:C009954', 'drugbank': 'DB:DB01108'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009954', 'target': 'InterPro:IPR002225'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-196071'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-196071', 'target': 'MESH:D013256'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-193993'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-193993', 'target': 'MESH:D013256'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR002225', 'target': 'REACT:R-HSA-194002'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-194002', 'target': 'MESH:D013256'}, {'key': 'manifestation of', 'source': 'MESH:D013256', 'target': 'MESH:D000308'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009954', 'label': 'Drug', 'name': 'Trilostane'}, {'id': 'InterPro:IPR002225', 'label': 'GeneFamily', 'name': '3-beta-hydroxysteroid dehydrogenase/delta 5,4 ketosteroid isomerase'}, {'id': 'REACT:R-HSA-196071', 'label': 'Pathway', 'name': 'Metabolism of steroid hormones'}, {'id': 'REACT:R-HSA-193993', 'label': 'Pathway', 'name': 'Mineralocorticoid biosynthesis'}, {'id': 'REACT:R-HSA-194002', 'label': 'Pathway', 'name': 'Glucocorticoid biosynthesis'}, {'id': 'MESH:D013256', 'label': 'ChemicalSubstance', 'name': 'Steroids'}, {'id': 'MESH:D000308', 'label': 'Disease', 'name': 'Hypercortisolism'}], 'reference': ['https://go.drugbank.com/drugs/DB01108#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trilostane']}\n", - "['Drug', 'GeneFamily', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 'UniProt:P01270'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01270', 'target': 'MESH:D002112'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'InterPro:IPR008250'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR008250', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0000945'}, {'key': 'negatively regulates', 'source': 'UBERON:0000945', 'target': 'GO:0045453'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9H1D0'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9H1D0', 'target': 'GO:0006816'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9NQA5'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NQA5', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0002113'}, {'key': 'negatively regulates', 'source': 'UBERON:0002113', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P01270', 'target': 'UniProt:P06881'}, {'key': 'negatively regulates', 'source': 'UniProt:P06881', 'target': 'GO:0045453'}, {'key': 'negatively regulates', 'source': 'UniProt:P01270', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'CL:0000137'}, {'key': 'negatively regulates', 'source': 'CL:0000137', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'GO:0045453', 'target': 'GO:0055074'}, {'key': 'positively regulates', 'source': 'MESH:D010710', 'target': 'GO:0055074'}, {'key': 'manifestation of', 'source': 'GO:0055074', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020243', 'label': 'Drug', 'name': 'Calcium Phosphate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G protein-coupled receptor'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'Parathyroid hormone'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'Calcium ion transport'}, {'id': 'MESH:D010710', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D002112', 'label': 'ChemicalSubstance', 'name': 'Calcidiol'}, {'id': 'InterPro:IPR008250', 'label': 'GeneFamily', 'name': 'Calcium dependent ATPases'}, {'id': 'UBERON:0000945', 'label': 'GrossAnatomicalStructure', 'name': 'Gut'}, {'id': 'UniProt:Q9H1D0', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 6 (TRPV6)'}, {'id': 'UniProt:Q9NQA5', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 5 (TRPV5)'}, {'id': 'UBERON:0002113', 'label': 'GrossAnatomicalStructure', 'name': 'Kidney'}, {'id': 'UniProt:P06881', 'label': 'Protein', 'name': 'Calcitonin'}, {'id': 'CL:0000137', 'label': 'Cell', 'name': 'Osteocyte'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'Calcium ion homeostasis'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 'UniProt:P01270'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01270', 'target': 'MESH:D002112'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'InterPro:IPR008250'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR008250', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0000945'}, {'key': 'negatively regulates', 'source': 'UBERON:0000945', 'target': 'GO:0045453'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9H1D0'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9H1D0', 'target': 'GO:0006816'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9NQA5'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NQA5', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0002113'}, {'key': 'negatively regulates', 'source': 'UBERON:0002113', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P01270', 'target': 'UniProt:P06881'}, {'key': 'negatively regulates', 'source': 'UniProt:P06881', 'target': 'GO:0045453'}, {'key': 'negatively regulates', 'source': 'UniProt:P01270', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'CL:0000137'}, {'key': 'negatively regulates', 'source': 'CL:0000137', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'GO:0045453', 'target': 'GO:0055074'}, {'key': 'positively regulates', 'source': 'MESH:D010710', 'target': 'GO:0055074'}, {'key': 'manifestation of', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020243', 'label': 'Drug', 'name': 'Calcium Phosphate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G protein-coupled receptor'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'Parathyroid hormone'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'Calcium ion transport'}, {'id': 'MESH:D010710', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D002112', 'label': 'ChemicalSubstance', 'name': 'Calcidiol'}, {'id': 'InterPro:IPR008250', 'label': 'GeneFamily', 'name': 'Calcium dependent ATPases'}, {'id': 'UBERON:0000945', 'label': 'GrossAnatomicalStructure', 'name': 'Gut'}, {'id': 'UniProt:Q9H1D0', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 6 (TRPV6)'}, {'id': 'UniProt:Q9NQA5', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 5 (TRPV5)'}, {'id': 'UBERON:0002113', 'label': 'GrossAnatomicalStructure', 'name': 'Kidney'}, {'id': 'UniProt:P06881', 'label': 'Protein', 'name': 'Calcitonin'}, {'id': 'CL:0000137', 'label': 'Cell', 'name': 'Osteocyte'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'Calcium ion homeostasis'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11348_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Calcium Phosphate', 'drug_mesh': 'MESH:C020243', 'drugbank': 'DB:DB11348'}, 'links': [{'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D002118'}, {'key': 'derives into', 'source': 'MESH:C020243', 'target': 'MESH:D010710'}, {'key': 'increases activity of', 'source': 'MESH:D002118', 'target': 'InterPro:IPR000276'}, {'key': 'decreases secretion of', 'source': 'InterPro:IPR000276', 'target': 'UniProt:P01270'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01270', 'target': 'MESH:D002112'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'InterPro:IPR008250'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR008250', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0000945'}, {'key': 'negatively regulates', 'source': 'UBERON:0000945', 'target': 'GO:0045453'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9H1D0'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9H1D0', 'target': 'GO:0006816'}, {'key': 'decreases expression of', 'source': 'MESH:D002112', 'target': 'UniProt:Q9NQA5'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NQA5', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'UBERON:0002113'}, {'key': 'negatively regulates', 'source': 'UBERON:0002113', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P01270', 'target': 'UniProt:P06881'}, {'key': 'negatively regulates', 'source': 'UniProt:P06881', 'target': 'GO:0045453'}, {'key': 'negatively regulates', 'source': 'UniProt:P01270', 'target': 'GO:0006816'}, {'key': 'located in', 'source': 'GO:0006816', 'target': 'CL:0000137'}, {'key': 'negatively regulates', 'source': 'CL:0000137', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'GO:0045453', 'target': 'GO:0055074'}, {'key': 'positively regulates', 'source': 'MESH:D010710', 'target': 'GO:0055074'}, {'key': 'manifestation of', 'source': 'GO:0055074', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C020243', 'label': 'Drug', 'name': 'Calcium Phosphate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'InterPro:IPR000276', 'label': 'GeneFamily', 'name': 'G protein-coupled receptor'}, {'id': 'UniProt:P01270', 'label': 'Protein', 'name': 'Parathyroid hormone'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'Calcium ion transport'}, {'id': 'MESH:D010710', 'label': 'ChemicalSubstance', 'name': 'Phosphate'}, {'id': 'MESH:D002112', 'label': 'ChemicalSubstance', 'name': 'Calcidiol'}, {'id': 'InterPro:IPR008250', 'label': 'GeneFamily', 'name': 'Calcium dependent ATPases'}, {'id': 'UBERON:0000945', 'label': 'GrossAnatomicalStructure', 'name': 'Gut'}, {'id': 'UniProt:Q9H1D0', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 6 (TRPV6)'}, {'id': 'UniProt:Q9NQA5', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 5 (TRPV5)'}, {'id': 'UBERON:0002113', 'label': 'GrossAnatomicalStructure', 'name': 'Kidney'}, {'id': 'UniProt:P06881', 'label': 'Protein', 'name': 'Calcitonin'}, {'id': 'CL:0000137', 'label': 'Cell', 'name': 'Osteocyte'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'Calcium ion homeostasis'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11348#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D006527_1', 'disease': \"Wilson's disease\", 'disease_mesh': 'MESH:D006527', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'positively regulates', 'source': 'MESH:D003300', 'target': 'GO:0055070'}, {'key': 'manifestation of', 'source': 'GO:0055070', 'target': 'MESH:D006527'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'MESH:D003300', 'label': 'ChemicalSubstance', 'name': 'Copper'}, {'id': 'GO:0055070', 'label': 'BiologicalProcess', 'name': 'Copper ion homeostasis'}, {'id': 'MESH:D006527', 'label': 'Disease', 'name': \"Wilson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D002292_1', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D054856'}, {'key': 'decreases activity of', 'source': 'MESH:D054856', 'target': 'InterPro:IPR003545'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR003545', 'target': 'GO:0016049'}, {'key': 'located in', 'source': 'GO:0016049', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'MESH:D054856', 'label': 'ChemicalSubstance', 'name': 'G-quadruplex'}, {'id': 'InterPro:IPR003545', 'label': 'GeneFamily', 'name': 'Telomerase'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D002292_2', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:IPR000072'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR000072', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P05230'}, {'key': 'negatively regulates', 'source': 'UniProt:P05230', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:IPR000975'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR000975', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'InterPro:PR003573'}, {'key': 'negatively regulates', 'source': 'InterPro:PR003573', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P10145'}, {'key': 'negatively regulates', 'source': 'UniProt:P10145', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P19838'}, {'key': 'negatively regulates', 'source': 'UniProt:P19838', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'MESH:D003300', 'target': 'UniProt:P00441'}, {'key': 'negatively regulates', 'source': 'UniProt:P00441', 'target': 'GO:0001525'}, {'key': 'located in', 'source': 'GO:0001525', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'MESH:D003300', 'label': 'ChemicalSubstance', 'name': 'Copper'}, {'id': 'InterPro:IPR000072', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor-1'}, {'id': 'UniProt:P00441', 'label': 'Protein', 'name': 'Superoxide dismutase 1'}, {'id': 'UniProt:P19838', 'label': 'Protein', 'name': 'Nuclear factor kappa-light-chain-enhancer of activated B cells'}, {'id': 'UniProt:P10145', 'label': 'Protein', 'name': 'Interleukin 8'}, {'id': 'InterPro:PR003573', 'label': 'GeneFamily', 'name': 'Interleukin 6'}, {'id': 'InterPro:IPR000975', 'label': 'GeneFamily', 'name': 'Interleukin 1'}, {'id': 'UniProt:P05230', 'label': 'Protein', 'name': 'Fibroblast growth factor-1'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'Trientine is the salt form of Triethylenetetramine (DB06824)', 'directed': True, 'graph': {'_id': 'DB06824_MESH_D002292_3', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Trientine', 'drug_mesh': 'MESH:D014266', 'drugbank': 'DB:DB06824'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014266', 'target': 'REACT:R-HSA-6802957'}, {'key': 'causes', 'source': 'REACT:R-HSA-6802957', 'target': 'GO:0012501'}, {'key': 'molecularly interacts with', 'source': 'MESH:D014266', 'target': 'MESH:D003300'}, {'key': 'increases abundance of', 'source': 'MESH:D003300', 'target': 'MESH:D000975'}, {'key': 'causes', 'source': 'MESH:D000975', 'target': 'GO:0012501'}, {'key': 'located in', 'source': 'GO:0012501', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014266', 'label': 'Drug', 'name': 'Trientine'}, {'id': 'REACT:R-HSA-6802957', 'label': 'Pathway', 'name': 'Oncogenic MAPK signaling'}, {'id': 'MESH:D003300', 'label': 'ChemicalSubstance', 'name': 'Copper'}, {'id': 'MESH:D000975', 'label': 'ChemicalSubstance', 'name': 'Antioxidants'}, {'id': 'GO:0012501', 'label': 'BiologicalProcess', 'name': 'Apoptosis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06824#mechanismofaction', 'DOI:10.1158/1535-7163.MCT-10-0523', 'https://pubchem.ncbi.nlm.nih.gov/compound/Trientine-hydrochloride#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D009617_1', 'disease': 'Nocardiosis', 'disease_mesh': 'MESH:D009617', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:U5EHR3'}, {'key': 'decreases abundance of', 'source': 'UniProt:U5EHR3', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:1824'}, {'key': 'causes', 'source': 'NCBITaxon:1824', 'target': 'MESH:D009617'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:U5EHR3', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:1824', 'label': 'OrganismTaxon', 'name': 'Nocardia asteroides'}, {'id': 'MESH:D009617', 'label': 'Disease', 'name': 'Nocardiosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D004405_1', 'disease': 'Shigellosis', 'disease_mesh': 'MESH:D004405', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:A0A3C0GZY2'}, {'key': 'decreases abundance of', 'source': 'UniProt:A0A3C0GZY2', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D004405'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:A0A3C0GZY2', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D004405', 'label': 'Disease', 'name': 'Shigellosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D014123_1', 'disease': 'Toxoplasmosis', 'disease_mesh': 'MESH:D014123', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:Q4U207'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q4U207', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:5811'}, {'key': 'causes', 'source': 'NCBITaxon:5811', 'target': 'MESH:D014123'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:Q4U207', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:5811', 'label': 'OrganismTaxon', 'name': 'Toxoplasma gondii'}, {'id': 'MESH:D014123', 'label': 'Disease', 'name': 'Toxoplasmosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Sulfamethoxazole is given in combination with trimethoprim', 'directed': True, 'graph': {'_id': 'DB01015_MESH_D003235_1', 'disease': 'Chlamydial conjunctivitis', 'disease_mesh': 'MESH:D003235', 'drug': 'Sulfamethoxazole', 'drug_mesh': 'MESH:D013420', 'drugbank': 'DB:DB01015'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013420', 'target': 'UniProt:A0A655MZZ2'}, {'key': 'decreases abundance of', 'source': 'UniProt:A0A655MZZ2', 'target': 'MESH:D005492'}, {'key': 'prevents', 'source': 'MESH:D005492', 'target': 'GO:0071897'}, {'key': 'in taxon', 'source': 'GO:0071897', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D003235'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013420', 'label': 'Drug', 'name': 'Sulfamethoxazole'}, {'id': 'UniProt:A0A655MZZ2', 'label': 'Protein', 'name': 'Dihydropteroate synthase'}, {'id': 'MESH:D005492', 'label': 'ChemicalSubstance', 'name': 'Folic acid'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D003235', 'label': 'Disease', 'name': 'Chlamydial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01015#mechanismofaction', 'https://en.wikipedia.org/wiki/Sulfamethoxazole']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00299_MESH_D006560_1', 'disease': 'Herpes labialis', 'disease_mesh': 'MESH:D006560', 'drug': 'Penciclovir', 'drug_mesh': 'MESH:C053539', 'drugbank': 'DB:DB00299'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C053539', 'target': 'MESH:C092310'}, {'key': 'decreases molecular interaction', 'source': 'MESH:C092310', 'target': 'MESH:C029603'}, {'key': 'decreases activity of', 'source': 'MESH:C029603', 'target': 'UniProt:Q99FY1'}, {'key': 'prevents', 'source': 'UniProt:Q99FY1', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10292'}, {'key': 'causes', 'source': 'NCBITaxon:10292', 'target': 'MESH:D006560'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C053539', 'label': 'Drug', 'name': 'Penciclovir'}, {'id': 'MESH:C092310', 'label': 'ChemicalSubstance', 'name': 'Penciclovir triphosphate'}, {'id': 'MESH:C029603', 'label': 'ChemicalSubstance', 'name': 'Deoxyguanosine triphosphate'}, {'id': 'UniProt:Q99FY1', 'label': 'Protein', 'name': 'Viral DNA polymerase'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral replication'}, {'id': 'NCBITaxon:10292', 'label': 'OrganismTaxon', 'name': 'Herpesviridae'}, {'id': 'MESH:D006560', 'label': 'Disease', 'name': 'Herpes labialis'}], 'reference': ['https://go.drugbank.com/drugs/DB00299#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06626_MESH_D002292_1', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Axitinib', 'drug_mesh': None, 'drugbank': 'DB:DB06626'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P17948'}, {'key': 'negatively regulates', 'source': 'UniProt:P17948', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P35968'}, {'key': 'negatively regulates', 'source': 'UniProt:P35968', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P35916'}, {'key': 'negatively regulates', 'source': 'UniProt:P35916', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'InterPro:IPR006782'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR006782', 'target': 'GO:0001525'}, {'key': 'decreases activity of', 'source': 'DB:DB06626', 'target': 'UniProt:P10721'}, {'key': 'negatively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0001525'}, {'key': 'located in', 'source': 'GO:0001525', 'target': 'CL:0001063'}, {'key': 'causes', 'source': 'CL:0001063', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06626', 'label': 'Drug', 'name': 'Axitinib'}, {'id': 'UniProt:P17948', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 1'}, {'id': 'UniProt:P35968', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 2'}, {'id': 'UniProt:P35916', 'label': 'Protein', 'name': 'Vascular endothelial growth factor receptor 3'}, {'id': 'InterPro:IPR006782', 'label': 'GeneFamily', 'name': 'Platelet-derived growth factor receptor'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'c-Kit'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'Tumor cell'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06626#mechanismofaction', 'https://en.wikipedia.org/wiki/Axitinib']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001172'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Joint pain'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D001171_1', 'disease': 'Juvenile idiopathic arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D001171'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D001171'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile idiopathic arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D015535_1', 'disease': 'Psoriasis with arthropathy', 'disease_mesh': 'MESH:D015535', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0002829'}, {'key': 'positively regulates', 'source': 'GO:0006954', 'target': 'HP:0001386'}, {'key': 'manifestation of', 'source': 'HP:0002829', 'target': 'MESH:D015535'}, {'key': 'manifestation of', 'source': 'HP:0001386', 'target': 'MESH:D015535'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D015535'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D015535', 'label': 'Disease', 'name': 'Psoriasis with arthropathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Psoriatic_arthritis#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00005_MESH_D013167_1', 'disease': 'Ankylosing spondylitis', 'disease_mesh': 'MESH:D013167', 'drug': 'Etanercept', 'drug_mesh': 'MESH:D000068800', 'drugbank': 'DB:DB00005'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068800', 'target': 'UniProt:P01375'}, {'key': 'participates in', 'source': 'UniProt:P01375', 'target': 'REACT:R-HSA-75893'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-75893', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D013167'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068800', 'label': 'Drug', 'name': 'Etanercept'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'REACT:R-HSA-75893', 'label': 'Pathway', 'name': 'TNF signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D013167', 'label': 'Disease', 'name': 'Ankylosing spondylitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00005#BE0000704', 'https://en.wikipedia.org/wiki/Etanercept#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00260_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Cycloserine', 'drug_mesh': 'MESH:D003523', 'drugbank': 'DB:DB00260'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003523', 'target': 'UniProt:P9WP31'}, {'key': 'decreases activity of', 'source': 'MESH:D003523', 'target': 'UniProt:P9WQA9'}, {'key': 'positively regulates', 'source': 'UniProt:P9WP31', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'UniProt:P9WQA9', 'target': 'GO:0009252'}, {'key': 'positively regulates', 'source': 'GO:0009252', 'target': 'GO:0009273'}, {'key': 'positively correlated with', 'source': 'GO:0009273', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003523', 'label': 'Drug', 'name': 'Cycloserine'}, {'id': 'UniProt:P9WP31', 'label': 'Protein', 'name': 'D-alanine--D-alanine ligase (Mycobacterium tuberculosis)'}, {'id': 'UniProt:P9WQA9', 'label': 'Protein', 'name': 'Alanine racemase (Mycobacterium tuberculosis)'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan biosynthetic process'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'Cell division'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00260']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The mechanism of action of amitriptyline is not fully elucidated.', 'directed': True, 'graph': {'_id': 'DB00321_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Amitriptyline', 'drug_mesh': 'MESH:D000639', 'drugbank': 'DB:DB00321'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P23975'}, {'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P31645'}, {'key': 'decreases activity of', 'source': 'MESH:D000639', 'target': 'UniProt:P28223'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'negatively regulates', 'source': 'GO:0051620', 'target': 'GO:0061533'}, {'key': 'negatively regulates', 'source': 'GO:0051610', 'target': 'GO:0060096'}, {'key': 'negatively correlated with', 'source': 'GO:0061533', 'target': 'MESH:D003866'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003866'}, {'key': 'negatively correlated with', 'source': 'GO:0060096', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000639', 'label': 'Drug', 'name': 'Amitriptyline'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Norepinephrine uptake'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'Serotonin uptake'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'GO:0060096', 'label': 'BiologicalProcess', 'name': 'Serotonin secretion, neurotransmission'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00321', 'https://pubmed.ncbi.nlm.nih.gov/10703757/', 'https://en.wikipedia.org/wiki/5-HT2A_receptor', 'https://en.wikipedia.org/wiki/Tricyclic_antidepressant#Clinical_depression']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00831_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Trifluoperazine', 'drug_mesh': 'MESH:D014268', 'drugbank': 'DB:DB00831'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P21728'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21728', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'affected by', 'source': 'GO:0061527', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014268', 'label': 'Drug', 'name': 'Trifluoperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00831#BE0000666', 'https://pubchem.ncbi.nlm.nih.gov/compound/5566', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4032934/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00831_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'Trifluoperazine', 'drug_mesh': 'MESH:D014268', 'drugbank': 'DB:DB00831'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D014268', 'target': 'UniProt:P21728'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21728', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'affected by', 'source': 'GO:0061527', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014268', 'label': 'Drug', 'name': 'Trifluoperazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'D(1A) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00831#BE0000666', 'https://pubchem.ncbi.nlm.nih.gov/compound/5566', 'https://pubmed.ncbi.nlm.nih.gov/26317601/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01382_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Glymidine', 'drug_mesh': 'MESH:C073263', 'drugbank': 'DB:DB01382'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073263', 'target': 'UniProt:P48048'}, {'key': 'negatively correlated with', 'source': 'UniProt:P48048', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'GO:0005245', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'positively correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073263', 'label': 'Drug', 'name': 'Glymidine'}, {'id': 'UniProt:P48048', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 1'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0005245', 'label': 'BiologicalProcess', 'name': 'Voltage-gated calcium channel activity'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood Glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB01382', 'https://pubchem.ncbi.nlm.nih.gov/compound/9565']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Nicotinyl alcohol has been shown to be metabolized rapidly to nicotinic acid https://pubmed.ncbi.nlm.nih.gov/4883785/', 'directed': True, 'graph': {'_id': 'DB04145_MESH_D010383_1', 'disease': 'Pellagra', 'disease_mesh': 'MESH:D010383', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D009540', 'target': 'CHEBI:15940'}, {'key': 'negatively correlated with', 'source': 'CHEBI:15940', 'target': 'HP:0100497'}, {'key': 'positively correlated with', 'source': 'HP:0100497', 'target': 'MESH:D010383'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'HP:0100497', 'label': 'PhenotypicFeature', 'name': 'Vitamin B3 deficiency'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'Nicotinic acid'}, {'id': 'MESH:D010383', 'label': 'Disease', 'name': 'Pellagra'}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://go.drugbank.com/categories/DBCAT002431', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04145_MESH_D008575_1', 'disease': \"Ménière's disease\", 'disease_mesh': 'MESH:D008575', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009540', 'target': 'GO:0042310'}, {'key': 'contributes to', 'source': 'GO:0042310', 'target': 'MESH:D008575'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D008575', 'label': 'Disease', 'name': \"Ménière's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://en.wikipedia.org/wiki/M%C3%A9ni%C3%A8re%27s_disease#Causes', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Nicotinyl alcohol has been shown to be metabolized rapidly to nicotinic acid (niacin) https://pubmed.ncbi.nlm.nih.gov/4883785/', 'directed': True, 'graph': {'_id': 'DB04145_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Nicotinyl alcohol', 'drug_mesh': 'MESH:D009540', 'drugbank': 'DB:DB04145'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D009540', 'target': 'CHEBI:15940'}, {'key': 'increases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:P49019'}, {'key': 'increases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases activity of', 'source': 'CHEBI:15940', 'target': 'UniProt:Q96PD7'}, {'key': 'decreases abundance of', 'source': 'UniProt:P49019', 'target': 'MESH:D005227'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D005227'}, {'key': 'increases abundance of', 'source': 'UniProt:Q96PD7', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D005227', 'target': 'UniProt:P02656'}, {'key': 'positively correlated with', 'source': 'UniProt:P02656', 'target': 'MESH:D015243'}, {'key': 'positively correlated with', 'source': 'MESH:D015243', 'target': 'MESH:D006949'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009540', 'label': 'Drug', 'name': 'Nicotinyl alcohol'}, {'id': 'CHEBI:15940', 'label': 'ChemicalSubstance', 'name': 'Nicotinic acid'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:Q96PD7', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2'}, {'id': 'MESH:D005227', 'label': 'ChemicalSubstance', 'name': 'Fatty Acids'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C-III'}, {'id': 'MESH:D015243', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, VLDL'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB04145', 'https://en.wikipedia.org/wiki/Nicotinyl_alcohol', 'https://en.wikipedia.org/wiki/Hyperlipidemia', 'https://go.drugbank.com/drugs/DB00627', 'https://en.wikipedia.org/wiki/Niacin#As_lipid-modifying_medication']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D011704_1', 'disease': 'Pyelonephritis', 'disease_mesh': 'MESH:D011704', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D011704'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D011704', 'label': 'Disease', 'name': 'Pyelonephritis'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://en.wikipedia.org/wiki/Pyelonephritis#Causes']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB06211']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://www.ncbi.nlm.nih.gov/books/NBK519573/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The FDA revised the doripenem label in 2014 to include a warning against use in ventilator-associated pneumonia and to reiterate its safety and efficacy for its approved indications.', 'directed': True, 'graph': {'_id': 'DB06211_MESH_D002764_1', 'disease': 'Cholecystitis', 'disease_mesh': 'MESH:D002764', 'drug': 'Doripenem', 'drug_mesh': 'MESH:C099245', 'drugbank': 'DB:DB06211'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C099245', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'occurs in', 'source': 'NCBITaxon:2', 'target': 'MESH:D002764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C099245', 'label': 'Drug', 'name': 'Doripenem'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D002764', 'label': 'Disease', 'name': 'Cholecystitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06211', 'https://en.wikipedia.org/wiki/Cholecystitis#Causes']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06317_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Elotuzumab', 'drug_mesh': 'MESH:C546027', 'drugbank': 'DB:DB06317'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C546027', 'target': 'UniProt:Q9NQ25'}, {'key': 'expressed in', 'source': 'UniProt:Q9NQ25', 'target': 'CL:0000623'}, {'key': 'capable of', 'source': 'CL:0000623', 'target': 'GO:0001788'}, {'key': 'precedes', 'source': 'GO:0001788', 'target': 'GO:0008219'}, {'key': 'negatively correlated with', 'source': 'GO:0008219', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C546027', 'label': 'Drug', 'name': 'Elotuzumab'}, {'id': 'UniProt:Q9NQ25', 'label': 'Protein', 'name': 'SLAM family member 7'}, {'id': 'CL:0000623', 'label': 'Cell', 'name': 'Natural killer cell'}, {'id': 'GO:0001788', 'label': 'BiologicalProcess', 'name': 'Antibody-dependent cellular cytotoxicity'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/27695618/', 'https://go.drugbank.com/drugs/DB06317#BE0003492']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Enviomycin share the same binding site on the bacterial ribosome and have effects on bacterial cells similar to those of viomycin https://pubmed.ncbi.nlm.nih.gov/26755601/', 'directed': True, 'graph': {'_id': 'DB08993_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Enviomycin', 'drug_mesh': 'MESH:D004776', 'drugbank': 'DB:DB08993'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004776', 'target': 'GO:0005840'}, {'key': 'participates in', 'source': 'GO:0005840', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004776', 'label': 'Drug', 'name': 'Enviomycin'}, {'id': 'GO:0005840', 'label': 'CellularComponent', 'name': 'Ribosome'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Translation'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06827', 'https://en.wikipedia.org/wiki/Viomycin', 'https://go.drugbank.com/drugs/DB08993']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Being a prodrug, enalapril is rapidly biotransformed into its active metabolite, enalaprilat. Please note this drug had 2 DrugBank IDs in the Drug Centarl, DB00584 and DB09477. The DB09477 is ID for Enalapril, which has been previously curated.', 'directed': True, 'graph': {'_id': 'DB00584_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Enalapril', 'drug_mesh': 'MESH:D004656', 'drugbank': 'DB:DB00584'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D004656', 'target': 'MESH:D015773'}, {'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'HP:0000822'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004656', 'label': 'Drug', 'name': 'Enalapril'}, {'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D006333', 'label': 'Disease', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB00584', 'https://en.wikipedia.org/wiki/Heart_failure']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Being a prodrug, enalapril is rapidly biotransformed into its active metabolite, enalaprilat. Please note this drug had 2 DrugBank IDs in the Drug Centarl, DB00584 and DB09477. The DB09477 is ID for Enalapril, which has been previously curated.', 'directed': True, 'graph': {'_id': 'DB00584_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Enalapril', 'drug_mesh': 'MESH:D004656', 'drugbank': 'DB:DB00584'}, 'links': [{'key': 'produces', 'source': 'MESH:D004656', 'target': 'MESH:D015773'}, {'key': 'decreases activity of', 'source': 'MESH:D015773', 'target': 'UniProt:P12821'}, {'key': 'increases abundance of', 'source': 'UniProt:P12821', 'target': 'MESH:D000804'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'contributes to', 'source': 'GO:0003092', 'target': 'GO:0045777'}, {'key': 'affects risk for', 'source': 'GO:0045777', 'target': 'MESH:D006973'}, {'key': 'causes', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'contributes to', 'source': 'MESH:D014661', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004656', 'label': 'Drug', 'name': 'Enalapril'}, {'id': 'MESH:D015773', 'label': 'Drug', 'name': 'Enalaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'Renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'Renal water retention'}, {'id': 'GO:0045777', 'label': 'BiologicalProcess', 'name': 'Positive regulation of blood pressure'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00584', 'https://go.drugbank.com/drugs/DB09477#BE0000221']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C010038', 'target': 'MESH:D017382'}, {'key': 'negatively regulates', 'source': 'MESH:D017382', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'MESH:D017382', 'label': 'ChemicalSubstance', 'name': 'Free oxygen radical'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010038', 'target': 'UBERON:0001821'}, {'key': 'prevents', 'source': 'UBERON:0001821', 'target': 'GO:0006096'}, {'key': 'negatively regulates', 'source': 'GO:0006096', 'target': 'GO:0016049'}, {'key': 'in taxon', 'source': 'GO:0016049', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'UBERON:0001821', 'label': 'GrossAnatomicalStructure', 'name': 'Sebaceous Gland'}, {'id': 'GO:0006096', 'label': 'BiologicalProcess', 'name': 'Glycolytic process'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Propionibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", - "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_2', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C010038', 'target': 'UBERON:0001821'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:A0A7C6MFF9'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A7C6MFF9', 'target': 'GO:0016049'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:D4HBV0'}, {'key': 'negatively regulates', 'source': 'UniProt:D4HBV0', 'target': 'GO:0016049'}, {'key': 'decreases activity of', 'source': 'UBERON:0001821', 'target': 'UniProt:D4HCU8'}, {'key': 'negatively regulates', 'source': 'UniProt:D4HCU8', 'target': 'GO:0016049'}, {'key': 'in taxon', 'source': 'GO:0016049', 'target': 'NCBITaxon:1282'}, {'key': 'causes', 'source': 'NCBITaxon:1282', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'UBERON:0001821', 'label': 'GrossAnatomicalStructure', 'name': 'Sebaceous Gland'}, {'id': 'UniProt:A0A7C6MFF9', 'label': 'Protein', 'name': 'Tyrosinase'}, {'id': 'UniProt:D4HCU8', 'label': 'Protein', 'name': 'DNA polymerase'}, {'id': 'UniProt:D4HBV0', 'label': 'Protein', 'name': 'Thioredoxin reductase'}, {'id': 'GO:0016049', 'label': 'BiologicalProcess', 'name': 'Cell growth'}, {'id': 'NCBITaxon:1282', 'label': 'OrganismTaxon', 'name': 'Staphylococcus epidermidis'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", - "['Drug', 'GrossAnatomicalStructure', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00548_MESH_D000152_3', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'Azelaic acid', 'drug_mesh': 'MESH:C010038', 'drugbank': 'DB:DB00548'}, 'links': [{'key': 'increases degradation of', 'source': 'MESH:C010038', 'target': 'MESH:D017382'}, {'key': 'negatively regulates', 'source': 'MESH:D017382', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010038', 'label': 'Drug', 'name': 'Azelaic acid'}, {'id': 'MESH:D017382', 'label': 'ChemicalSubstance', 'name': 'Free oxygen radical'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00548#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Azelaic-acid', 'https://en.wikipedia.org/wiki/Azelaic_acid']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01415_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Ceftibuten', 'drug_mesh': None, 'drugbank': 'DB:DB01415'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01415', 'target': 'UniProt:Q54906'}, {'key': 'prevents', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'negatively regulates', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01415', 'label': 'Drug', 'name': 'Ceftibuten'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell-wall synthesis'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01415#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/5282242']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01415_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Ceftibuten', 'drug_mesh': None, 'drugbank': 'DB:DB01415'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB01415', 'target': 'UniProt:Q54906'}, {'key': 'prevents', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'negatively regulates', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'in taxon', 'source': 'GO:0042546', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01415', 'label': 'Drug', 'name': 'Ceftibuten'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin-binding proteins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell-wall synthesis'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01415#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/5282242']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01501_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'Difenoxin', 'drug_mesh': 'MESH:C100010', 'drugbank': 'DB:DB01501'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C100010', 'target': 'InterPro:IPR001418'}, {'key': 'located in', 'source': 'InterPro:IPR001418', 'target': 'UBERON:0012453'}, {'key': 'negatively regulates', 'source': 'UBERON:0012453', 'target': 'GO:0061526'}, {'key': 'regulates', 'source': 'GO:0061526', 'target': 'GO:0120054'}, {'key': 'correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100010', 'label': 'Drug', 'name': 'Difenoxin'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptors'}, {'id': 'UBERON:0012453', 'label': 'GrossAnatomicalStructure', 'name': 'Peripheral nerve terminal'}, {'id': 'GO:0061526', 'label': 'GrossAnatomicalStructure', 'name': 'Release of acetylcholine'}, {'id': 'GO:0120054', 'label': 'GrossAnatomicalStructure', 'name': 'Intestinal motility'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'Diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB01501#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Difenoxin#section=Pharmacology']}\n", - "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00644_MESH_D000568_1', 'disease': 'Amenorrhea', 'disease_mesh': 'MESH:D000568', 'drug': 'Gonadorelin', 'drug_mesh': 'MESH:D007987', 'drugbank': 'DB:DB00644'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007987', 'target': 'UniProt:P30968'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0046884'}, {'key': 'location of', 'source': 'GO:0046884', 'target': 'UBERON:0000007'}, {'key': 'positively regulates', 'source': 'UniProt:P30968', 'target': 'GO:0032275'}, {'key': 'location of', 'source': 'GO:0032275', 'target': 'UBERON:0000007'}, {'key': 'produces', 'source': 'UBERON:0000007', 'target': 'MESH:D012739'}, {'key': 'manifestation of', 'source': 'MESH:D012739', 'target': 'MESH:D000568'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007987', 'label': 'Drug', 'name': 'Gonadorelin'}, {'id': 'UniProt:P30968', 'label': 'Protein', 'name': 'Gonadotropin-releasing hormone receptor'}, {'id': 'GO:0032275', 'label': 'BiologicalProcess', 'name': 'Luteinizing hormone secretion'}, {'id': 'GO:0046884', 'label': 'BiologicalProcess', 'name': 'Follicle-stimulating hormone secretion'}, {'id': 'UBERON:0000007', 'label': 'GrossAnatomicalStructure', 'name': 'Pituitary gland'}, {'id': 'MESH:D012739', 'label': 'ChemicalSubstance', 'name': 'Gonadal Steroid Hormones'}, {'id': 'MESH:D000568', 'label': 'Disease', 'name': 'Amenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00644#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Gonadorelin']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08887_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Icosapent ethyl', 'drug_mesh': None, 'drugbank': 'DB:DB08887'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08887', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'DB:DB08887', 'target': 'UniProt:P06858'}, {'key': 'located in', 'source': 'UniProt:P06858', 'target': 'UBERON:0000178'}, {'key': 'increases degradation of', 'source': 'UBERON:0000178', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'DB:DB08887', 'target': 'GO:0006635'}, {'key': 'increases degradation of', 'source': 'GO:0006635', 'target': 'MESH:D014280'}, {'key': 'manifestation of', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08887', 'label': 'Drug', 'name': 'Icosapent ethyl'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diglyceride acyltransferase'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'GO:0006635', 'label': 'BiologicalProcess', 'name': 'Fatty acid beta-oxidation'}, {'id': 'UBERON:0000178', 'label': 'GrossAnatomicalStructure', 'name': 'Blood'}, {'id': 'UniProt:P06858', 'label': 'Protein', 'name': 'Lipoprotein lipase'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08887#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Icosapent-ethyl#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/Ethyl_eicosapentaenoic_acid']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'part of', 'source': 'MESH:D009525', 'target': 'MESH:D019587'}, {'key': 'ameliorates', 'source': 'MESH:D019587', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'manifestation of', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diglyceride acyltransferase'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006950'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006937'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00627_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Nicotinic acid', 'drug_mesh': 'MESH:D009525', 'drugbank': 'DB:DB00627'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:O75907'}, {'key': 'negatively regulates', 'source': 'UniProt:O75907', 'target': 'REACT:R-HSA-75109'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-75109', 'target': 'MESH:D014280'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:Q8TDS4'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q8TDS4', 'target': 'MESH:D000242'}, {'key': 'decreases abundance of', 'source': 'MESH:D000242', 'target': 'MESH:D005230'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:P02656'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P02656', 'target': 'MESH:D008074'}, {'key': 'decreases expression of', 'source': 'MESH:D005230', 'target': 'UniProt:Q86YN6'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q86YN6', 'target': 'MESH:D008074'}, {'key': 'increases activity of', 'source': 'MESH:D009525', 'target': 'UniProt:P49019'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P49019', 'target': 'MESH:D000242'}, {'key': 'decreases degradation of', 'source': 'MESH:D009525', 'target': 'UniProt:P02647'}, {'key': 'increases abundance of', 'source': 'UniProt:P02647', 'target': 'MESH:D008076'}, {'key': 'manifestation of', 'source': 'MESH:D008076', 'target': 'MESH:D006949'}, {'key': 'increases degradation of', 'source': 'MESH:D014280', 'target': 'UniProt:P04114'}, {'key': 'decreases synthesis of', 'source': 'UniProt:P04114', 'target': 'MESH:D008074'}, {'key': 'manifestation of', 'source': 'MESH:D008074', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009525', 'label': 'Drug', 'name': 'Nicotinic acid'}, {'id': 'UniProt:O75907', 'label': 'Protein', 'name': 'Diacylglycerol O-acyltransferase 2 (DGAT2)'}, {'id': 'REACT:R-HSA-75109', 'label': 'Pathway', 'name': 'Triglyceride biosynthesis'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D008076', 'label': 'ChemicalSubstance', 'name': 'HDL Cholesterol'}, {'id': 'UniProt:P02647', 'label': 'Protein', 'name': 'Apolipoprotein A1'}, {'id': 'UniProt:P49019', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 3'}, {'id': 'UniProt:Q86YN6', 'label': 'Protein', 'name': 'PPARg coactivator-1b'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'UniProt:P02656', 'label': 'Protein', 'name': 'Apolipoprotein C3'}, {'id': 'MESH:D005230', 'label': 'ChemicalSubstance', 'name': 'Free fatty acids'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'UniProt:Q8TDS4', 'label': 'Protein', 'name': 'Hydroxycarboxylic acid receptor 2'}, {'id': 'UniProt:P04114', 'label': 'Protein', 'name': 'Apolipoprotein B'}, {'id': 'MESH:D008074', 'label': 'ChemicalSubstance', 'name': 'Lipoprotein'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00627#mechanismofaction', 'https://en.wikipedia.org/wiki/Niacin#Mechanisms', 'doi:10.1194/jlr.S092007']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00205_MESH_D008288_1', 'disease': 'Malaria', 'disease_mesh': 'MESH:D008288', 'drug': 'pyrimethamine', 'drug_mesh': 'MESH:D011739', 'drugbank': 'DB:DB00205'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011739', 'target': 'UniProt:P13922'}, {'key': 'positively regulates', 'source': 'UniProt:P13922', 'target': 'GO:0046654'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0006221'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0019363'}, {'key': 'positively correlated with', 'source': 'GO:0006221', 'target': 'GO:0000280'}, {'key': 'positively correlated with', 'source': 'GO:0019363', 'target': 'GO:0000280'}, {'key': 'in taxon', 'source': 'GO:0000280', 'target': 'NCBITaxon:5839'}, {'key': 'causes', 'source': 'NCBITaxon:5839', 'target': 'MESH:D008288'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011739', 'label': 'Drug', 'name': 'pyrimethamine'}, {'id': 'UniProt:P13922', 'label': 'Protein', 'name': 'Bifunctional dihydrofolate reductase-thymidylate synthase'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0019363', 'label': 'BiologicalProcess', 'name': 'pyridine nucleotide biosynthetic process'}, {'id': 'GO:0000280', 'label': 'BiologicalProcess', 'name': 'nuclear division'}, {'id': 'NCBITaxon:5839', 'label': 'OrganismTaxon', 'name': 'Plasmodium falciparum K1'}, {'id': 'MESH:D008288', 'label': 'Disease', 'name': 'Malaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00205#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL1939/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00205_MESH_D014123_1', 'disease': 'Toxoplasmosis', 'disease_mesh': 'MESH:D014123', 'drug': 'pyrimethamine', 'drug_mesh': 'MESH:D011739', 'drugbank': 'DB:DB00205'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D011739', 'target': 'Pfam:PF00186'}, {'key': 'positively regulates', 'source': 'Pfam:PF00186', 'target': 'GO:0046654'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0006221'}, {'key': 'positively correlated with', 'source': 'GO:0046654', 'target': 'GO:0019363'}, {'key': 'positively correlated with', 'source': 'GO:0006221', 'target': 'GO:0000280'}, {'key': 'positively correlated with', 'source': 'GO:0019363', 'target': 'GO:0000280'}, {'key': 'in taxon', 'source': 'GO:0000280', 'target': 'NCBITaxon:5811'}, {'key': 'causes', 'source': 'NCBITaxon:5811', 'target': 'MESH:D014123'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011739', 'label': 'Drug', 'name': 'pyrimethamine'}, {'id': 'Pfam:PF00186', 'label': 'GeneFamily', 'name': 'Dihydrofolate reductase'}, {'id': 'GO:0046654', 'label': 'BiologicalProcess', 'name': 'tetrahydrofolate biosynthetic process'}, {'id': 'GO:0006221', 'label': 'BiologicalProcess', 'name': 'pyrimidine nucleotide biosynthetic process'}, {'id': 'GO:0019363', 'label': 'BiologicalProcess', 'name': 'pyridine nucleotide biosynthetic process'}, {'id': 'GO:0000280', 'label': 'BiologicalProcess', 'name': 'nuclear division'}, {'id': 'NCBITaxon:5811', 'label': 'OrganismTaxon', 'name': 'Toxoplasma gondii'}, {'id': 'MESH:D014123', 'label': 'Disease', 'name': 'Toxoplasmosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00205#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL1939/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The drug has an anti-inflammatory role which can help with treating some of the signs and symptoms of rosasea.', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D012393_1', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001041'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0031284'}, {'key': 'positively correlated with', 'source': 'HP:0031284', 'target': 'MESH:D012393'}, {'key': 'positively correlated with', 'source': 'HP:0001041', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0031284', 'label': 'PhenotypicFeature', 'name': 'Flushing'}, {'id': 'HP:0001041', 'label': 'PhenotypicFeature', 'name': 'Facial erythema'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Rosacea#Medications', 'https://pubmed.ncbi.nlm.nih.gov/26566370/']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The disease is also known as Indigestion as per in the original file before curation. Note that in the majority of cases no cause can be attributed to leading to the disease. When a cause can indeed be determined, the majority of cases will be due to gastroesophageal reflux and gastritis (https://en.wikipedia.org/wiki/Indigestion#Cause).', 'directed': True, 'graph': {'_id': 'DB09087_MESH_D004415_1', 'disease': 'Dyspepsia', 'disease_mesh': 'MESH:D004415', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0006954'}, {'key': 'negatively regulates', 'source': 'MESH:D000534', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0005263'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004415'}, {'key': 'manifestation of', 'source': 'HP:0005263', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0005263', 'label': 'PhenotypicFeature', 'name': 'Gastritis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Dyspepsia'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000534', 'target': 'MESH:D001252'}, {'key': 'negatively correlated with', 'source': 'MESH:D001252', 'target': 'MESH:D005744'}, {'key': 'located in', 'source': 'MESH:D005744', 'target': 'UBERON:0001043'}, {'key': 'location of', 'source': 'UBERON:0001043', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'MESH:D001252', 'label': 'ChemicalSubstance', 'name': 'Astringents'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'UBERON:0001043', 'label': 'GrossAnatomicalStructure', 'name': 'esophagus'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics', 'https://en.wikipedia.org/wiki/Heartburn#Treatment']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09087_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'alum', 'drug_mesh': 'MESH:D000534', 'drugbank': 'DB:DB09087'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000534', 'target': 'MESH:D001252'}, {'key': 'negatively correlated with', 'source': 'MESH:D001252', 'target': 'MESH:D005744'}, {'key': 'located in', 'source': 'MESH:D005744', 'target': 'UBERON:0001043'}, {'key': 'location of', 'source': 'UBERON:0001043', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C041524'], 'id': 'MESH:D000534', 'label': 'Drug', 'name': 'alum'}, {'id': 'MESH:D001252', 'label': 'ChemicalSubstance', 'name': 'Astringents'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'UBERON:0001043', 'label': 'GrossAnatomicalStructure', 'name': 'esophagus'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09087#pharmacodynamics', 'https://en.wikipedia.org/wiki/Potassium_alum#Medicine_and_cosmetics', 'https://en.wikipedia.org/wiki/Gastroesophageal_reflux_disease#Antacids']}\n", - "['Drug', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x).', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D004942_1', 'disease': 'Esophagitis, Peptic', 'disease_mesh': 'MESH:D004942', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0004791'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0004791', 'target': 'MESH:D004942'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004942'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0004791', 'label': 'PhenotypicFeature', 'name': 'Esophageal ulceration'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004942', 'label': 'Disease', 'name': 'Esophagitis, Peptic'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Esophagitis#Causes', 'https://en.wikipedia.org/wiki/Esophagitis#Medications']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D015043_1', 'disease': 'Zollinger-Ellison syndrome', 'disease_mesh': 'MESH:D015043', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0004398'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'HP:0002588'}, {'key': 'manifestation of', 'source': 'HP:0002588', 'target': 'MESH:D015043'}, {'key': 'manifestation of', 'source': 'HP:0004398', 'target': 'MESH:D015043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'HP:0002588', 'label': 'PhenotypicFeature', 'name': 'Duodenal ulcer'}, {'id': 'HP:0004398', 'label': 'PhenotypicFeature', 'name': 'Peptic Ulcer'}, {'id': 'MESH:D015043', 'label': 'Disease', 'name': 'Zollinger-Ellison syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Esophagitis#Causes', 'https://en.wikipedia.org/wiki/Esophagitis#Medications', 'https://en.wikipedia.org/wiki/Zollinger%E2%80%93Ellison_syndrome#Treatment', 'https://en.wikipedia.org/wiki/Zollinger%E2%80%93Ellison_syndrome#Pathophysiology']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Esomeprazole is the s-isomer of Omeprazole, both are a proton pump inhibitor class of drug and the mechanism of action for both is similar. Weve annotated the path for the S isomer only as it seems this isomer is metabolized more slowly than omeprazole and therefore it will act for longer and more effectively (https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2036.17.s1.1.x). This disease is denoted as Peptic reflux disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00736_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'esomeprazole', 'drug_mesh': 'MESH:D064098', 'drugbank': 'DB:DB00736'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064098', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'positively correlated with', 'source': 'GO:0008900', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064098', 'label': 'Drug', 'name': 'esomeprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00736#mechanism-of-action', 'https://en.wikipedia.org/wiki/Esomeprazole', 'https://en.wikipedia.org/wiki/Omeprazole#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01048_MESH_D015658_2', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'abacavir', 'drug_mesh': 'MESH:C106538', 'drugbank': 'DB:DB01048'}, 'links': [{'key': 'produces', 'source': 'MESH:C106538', 'target': 'CHEBI:64174'}, {'key': 'decreases activity of', 'source': 'CHEBI:64174', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106538', 'label': 'Drug', 'name': 'abacavir'}, {'id': 'CHEBI:64174', 'label': 'ChemicalSubstance', 'name': 'carbovir triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01048#mechanism-of-action', 'https://en.wikipedia.org/wiki/Abacavir#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The disease is also known as Sore throat symptom as per the original file.', 'directed': True, 'graph': {'_id': 'DB06742_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'ambroxol', 'drug_mesh': 'MESH:D000551', 'drugbank': 'DB:DB06742'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D000551', 'target': 'GO:0038060'}, {'key': 'positively correlated with', 'source': 'GO:0038060', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0033050'}, {'key': 'negatively regulates', 'source': 'MESH:D000551', 'target': 'Pfam:PF06512'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06512', 'target': 'GO:0006954'}, {'key': 'increases abundance of', 'source': 'GO:0038060', 'target': 'UBERON:0016552'}, {'key': 'positively correlated with', 'source': 'UBERON:0016552', 'target': 'HP:0031602'}, {'key': 'positively correlated with', 'source': 'HP:0031602', 'target': 'HP:0033050'}, {'key': 'positively correlated with', 'source': 'Pfam:PF06512', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'HP:0012531', 'target': 'HP:0033050'}, {'key': 'manifestation of', 'source': 'HP:0033050', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000551', 'label': 'Drug', 'name': 'ambroxol'}, {'id': 'GO:0038060', 'label': 'BiologicalProcess', 'name': 'nitric oxide-cGMP-mediated signaling pathway'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'UBERON:0016552', 'label': 'GrossAnatomicalStructure', 'name': 'phlegm'}, {'id': 'HP:0031602', 'label': 'PhenotypicFeature', 'name': 'Abnormal mucociliary clearance'}, {'id': 'Pfam:PF06512', 'label': 'GeneFamily', 'name': 'Sodium ion transport-associated'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0033050', 'label': 'PhenotypicFeature', 'name': 'Pharyngalgia'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://en.wikipedia.org/wiki/Ambroxol#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB06742#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/28937232/', 'https://en.wikipedia.org/wiki/Sore_throat#Diagnosis']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption. There are different types of hyponatremia, and medications like tolvaptan should only be used in those patients with high volume or normal volume hyponatremia (https://en.wikipedia.org/wiki/Hyponatremia#Medications).', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D007010_1', 'disease': 'Hyponatremia', 'disease_mesh': 'MESH:D007010', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-432040'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-432040', 'target': 'GO:0070295'}, {'key': 'positively correlated with', 'source': 'GO:0070295', 'target': 'MESH:D007010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-432040', 'label': 'Pathway', 'name': 'Vasopressin regulates renal water homeostasis via Aquaporins'}, {'id': 'GO:0070295', 'label': 'BiologicalProcess', 'name': 'renal water absorption'}, {'id': 'MESH:D007010', 'label': 'Disease', 'name': 'Hyponatremia'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'This disease is also known as Syndrome of inappropriate vasopressin secretion as per the original file. Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption.', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D007177_1', 'disease': 'Inappropriate ADH Syndrome', 'disease_mesh': 'MESH:D007177', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-432040'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-432040', 'target': 'GO:0070295'}, {'key': 'positively correlated with', 'source': 'GO:0070295', 'target': 'MESH:D007177'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-432040', 'label': 'Pathway', 'name': 'Vasopressin regulates renal water homeostasis via Aquaporins'}, {'id': 'GO:0070295', 'label': 'BiologicalProcess', 'name': 'renal water absorption'}, {'alt_names': ['Syndrome of Inappropriate ADH Secretion, SIADH'], 'id': 'MESH:D007177', 'label': 'Disease', 'name': 'Inappropriate ADH Syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist', 'https://en.wikipedia.org/wiki/Syndrome_of_inappropriate_antidiuretic_hormone_secretion#Treatment']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'This disease is also known as Polycystic kidney disease adult type as per the original file. Tolvaptan is also known as aquaretic (https://en.wikipedia.org/wiki/Aquaretic). Note that hyponatremia corresponds to the state where water content is relatively large for the sodium content available (https://pubmed.ncbi.nlm.nih.gov/19322975/), which is possibly due to increased water reabsorption.', 'directed': True, 'graph': {'_id': 'DB06212_MESH_D016891_1', 'disease': 'Polycystic Kidney, Autosomal Dominant', 'disease_mesh': 'MESH:D016891', 'drug': 'tolvaptan', 'drug_mesh': 'MESH:C116664', 'drugbank': 'DB:DB06212'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C116664', 'target': 'UniProt:P30518'}, {'key': 'participates in', 'source': 'UniProt:P30518', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'HP:0000107'}, {'key': 'manifestation of', 'source': 'HP:0000107', 'target': 'MESH:D016891'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D016891'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C116664', 'label': 'Drug', 'name': 'tolvaptan'}, {'id': 'UniProt:P30518', 'label': 'Protein', 'name': 'Vasopressin V2 receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'HP:0000107', 'label': 'PhenotypicFeature', 'name': 'Renal cyst'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D016891', 'label': 'Disease', 'name': 'Polycystic Kidney, Autosomal Dominant'}], 'reference': ['https://go.drugbank.com/drugs/DB06212#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20868352/', 'https://en.wikipedia.org/wiki/Autosomal_dominant_polycystic_kidney_disease#Aquaretic_medication', 'https://en.wikipedia.org/wiki/Vasopressin_receptor_antagonist#Polycystic_kidney_disease']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00855_MESH_D055623_1', 'disease': 'Actinic keratosis', 'disease_mesh': 'MESH:D055623', 'drug': 'Aminolevulinic acid', 'drug_mesh': 'MESH:D000622', 'drugbank': 'DB:DB00855'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D000622', 'target': 'MESH:D017319'}, {'key': 'positively correlated with', 'source': 'MESH:D017319', 'target': 'MESH:D005609'}, {'key': 'disrupts', 'source': 'MESH:D005609', 'target': 'HP:0011355'}, {'key': 'positively correlated with', 'source': 'HP:0011355', 'target': 'MESH:D055623'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000622', 'label': 'Drug', 'name': 'Aminolevulinic acid'}, {'id': 'MESH:D017319', 'label': 'ChemicalSubstance', 'name': 'Photosensitizing Agents'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'HP:0011355', 'label': 'PhenotypicFeature', 'name': 'Localized skin lesion'}, {'id': 'MESH:D055623', 'label': 'Disease', 'name': 'Actinic keratosis'}], 'reference': ['https://en.wikipedia.org/wiki/Aminolevulinic_acid#Medical_uses', 'https://en.wikipedia.org/wiki/Actinic_keratosis#Procedures', 'https://en.wikipedia.org/wiki/Photodynamic_therapy#Photosensitizers']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"In Parkinson's disease, there is imbalance between levels of acetylcholine and dopamine, where increased levels of acetylcholine and degeneration of dopaminergic pathways are observed. Therefore, muscarinic antagonists such as biperiden block central cholinergic activity and balancing out neurotransmitters in the brain (https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects). Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).\", 'directed': True, 'graph': {'_id': 'DB00810_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'manifestation of', 'source': 'HP:0100022', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is denoted as Postencephalitic parkinsonism in the original file. This disease is believed to be caused by a viral infection, leading to clinical parkinsonism (https://en.wikipedia.org/wiki/Postencephalitic_parkinsonism) and anti-Parkinson drugs may be helpful in treating the symptoms (https://en.wikipedia.org/wiki/Encephalitis_lethargica). For example, muscarinic antagonists can allow dopamine levels to rebalance, which can help relieve some Parkinsonian symptoms e.g. involuntary movements. Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D010301_1', 'disease': 'Parkinson Disease, Postencephalitic', 'disease_mesh': 'MESH:D010301', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'positively correlated with', 'source': 'HP:0100022', 'target': 'HP:0001300'}, {'key': 'manifestation of', 'source': 'HP:0001300', 'target': 'MESH:D010301'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'HP:0001300', 'label': 'PhenotypicFeature', 'name': 'Parkinsonism'}, {'id': 'MESH:D010301', 'label': 'Disease', 'name': 'Parkinson Disease, Postencephalitic'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as Parkinsonism as per the original file. Muscarinic antagonists can allow dopamine levels to rebalance, which can help relieve some Parkinsonian symptoms e.g. involuntary movements. Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D020734_1', 'disease': 'Parkinsonian Disorders', 'disease_mesh': 'MESH:D020734', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0100022'}, {'key': 'manifestation of', 'source': 'HP:0100022', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0100022', 'label': 'PhenotypicFeature', 'name': 'Abnormality of movement'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonian Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action', 'https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as Extrapyramidal disease as per the original file.', 'directed': True, 'graph': {'_id': 'DB00810_MESH_D001480_1', 'disease': 'Basal Ganglia Diseases', 'disease_mesh': 'MESH:D001480', 'drug': 'biperiden', 'drug_mesh': 'MESH:D001712', 'drugbank': 'DB:DB00810'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D001712', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'HP:0002071'}, {'key': 'manifestation of', 'source': 'HP:0002071', 'target': 'MESH:D001480'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C036432'], 'id': 'MESH:D001712', 'label': 'Drug', 'name': 'biperiden'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'HP:0002071', 'label': 'PhenotypicFeature', 'name': 'Abnormality of extrapyramidal motor function'}, {'id': 'MESH:D001480', 'label': 'Disease', 'name': 'Basal Ganglia Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00810#mechanism-of-action', 'https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects', 'https://en.wikipedia.org/wiki/Extrapyramidal_symptoms#Treatment']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'UBERON:0003956 includes the uveoscleral network as well as other canals for aqueous humor drainage. The uveoscleral network is the structure that seems to be affected by alpha adrenergic agonists, such as brimonidine, specially in long-term treatments (i.e. chronic dosing).', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D005902_2', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006939'}, {'key': 'regulates', 'source': 'GO:0006939', 'target': 'UBERON:0003956'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'negatively correlated with', 'source': 'UBERON:0003956', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'UBERON:0003956', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous drainage system'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['mhttps://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance https://en.wikipedia.org/wiki/Ciliary_body#Clinical_significance']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The drug has an anti-inflammatory role which can help with treating some of the signs and symptoms of rosasea.', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D012393_2', 'disease': 'Rosacea', 'disease_mesh': 'MESH:D012393', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'MESH:D018341'}, {'key': 'participates in', 'source': 'MESH:D018341', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'MESH:D018341', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001041'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0031284'}, {'key': 'positively correlated with', 'source': 'HP:0031284', 'target': 'MESH:D012393'}, {'key': 'positively correlated with', 'source': 'HP:0001041', 'target': 'MESH:D012393'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'MESH:D018341', 'label': 'GeneFamily', 'name': 'Receptors, Adrenergic, alpha-2'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0031284', 'label': 'PhenotypicFeature', 'name': 'Flushing'}, {'id': 'HP:0001041', 'label': 'PhenotypicFeature', 'name': 'Facial erythema'}, {'id': 'MESH:D012393', 'label': 'Disease', 'name': 'Rosacea'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Rosacea#Medications', 'https://pubmed.ncbi.nlm.nih.gov/26566370/']}\n", - "['Drug', 'GeneFamily', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'UBERON:0003956 includes the uveoscleral network as well as other canals for aqueous humor drainage. The uveoscleral network is the structure that seems to be affected by alpha adrenergic agonists, such as brimonidine, specially in long-term treatments (i.e. chronic dosing).', 'directed': True, 'graph': {'_id': 'DB00484_MESH_D009798_2', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'brimonidine', 'drug_mesh': 'MESH:D000068438', 'drugbank': 'DB:DB00484'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P08913'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18089'}, {'key': 'increases activity of', 'source': 'MESH:D000068438', 'target': 'UniProt:P18825'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418594'}, {'key': 'participates in', 'source': 'UniProt:P08913', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18089', 'target': 'REACT:R-HSA-418597'}, {'key': 'participates in', 'source': 'UniProt:P18825', 'target': 'REACT:R-HSA-418597'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418594', 'target': 'CHEBI:17489'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-418597', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'regulates', 'source': 'CHEBI:17489', 'target': 'GO:0006939'}, {'key': 'regulates', 'source': 'GO:0006939', 'target': 'UBERON:0003956'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}, {'key': 'negatively correlated with', 'source': 'UBERON:0003956', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068438', 'label': 'Drug', 'name': 'brimonidine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'UniProt:P18825', 'label': 'Protein', 'name': 'Alpha-2C adrenergic receptor'}, {'id': 'REACT:R-HSA-418594', 'label': 'Pathway', 'name': 'G alpha (i) signalling events'}, {'id': 'REACT:R-HSA-418597', 'label': 'Pathway', 'name': 'G alpha (z) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'UBERON:0003956', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous drainage system'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00484#mechanism-of-action', 'https://en.wikipedia.org/wiki/Brimonidine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance', 'https://en.wikipedia.org/wiki/Ciliary_body#Clinical_significance']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D009230_1', 'disease': 'Myxedema', 'disease_mesh': 'MESH:D009230', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'increases abundance of', 'source': 'GO:0070460', 'target': 'CHEBI:18085'}, {'key': 'positively correlated with', 'source': 'CHEBI:18085', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D009230'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'CHEBI:18085', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D009230', 'label': 'Disease', 'name': 'Myxedema'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Myxedema']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D007037_1', 'disease': 'Hypothyroidism', 'disease_mesh': 'MESH:D007037', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0001659'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D007037'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D007037'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature homeostasis'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'MESH:D007037', 'label': 'Disease', 'name': 'Hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Hypothyroidism#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D006042_1', 'disease': 'Goiter', 'disease_mesh': 'MESH:D006042', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006042'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006042', 'label': 'Disease', 'name': 'Goiter'}], 'reference': ['https://en.wikipedia.org/wiki/Goitre#Causes', 'https://www.ncbi.nlm.nih.gov/books/NBK562161/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D003409_1', 'disease': 'Congenital hypothyroidism', 'disease_mesh': 'MESH:D003409', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001508'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001252'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0002045'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001249'}, {'key': 'positively correlated with', 'source': 'HP:0001508', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001249', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001252', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0002045', 'target': 'MESH:D003409'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0001508', 'label': 'PhenotypicFeature', 'name': 'Failure to thrive'}, {'id': 'HP:0001252', 'label': 'PhenotypicFeature', 'name': 'Hypotonia'}, {'id': 'HP:0002045', 'label': 'PhenotypicFeature', 'name': 'Hypothermia'}, {'id': 'HP:0001249', 'label': 'PhenotypicFeature', 'name': 'Intellectual disability'}, {'id': 'MESH:D003409', 'label': 'Disease', 'name': 'Congenital hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Congenital_hypothyroidism#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00279_MESH_D006043_1', 'disease': 'Simple goiter', 'disease_mesh': 'MESH:D006043', 'drug': 'Liothyronine', 'drug_mesh': 'MESH:D014284', 'drugbank': 'DB:DB00279'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006043'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014284', 'label': 'Drug', 'name': 'Liothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006043', 'label': 'Disease', 'name': 'Simple goiter'}], 'reference': ['https://go.drugbank.com/drugs/DB00279#BE0000687', 'https://en.wikipedia.org/wiki/Goitre#Causes', 'https://www.ncbi.nlm.nih.gov/books/NBK562161/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Travoprost, an isopropyl ester prodrug,that is rapidly hydrolyzed by esterases in the cornea to its biologically active free acid.', 'directed': True, 'graph': {'_id': 'DB00287_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Travoprost', 'drug_mesh': 'MESH:D000069557', 'drugbank': 'DB:DB00287'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069557', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069557', 'label': 'Drug', 'name': 'Travoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/', 'https://go.drugbank.com/drugs/DB00287']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Travoprost, an isopropyl ester prodrug,that is rapidly hydrolyzed by esterases in the cornea to its biologically active free acid.', 'directed': True, 'graph': {'_id': 'DB00287_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Travoprost', 'drug_mesh': 'MESH:D000069557', 'drugbank': 'DB:DB00287'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069557', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'affects risk for', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069557', 'label': 'Drug', 'name': 'Travoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/', 'https://go.drugbank.com/drugs/DB00287']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00868_MESH_D003371_1', 'disease': 'Cough', 'disease_mesh': 'MESH:D003371', 'drug': 'Benzonatate', 'drug_mesh': 'MESH:C029755', 'drugbank': 'DB:DB00868'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C029755', 'target': 'GO:0072347'}, {'key': 'negatively correlated with', 'source': 'GO:0072347', 'target': 'MESH:D003371'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C029755', 'label': 'Drug', 'name': 'Benzonatate'}, {'id': 'GO:0072347', 'label': 'BiologicalProcess', 'name': 'Response to anesthetic'}, {'id': 'MESH:D003371', 'label': 'Disease', 'name': 'Cough'}], 'reference': ['https://go.drugbank.com/drugs/DB00868', 'https://en.wikipedia.org/wiki/Benzonatate']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D002761_1', 'disease': 'Cholangitis', 'disease_mesh': 'MESH:D002761', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D002761'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D002761', 'label': 'Disease', 'name': 'Cholangitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01327', 'https://en.wikipedia.org/wiki/Ascending_cholangitis']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D004697_1', 'disease': 'Bacterial endocarditis', 'disease_mesh': 'MESH:D004697', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D004697'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D004697', 'label': 'Disease', 'name': 'Bacterial endocarditis'}], 'reference': ['https://go.drugbank.com/drugs/DB01327', 'https://en.wikipedia.org/wiki/Infective_endocarditis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01327_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Cefazolin', 'drug_mesh': 'MESH:D002437', 'drugbank': 'DB:DB01327'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002437', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002437', 'label': 'Drug', 'name': 'Cefazolin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01327']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06243_MESH_D014353_1', 'disease': 'African trypanosomiasis', 'disease_mesh': 'MESH:D014353', 'drug': 'Eflornithine', 'drug_mesh': 'MESH:D000518', 'drugbank': 'DB:DB06243'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000518', 'target': 'UniProt:P11926'}, {'key': 'positively regulates', 'source': 'UniProt:P11926', 'target': 'GO:0033387'}, {'key': 'positively correlated with', 'source': 'GO:0033387', 'target': 'CHEBI:35490'}, {'key': 'positively regulates', 'source': 'CHEBI:35490', 'target': 'GO:0045454'}, {'key': 'in taxon', 'source': 'GO:0045454', 'target': 'NCBITaxon:5691'}, {'key': 'causes', 'source': 'NCBITaxon:5691', 'target': 'MESH:D014353'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000518', 'label': 'Drug', 'name': 'Eflornithine'}, {'id': 'UniProt:P11926', 'label': 'Protein', 'name': 'Ornithine decarboxylase'}, {'id': 'GO:0033387', 'label': 'BiologicalProcess', 'name': 'Putrescine biosynthetic process from ornithine'}, {'id': 'CHEBI:35490', 'label': 'ChemicalSubstance', 'name': 'Trypanothione disulfide'}, {'id': 'GO:0045454', 'label': 'BiologicalProcess', 'name': 'Cell redox homeostasis'}, {'id': 'NCBITaxon:5691', 'label': 'OrganismTaxon', 'name': 'Trypanosoma brucei'}, {'id': 'MESH:D014353', 'label': 'Disease', 'name': 'African trypanosomiasis'}], 'reference': ['https://www.sciencedirect.com/topics/pharmacology-toxicology-and-pharmaceutical-science/eflornithine#:~:text=Eflornithine%20acts%20as%20an%20irreversible,to%20block%20reactive%20oxygen%20intermediates', 'https://go.drugbank.com/drugs/DB06243']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Plerixafor is used in combination with granulocyte-colony stimulating factor (G-CSF, filgrastim) to mobilize hematopoietic stem cells to the peripheral blood for collection and subsequent autologous transplantation in patients with multiple myeloma.', 'directed': True, 'graph': {'_id': 'DB06809_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'Plerixafor', 'drug_mesh': 'MESH:C088327', 'drugbank': 'DB:DB06809'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C088327', 'target': 'UniProt:P61073'}, {'key': 'negatively correlated with', 'source': 'UniProt:P61073', 'target': 'GO:0035701'}, {'key': 'increases abundance of', 'source': 'GO:0035701', 'target': 'CL:0000037'}, {'key': 'treats', 'source': 'CL:0000037', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C088327', 'label': 'Drug', 'name': 'Plerixafor'}, {'id': 'UniProt:P61073', 'label': 'Protein', 'name': 'C-X-C chemokine receptor type 4'}, {'id': 'GO:0035701', 'label': 'BiologicalProcess', 'name': 'Hematopoietic stem cell migration'}, {'id': 'CL:0000037', 'label': 'Cell', 'name': 'Hematopoietic stem cell'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://en.wikipedia.org/wiki/Plerixafor#Pharmacology', 'https://go.drugbank.com/drugs/DB06809', 'https://pubmed.ncbi.nlm.nih.gov/17640590/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D007008_1', 'disease': 'Hypokalemia', 'disease_mesh': 'MESH:D007008', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C026329', 'target': 'MESH:D011188'}, {'key': 'negatively correlated with', 'source': 'MESH:D011188', 'target': 'MESH:D007008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D011188', 'label': 'ChemicalSubstance', 'name': 'Potassium'}, {'id': 'MESH:D007008', 'label': 'Disease', 'name': 'Hypokalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11098', 'https://en.wikipedia.org/wiki/Hypokalemia']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively regulates', 'source': 'MESH:D005744', 'target': 'InterPro:IPR034162'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR034162', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin catalytic domain'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", - "['Drug', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D004415_1', 'disease': 'Indigestion', 'disease_mesh': 'MESH:D004415', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'HP:0002020'}, {'key': 'manifestation of', 'source': 'HP:0002020', 'target': 'MESH:D004415'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'HP:0002020', 'label': 'PhenotypicFeature', 'name': 'Gastroesophageal reflux'}, {'id': 'MESH:D004415', 'label': 'Disease', 'name': 'Indigestion'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11098_MESH_D006356_1', 'disease': 'Heartburn', 'disease_mesh': 'MESH:D006356', 'drug': 'Potassium hydrogencarbonate', 'drug_mesh': 'MESH:C026329', 'drugbank': 'DB:DB11098'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C026329', 'target': 'MESH:D005744'}, {'key': 'positively correlated with', 'source': 'MESH:D005744', 'target': 'MESH:D006356'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026329', 'label': 'Drug', 'name': 'Potassium hydrogencarbonate'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric Acid'}, {'id': 'MESH:D006356', 'label': 'Disease', 'name': 'Heartburn'}], 'reference': ['https://go.drugbank.com/drugs/DB11098']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006323_1', 'disease': 'Cardiac arrest', 'disease_mesh': 'MESH:D006323', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006323'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006323', 'label': 'Disease', 'name': 'Cardiac arrest'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006996_2', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00326_MESH_D006947_1', 'disease': 'Hyperkalemia', 'disease_mesh': 'MESH:D006947', 'drug': 'calcium glucoheptonate', 'drug_mesh': 'MESH:C007852', 'drugbank': 'DB:DB00326'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C007852', 'target': 'GO:0060075'}, {'key': 'located in', 'source': 'GO:0060075', 'target': 'UBERON:0001133'}, {'key': 'decreases activity of', 'source': 'UBERON:0001133', 'target': 'MESH:D006947'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007852', 'label': 'Drug', 'name': 'calcium glucoheptonate'}, {'id': 'GO:0060075', 'label': 'BiologicalProcess', 'name': 'resting membrane potential'}, {'id': 'UBERON:0001133', 'label': 'GrossAnatomicalStructure', 'name': 'cardiac muscle'}, {'id': 'MESH:D006947', 'label': 'Disease', 'name': 'Hyperkalemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00326']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D011618_1', 'disease': 'Psychotic disorder', 'disease_mesh': 'MESH:D011618', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D011618'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D011618', 'label': 'Disease', 'name': 'Psychotic disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00477']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D017118_1', 'disease': 'Acute intermittent porphyria', 'disease_mesh': 'MESH:D017118', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0033400'}, {'key': 'correlated with', 'source': 'HP:0033400', 'target': 'MESH:D017118'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0033400', 'label': 'PhenotypicFeature', 'name': 'Acute abdomen'}, {'id': 'MESH:D017118', 'label': 'Disease', 'name': 'Acute intermittent porphyria'}], 'reference': ['https://go.drugbank.com/drugs/DB00477']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00477', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6478116/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00477_MESH_D019958_1', 'disease': 'Disruptive behavior disorder', 'disease_mesh': 'MESH:D019958', 'drug': 'chlorpromazine', 'drug_mesh': 'MESH:D002746', 'drugbank': 'DB:DB00477'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002746', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'CHEBI:18243'}, {'key': 'correlated with', 'source': 'CHEBI:18243', 'target': 'GO:0032225'}, {'key': 'located in', 'source': 'GO:0032225', 'target': 'UBERON:0001017'}, {'key': 'prevents', 'source': 'UBERON:0001017', 'target': 'HP:0008760'}, {'key': 'correlated with', 'source': 'HP:0008760', 'target': 'MESH:D019958'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002746', 'label': 'Drug', 'name': 'chlorpromazine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'dopamine D2 receptor'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'GO:0032225', 'label': 'BiologicalProcess', 'name': 'regulation of synaptic transmission, dopaminergic'}, {'id': 'UBERON:0001017', 'label': 'GrossAnatomicalStructure', 'name': 'central nervous system'}, {'id': 'HP:0008760', 'label': 'PhenotypicFeature', 'name': 'violent behavior'}, {'id': 'MESH:D019958', 'label': 'Disease', 'name': 'Disruptive behavior disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00477']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00773_MESH_D013736_1', 'disease': 'Malignant tumor of testis', 'disease_mesh': 'MESH:D013736', 'drug': 'etoposide', 'drug_mesh': 'MESH:D005047', 'drugbank': 'DB:DB00773'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005047', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0003916'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000084'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000085'}, {'key': 'positively correlated with', 'source': 'GO:0000084', 'target': 'GO:0007049'}, {'key': 'positively correlated with', 'source': 'GO:0000085', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D013736'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005047', 'label': 'Drug', 'name': 'etoposide'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0003916', 'label': 'MolecularActivity', 'name': 'DNA topoisomerase activity'}, {'id': 'GO:0000084', 'label': 'BiologicalProcess', 'name': 'mitotic S phase'}, {'id': 'GO:0000085', 'label': 'BiologicalProcess', 'name': 'mitotic G2 phase'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'cell cycle'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D013736', 'label': 'Disease', 'name': 'Malignant tumor of testis'}], 'reference': ['https://go.drugbank.com/drugs/DB00773', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4652635/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00773_MESH_D055752_1', 'disease': 'Small cell carcinoma of lung', 'disease_mesh': 'MESH:D055752', 'drug': 'etoposide', 'drug_mesh': 'MESH:D005047', 'drugbank': 'DB:DB00773'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005047', 'target': 'UniProt:P11388'}, {'key': 'participates in', 'source': 'UniProt:P11388', 'target': 'GO:0003916'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000084'}, {'key': 'participates in', 'source': 'GO:0003916', 'target': 'GO:0000085'}, {'key': 'positively correlated with', 'source': 'GO:0000084', 'target': 'GO:0007049'}, {'key': 'positively correlated with', 'source': 'GO:0000085', 'target': 'GO:0007049'}, {'key': 'located in', 'source': 'GO:0007049', 'target': 'CL:0001063'}, {'key': 'correlated with', 'source': 'CL:0001063', 'target': 'MESH:D055752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005047', 'label': 'Drug', 'name': 'etoposide'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0003916', 'label': 'MolecularActivity', 'name': 'DNA topoisomerase activity'}, {'id': 'GO:0000084', 'label': 'BiologicalProcess', 'name': 'mitotic S phase'}, {'id': 'GO:0000085', 'label': 'BiologicalProcess', 'name': 'mitotic G2 phase'}, {'id': 'GO:0007049', 'label': 'BiologicalProcess', 'name': 'cell cycle'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D055752', 'label': 'Disease', 'name': 'Small cell carcinoma of lung'}], 'reference': ['https://go.drugbank.com/drugs/DB00773', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4652635/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00900_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'didanosine', 'drug_mesh': 'MESH:D016049', 'drugbank': 'DB:DB00900'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016049', 'target': 'MESH:C037773'}, {'key': 'decreases activity of', 'source': 'MESH:C037773', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016049', 'label': 'Drug', 'name': 'didanosine'}, {'id': 'MESH:C037773', 'label': 'ChemicalSubstance', 'name': 'dideoxyadenosine triphosphate'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00900#BE0004136']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'NCBITaxon:10239'}, {'key': 'causes', 'source': 'NCBITaxon:10239', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'NCBITaxon:10239', 'label': 'OrganismTaxon', 'name': 'Viruses'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D000080223_1', 'disease': 'Chronic idiopathic urticaria', 'disease_mesh': 'MESH:D000080223', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0043117', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000080223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'positive regulation of vascular permeability'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000080223', 'label': 'Disease', 'name': 'Chronic idiopathic urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6751347/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00967_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'desloratadine', 'drug_mesh': 'MESH:C121345', 'drugbank': 'DB:DB00967'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C121345', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C121345', 'label': 'Drug', 'name': 'desloratadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00967', 'https://en.wikipedia.org/wiki/Antihistamine#H1-antihistamines']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06663_MESH_D000308_1', 'disease': 'Hypercortisolism', 'disease_mesh': 'MESH:D000308', 'drug': 'pasireotide', 'drug_mesh': 'MESH:C517782', 'drugbank': 'DB:DB06663'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P30872'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P30874'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P32745'}, {'key': 'increases activity of', 'source': 'MESH:C517782', 'target': 'UniProt:P35346'}, {'key': 'participates in', 'source': 'UniProt:P30872', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P30874', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P32745', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'UniProt:P35346', 'target': 'GO:0051460'}, {'key': 'participates in', 'source': 'GO:0051460', 'target': 'GO:0051463'}, {'key': 'decreases abundance of', 'source': 'GO:0051463', 'target': 'CHEBI:17650'}, {'key': 'positively correlated with', 'source': 'CHEBI:17650', 'target': 'MESH:D000308'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C517782', 'label': 'Drug', 'name': 'pasireotide'}, {'id': 'UniProt:P30872', 'label': 'Protein', 'name': 'Somatostatin receptor type 1'}, {'id': 'UniProt:P30874', 'label': 'Protein', 'name': 'Somatostatin receptor type 2'}, {'id': 'UniProt:P32745', 'label': 'Protein', 'name': 'Somatostatin receptor type 3'}, {'id': 'UniProt:P35346', 'label': 'Protein', 'name': 'Somatostatin receptor type 5'}, {'id': 'GO:0051460', 'label': 'BiologicalProcess', 'name': 'negative regulation of corticotropin secretion'}, {'id': 'GO:0051463', 'label': 'BiologicalProcess', 'name': 'negative regulation of cortisol secretion'}, {'id': 'CHEBI:17650', 'label': 'ChemicalSubstance', 'name': 'cortisol'}, {'id': 'MESH:D000308', 'label': 'Disease', 'name': 'Hypercortisolism'}], 'reference': ['https://go.drugbank.com/drugs/DB06663', 'https://pubmed.ncbi.nlm.nih.gov/23462624/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08889_MESH_D009101_1', 'disease': 'Multiple myeloma', 'disease_mesh': 'MESH:D009101', 'drug': 'carfilzomib', 'drug_mesh': 'MESH:C524865, MESH:C519125', 'drugbank': 'DB:DB08889'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28074'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28062'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P20618'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P28065'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P49721'}, {'key': 'decreases activity of', 'source': 'DB:DB08889', 'target': 'UniProt:P40306'}, {'key': 'located in', 'source': 'UniProt:P28074', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P28062', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P20618', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P28065', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P49721', 'target': 'GO:0005839'}, {'key': 'located in', 'source': 'UniProt:P40306', 'target': 'GO:0005839'}, {'key': 'positively correlated with', 'source': 'GO:0005839', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D009101'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08889', 'label': 'Drug', 'name': 'carfilzomib'}, {'id': 'UniProt:P28074', 'label': 'Protein', 'name': 'Proteasome subunit beta type-5'}, {'id': 'UniProt:P28062', 'label': 'Protein', 'name': 'Proteasome subunit beta type-8'}, {'id': 'UniProt:P20618', 'label': 'Protein', 'name': 'Proteasome subunit beta type-1'}, {'id': 'UniProt:P28065', 'label': 'Protein', 'name': 'Proteasome subunit beta type-9'}, {'id': 'UniProt:P49721', 'label': 'Protein', 'name': 'Proteasome subunit beta type-2'}, {'id': 'UniProt:P40306', 'label': 'Protein', 'name': 'Proteasome subunit beta type-10'}, {'id': 'GO:0005839', 'label': 'CellularComponent', 'name': 'proteosome core complex'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D009101', 'label': 'Disease', 'name': 'Multiple myeloma'}], 'reference': ['https://go.drugbank.com/drugs/DB08889', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4849338/']}\n", - "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08899_MESH_D011471_1', 'disease': 'Malignant tumor of prostate', 'disease_mesh': 'MESH:D011471', 'drug': 'enzalutamide', 'drug_mesh': 'MESH:C540278', 'drugbank': 'DB:DB08899'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C540278', 'target': 'UniProt:P10275'}, {'key': 'participates in', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0006351'}, {'key': 'precedes', 'source': 'GO:0006351', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D011471'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C540278', 'label': 'Drug', 'name': 'enzalutamide'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'androgen receptor signaling pathway'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'gene transcription'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D011471', 'label': 'Disease', 'name': 'Malignant tumor of prostate'}], 'reference': ['https://go.drugbank.com/drugs/DB08899#BE0000132', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3721441/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D009203_1', 'disease': 'Myocardial infarction', 'disease_mesh': 'MESH:D009203', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'decreases abundance of', 'source': 'GO:0001516', 'target': 'MESH:D013928'}, {'key': 'decreases activity of', 'source': 'MESH:D013928', 'target': 'GO:0070527'}, {'key': 'prevents', 'source': 'GO:0070527', 'target': 'GO:0007596'}, {'key': 'causes', 'source': 'GO:0007596', 'target': 'MESH:D009203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood clotting'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'MESH:D009203', 'label': 'Disease', 'name': 'Myocardial infarction'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D010146_2', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D014098_1', 'disease': 'Toothache', 'disease_mesh': 'MESH:D014098', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D014098'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D014098', 'label': 'Disease', 'name': 'Toothache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D020773_1', 'disease': 'Headache', 'disease_mesh': 'MESH:D020773', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0025280'}, {'key': 'correlated with', 'source': 'HP:0025280', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0025280', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'HP:0003418'}, {'key': 'correlated with', 'source': 'HP:0003418', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'HP:0003418', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Commonly known or available as Aspirin', 'directed': True, 'graph': {'_id': 'DB00945_MESH_D018771_1', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Acetylsalicylic acid', 'drug_mesh': 'MESH:D001241', 'drugbank': 'DB:DB00945'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'GO:0001516'}, {'key': 'decreases activity of', 'source': 'MESH:D001241', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'GO:0001516'}, {'key': 'ameliorates', 'source': 'GO:0001516', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001241', 'label': 'Drug', 'name': 'Acetylsalicylic acid'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'GO:0001516', 'label': 'BiologicalProcess', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00945#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Aspirin#section=Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'ameliorates', 'source': 'MESH:D019587', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D005494_1', 'disease': 'Folic acid deficiency', 'disease_mesh': 'MESH:D005494', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'positively regulates', 'source': 'MESH:D019587', 'target': 'UniProt:Q99707'}, {'key': 'regulates', 'source': 'UniProt:Q99707', 'target': 'MESH:D006710'}, {'key': 'manifestation of', 'source': 'MESH:D006710', 'target': 'MESH:D005494'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'UniProt:Q99707', 'label': 'Protein', 'name': 'Methionine synthase'}, {'id': 'MESH:D006710', 'label': 'ChemicalSubstance', 'name': 'Homocysteine'}, {'id': 'MESH:D005494', 'label': 'Disease', 'name': 'Folic acid deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00158_MESH_D018798_1', 'disease': 'Iron deficiency anemia', 'disease_mesh': 'MESH:D018798', 'drug': 'Folic acid', 'drug_mesh': 'MESH:D005492', 'drugbank': 'DB:DB00158'}, 'links': [{'key': 'part of', 'source': 'MESH:D005492', 'target': 'MESH:D019587'}, {'key': 'increases activity of', 'source': 'MESH:D019587', 'target': 'GO:0071897'}, {'key': 'positively regulates', 'source': 'GO:0071897', 'target': 'HP:0010972'}, {'key': 'produces', 'source': 'HP:0010972', 'target': 'CL:0000232'}, {'key': 'manifestation of', 'source': 'CL:0000232', 'target': 'MESH:D018798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005492', 'label': 'Drug', 'name': 'Folic acid'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'HP:0010972', 'label': 'PhenotypicFeature', 'name': 'Erythropoiesis'}, {'id': 'CL:0000232', 'label': 'Cell', 'name': 'Red blood cells'}, {'id': 'MESH:D018798', 'label': 'Disease', 'name': 'Iron deficiency anemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00158#mechanismofaction', 'https://en.wikipedia.org/wiki/Folate#Folate_deficiency']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00049_MESH_D033461_1', 'disease': 'Hyperuricemia', 'disease_mesh': 'MESH:D033461', 'drug': 'Rasburicase', 'drug_mesh': 'MESH:C469709', 'drugbank': 'DB:DB00049'}, 'links': [{'key': 'increases metabolic processing of', 'source': 'MESH:C469709', 'target': 'MESH:D014527'}, {'key': 'causes', 'source': 'MESH:D014527', 'target': 'MESH:D033461'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C469709', 'label': 'Drug', 'name': 'Rasburicase'}, {'id': 'MESH:D014527', 'label': 'ChemicalSubstance', 'name': 'Uric acid'}, {'id': 'MESH:D033461', 'label': 'Disease', 'name': 'Hyperuricemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00049#mechanismofaction', 'https://en.wikipedia.org/wiki/Rasburicase']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Thioguanine also referred to as 6-thioguanine and as tioguanine', 'directed': True, 'graph': {'_id': 'DB00352_MESH_D015470_1', 'disease': 'Acute myeloid leukemia', 'disease_mesh': 'MESH:D015470', 'drug': 'Thioguanine', 'drug_mesh': 'MESH:D013866', 'drugbank': 'DB:DB00352'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D013866', 'target': 'CHEBI:80613'}, {'key': 'decreases activity of', 'source': 'CHEBI:80613', 'target': 'UniProt:Q06203'}, {'key': 'decreases activity of', 'source': 'MESH:D013866', 'target': 'InterPro:IPR001093'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001093', 'target': 'GO:0046099'}, {'key': 'prevents', 'source': 'GO:0006164', 'target': 'GO:0032774'}, {'key': 'prevents', 'source': 'GO:0046099', 'target': 'GO:0032774'}, {'key': 'precedes', 'source': 'GO:0032774', 'target': 'GO:0008219'}, {'key': 'prevents', 'source': 'GO:0046099', 'target': 'GO:0071897'}, {'key': 'similar to', 'source': 'MESH:D013866', 'target': 'MESH:D006147'}, {'key': 'participates in', 'source': 'MESH:D006147', 'target': 'GO:0071897'}, {'key': 'participates in', 'source': 'MESH:D006147', 'target': 'GO:0032774'}, {'key': 'negatively regulates', 'source': 'UniProt:Q06203', 'target': 'GO:0006164'}, {'key': 'prevents', 'source': 'GO:0006164', 'target': 'GO:0071897'}, {'key': 'precedes', 'source': 'GO:0071897', 'target': 'GO:0008219'}, {'key': 'occurs in', 'source': 'GO:0008219', 'target': 'MESH:D015470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013866', 'label': 'Disease', 'name': 'Thioguanine'}, {'id': 'CHEBI:80613', 'label': 'ChemicalSubstance', 'name': '6-thioguanilyic acid'}, {'id': 'UniProt:Q06203', 'label': 'Protein', 'name': 'Glutamine-5-phosphoribosylpyrophosphate amidotransferase'}, {'id': 'GO:0006164', 'label': 'BiologicalProcess', 'name': 'Purine biosynthesis'}, {'id': 'GO:0071897', 'label': 'BiologicalProcess', 'name': 'DNA synthesis'}, {'id': 'InterPro:IPR001093', 'label': 'GeneFamily', 'name': 'Inosine-5′-monophosphate dehydrogenase'}, {'id': 'MESH:D006147', 'label': 'ChemicalSubstance', 'name': 'Guanine'}, {'id': 'GO:0046099', 'label': 'BiologicalProcess', 'name': 'Guanine synthesis'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA synthesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'MESH:D015470', 'label': 'Disease', 'name': 'Acute myeloid leukemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00352#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Thioguanine#section=Pharmacology', 'https://en.wikipedia.org/wiki/Tioguanine#Mechanism_of_action']}\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D005076_1', 'disease': 'Eruption of skin', 'disease_mesh': 'MESH:D005076', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D005076'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D005076', 'label': 'Disease', 'name': 'Eruption of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'Ammonium lactate is the ammonium salt of lactic acid', 'directed': True, 'graph': {'_id': 'DB06768_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'Ammonium lactate', 'drug_mesh': None, 'drugbank': 'DB:DB06768'}, 'links': [{'key': 'capable of', 'source': 'DB:DB06768', 'target': 'MESH:D058427'}, {'key': 'negatively regulates', 'source': 'MESH:D058427', 'target': 'GO:0070268'}, {'key': 'location of', 'source': 'GO:0070268', 'target': 'UBERON:0002027'}, {'key': 'contributes to', 'source': 'UBERON:0002027', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB06768', 'label': 'Drug', 'name': 'Ammonium lactate'}, {'id': 'MESH:D058427', 'label': 'ChemicalSubstance', 'name': 'Humectant'}, {'id': 'GO:0070268', 'label': 'BiologicalProcess', 'name': 'Cornification'}, {'id': 'UBERON:0002027', 'label': 'GrossAnatomicalStructure', 'name': 'Stratum corneum of epidermis'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB06768#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Ammonium-lactate#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00610_MESH_D007022_1', 'disease': 'Low blood pressure', 'disease_mesh': 'MESH:D007022', 'drug': 'metaraminol', 'drug_mesh': 'MESH:D008680', 'drugbank': 'DB:DB00610'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D008680', 'target': 'UniProt:P35348'}, {'key': 'positively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'UniProt:P35348', 'target': 'GO:0060048'}, {'key': 'negatively correlated with', 'source': 'GO:0060048', 'target': 'MESH:D007022'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D007022'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008680', 'label': 'Drug', 'name': 'metaraminol'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'cardiac muscle contraction'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'MESH:D007022', 'label': 'Disease', 'name': 'Low blood pressure'}], 'reference': ['https://go.drugbank.com/drugs/DB00610#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D015863_1', 'disease': 'Iridocyclitis', 'disease_mesh': 'MESH:D015863', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D015863'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D015863', 'label': 'Disease', 'name': 'Iridocyclitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:55193'}, {'key': 'causes', 'source': 'NCBITaxon:55193', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia sp.'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Efficacy']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014848_1', 'disease': 'Vulvovaginitis', 'disease_mesh': 'MESH:D014848', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D014848'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D014848', 'label': 'Disease', 'name': 'Vulvovaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vaginitis#Infection', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'This disease is denoted as Chlamydial conjunctivitis in the original file.', 'directed': True, 'graph': {'_id': 'DB00634_MESH_D003235_1', 'disease': 'Conjunctivitis, Inclusion', 'disease_mesh': 'MESH:D003235', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D003235'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D003235', 'label': 'Disease', 'name': 'Conjunctivitis, Inclusion'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Chlamydia_trachomatis#Role_in_disease', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:1747'}, {'key': 'causes', 'source': 'NCBITaxon:1747', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:1747', 'label': 'OrganismTaxon', 'name': 'Cutibacterium acnes'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014605_1', 'disease': 'Uveitis', 'disease_mesh': 'MESH:D014605', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014605'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014605', 'label': 'Disease', 'name': 'Uveitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00634_MESH_D014141_1', 'disease': 'Trachoma', 'disease_mesh': 'MESH:D014141', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D013409', 'target': 'Pfam:PF00809'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00809', 'target': 'GO:0046656'}, {'key': 'in taxon', 'source': 'GO:0046656', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D014141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'Pfam:PF00809', 'label': 'GeneFamily', 'name': 'Dihydropteroate synthase'}, {'id': 'GO:0046656', 'label': 'BiologicalProcess', 'name': 'folic acid biosynthetic process'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D014141', 'label': 'Disease', 'name': 'Trachoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action', 'https://en.wikipedia.org/wiki/Sulfacetamide#Mechanisms_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00710_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'ibandronic acid', 'drug_mesh': 'MESH:C073007', 'drugbank': 'DB:DB00710'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:P14324'}, {'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:O95749'}, {'key': 'molecularly interacts with', 'source': 'MESH:C073007', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'positively correlated with', 'source': 'UniProt:P14324', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'UniProt:O95749', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'GO:0008299', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073007', 'label': 'Drug', 'name': 'ibandronic acid'}, {'id': 'UniProt:P14324', 'label': 'Protein', 'name': 'Farnesyl pyrophosphate synthase'}, {'id': 'UniProt:O95749', 'label': 'Protein', 'name': 'Geranylgeranyl pyrophosphate synthase'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'GO:0008299', 'label': 'BiologicalProcess', 'name': 'isoprenoid biosynthetic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00710#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/60852#section=Pharmacology', 'https://journals.sagepub.com/doi/10.4137/BTRI.S36138', 'https://pubmed.ncbi.nlm.nih.gov/16531132/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00710_MESH_D006934_1', 'disease': 'Hypercalcemia', 'disease_mesh': 'MESH:D006934', 'drug': 'ibandronic acid', 'drug_mesh': 'MESH:C073007', 'drugbank': 'DB:DB00710'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:P14324'}, {'key': 'decreases activity of', 'source': 'MESH:C073007', 'target': 'UniProt:O95749'}, {'key': 'molecularly interacts with', 'source': 'MESH:C073007', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'positively correlated with', 'source': 'UniProt:P14324', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'UniProt:O95749', 'target': 'GO:0008299'}, {'key': 'positively correlated with', 'source': 'GO:0008299', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D006934'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D006934'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D006934'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073007', 'label': 'Drug', 'name': 'ibandronic acid'}, {'id': 'UniProt:P14324', 'label': 'Protein', 'name': 'Farnesyl pyrophosphate synthase'}, {'id': 'UniProt:O95749', 'label': 'Protein', 'name': 'Geranylgeranyl pyrophosphate synthase'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'GO:0008299', 'label': 'BiologicalProcess', 'name': 'isoprenoid biosynthetic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'MESH:D006934', 'label': 'Disease', 'name': 'Hypercalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00710#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/60852#section=Pharmacology', 'https://en.wikipedia.org/wiki/Hypercalcaemia#Bisphosphonates_and_calcitonin', 'https://journals.sagepub.com/doi/10.4137/BTRI.S36138', 'https://pubmed.ncbi.nlm.nih.gov/16531132/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00754_MESH_D004830_1', 'disease': 'Epilepsy, Tonic-Clonic', 'disease_mesh': 'MESH:D004830', 'drug': 'ethotoin', 'drug_mesh': 'MESH:C084606', 'drugbank': 'DB:DB00754'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C084606', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0019228'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0019227'}, {'key': 'positively correlated with', 'source': 'GO:0019227', 'target': 'HP:0002069'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'HP:0002069'}, {'key': 'positively correlated with', 'source': 'HP:0002069', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084606', 'label': 'Drug', 'name': 'ethotoin'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'neuronal action potential propagation'}, {'id': 'HP:0002069', 'label': 'PhenotypicFeature', 'name': 'Bilateral tonic-clonic seizure'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Epilepsy, Tonic-Clonic'}], 'reference': ['https://www.ebi.ac.uk/chembl/target_report_card/CHEMBL2331043/', 'https://en.wikipedia.org/wiki/Ethotoin#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Phenytoin#Mechanism_of_action']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00827_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'cinoxacin', 'drug_mesh': 'MESH:D002937', 'drugbank': 'DB:DB00827'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002937', 'target': 'UniProt:P0AES4'}, {'key': 'positively regulates', 'source': 'UniProt:P0AES4', 'target': 'GO:0006261'}, {'key': 'precedes', 'source': 'GO:0006261', 'target': 'GO:0051301'}, {'key': 'in taxon', 'source': 'GO:0051301', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002937', 'label': 'Drug', 'name': 'cinoxacin'}, {'id': 'UniProt:P0AES4', 'label': 'Protein', 'name': 'DNA gyrase subunit A'}, {'id': 'GO:0006261', 'label': 'BiologicalProcess', 'name': 'DNA-dependent DNA replication'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00827#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'The drug is no longer FDA approved (https://en.wikipedia.org/wiki/Tocolytic#Types_of_agents).', 'directed': True, 'graph': {'_id': 'DB00867_MESH_D007752_1', 'disease': 'Premature labor', 'disease_mesh': 'MESH:D007752', 'drug': 'ritodrine', 'drug_mesh': 'MESH:D012312', 'drugbank': 'DB:DB00867'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D012312', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'GO:0044558'}, {'key': 'negatively correlated with', 'source': 'GO:0044558', 'target': 'MESH:D007752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012312', 'label': 'Drug', 'name': 'ritodrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0044558', 'label': 'BiologicalProcess', 'name': 'uterine smooth muscle relaxation'}, {'id': 'MESH:D007752', 'label': 'Disease', 'name': 'Premature labor'}], 'reference': ['https://go.drugbank.com/drugs/DB00867#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ritodrine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04920_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'clevidipine', 'drug_mesh': 'MESH:C118563', 'drugbank': 'DB:DB04920'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C118563', 'target': 'MESH:D020746'}, {'key': 'positively regulates', 'source': 'MESH:D020746', 'target': 'GO:0006816'}, {'key': 'positively regulates', 'source': 'GO:0006816', 'target': 'GO:0014829'}, {'key': 'contributes to', 'source': 'GO:0014829', 'target': 'MESH:D014655'}, {'key': 'positively correlated with', 'source': 'MESH:D014655', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C118563', 'label': 'Drug', 'name': 'clevidipine'}, {'id': 'MESH:D020746', 'label': 'GeneFamily', 'name': 'Calcium Channels, L-Type'}, {'id': 'GO:0014829', 'label': 'BiologicalProcess', 'name': 'vascular associated smooth muscle contraction'}, {'id': 'GO:0006816', 'label': 'BiologicalProcess', 'name': 'calcium ion transport'}, {'id': 'MESH:D014655', 'label': 'BiologicalProcess', 'name': 'Vascular Resistance'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB04920#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clevidipine#Basic_chemical_and_pharmacological_properties']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06636_MESH_D001228_1', 'disease': 'Aspergillosis', 'disease_mesh': 'MESH:D001228', 'drug': 'isavuconazonium', 'drug_mesh': 'MESH:C508735', 'drugbank': 'DB:DB06636'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C508735', 'target': 'Pfam:PF00067'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0008398'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0006696'}, {'key': 'positively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16933'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'negatively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16521'}, {'key': 'decreases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16521'}, {'key': 'negatively correlated with', 'source': 'CHEBI:16521', 'target': 'GO:0009277'}, {'key': 'contributes to', 'source': 'CHEBI:16933', 'target': 'GO:0009277'}, {'key': 'in taxon', 'source': 'GO:0009277', 'target': 'NCBITaxon:5052'}, {'key': 'causes', 'source': 'NCBITaxon:5052', 'target': 'MESH:D001228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C508735', 'label': 'Drug', 'name': 'isavuconazonium'}, {'id': 'Pfam:PF00067', 'label': 'GeneFamily', 'name': 'Cytochrome P450'}, {'id': 'GO:0008398', 'label': 'MolecularActivity', 'name': 'sterol 14-demethylase activity'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'CHEBI:16521', 'label': 'ChemicalSubstance', 'name': 'lanosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'fungal-type cell wall'}, {'id': 'NCBITaxon:5052', 'label': 'OrganismTaxon', 'name': 'Aspergillus sp.'}, {'id': 'MESH:D001228', 'label': 'Disease', 'name': 'Aspergillosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06636#mechanism-of-action', 'https://en.wikipedia.org/wiki/Isavuconazonium#Pharmacology']}\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06636_MESH_D009091_1', 'disease': 'Mucormycosis', 'disease_mesh': 'MESH:D009091', 'drug': 'isavuconazonium', 'drug_mesh': 'MESH:C508735', 'drugbank': 'DB:DB06636'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C508735', 'target': 'Pfam:PF00067'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0008398'}, {'key': 'positively regulates', 'source': 'Pfam:PF00067', 'target': 'GO:0006696'}, {'key': 'positively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16933'}, {'key': 'increases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'negatively correlated with', 'source': 'GO:0008398', 'target': 'CHEBI:16521'}, {'key': 'decreases abundance of', 'source': 'GO:0006696', 'target': 'CHEBI:16521'}, {'key': 'negatively correlated with', 'source': 'CHEBI:16521', 'target': 'GO:0009277'}, {'key': 'contributes to', 'source': 'CHEBI:16933', 'target': 'GO:0009277'}, {'key': 'in taxon', 'source': 'GO:0009277', 'target': 'NCBITaxon:4827'}, {'key': 'causes', 'source': 'NCBITaxon:4827', 'target': 'MESH:D009091'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C508735', 'label': 'Drug', 'name': 'isavuconazonium'}, {'id': 'Pfam:PF00067', 'label': 'GeneFamily', 'name': 'Cytochrome P450'}, {'id': 'GO:0008398', 'label': 'MolecularActivity', 'name': 'sterol 14-demethylase activity'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'CHEBI:16521', 'label': 'ChemicalSubstance', 'name': 'lanosterol'}, {'id': 'GO:0009277', 'label': 'CellularComponent', 'name': 'fungal-type cell wall'}, {'id': 'NCBITaxon:4827', 'label': 'OrganismTaxon', 'name': 'Mucorales'}, {'id': 'MESH:D009091', 'label': 'Disease', 'name': 'Mucormycosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06636#mechanism-of-action', 'https://en.wikipedia.org/wiki/Isavuconazonium#Pharmacology', 'https://en.wikipedia.org/wiki/Mucormycosis#Treatment']}\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09265_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'lixisenatide', 'drug_mesh': 'MESH:C479460', 'drugbank': 'DB:DB09265'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C479460', 'target': 'UniProt:P43220'}, {'key': 'participates in', 'source': 'UniProt:P43220', 'target': 'REACT:R-HSA-381676'}, {'key': 'participates in', 'source': 'UniProt:P43220', 'target': 'REACT:R-HSA-418555'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0014808'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-381676', 'target': 'GO:0014808'}, {'key': 'positively correlated with', 'source': 'GO:0014808', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C479460', 'label': 'Drug', 'name': 'lixisenatide'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'UniProt:P43220', 'label': 'Protein', 'name': 'Glucagon-like peptide 1 receptor'}, {'id': 'REACT:R-HSA-381676', 'label': 'Pathway', 'name': 'Glucagon-like Peptide-1 (GLP1) regulates insulin secretion'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'GO:0014808', 'label': 'BiologicalProcess', 'name': 'release of sequestered calcium ion into cytosol by sarcoplasmic reticulum'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB09265', 'https://en.wikipedia.org/wiki/Lixisenatide#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Glucagon-like_peptide-1_receptor#Function_and_therapeutic_potential']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'There seems to be no evidence linking sulfacetamide as treatment for Amebic infection. Sulfacetamide is an antibacterial type of drug (https://www.kegg.jp/entry/D05947) and it seems the drug has some anti-inflammatory role. Since the disease could lead to inflammation and ulceration of the colon perhaps there could be an anti-inflammation hypothesis but the drug is mainly available as eye drops and lotions (https://en.wikipedia.org/wiki/Sulfacetamide#Available_forms), and therefore unavailable to treat the intestinal tract in such formats. Note there are few amoeba species that may cause skin or eye issues (https://en.wikipedia.org/wiki/Acanthamoeba_keratitis), in which case sulfacetamide could potentially be an indication, albeit no evidence to prove this assumption has been found in databases or literature.', 'directed': True, 'graph': {'_id': 'DB00634_MESH_D000562_1', 'disease': 'Amebic infection', 'disease_mesh': 'MESH:D000562', 'drug': 'sulfacetamide', 'drug_mesh': 'MESH:D013409', 'drugbank': 'DB:DB00634'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013409', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013409', 'label': 'Drug', 'name': 'sulfacetamide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebic infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00634#mechanism-of-action']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The action of the drug on 5-HT2 receptors is of an inverse agonist (https://en.wikipedia.org/wiki/Inverse_agonist). The dopamine neurons are located in the mesolimbic dopaminergic system (BTO:0005591), which is a component pathway of the medial forebrain bundle (UBERON:0001910)(https://en.wikipedia.org/wiki/Medial_forebrain_bundle#Anatomy).', 'directed': True, 'graph': {'_id': 'DB08922_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'perospirone', 'drug_mesh': 'MESH:C065533', 'drugbank': 'DB:DB08922'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P08908'}, {'key': 'decreases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:C065533', 'target': 'UniProt:P28223'}, {'key': 'negatively correlated with', 'source': 'UniProt:P08908', 'target': 'HP:0000739'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014047'}, {'key': 'positively correlated with', 'source': 'GO:0014047', 'target': 'GO:0004952'}, {'key': 'positively correlated with', 'source': 'GO:0004952', 'target': 'HP:0000709'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000709'}, {'key': 'positively correlated with', 'source': 'HP:0000709', 'target': 'MESH:D012559'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0009834'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0100543'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0030213'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0012154'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0002465'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0000741'}, {'key': 'manifestation of', 'source': 'HP:0100543', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0030213', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0012154', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0002465', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0000741', 'target': 'MESH:D012559'}, {'key': 'manifestation of', 'source': 'HP:0000739', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065533', 'label': 'Drug', 'name': 'perospirone'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'GO:0014047', 'label': 'BiologicalProcess', 'name': 'glutamate secretion'}, {'id': 'GO:0004952', 'label': 'MolecularActivity', 'name': 'dopamine neurotransmitter receptor activity'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0009834', 'label': 'GrossAnatomicalStructure', 'name': 'dorsolateral prefrontal cortex'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0100543', 'label': 'PhenotypicFeature', 'name': 'Cognitive impairment'}, {'id': 'HP:0030213', 'label': 'PhenotypicFeature', 'name': 'Emotional blunting'}, {'id': 'HP:0012154', 'label': 'PhenotypicFeature', 'name': 'Anhedonia'}, {'id': 'HP:0002465', 'label': 'PhenotypicFeature', 'name': 'Poor speech'}, {'id': 'HP:0000741', 'label': 'PhenotypicFeature', 'name': 'Apathy'}, {'id': 'HP:0000709', 'label': 'PhenotypicFeature', 'name': 'Psychosis'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB08922#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antipsychotic#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Mesolimbic_pathway#Relation_to_neurological_and_psychological_disorders', 'https://en.wikipedia.org/wiki/Schizophrenia#Signs_and_symptoms', 'https://en.wikipedia.org/wiki/Dopaminergic_pathways#Pathways', 'https://en.wikipedia.org/wiki/Mesocortical_pathway', 'https://en.wikipedia.org/wiki/Dopamine_hypothesis_of_schizophrenia#Introduction', 'https://en.wikipedia.org/wiki/Atypical_antipsychotic#Pharmacology', 'https://en.wikipedia.org/wiki/5-HT1A_receptor#Function']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'MolecularActivity', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00180_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Flunisolide', 'drug_mesh': 'MESH:C007734', 'drugbank': 'DB:DB00180'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007734', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006939'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0006939', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007734', 'label': 'Drug', 'name': 'Flunisolide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00180', 'https://en.wikipedia.org/wiki/Leukotriene', 'https://en.wikipedia.org/wiki/Asthma']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00180_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Flunisolide', 'drug_mesh': 'MESH:C007734', 'drugbank': 'DB:DB00180'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C007734', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D017998'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0070254'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0043117'}, {'key': 'positively regulates', 'source': 'MESH:D017998', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'manifestation of', 'source': 'GO:0070254', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C007734', 'label': 'Drug', 'name': 'Flunisolide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D017998', 'label': 'ChemicalSubstance', 'name': 'Leukotriene D4'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'Mucus secretion'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00180', 'https://en.wikipedia.org/wiki/Leukotriene', 'https://en.wikipedia.org/wiki/Allergic_rhinitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The precise mechanism of action of ropinirole as a treatment for Restless Legs Syndrome is unknown, however, it is believed to be related to its ability to stimulate dopamine receptors', 'directed': True, 'graph': {'_id': 'DB00268_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Ropinirole', 'drug_mesh': 'MESH:C046649', 'drugbank': 'DB:DB00268'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046649', 'label': 'Drug', 'name': 'Ropinirole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB00268', 'https://en.wikipedia.org/wiki/Restless_legs_syndrome#Mechanism']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00268_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Ropinirole', 'drug_mesh': 'MESH:C046649', 'drugbank': 'DB:DB00268'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:C046649', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'disrupted by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C046649', 'label': 'Drug', 'name': 'Ropinirole'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'Dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'Nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00268', 'https://en.wikipedia.org/wiki/Parkinson%27s_disease']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00654_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Latanoprost', 'drug_mesh': 'MESH:C072042', 'drugbank': 'DB:DB00654'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C072042', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072042', 'label': 'Drug', 'name': 'Latanoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00654', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00654_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'Latanoprost', 'drug_mesh': 'MESH:C072042', 'drugbank': 'DB:DB00654'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C072042', 'target': 'UniProt:P43088'}, {'key': 'positively regulates', 'source': 'UniProt:P43088', 'target': 'GO:0008237'}, {'key': 'decreases abundance of', 'source': 'GO:0008237', 'target': 'GO:0031012'}, {'key': 'positively correlated with', 'source': 'GO:0031012', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'affects risk for', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072042', 'label': 'Drug', 'name': 'Latanoprost'}, {'id': 'UniProt:P43088', 'label': 'Protein', 'name': 'Prostaglandin F2-alpha receptor'}, {'id': 'GO:0008237', 'label': 'BiologicalProcess', 'name': 'Metallopeptidase activity'}, {'id': 'GO:0031012', 'label': 'CellularComponent', 'name': 'Extracellular matrix'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00654', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3991965/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00714_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Apomorphine', 'drug_mesh': 'MESH:D001058', 'drugbank': 'DB:DB00714'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'MESH:D001058', 'target': 'UniProt:P21917'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P21917', 'target': 'MESH:D004298'}, {'key': 'located in', 'source': 'MESH:D004298', 'target': 'UBERON:0035999'}, {'key': 'located in', 'source': 'UBERON:0035999', 'target': 'UBERON:0002038'}, {'key': 'part of', 'source': 'UBERON:0002038', 'target': 'UBERON:0014169'}, {'key': 'disrupted by', 'source': 'UBERON:0014169', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001058', 'label': 'Drug', 'name': 'Apomorphine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine D3 receptor'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine D4 receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'UBERON:0035999', 'label': 'GrossAnatomicalStructure', 'name': 'Dopaminergic cell groups'}, {'id': 'UBERON:0002038', 'label': 'GrossAnatomicalStructure', 'name': 'Substantia nigra'}, {'id': 'UBERON:0014169', 'label': 'GrossAnatomicalStructure', 'name': 'Nigrostriatal tract'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00714', 'https://en.wikipedia.org/wiki/Apomorphine#Pharmacology']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D003550_1', 'disease': 'Cystic fibrosis', 'disease_mesh': 'MESH:D003550', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'positively regulates', 'source': 'GO:0006972', 'target': 'GO:0120197'}, {'key': 'negatively correlated with', 'source': 'GO:0120197', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'GO:0120197', 'label': 'BiologicalProcess', 'name': 'Mucociliary clearance'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00742', 'https://en.wikipedia.org/wiki/Cystic_fibrosis#Pathophysiology']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'Aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D011559_1', 'disease': 'Benign intracranial hypertension', 'disease_mesh': 'MESH:D011559', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D011559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D011559', 'label': 'Disease', 'name': 'Benign intracranial hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00742_MESH_D001929_1', 'disease': 'Cerebral edema', 'disease_mesh': 'MESH:D001929', 'drug': 'Mannitol', 'drug_mesh': 'MESH:D008353', 'drugbank': 'DB:DB00742'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008353', 'target': 'GO:0006972'}, {'key': 'negatively regulates', 'source': 'GO:0006972', 'target': 'MESH:D001929'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008353', 'label': 'Drug', 'name': 'Mannitol'}, {'id': 'GO:0006972', 'label': 'BiologicalProcess', 'name': 'Hyperosmotic response'}, {'id': 'MESH:D001929', 'label': 'Disease', 'name': 'Cerebral edema'}], 'reference': ['https://go.drugbank.com/drugs/DB00742']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00745_MESH_D009290_1', 'disease': 'Narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'Modafinil', 'drug_mesh': 'MESH:C048833', 'drugbank': 'DB:DB00745'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C048833', 'target': 'UniProt:Q01959'}, {'key': 'increases abundance of', 'source': 'MESH:C048833', 'target': 'MESH:D006632'}, {'key': 'increases abundance of', 'source': 'MESH:C048833', 'target': 'UniProt:O43612'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q01959', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D006632', 'target': 'GO:0042746'}, {'key': 'positively correlated with', 'source': 'UniProt:O43612', 'target': 'GO:0042746'}, {'key': 'negatively correlated with', 'source': 'GO:0042746', 'target': 'MESH:D009290'}, {'key': 'participates in', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C048833', 'label': 'Drug', 'name': 'Modafinil'}, {'id': 'UniProt:Q01959', 'label': 'Protein', 'name': 'Sodium-dependent dopamine transporter'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:O43612', 'label': 'Protein', 'name': 'Orexin'}, {'id': 'GO:0042746', 'label': 'BiologicalProcess', 'name': 'Circadian sleep/wake cycle, wakefulness'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Narcolepsy'}], 'reference': ['https://en.wikipedia.org/wiki/Modafinil#Pharmacology', 'https://go.drugbank.com/drugs/DB00745', 'https://pubmed.ncbi.nlm.nih.gov/29616340/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04931_MESH_D046351_2', 'disease': 'Erythropoietic protoporphyria', 'disease_mesh': 'MESH:D046351', 'drug': 'Afamelanotide', 'drug_mesh': 'MESH:C534526', 'drugbank': 'DB:DB04931'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C534526', 'target': 'UniProt:Q01726'}, {'key': 'participates in', 'source': 'UniProt:Q01726', 'target': 'GO:0004977'}, {'key': 'positively regulates', 'source': 'GO:0004977', 'target': 'GO:0042438'}, {'key': 'positively correlated with', 'source': 'GO:0042438', 'target': 'GO:0009650'}, {'key': 'negatively correlated with', 'source': 'GO:0009650', 'target': 'HP:0000992'}, {'key': 'manifestation of', 'source': 'HP:0000992', 'target': 'MESH:D046351'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C534526', 'label': 'Drug', 'name': 'Afamelanotide'}, {'id': 'UniProt:Q01726', 'label': 'Protein', 'name': 'Melanocyte-stimulating hormone receptor'}, {'id': 'GO:0004977', 'label': 'MolecularActivity', 'name': 'Melanocortin receptor activity'}, {'id': 'GO:0042438', 'label': 'BiologicalProcess', 'name': 'Melanin biosynthetic process'}, {'id': 'GO:0009650', 'label': 'BiologicalProcess', 'name': 'UV protection'}, {'id': 'HP:0000992', 'label': 'PhenotypicFeature', 'name': 'Cutaneous photosensitivity'}, {'id': 'MESH:D046351', 'label': 'Drug', 'name': 'Erythropoietic protoporphyria'}], 'reference': ['https://go.drugbank.com/drugs/DB04931#BE0002447', 'https://en.wikipedia.org/wiki/Erythropoietic_protoporphyria']}\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D018771_1', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D018771_2', 'disease': 'Joint pain', 'disease_mesh': 'MESH:D018771', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D018771'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D018771', 'label': 'Disease', 'name': 'Joint pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D001416_1', 'disease': 'Backache', 'disease_mesh': 'MESH:D001416', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'participates in', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'contributes to', 'source': 'GO:0006954', 'target': 'MESH:D001416'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001416', 'label': 'Disease', 'name': 'Backache'}], 'reference': ['https://go.drugbank.com/drugs/DB08797']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Salicylamide belongs to a group of drugs called Non-Steroidal Anti-Inflammatory Drug (NSAIDs) https://link.springer.com/referenceworkentry/10.1007%2F978-3-540-29805-2_2823', 'directed': True, 'graph': {'_id': 'DB08797_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'Salicylamide', 'drug_mesh': 'MESH:C524082,MESH:C031060', 'drugbank': 'DB:DB08797'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'DB:DB08797', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'occurs in', 'source': 'MESH:D011453', 'target': 'UBERON:0000955'}, {'key': 'location of', 'source': 'UBERON:0000955', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB08797', 'label': 'Drug', 'name': 'Salicylamide'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'UBERON:0000955', 'label': 'GrossAnatomicalStructure', 'name': 'Brain'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature Homeostasis'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB08797', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6047205/']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'Nusinersen modulates alternative splicing of the SMN2 gene, functionally converting it into SMN1 gene, thus increasing the level of SMN protein in the CNS.', 'directed': True, 'graph': {'_id': 'DB13161_MESH_D009134_1', 'disease': 'Spinal muscular atrophy', 'disease_mesh': 'MESH:D009134', 'drug': 'Nusinersen', 'drug_mesh': 'MESH:C000590926', 'drugbank': 'DB:DB13161'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C000590926', 'target': 'GO:0000380'}, {'key': 'produces', 'source': 'GO:0000380', 'target': 'UniProt:B4DP61'}, {'key': 'disrupted by', 'source': 'UniProt:B4DP61', 'target': 'MESH:D009134'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000590926', 'label': 'Drug', 'name': 'Nusinersen'}, {'id': 'GO:0000380', 'label': 'BiologicalProcess', 'name': 'Alternative mRNA splicing, via spliceosome'}, {'id': 'UniProt:B4DP61', 'label': 'Protein', 'name': 'Survival motor neuron protein'}, {'id': 'MESH:D009134', 'label': 'Disease', 'name': 'Spinal muscular atrophy'}], 'reference': ['https://go.drugbank.com/drugs/DB13161', 'https://en.wikipedia.org/wiki/Nusinersen']}\n", - "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", - "{'comment': 'Mesalazine is the active moiety of sulfasalazine, which is metabolized to sulfapyridine and mesalazine.', 'directed': True, 'graph': {'_id': 'DB00244_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'Mesalazine', 'drug_mesh': 'MESH:D019804', 'drugbank': 'DB:DB00244'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P09917'}, {'key': 'increases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P37231'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P09917', 'target': 'MESH:D015289'}, {'key': 'negatively regulates', 'source': 'UniProt:P37231', 'target': 'GO:0038061'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D015289', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0038061', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019804', 'label': 'Drug', 'name': 'Mesalazine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Polyunsaturated fatty acid 5-lipoxygenase'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D015289', 'label': 'ChemicalSubstance', 'name': 'Leukotrienes'}, {'id': 'GO:0038061', 'label': 'BiologicalProcess', 'name': 'NIK/NF-kappaB signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00244#BE0000248', 'https://link.springer.com/article/10.1186/s13020-020-0296-z', 'https://www.uniprot.org/uniprot/P37231']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00337_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Pimecrolimus', 'drug_mesh': 'MESH:C117268', 'drugbank': 'DB:DB00337'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C117268', 'target': 'UniProt:Q08209'}, {'key': 'negatively regulates', 'source': 'MESH:C117268', 'target': 'GO:0043303'}, {'key': 'positively regulates', 'source': 'UniProt:Q08209', 'target': 'GO:0032623'}, {'key': 'positively correlated with', 'source': 'GO:0043303', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'GO:0032623', 'target': 'GO:0042110'}, {'key': 'positively correlated with', 'source': 'GO:0042110', 'target': 'GO:0006955'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C117268', 'label': 'Drug', 'name': 'Pimecrolimus'}, {'id': 'UniProt:Q08209', 'label': 'Protein', 'name': 'Serine/threonine-protein phosphatase 2B catalytic subunit alpha isoform'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'GO:0032623', 'label': 'BiologicalProcess', 'name': 'Interleukin-2 production'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0042110', 'label': 'BiologicalProcess', 'name': 'T cell activation'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://en.wikipedia.org/wiki/Pimecrolimus', 'https://go.drugbank.com/drugs/DB00337', 'https://en.wikipedia.org/wiki/Immunosuppressive_drug#Drugs_acting_on_immunophilins']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00705_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Delavirdine', 'drug_mesh': 'MESH:D020008', 'drugbank': 'DB:DB00705'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D020008', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0001171'}, {'key': 'positively correlated with', 'source': 'GO:0001171', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D020008', 'label': 'Drug', 'name': 'Delavirdine'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0001171', 'label': 'BiologicalProcess', 'name': 'Reverse transcription'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00705']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Phytomenadione promotes calcification of bones and teeth and can be supplemented together with calcium sources in cases of hypocalcemia. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/', 'https://en.wikipedia.org/wiki/Hypocalcemia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Phytomenadione promotes calcification of bones and can be supplemented together with calcium sources in cases of postmenopausal osteoporosis. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Phytomenadione promotes calcification of bones and can be supplemented together with calcium sources in cases of postmenopausal osteoporosis. Additionally phytomenadione may prevent arterial calcification in case of calcium supplementation https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4566462/', 'directed': True, 'graph': {'_id': 'DB01022_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Phytomenadione', 'drug_mesh': 'MESH:D014812', 'drugbank': 'DB:DB01022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014812', 'target': 'UniProt:P02818'}, {'key': 'positively regulates', 'source': 'UniProt:P02818', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014812', 'label': 'Drug', 'name': 'Phytomenadione'}, {'id': 'UniProt:P02818', 'label': 'Protein', 'name': 'Osteocalcin'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01022', 'https://pubmed.ncbi.nlm.nih.gov/3530901/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Orphenadrine restores the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_1', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01173_MESH_D009128_1', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:O15399'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:Q05586'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:O60391'}, {'key': 'decreases activity of', 'source': 'MESH:D009966', 'target': 'UniProt:Q8TCU5'}, {'key': 'positively correlated with', 'source': 'UniProt:O15399', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:Q05586', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:O60391', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'UniProt:Q8TCU5', 'target': 'GO:0035249'}, {'key': 'positively correlated with', 'source': 'GO:0035249', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'UniProt:O15399', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 2D'}, {'id': 'UniProt:Q05586', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 1'}, {'id': 'UniProt:O60391', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 3B'}, {'id': 'UniProt:Q8TCU5', 'label': 'Protein', 'name': 'Glutamate receptor ionotropic, NMDA 3A'}, {'id': 'GO:0035249', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, glutamatergic'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01173#BE0000396', 'https://pubmed.ncbi.nlm.nih.gov/1337136/', 'https://en.wikipedia.org/wiki/Orphenadrine']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D004756_1', 'disease': 'Infection due to Enterobacteriaceae', 'disease_mesh': 'MESH:D004756', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D004756'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D004756', 'label': 'Disease', 'name': 'Infection due to Enterobacteriaceae'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01326_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefamandole', 'drug_mesh': 'MESH:D002435', 'drugbank': 'DB:DB01326'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002435', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002435', 'label': 'Drug', 'name': 'Cefamandole'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01326']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06216_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Asenapine', 'drug_mesh': 'MESH:C522667', 'drugbank': 'DB:DB06216'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C522667', 'target': 'UniProt:P28223'}, {'key': 'decreases activity of', 'source': 'MESH:C522667', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P28223', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'occurs in', 'source': 'HP:0000716', 'target': 'MESH:D012559'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C522667', 'label': 'Drug', 'name': 'Asenapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine receptors'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/27356921/', 'https://go.drugbank.com/drugs/DB06216#BE0000451', 'https://en.wikipedia.org/wiki/5-HT2A_receptor']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06439_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Tyloxapol', 'drug_mesh': 'MESH:C016811', 'drugbank': 'DB:DB06439'}, 'links': [{'key': 'capable of', 'source': 'MESH:C016811', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016811', 'label': 'Drug', 'name': 'Tyloxapol'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06439', 'https://en.wikipedia.org/wiki/Infant_respiratory_distress_syndrome', 'https://en.wikipedia.org/wiki/Tyloxapol']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn. The mechanism of action of aurothioglucose is not well elucidated.', 'directed': True, 'graph': {'_id': 'DB09121_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'Aurothioglucose', 'drug_mesh': 'MESH:D006051', 'drugbank': 'DB:DB09121'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006051', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006051', 'label': 'Drug', 'name': 'Aurothioglucose'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09121', 'https://en.wikipedia.org/wiki/Gold_salts#Mechanism_in_arthritis']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn. The mechanism of action of aurothioglucose is not well elucidated.', 'directed': True, 'graph': {'_id': 'DB09121_MESH_D001171_1', 'disease': 'Juvenile rheumatoid arthritis', 'disease_mesh': 'MESH:D001171', 'drug': 'Aurothioglucose', 'drug_mesh': 'MESH:D006051', 'drugbank': 'DB:DB09121'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006051', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006051', 'label': 'Drug', 'name': 'Aurothioglucose'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Juvenile rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09121', 'https://en.wikipedia.org/wiki/Gold_salts#Mechanism_in_arthritis']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09270_MESH_D006333_1', 'disease': 'Congestive heart failure', 'disease_mesh': 'MESH:D006333', 'drug': 'Ubidecarenone', 'drug_mesh': 'MESH:C010524', 'drugbank': 'DB:DB09270'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C010524', 'target': 'UniProt:P56181'}, {'key': 'increases activity of', 'source': 'MESH:C010524', 'target': 'UniProt:P31040'}, {'key': 'positively regulates', 'source': 'UniProt:P56181', 'target': 'GO:0042773'}, {'key': 'positively regulates', 'source': 'UniProt:P31040', 'target': 'GO:0042773'}, {'key': 'increases abundance of', 'source': 'GO:0042773', 'target': 'CHEBI:15422'}, {'key': 'participates in', 'source': 'CHEBI:15422', 'target': 'GO:0060047'}, {'key': 'negatively correlated with', 'source': 'GO:0060047', 'target': 'MESH:D006333'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010524', 'label': 'Drug', 'name': 'Ubidecarenone'}, {'id': 'UniProt:P56181', 'label': 'Protein', 'name': 'NADH dehydrogenase [ubiquinone] flavoprotein 3, mitochondrial'}, {'id': 'UniProt:P31040', 'label': 'Protein', 'name': 'Succinate dehydrogenase [ubiquinone] flavoprotein subunit, mitochondrial'}, {'id': 'GO:0042773', 'label': 'BiologicalProcess', 'name': 'ATP synthesis coupled electron transport'}, {'id': 'CHEBI:15422', 'label': 'ChemicalSubstance', 'name': 'ATP'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'MESH:D006333', 'label': 'Drug', 'name': 'Congestive heart failure'}], 'reference': ['https://go.drugbank.com/drugs/DB09270#BE0000176']}\n", - "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Anicholinergic drugs restore the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_2', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Orphenadrine works centrally and interferes with reflex pathways for pain and skeletal muscle contraction. The precise mechanism of action of orphenadrine is not known, but it appears to indirectly relieve muscle spasm through central atropine-like effects, although its mild antihistaminic activity may have a role.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D009128_2', 'disease': 'Spasticity', 'disease_mesh': 'MESH:D009128', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'treats', 'source': 'MESH:D009966', 'target': 'MESH:D009128'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'MESH:D009128', 'label': 'Disease', 'name': 'Spasticity'}], 'reference': ['https://go.drugbank.com/drugs/DB01173#BE0000396', 'https://pubmed.ncbi.nlm.nih.gov/1864455/', 'https://pubmed.ncbi.nlm.nih.gov/25050056/']}\n", - "['Drug', 'Disease']\n", - "{'comments': 'Although the mechanism of action has not been determined, orphenadrine appears to be a nonselective muscarinic antagonist https://en.wikipedia.org/wiki/Orphenadrine#Pharmacology Parkinsonian syndromes are often the consequence of a disturbed balance between cholinergic and dopaminergic neurotransmission in the basal ganglia caused by a decrease in dopamine. Muscarinic antagonists restore the physiological equilibrium and has a favourable effect on the rigidity and tremor of and Parkinsonian syndromes https://www.cell.com/neuron/fulltext/S0896-6273(19)30563-X.', 'directed': True, 'graph': {'_id': 'DB01173_MESH_D020734_3', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Orphenadrine', 'drug_mesh': 'MESH:D009966', 'drugbank': 'DB:DB01173'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D009966', 'target': 'REACT:R-HSA-390648'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-390648', 'target': 'GO:0007271'}, {'key': 'positively correlated with', 'source': 'GO:0007271', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009966', 'label': 'Drug', 'name': 'Orphenadrine'}, {'id': 'REACT:R-HSA-390648', 'label': 'Pathway', 'name': 'Muscarinic acetylcholine receptors'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, cholinergic'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://go.drugbank.com/drugs/DB01173', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08808_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'bupranolol', 'drug_mesh': 'MESH:D002046', 'drugbank': 'DB:DB08808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002046', 'target': 'InterPro:cd15058'}, {'key': 'positively regulates', 'source': 'InterPro:cd15058', 'target': 'UBERON:0000013'}, {'key': 'positively correlated with', 'source': 'UBERON:0000013', 'target': 'UBERON:0018229'}, {'key': 'positively correlated with', 'source': 'UBERON:0018229', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002046', 'label': 'Drug', 'name': 'bupranolol'}, {'id': 'InterPro:cd15058', 'label': 'GeneFamily', 'name': 'beta adrenergic receptors (adenoceptors), member of the class A family of seven-transmembrane G protein-coupled receptors'}, {'id': 'UBERON:0000013', 'label': 'GrossAnatomicalStructure', 'name': 'sympathetic nervous system'}, {'id': 'UBERON:0018229', 'label': 'GrossAnatomicalStructure', 'name': 'renin-angiotensin system'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB08808#mechanism-of-action', 'https://en.wikipedia.org/wiki/Beta_blocker#%CE%B2-receptor_antagonism']}\n", - "['Drug', 'GeneFamily', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08808_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'bupranolol', 'drug_mesh': 'MESH:D002046', 'drugbank': 'DB:DB08808'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002046', 'target': 'InterPro:cd15058'}, {'key': 'positively correlated with', 'source': 'InterPro:cd15058', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002046', 'label': 'Drug', 'name': 'bupranolol'}, {'id': 'InterPro:cd15058', 'label': 'GeneFamily', 'name': 'beta adrenergic receptors (adenoceptors), member of the class A family of seven-transmembrane G protein-coupled receptors'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB08808#mechanism-of-action']}\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Disease is also known as Infection by Onchocerca volvulus as per the original file.', 'directed': True, 'graph': {'_id': 'DB00602_MESH_D009855_2', 'disease': 'Onchocerciasis', 'disease_mesh': 'MESH:D009855', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'positively regulates', 'source': 'InterPro:IPR015680', 'target': 'GO:0005254'}, {'key': 'positively correlated with', 'source': 'GO:0005254', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099565'}, {'key': 'in taxon', 'source': 'GO:0099565', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'Glutamate-Gated Chloride Channel'}, {'id': 'GO:0005254', 'label': 'MolecularActivity', 'name': 'chloride channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0099565', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission, postsynaptic'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Onchocerciasis'}], 'reference': ['https://en.wikipedia.org/wiki/Ivermectin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00602#mechanism-of-action', 'https://en.wikipedia.org/wiki/Onchocerciasis#Ivermectin']}\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Disease is denoted Infection by Strongyloides in the original file.', 'directed': True, 'graph': {'_id': 'DB00602_MESH_D013322_1', 'disease': 'Strongyloidiasis', 'disease_mesh': 'MESH:D013322', 'drug': 'ivermectin', 'drug_mesh': 'MESH:D007559', 'drugbank': 'DB:DB00602'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007559', 'target': 'InterPro:IPR015680'}, {'key': 'positively regulates', 'source': 'InterPro:IPR015680', 'target': 'GO:0005254'}, {'key': 'positively correlated with', 'source': 'GO:0005254', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099565'}, {'key': 'in taxon', 'source': 'GO:0099565', 'target': 'NCBITaxon:6248'}, {'key': 'causes', 'source': 'NCBITaxon:6248', 'target': 'MESH:D013322'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007559', 'label': 'Drug', 'name': 'ivermectin'}, {'id': 'InterPro:IPR015680', 'label': 'GeneFamily', 'name': 'Glutamate-Gated Chloride Channel'}, {'id': 'GO:0005254', 'label': 'MolecularActivity', 'name': 'chloride channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'GO:0099565', 'label': 'BiologicalProcess', 'name': 'chemical synaptic transmission, postsynaptic'}, {'id': 'NCBITaxon:6248', 'label': 'OrganismTaxon', 'name': 'Strongyloides stercoralis'}, {'id': 'MESH:D013322', 'label': 'Disease', 'name': 'Strongyloidiasis'}], 'reference': ['https://en.wikipedia.org/wiki/Ivermectin#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00602#mechanism-of-action', 'https://en.wikipedia.org/wiki/Strongyloidiasis#Treatment']}\n", - "['Drug', 'GeneFamily', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Balsalazide is a prodrug and it releases mesalazine in the large intestine, the active site of ulcerative colitis (https://en.wikipedia.org/wiki/Balsalazide https://en.wikipedia.org/wiki/Mesalazine#Chemistry).', 'directed': True, 'graph': {'_id': 'DB01014_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'balsalazide', 'drug_mesh': 'MESH:C038637', 'drugbank': 'DB:DB01014'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C038637', 'target': 'MESH:D019804'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P35354'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:O15111'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:O14920'}, {'key': 'positively regulates', 'source': 'UniProt:O14920', 'target': 'GO:0007249'}, {'key': 'positively regulates', 'source': 'UniProt:O15111', 'target': 'GO:0007249'}, {'key': 'positively correlated with', 'source': 'GO:0007249', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P09917'}, {'key': 'increases activity of', 'source': 'MESH:D019804', 'target': 'UniProt:P37231'}, {'key': 'negatively correlated with', 'source': 'UniProt:P37231', 'target': 'REACT:R-HSA-1169091'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-1169091', 'target': 'GO:0006954'}, {'key': 'participates in', 'source': 'UniProt:P09917', 'target': 'REACT:R-HSA-2142691'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2162123', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-2142691', 'target': 'GO:0006954'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001052'}, {'key': 'located in', 'source': 'GO:0006954', 'target': 'UBERON:0001155'}, {'key': 'location of', 'source': 'UBERON:0001052', 'target': 'MESH:D003093'}, {'key': 'location of', 'source': 'UBERON:0001155', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C038637', 'label': 'Drug', 'name': 'balsalazide'}, {'id': 'MESH:D019804', 'label': 'ChemicalSubstance', 'name': 'Mesalamine'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Polyunsaturated fatty acid 5-lipoxygenase'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma'}, {'id': 'UniProt:O15111', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit alpha'}, {'id': 'UniProt:O14920', 'label': 'Protein', 'name': 'Inhibitor of nuclear factor kappa-B kinase subunit beta'}, {'id': 'GO:0007249', 'label': 'BiologicalProcess', 'name': 'I-kappaB kinase/NF-kappaB signaling'}, {'id': 'REACT:R-HSA-2142691', 'label': 'Pathway', 'name': 'Synthesis of Leukotrienes (LT) and Eoxins (EX)'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'REACT:R-HSA-1169091', 'label': 'Pathway', 'name': 'Activation of NF-kappaB in B cells'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'UBERON:0001052', 'label': 'GrossAnatomicalStructure', 'name': 'rectum'}, {'id': 'UBERON:0001155', 'label': 'GrossAnatomicalStructure', 'name': 'colon'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01014#mechanism-of-action', 'https://go.drugbank.com/drugs/DB00244#mechanism-of-action', 'https://pubmed.ncbi.nlm.nih.gov/20151072/', 'https://go.drugbank.com/drugs/DB00244#BE0004655', 'https://en.wikipedia.org/wiki/CHUK#Clinical_significance', 'https://en.wikipedia.org/wiki/IKK2#Clinical_significance']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'Pathway', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01224_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'quetiapine', 'drug_mesh': 'MESH:D000069348', 'drugbank': 'DB:DB01224'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P14416'}, {'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P28223'}, {'key': 'positively regulates', 'source': 'UniProt:P28223', 'target': 'GO:0014046'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0014046'}, {'key': 'increases abundance of', 'source': 'GO:0014046', 'target': 'CHEBI:18243'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0001910'}, {'key': 'correlated with', 'source': 'UBERON:0001910', 'target': 'HP:0000709'}, {'key': 'positively correlated with', 'source': 'HP:0000709', 'target': 'MESH:D012559'}, {'key': 'located in', 'source': 'CHEBI:18243', 'target': 'UBERON:0009834'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0100543'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0030213'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0012154'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0002465'}, {'key': 'correlated with', 'source': 'UBERON:0009834', 'target': 'HP:0000741'}, {'key': 'positively correlated with', 'source': 'HP:0100543', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0030213', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0012154', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0002465', 'target': 'MESH:D012559'}, {'key': 'positively correlated with', 'source': 'HP:0000741', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069348', 'label': 'Drug', 'name': 'quetiapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 2A'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'GO:0014046', 'label': 'BiologicalProcess', 'name': 'dopamine secretion'}, {'id': 'CHEBI:18243', 'label': 'ChemicalSubstance', 'name': 'dopamine'}, {'id': 'UBERON:0009834', 'label': 'GrossAnatomicalStructure', 'name': 'dorsolateral prefrontal cortex'}, {'id': 'UBERON:0001910', 'label': 'GrossAnatomicalStructure', 'name': 'medial forebrain bundle'}, {'id': 'HP:0100543', 'label': 'PhenotypicFeature', 'name': 'Cognitive impairment'}, {'id': 'HP:0030213', 'label': 'PhenotypicFeature', 'name': 'Emotional blunting'}, {'id': 'HP:0012154', 'label': 'PhenotypicFeature', 'name': 'Anhedonia'}, {'id': 'HP:0002465', 'label': 'PhenotypicFeature', 'name': 'Poor speech'}, {'id': 'HP:0000741', 'label': 'PhenotypicFeature', 'name': 'Apathy'}, {'id': 'HP:0000709', 'label': 'PhenotypicFeature', 'name': 'Psychosis'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB01224#mechanism-of-action', 'https://go.drugbank.com/drugs/DB01224#BE0000451', 'https://go.drugbank.com/drugs/DB01224#BE0000756']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Imatinib also modulates other protein targets and is an indication for other malignancies (https://en.wikipedia.org/wiki/Imatinib#Medical_uses).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D015466_1', 'disease': 'Chronic phase chronic myeloid leukemia', 'disease_mesh': 'MESH:D015466', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'MESH:D016044'}, {'key': 'positively regulates', 'source': 'MESH:D016044', 'target': 'GO:0004674'}, {'key': 'positively correlated with', 'source': 'GO:0004674', 'target': 'GO:0007266'}, {'key': 'positively correlated with', 'source': 'GO:0007266', 'target': 'GO:0008283'}, {'key': 'negatively correlated with', 'source': 'GO:0007266', 'target': 'GO:0006915'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D015466'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D015466'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'GO:0004674', 'label': 'MolecularActivity', 'name': 'protein serine/threonine kinase activity'}, {'id': 'GO:0007266', 'label': 'BiologicalProcess', 'name': 'Rho protein signal transduction'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'MESH:D015466', 'label': 'Disease', 'name': 'Chronic phase chronic myeloid leukemia'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#mechanism-of-action', 'https://en.wikipedia.org/wiki/Imatinib#Chronic_myelogenous_leukemia']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'The disease is denoted Blastic phase chronic myeloid leukemia in the original file.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D001752_1', 'disease': 'Blast Crisis', 'disease_mesh': 'MESH:D001752', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'MESH:D016044'}, {'key': 'positively correlated with', 'source': 'MESH:D016044', 'target': 'GO:0007266'}, {'key': 'positively correlated with', 'source': 'GO:0007266', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001974'}, {'key': 'manifestation of', 'source': 'HP:0001974', 'target': 'MESH:D001752'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'MESH:D016044', 'label': 'Protein', 'name': 'Fusion Proteins, bcr-abl'}, {'id': 'GO:0007266', 'label': 'BiologicalProcess', 'name': 'Rho protein signal transduction'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001974', 'label': 'PhenotypicFeature', 'name': 'Leukocytosis'}, {'id': 'MESH:D001752', 'label': 'Disease', 'name': 'Blast Crisis'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Leukocytosis#Causes', 'https://en.wikipedia.org/wiki/Chronic_myelogenous_leukemia#Chronic_phase_2']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as Chronic eosinophilic leukemia as per the original file. The malignancy is driven by FIP1L1-PDGFRA fusion genes (https://en.wikipedia.org/wiki/FIP1L1#FIP1L1-PDGFRA_fusion_genes).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_C580364_1', 'disease': 'Pdgfra-Associated Chronic Eosinophilic Leukemia', 'disease_mesh': 'MESH:C580364', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0048008'}, {'key': 'positively correlated with', 'source': 'GO:0048008', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001880'}, {'key': 'manifestation of', 'source': 'HP:0001880', 'target': 'MESH:C580364'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0048008', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor signaling pathway'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001880', 'label': 'PhenotypicFeature', 'name': 'Eosinophilia'}, {'id': 'MESH:C580364', 'label': 'Disease', 'name': 'Pdgfra-Associated Chronic Eosinophilic Leukemia'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000205', 'https://go.drugbank.com/drugs/DB00619#BE0000852', 'https://en.wikipedia.org/wiki/Chronic_eosinophilic_leukemia', 'https://en.wikipedia.org/wiki/Eosinophilia#Chronic_eosinophilic_leukemia_(NOS)', 'https://en.wikipedia.org/wiki/Imatinib#Other']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as Idiopathic hypereosinophilic syndrome as per the original file. Treatment with imatinib is indicated for patients who have a PDGFRA-FIP1L1 chimera, where PDGR, a tyrosine kinase (https://en.wikipedia.org/wiki/Hypereosinophilic_syndrome#Diagnosis) and an oncogene (https://en.wikipedia.org/wiki/Oncogene#Classification) is fused with FIP1L1, giving rise to a PDGFRA-FIP1L1 chimera.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D017681_1', 'disease': 'Hypereosinophilic Syndrome', 'disease_mesh': 'MESH:D017681', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0001880'}, {'key': 'manifestation of', 'source': 'HP:0001880', 'target': 'MESH:D017681'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0001880', 'label': 'PhenotypicFeature', 'name': 'Eosinophilia'}, {'id': 'MESH:D017681', 'label': 'Disease', 'name': 'Hypereosinophilic Syndrome'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000205', 'https://go.drugbank.com/drugs/DB00619#BE0000852', 'https://en.wikipedia.org/wiki/Imatinib#Other']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The majority of Gastrointestinal stromal tumor patients have mutations on the KIT or PDGFRA genes (95% of all patients).', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D046152_1', 'disease': 'Gastrointestinal stromal tumor', 'disease_mesh': 'MESH:D046152', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0035790'}, {'key': 'positively correlated with', 'source': 'GO:0035790', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0035790', 'target': 'MESH:D002470'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0038109'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0030154'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D046152'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D046152'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D046152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0035790', 'label': 'BiologicalProcess', 'name': 'platelet-derived growth factor receptor-alpha signaling pathway'}, {'id': 'GO:0038109', 'label': 'BiologicalProcess', 'name': 'Kit signaling pathway'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D046152', 'label': 'Disease', 'name': 'Gastrointestinal stromal tumor'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Imatinib#Gastrointestinal_stromal_tumors', 'https://go.drugbank.com/drugs/DB00619#BE0000453', 'https://go.drugbank.com/drugs/DB00619#BE0000852']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The majority of dermatofibrosarcoma tumours have two genes fused due to a translocation involving the collagen gene (COL1A1) and the platelet-derived growth factor (PDGF). The latter can be further subdivided giving rise to PDGFA, for example, which is an oncogene.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D018223_1', 'disease': 'Dermatofibrosarcoma', 'disease_mesh': 'MESH:D018223', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P16234'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0030154'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'GO:0008283'}, {'key': 'positively regulates', 'source': 'UniProt:P16234', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D018223'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D018223'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D018223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P16234', 'label': 'Protein', 'name': 'Platelet-derived growth factor receptor alpha'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D018223', 'label': 'Disease', 'name': 'Dermatofibrosarcoma'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://en.wikipedia.org/wiki/Dermatofibrosarcoma_protuberans#Pathophysiology', 'https://en.wikipedia.org/wiki/Imatinib#Dermatofibrosarcoma_protuberans_(DFSP)']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'The disease is denoted Systemic mast cell disease in the original file.', 'directed': True, 'graph': {'_id': 'DB00619_MESH_D034721_2', 'disease': 'Mastocytosis, Systemic', 'disease_mesh': 'MESH:D034721', 'drug': 'imatinib', 'drug_mesh': 'MESH:D000068877', 'drugbank': 'DB:DB00619'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068877', 'target': 'UniProt:P10721'}, {'key': 'positively regulates', 'source': 'UniProt:P10721', 'target': 'GO:0038109'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'MESH:D002470'}, {'key': 'positively correlated with', 'source': 'GO:0038109', 'target': 'GO:0030154'}, {'key': 'increases abundance of', 'source': 'GO:0008283', 'target': 'MESH:D008407'}, {'key': 'correlated with', 'source': 'MESH:D008407', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'MESH:D002470', 'target': 'MESH:D034721'}, {'key': 'positively correlated with', 'source': 'GO:0030154', 'target': 'MESH:D034721'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068877', 'label': 'Drug', 'name': 'imatinib'}, {'id': 'UniProt:P10721', 'label': 'Protein', 'name': 'Mast/stem cell growth factor receptor Kit'}, {'id': 'GO:0038109', 'label': 'BiologicalProcess', 'name': 'Kit signaling pathway'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'cell differentiation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'MESH:D002470', 'label': 'BiologicalProcess', 'name': 'Cell Survival'}, {'id': 'MESH:D008407', 'label': 'Cell', 'name': 'Mast Cells'}, {'id': 'MESH:D034721', 'label': 'Disease', 'name': 'Mastocytosis, Systemic'}], 'reference': ['https://www.cancer.gov/publications/dictionaries/cancer-drug/def/imatinib-mesylate', 'https://go.drugbank.com/drugs/DB00619#BE0000453']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0061337'}, {'key': 'positively correlated with', 'source': 'GO:0061337', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0001692'}, {'key': 'manifestation of', 'source': 'HP:0001692', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0001692', 'label': 'PhenotypicFeature', 'name': 'Atrial arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Atrial_fibrillation#Rate_control']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00661_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Angina#Treatment']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as as Prinzmetal angina.', 'directed': True, 'graph': {'_id': 'DB00661_MESH_D000788_1', 'disease': 'Angina Pectoris, Variant', 'disease_mesh': 'MESH:D000788', 'drug': 'verapamil', 'drug_mesh': 'MESH:D014700', 'drugbank': 'DB:DB00661'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014700', 'target': 'InterPro:IPR005446'}, {'key': 'positively regulates', 'source': 'InterPro:IPR005446', 'target': 'GO:0060402'}, {'key': 'positively correlated with', 'source': 'GO:0060402', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0033401'}, {'key': 'positively correlated with', 'source': 'HP:0033401', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014700', 'label': 'Drug', 'name': 'verapamil'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'GO:0060402', 'label': 'BiologicalProcess', 'name': 'calcium ion transport into cytosol'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033401', 'label': 'PhenotypicFeature', 'name': 'Tissue ischemia'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Angina Pectoris, Variant'}], 'reference': ['https://go.drugbank.com/drugs/DB00661#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL6966/', 'https://en.wikipedia.org/wiki/Verapamil#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Antiarrhythmic_agent#Class_IV_agents', 'https://en.wikipedia.org/wiki/Variant_angina#Maintenance']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09167_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'dosulepin', 'drug_mesh': 'MESH:D004308', 'drugbank': 'DB:DB09167'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004308', 'target': 'UniProt:P31645'}, {'key': 'negatively regulates', 'source': 'MESH:D004308', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P31645', 'target': 'GO:0051610'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'GO:0051610', 'target': 'HP:0000716'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004308', 'label': 'Drug', 'name': 'dosulepin'}, {'id': 'UniProt:P31645', 'label': 'Protein', 'name': 'Sodium-dependent serotonin transporter'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051610', 'label': 'BiologicalProcess', 'name': 'serotonin uptake'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09167#BE0000486', 'https://go.drugbank.com/drugs/DB09167#BE0000749', 'https://en.wikipedia.org/wiki/Dosulepin#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/2670509/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The disease is denoted as Bipolar affective disorder, current episode depression in the original file. It seems that either Quetiapine or its metabolite (Norquetiapine, also known as N-desalkylquetiapine) could bind to UniProt:P23975 and inhibit its function and is associated with lower synaptic norepinephrine levels (https://en.wikipedia.org/wiki/Quetiapine#Pharmacokinetics https://www.ebi.ac.uk/chembl/document_report_card/CHEMBL3526075/).', 'directed': True, 'graph': {'_id': 'DB01224_MESH_D001714_1', 'disease': 'Bipolar Disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'quetiapine', 'drug_mesh': 'MESH:D000069348', 'drugbank': 'DB:DB01224'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069348', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0000716'}, {'key': 'positively correlated with', 'source': 'GO:0051620', 'target': 'HP:0100754'}, {'key': 'manifestation of', 'source': 'HP:0000716', 'target': 'MESH:D001714'}, {'key': 'manifestation of', 'source': 'HP:0100754', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069348', 'label': 'Drug', 'name': 'quetiapine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'norepinephrine uptake'}, {'id': 'HP:0000716', 'label': 'PhenotypicFeature', 'name': 'Depressivity'}, {'id': 'HP:0100754', 'label': 'PhenotypicFeature', 'name': 'Mania'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar Disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01224#mechanism-of-action', 'https://www.genecards.org/cgi-bin/carddisp.pl?gene=SLC6A2#drugs_compounds', 'https://en.wikipedia.org/wiki/Quetiapine#cite_note-pmid18059438-50', 'https://pubmed.ncbi.nlm.nih.gov/20307622/', 'https://pubmed.ncbi.nlm.nih.gov/20931407/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Octreotide has antiproliferative effects and it is used in treating neuroendocrine tumours including carcinoid tumours. Octreotide improves symptoms of carcinoid syndrome such as diarrhoea and flushing https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983100/. Octreotide is also used in imaging method called octreoscan where indium-111 labelled octreotide is used in scintigraphy for detecting tumors expressing somatostatin receptors https://en.wikipedia.org/wiki/Carcinoid_syndrome#Imaging', 'directed': True, 'graph': {'_id': 'DB00104_MESH_D008303_1', 'disease': 'Carcinoid syndrome', 'disease_mesh': 'MESH:D008303', 'drug': 'Octreotide', 'drug_mesh': 'MESH:D015282', 'drugbank': 'DB:DB00104'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015282', 'target': 'GO:0038169'}, {'key': 'negatively regulates', 'source': 'GO:0038169', 'target': 'UniProt:P01241'}, {'key': 'positively regulates', 'source': 'UniProt:P01241', 'target': 'UniProt:P05019'}, {'key': 'positively correlated with', 'source': 'UniProt:P05019', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'MESH:D008303'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015282', 'label': 'Drug', 'name': 'Octreotide'}, {'id': 'GO:0038169', 'label': 'BiologicalProcess', 'name': 'Somatostatin receptor signaling pathway'}, {'id': 'UniProt:P01241', 'label': 'Protein', 'name': 'Somatotropin'}, {'id': 'UniProt:P05019', 'label': 'Protein', 'name': 'Insulin-like growth factor I'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'Cell population proliferation'}, {'id': 'MESH:D008303', 'label': 'Disease', 'name': 'Carcinoid syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00104#BE0010008', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983100/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00104_MESH_D000172_1', 'disease': 'Acromegaly', 'disease_mesh': 'MESH:D000172', 'drug': 'Octreotide', 'drug_mesh': 'MESH:D015282', 'drugbank': 'DB:DB00104'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D015282', 'target': 'GO:0038169'}, {'key': 'negatively regulates', 'source': 'GO:0038169', 'target': 'UniProt:P01241'}, {'key': 'positively correlated with', 'source': 'UniProt:P01241', 'target': 'MESH:D000172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015282', 'label': 'Drug', 'name': 'Octreotide'}, {'id': 'GO:0038169', 'label': 'BiologicalProcess', 'name': 'Somatostatin receptor signaling pathway'}, {'id': 'UniProt:P01241', 'label': 'Protein', 'name': 'Somatotropin'}, {'id': 'MESH:D000172', 'label': 'Disease', 'name': 'Acromegaly'}], 'reference': ['https://go.drugbank.com/drugs/DB00104#BE0010008', 'https://en.wikipedia.org/wiki/Acromegaly#Signs_and_symptoms']}\n", - "['Drug', 'BiologicalProcess', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00503_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Ritonavir', 'drug_mesh': 'MESH:D019438', 'drugbank': 'DB:DB00503'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D019438', 'target': 'UniProt:Q72874'}, {'key': 'increases activity of', 'source': 'UniProt:Q72874', 'target': 'UniProt:P04585'}, {'key': 'in taxon', 'source': 'UniProt:P04585', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019438', 'label': 'Drug', 'name': 'Ritonavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'Protease'}, {'id': 'UniProt:P04585', 'label': 'Protein', 'name': 'Gag-Pol polyprotein'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00503']}\n", - "['Drug', 'Protein', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'While ritonavir is not an active antiviral agent against hepatitis C virus (HCV) infection, it is added in combination therapies indicated for treatment of HCV infections as a booster.', 'directed': True, 'graph': {'_id': 'DB00503_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Ritonavir', 'drug_mesh': 'MESH:D019438', 'drugbank': 'DB:DB00503'}, 'links': [{'key': 'treats', 'source': 'MESH:D019438', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019438', 'label': 'Drug', 'name': 'Ritonavir'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00503']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00678_MESH_D003928_1', 'disease': 'Diabetic renal disease', 'disease_mesh': 'MESH:D003928', 'drug': 'Losartan', 'drug_mesh': 'MESH:D019808', 'drugbank': 'DB:DB00678'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D019808', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'positively regulates', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'HP:0000822'}, {'key': 'affects risk for', 'source': 'HP:0000822', 'target': 'MESH:D003928'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019808', 'label': 'Drug', 'name': 'Losartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D003928', 'label': 'Disease', 'name': 'Diabetic renal disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00678', 'https://en.wikipedia.org/wiki/Diabetic_nephropathy#Risk_factors']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00678_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Losartan', 'drug_mesh': 'MESH:D019808', 'drugbank': 'DB:DB00678'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D019808', 'target': 'UniProt:P30556'}, {'key': 'positively correlated with', 'source': 'UniProt:P30556', 'target': 'MESH:D000804'}, {'key': 'positively regulates', 'source': 'MESH:D000804', 'target': 'MESH:D014661'}, {'key': 'positively correlated with', 'source': 'MESH:D014661', 'target': 'GO:0008217'}, {'key': 'positively correlated with', 'source': 'GO:0008217', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019808', 'label': 'Drug', 'name': 'Losartan'}, {'id': 'UniProt:P30556', 'label': 'Protein', 'name': 'Type-1 angiotensin II receptor'}, {'id': 'MESH:D000804', 'label': 'ChemicalSubstance', 'name': 'Angiotensin II'}, {'id': 'MESH:D014661', 'label': 'Disease', 'name': 'Vasoconstriction'}, {'id': 'GO:0008217', 'label': 'BiologicalProcess', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00678']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01019_MESH_D016055_1', 'disease': 'Retention of urine', 'disease_mesh': 'MESH:D016055', 'drug': 'Bethanechol', 'drug_mesh': 'MESH:D018723', 'drugbank': 'DB:DB01019'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D018723', 'target': 'UniProt:P08172'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'negatively correlated with', 'source': 'GO:0014832', 'target': 'MESH:D016055'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D018723', 'label': 'Drug', 'name': 'Bethanechol'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'MESH:D016055', 'label': 'Disease', 'name': 'Retention of urine'}], 'reference': ['https://go.drugbank.com/drugs/DB01019']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01033_MESH_D015473_1', 'disease': 'Acute promyelocytic leukemia', 'disease_mesh': 'MESH:D015473', 'drug': 'Mercaptopurine', 'drug_mesh': 'MESH:D015122', 'drugbank': 'DB:DB01033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P00492'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:Q06203'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P20839'}, {'key': 'decreases activity of', 'source': 'MESH:D015122', 'target': 'UniProt:P12268'}, {'key': 'positively regulates', 'source': 'UniProt:P00492', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:Q06203', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:P20839', 'target': 'GO:0006164'}, {'key': 'positively regulates', 'source': 'UniProt:P12268', 'target': 'GO:0006164'}, {'key': 'occurs in', 'source': 'GO:0006164', 'target': 'CL:0000836'}, {'key': 'positively correlated with', 'source': 'CL:0000836', 'target': 'MESH:D015473'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015122', 'label': 'Drug', 'name': 'Mercaptopurine'}, {'id': 'UniProt:P00492', 'label': 'Protein', 'name': 'Hypoxanthine-guanine phosphoribosyltransferase'}, {'id': 'UniProt:Q06203', 'label': 'Protein', 'name': 'Amidophosphoribosyltransferase'}, {'id': 'UniProt:P20839', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 1\"}, {'id': 'UniProt:P12268', 'label': 'Protein', 'name': \"Inosine-5'-monophosphate dehydrogenase 2\"}, {'id': 'CL:0000836', 'label': 'Cell', 'name': 'Promyelocyte'}, {'id': 'GO:0006164', 'label': 'BiologicalProcess', 'name': 'Purine nucleotide biosynthetic process'}, {'id': 'MESH:D015473', 'label': 'Disease', 'name': 'Acute promyelocytic leukemia'}], 'reference': ['https://en.wikipedia.org/wiki/Acute_promyelocytic_leukemia', 'https://go.drugbank.com/drugs/DB01033']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P72525'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q59961'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P72524'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P0A4L9'}, {'key': 'participates in', 'source': 'UniProt:P72525', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q59961', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P72524', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P0A4L9', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1301'}, {'key': 'causes', 'source': 'NCBITaxon:1301', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:P72525', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:Q59961', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Streptococcus pneumoniae)'}, {'id': 'UniProt:P72524', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Streptococcus pneumoniae)'}, {'id': 'UniProt:P0A4L9', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Streptococcus pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1301', 'label': 'OrganismTaxon', 'name': 'Streptococcus'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0120217'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'GO:0120217', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'GO:0120217', 'label': 'CellularComponent', 'name': 'DNA gyrase complex'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01044#BE0003726']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q9Z8R4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q9Z8R3'}, {'key': 'participates in', 'source': 'UniProt:Q9Z8R4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q9Z8R3', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'UniProt:Q9Z8R4', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Chlamydia pneumoniae)'}, {'id': 'UniProt:Q9Z8R3', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Chlamydia pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS5'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FKQ0'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P66936'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS5', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P66936', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:Q2FYS4', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FYS5', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:P66936', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Staphylococcus aureus)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS4'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FYS5'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:Q2FKQ0'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P66936'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS4', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FYS5', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:Q2FKQ0', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P66936', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:Q2FYS4', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FYS5', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Staphylococcus aureus)'}, {'id': 'UniProt:Q2FKQ0', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Staphylococcus aureus)'}, {'id': 'UniProt:P66936', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Staphylococcus aureus)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0009340'}, {'key': 'negatively regulates', 'source': 'MESH:C078049', 'target': 'GO:0120217'}, {'key': 'participates in', 'source': 'GO:0009340', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'GO:0120217', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'GO:0009340', 'label': 'CellularComponent', 'name': 'DNA topoisomerase IV complex'}, {'id': 'GO:0120217', 'label': 'CellularComponent', 'name': 'DNA gyrase complex'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01044#BE0003726']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01044_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'Gatifloxacin', 'drug_mesh': 'MESH:C078049', 'drugbank': 'DB:DB01044'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P75352'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P78016'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P22446'}, {'key': 'decreases activity of', 'source': 'MESH:C078049', 'target': 'UniProt:P22447'}, {'key': 'participates in', 'source': 'UniProt:P75352', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P78016', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P22446', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'UniProt:P22447', 'target': 'GO:0006260'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C078049', 'label': 'Drug', 'name': 'Gatifloxacin'}, {'id': 'UniProt:P75352', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit A (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P78016', 'label': 'Protein', 'name': 'DNA topoisomerase 4 subunit B (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P22446', 'label': 'Protein', 'name': 'DNA gyrase subunit A (Mycoplasma pneumoniae)'}, {'id': 'UniProt:P22447', 'label': 'Protein', 'name': 'DNA gyrase subunit B (Mycoplasma pneumoniae)'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'Bacterial DNA replication'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Pneumonia due to Mycoplasma pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01044']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01120_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Gliclazide', 'drug_mesh': 'MESH:D005907', 'drugbank': 'DB:DB01120'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005907', 'target': 'UniProt:Q09428'}, {'key': 'positively correlated with', 'source': 'UniProt:Q09428', 'target': 'GO:0015272'}, {'key': 'negatively correlated with', 'source': 'GO:0015272', 'target': 'GO:0051899'}, {'key': 'positively correlated with', 'source': 'GO:0051899', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005907', 'label': 'Drug', 'name': 'Gliclazide'}, {'id': 'UniProt:Q09428', 'label': 'Protein', 'name': 'ATP-binding cassette sub-family C member 8'}, {'id': 'GO:0015272', 'label': 'BiologicalProcess', 'name': 'ATP-activated inward rectifier potassium channel activity'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25583094/', 'https://go.drugbank.com/drugs/DB01120']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01270_MESH_D003930_1', 'disease': 'Diabetic retinopathy', 'disease_mesh': 'MESH:D003930', 'drug': 'Ranibizumab', 'drug_mesh': 'MESH:D000069579', 'drugbank': 'DB:DB01270'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000069579', 'target': 'UniProt:P15692'}, {'key': 'positively regulates', 'source': 'UniProt:P15692', 'target': 'GO:0001525'}, {'key': 'positively correlated with', 'source': 'GO:0001525', 'target': 'MESH:D003930'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069579', 'label': 'Drug', 'name': 'Ranibizumab'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor A'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'MESH:D003930', 'label': 'Disease', 'name': 'Diabetic retinopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB01270', 'https://pubmed.ncbi.nlm.nih.gov/19199892/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Dimethyl fumarate ia a prodrug which is metabolised into the pharmacologically active monomethyl fumarate. The mechanism of action of dimethyl fumarate in multiple sclerosis is not well understood.', 'directed': True, 'graph': {'_id': 'DB08908_MESH_D020529_1', 'disease': 'Relapsing remitting multiple sclerosis', 'disease_mesh': 'MESH:D020529', 'drug': 'Dimethyl fumarate', 'drug_mesh': 'MESH:D000069462', 'drugbank': 'DB:DB08908'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000069462', 'target': 'REACT:R-HSA-8932339'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-8932339', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D020529'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069462', 'label': 'Drug', 'name': 'Dimethyl fumarate'}, {'id': 'REACT:R-HSA-8932339', 'label': 'Pathway', 'name': 'ROS sensing by NFE2L2'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D020529', 'label': 'Disease', 'name': 'Relapsing remitting multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB08908', 'https://pubmed.ncbi.nlm.nih.gov/27825853/', 'https://en.wikipedia.org/wiki/Dimethyl_fumarate#Pharmacology']}\n", - "['Drug', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09303_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Evolocumab', 'drug_mesh': 'MESH:C577155', 'drugbank': 'DB:DB09303'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C577155', 'target': 'UniProt:Q8NBP7'}, {'key': 'decreases activity of', 'source': 'UniProt:Q8NBP7', 'target': 'UniProt:P01130'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01130', 'target': 'MESH:D008077'}, {'key': 'positively correlated with', 'source': 'MESH:D008077', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C577155', 'label': 'Drug', 'name': 'Evolocumab'}, {'id': 'UniProt:Q8NBP7', 'label': 'Protein', 'name': 'Proprotein convertase subtilisin/kexin type 9'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'MESH:D008077', 'label': 'ChemicalSubstance', 'name': 'Lipoproteins, LDL'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://en.wikipedia.org/wiki/Evolocumab', 'https://go.drugbank.com/drugs/DB09303', 'https://en.wikipedia.org/wiki/LDL_receptor#Function']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12712_MESH_D013610_1', 'disease': 'Tachyarrhythmia', 'disease_mesh': 'MESH:D013610', 'drug': 'Pilsicainide', 'drug_mesh': 'MESH:C042288', 'drugbank': 'DB:DB12712'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C042288', 'target': 'UniProt:Q14524'}, {'key': 'positively regulates', 'source': 'UniProt:Q14524', 'target': 'GO:0051899'}, {'key': 'positively regulates', 'source': 'GO:0051899', 'target': 'GO:0060048'}, {'key': 'positively regulates', 'source': 'GO:0060048', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'GO:0010460'}, {'key': 'positively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D013610'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C042288', 'label': 'Drug', 'name': 'Pilsicainide'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Sodium channel protein type 5 subunit alpha'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'GO:0060048', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle contraction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'Heart contraction'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'MESH:D013610', 'label': 'Disease', 'name': 'Tachyarrhythmia'}], 'reference': ['https://en.wikipedia.org/wiki/Pilsicainide', 'https://en.wikipedia.org/wiki/Tachycardia#Causes', 'https://en.wikipedia.org/wiki/Nav1.5', 'https://en.wikipedia.org/wiki/Sodium_channel_blocker#Class_Ic_agents']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Tropicamide is indicated to induce mydriasis (dilation of the pupil) and cycloplegia (paralysis of the ciliary muscle of the eye) in diagnostic procedures', 'directed': True, 'graph': {'_id': 'DB00809_MESH_D015878_1', 'disease': 'Dilated pupil', 'disease_mesh': 'MESH:D015878', 'drug': 'Tropicamide', 'drug_mesh': 'MESH:D014331', 'drugbank': 'DB:DB00809'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014331', 'target': 'InterPro:IPR000995'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000995', 'target': 'GO:0090075'}, {'key': 'causes', 'source': 'MESH:D014331', 'target': 'HP:0000602'}, {'key': 'correlated with', 'source': 'HP:0000602', 'target': 'MESH:D015878'}, {'key': 'location of', 'source': 'GO:0090075', 'target': 'UBERON:0001607'}, {'key': 'causes', 'source': 'UBERON:0001607', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014331', 'label': 'Drug', 'name': 'Tropicamide'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetylcholine (mACh) receptor'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'HP:0000602', 'label': 'PhenotypicFeature', 'name': 'Paralysis of ciliary muscle'}, {'id': 'UBERON:0001607', 'label': 'GrossAnatomicalStructure', 'name': 'Sphincter pupillae'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Dilated pupil'}], 'reference': ['https://go.drugbank.com/drugs/DB00809#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Tropicamide']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "['Drug', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'negatively regulates', 'source': 'DB:DB00197', 'target': 'HP:0000855'}, {'key': 'location of', 'source': 'HP:0000855', 'target': 'UBERON:0001630'}, {'key': 'prevents', 'source': 'UBERON:0001630', 'target': 'REACT:R-HSA-70263'}, {'key': 'location of', 'source': 'HP:0000855', 'target': 'UBERON:0001013'}, {'key': 'prevents', 'source': 'UBERON:0001013', 'target': 'REACT:R-HSA-70263'}, {'key': 'location of', 'source': 'REACT:R-HSA-70263', 'target': 'UBERON:0002107'}, {'key': 'decreases abundance of', 'source': 'UBERON:0002107', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'HP:0000855', 'label': 'PhenotypicFeature', 'name': 'Insulin resistance'}, {'id': 'UBERON:0001630', 'label': 'GrossAnatomicalStructure', 'name': 'Muscle'}, {'id': 'UBERON:0001013', 'label': 'GrossAnatomicalStructure', 'name': 'Adipose tissue'}, {'id': 'REACT:R-HSA-70263', 'label': 'Pathway', 'name': 'Gluconeogenesis'}, {'id': 'UBERON:0002107', 'label': 'GrossAnatomicalStructure', 'name': 'Liver'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'PhenotypicFeature', 'GrossAnatomicalStructure', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_2', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00197', 'target': 'UniProt:P37231'}, {'key': 'decreases abundance of', 'source': 'UniProt:P37231', 'target': 'MESH:D014280'}, {'key': 'negatively regulates', 'source': 'MESH:D014280', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'UniProt:P37231', 'target': 'MESH:D005227'}, {'key': 'negatively regulates', 'source': 'MESH:D005227', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma (PPAR-gamma)'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglyceride'}, {'id': 'MESH:D005227', 'label': 'ChemicalSubstance', 'name': 'Circulating fatty acids'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Troglitazone was withdrawn in 2000 due to risk of hepatotoxicity', 'directed': True, 'graph': {'_id': 'DB00197_MESH_D003924_3', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Troglitazone', 'drug_mesh': None, 'drugbank': 'DB:DB00197'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00197', 'target': 'UniProt:P37231'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P37231', 'target': 'InterPro:IPR000003'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000003', 'target': 'GO:0030154'}, {'key': 'increases activity of', 'source': 'GO:0030154', 'target': 'REACT:R-HSA-70326'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-70326', 'target': 'MESH:D001786'}, {'key': 'increases activity of', 'source': 'GO:0030154', 'target': 'REACT:R-HSA-390918'}, {'key': 'decreases abundance of', 'source': 'REACT:R-HSA-390918', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00197', 'label': 'Drug', 'name': 'Troglitazone'}, {'id': 'UniProt:P37231', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor gamma (PPAR-gamma)'}, {'id': 'InterPro:IPR000003', 'label': 'GeneFamily', 'name': '9-cis retinoic acid receptor (RXR [retinoid X receptor]'}, {'id': 'GO:0030154', 'label': 'BiologicalProcess', 'name': 'Cell differentiation'}, {'id': 'REACT:R-HSA-390918', 'label': 'Pathway', 'name': 'Lipid metabolism'}, {'id': 'REACT:R-HSA-70326', 'label': 'Pathway', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00197#mechanismofaction', 'DOI:10.18773/austprescr.2004.059', 'https://pubchem.ncbi.nlm.nih.gov/compound/Troglitazone#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00469_MESH_D001168_1', 'disease': 'Arthritis', 'disease_mesh': 'MESH:D001168', 'drug': 'Tenoxicam', 'drug_mesh': 'MESH:C032801', 'drugbank': 'DB:DB00469'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C032801', 'target': 'UniProt:P23219'}, {'key': 'negatively regulates', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-265295'}, {'key': 'decreases activity of', 'source': 'MESH:C032801', 'target': 'UniProt:P35354'}, {'key': 'negatively regulates', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-265295'}, {'key': 'ameliorates', 'source': 'REACT:R-HSA-265295', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001168'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C032801', 'label': 'Drug', 'name': 'Tenoxicam'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Cyclooxygenase-1'}, {'id': 'REACT:R-HSA-265295', 'label': 'Pathway', 'name': 'Prostaglandin synthesis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Cyclooxygenase-2'}, {'id': 'MESH:D001168', 'label': 'Disease', 'name': 'Arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00469#mechanismofaction']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00140_MESH_D001361_1', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D001361', 'drug': 'Riboflavin', 'drug_mesh': 'MESH:D012256', 'drugbank': 'DB:DB00140'}, 'links': [{'key': 'part of', 'source': 'MESH:D012256', 'target': 'MESH:D019587'}, {'key': 'molecularly interacts with', 'source': 'MESH:D019587', 'target': 'UniProt:Q969G6'}, {'key': 'produces', 'source': 'UniProt:Q969G6', 'target': 'MESH:D005486'}, {'key': 'participates in', 'source': 'MESH:D005486', 'target': 'GO:0006112'}, {'key': 'molecularly interacts with', 'source': 'MESH:D019587', 'target': 'UniProt:Q8NFF5'}, {'key': 'produces', 'source': 'UniProt:Q8NFF5', 'target': 'MESH:D005182'}, {'key': 'participates in', 'source': 'MESH:D005182', 'target': 'GO:0006112'}, {'key': 'affected by', 'source': 'GO:0006112', 'target': 'MESH:D001361'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012256', 'label': 'Drug', 'name': 'Riboflavin'}, {'id': 'MESH:D019587', 'label': 'ChemicalSubstance', 'name': 'Dietary supplements'}, {'id': 'UniProt:Q969G6', 'label': 'Protein', 'name': 'Riboflavin kinase'}, {'id': 'MESH:D005486', 'label': 'ChemicalSubstance', 'name': 'Flavin mononucleotide'}, {'id': 'UniProt:Q8NFF5', 'label': 'Protein', 'name': 'Riboflavin synthase'}, {'id': 'MESH:D005182', 'label': 'ChemicalSubstance', 'name': 'Flavin adenine dinucleotide'}, {'id': 'GO:0006112', 'label': 'BiologicalProcess', 'name': 'Energy reserve metabolic process'}, {'id': 'MESH:D001361', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00140#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Riboflavin#section=Pharmacology']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06287_MESH_D020522_1', 'disease': 'Mantle cell lymphoma', 'disease_mesh': 'MESH:D020522', 'drug': 'Temsirolimus', 'drug_mesh': 'MESH:C401859', 'drugbank': 'DB:DB06287'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C401859', 'target': 'InterPro:IPR001179'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001179', 'target': 'UniProt:P42345'}, {'key': 'decreases activity of', 'source': 'UniProt:P42345', 'target': 'UniProt:P24385'}, {'key': 'causes', 'source': 'UniProt:P24385', 'target': 'GO:0007050'}, {'key': 'occurs in', 'source': 'GO:0007050', 'target': 'GO:0051318'}, {'key': 'correlated with', 'source': 'GO:0051318', 'target': 'MESH:D020522'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C401859', 'label': 'Drug', 'name': 'Temsirolimus'}, {'id': 'InterPro:IPR001179', 'label': 'GeneFamily', 'name': 'FK Binding Protein-12'}, {'id': 'UniProt:P42345', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase mTOR'}, {'id': 'UniProt:P24385', 'label': 'Protein', 'name': 'cyclin D1'}, {'id': 'GO:0007050', 'label': 'BiologicalProcess', 'name': 'Cell cycle arrest'}, {'id': 'GO:0051318', 'label': 'BiologicalProcess', 'name': 'G1 phase'}, {'id': 'MESH:D020522', 'label': 'Disease', 'name': 'Mantle cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06287#mechanismofaction', 'DOI:10.1158/1078-0432.CCR-07-4719']}\n", - "['Drug', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06287_MESH_D002292_1', 'disease': 'Renal cell carcinoma', 'disease_mesh': 'MESH:D002292', 'drug': 'Temsirolimus', 'drug_mesh': 'MESH:C401859', 'drugbank': 'DB:DB06287'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C401859', 'target': 'InterPro:IPR001179'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001179', 'target': 'UniProt:P42345'}, {'key': 'decreases activity of', 'source': 'UniProt:P42345', 'target': 'UniProt:Q16665'}, {'key': 'decreases synthesis of', 'source': 'UniProt:Q16665', 'target': 'UniProt:P15692'}, {'key': 'negatively regulates', 'source': 'UniProt:P15692', 'target': 'GO:0001525'}, {'key': 'correlated with', 'source': 'GO:0001525', 'target': 'MESH:D002292'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C401859', 'label': 'Drug', 'name': 'Temsirolimus'}, {'id': 'InterPro:IPR001179', 'label': 'GeneFamily', 'name': 'FK Binding Protein-12'}, {'id': 'UniProt:P42345', 'label': 'Protein', 'name': 'Serine/threonine-protein kinase mTOR'}, {'id': 'UniProt:Q16665', 'label': 'Protein', 'name': 'Hypoxia-inducible factor-1a (HIF-1a)'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor'}, {'id': 'GO:0001525', 'label': 'BiologicalProcess', 'name': 'Angiogenesis'}, {'id': 'MESH:D002292', 'label': 'Disease', 'name': 'Renal cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB06287#mechanismofaction', 'DOI:10.1158/1078-0432.CCR-07-4719']}\n", - "['Drug', 'GeneFamily', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05271_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'Rotigotine', 'drug_mesh': 'MESH:C047508', 'drugbank': 'DB:DB05271'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'UniProt:P35462', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21918'}, {'key': 'positively regulates', 'source': 'UniProt:P21918', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21917'}, {'key': 'positively regulates', 'source': 'UniProt:P21917', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0097332'}, {'key': 'decreases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0097332'}, {'key': 'ameliorates', 'source': 'GO:0097332', 'target': 'HP:0010833'}, {'key': 'correlated with', 'source': 'HP:0010833', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047508', 'label': 'Drug', 'name': 'Rotigotine'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine receptor D3'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'Dopamine receptor D1'}, {'id': 'UniProt:P21918', 'label': 'Protein', 'name': 'Dopamine receptor D5'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine receptor D4'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'GO:0097332', 'label': 'BiologicalProcess', 'name': 'Response to antipsychotic drug'}, {'id': 'HP:0010833', 'label': 'PhenotypicFeature', 'name': 'Neuropathic pain'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB05271#mechanismofaction', 'https://doi.org/10.1155/2011/403039']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05271_MESH_D012148_1', 'disease': 'Restless legs', 'disease_mesh': 'MESH:D012148', 'drug': 'Rotigotine', 'drug_mesh': 'MESH:C047508', 'drugbank': 'DB:DB05271'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P35462'}, {'key': 'positively regulates', 'source': 'UniProt:P35462', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21728'}, {'key': 'positively regulates', 'source': 'UniProt:P21728', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21918'}, {'key': 'positively regulates', 'source': 'UniProt:P21918', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P14416'}, {'key': 'positively regulates', 'source': 'UniProt:P14416', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P21917'}, {'key': 'positively regulates', 'source': 'UniProt:P21917', 'target': 'GO:0097332'}, {'key': 'increases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P08908'}, {'key': 'positively regulates', 'source': 'UniProt:P08908', 'target': 'GO:0097332'}, {'key': 'decreases activity of', 'source': 'MESH:C047508', 'target': 'UniProt:P18089'}, {'key': 'positively regulates', 'source': 'UniProt:P18089', 'target': 'GO:0097332'}, {'key': 'ameliorates', 'source': 'GO:0097332', 'target': 'HP:0010833'}, {'key': 'correlated with', 'source': 'HP:0010833', 'target': 'MESH:D012148'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C047508', 'label': 'Drug', 'name': 'Rotigotine'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'Dopamine receptor D3'}, {'id': 'UniProt:P21728', 'label': 'Protein', 'name': 'Dopamine receptor D1'}, {'id': 'UniProt:P21918', 'label': 'Protein', 'name': 'Dopamine receptor D5'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine receptor D2'}, {'id': 'UniProt:P21917', 'label': 'Protein', 'name': 'Dopamine receptor D4'}, {'id': 'UniProt:P08908', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1A'}, {'id': 'UniProt:P18089', 'label': 'Protein', 'name': 'Alpha-2B adrenergic receptor'}, {'id': 'GO:0097332', 'label': 'BiologicalProcess', 'name': 'Response to antipsychotic drug'}, {'id': 'HP:0010833', 'label': 'PhenotypicFeature', 'name': 'Neuropathic pain'}, {'id': 'MESH:D012148', 'label': 'Disease', 'name': 'Restless legs'}], 'reference': ['https://go.drugbank.com/drugs/DB05271#mechanismofaction', 'https://doi.org/10.1159/000362629']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_2', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0018104'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D012141_2', 'disease': 'Upper respiratory infection', 'disease_mesh': 'MESH:D012141', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:P45299'}, {'key': 'negatively regulates', 'source': 'UniProt:P45299', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:727'}, {'key': 'causes', 'source': 'NCBITaxon:727', 'target': 'MESH:D012141'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:P45299', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:727', 'label': 'OrganismTaxon', 'name': 'Haemophilus influenzae'}, {'id': 'MESH:D012141', 'label': 'Disease', 'name': 'Upper respiratory infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013290_2', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D014069_2', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D013203_2', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01150_MESH_D001991_3', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Cefprozil', 'drug_mesh': 'MESH:C052018', 'drugbank': 'DB:DB01150'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C052018', 'target': 'UniProt:Q04707'}, {'key': 'negatively regulates', 'source': 'UniProt:Q04707', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:C052018', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C052018', 'label': 'Drug', 'name': 'Cefprozil'}, {'id': 'UniProt:Q04707', 'label': 'Protein', 'name': 'penicillin-binding proteins'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01150#mechanismofaction', 'http://www.antimicrobe.org/drugpopup/Cefprozil.htm']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:P42971'}, {'key': 'negatively regulates', 'source': 'UniProt:P42971', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:P42971', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:P42971'}, {'key': 'negatively regulates', 'source': 'UniProt:P42971', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:P42971', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004716_1', 'disease': 'Endometritis', 'disease_mesh': 'MESH:D004716', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A0H2X0X9'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A0H2X0X9', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:813'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:813'}, {'key': 'causes', 'source': 'NCBITaxon:813', 'target': 'MESH:D004716'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A0H2X0X9', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:813', 'label': 'OrganismTaxon', 'name': 'Chlamydia trachomatis'}, {'id': 'MESH:D004716', 'label': 'Disease', 'name': 'Endometritis'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR001460'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:2'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin binding protein'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D004756_1', 'disease': 'Infection due to Enterobacteriaceae', 'disease_mesh': 'MESH:D004756', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:E5YIW1'}, {'key': 'negatively regulates', 'source': 'UniProt:E5YIW1', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:543'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D004756'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:E5YIW1', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D004756', 'label': 'Disease', 'name': 'Infection due to Enterobacteriaceae'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A3Q9U7L4'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A3Q9U7L4', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:39831'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A3Q9U7L4', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00355_MESH_D016868_1', 'disease': 'Bacterial infection due to Serratia', 'disease_mesh': 'MESH:D016868', 'drug': 'Aztreonam', 'drug_mesh': 'MESH:D001398', 'drugbank': 'DB:DB00355'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D001398', 'target': 'UniProt:A0A5C7DBD7'}, {'key': 'negatively regulates', 'source': 'UniProt:A0A5C7DBD7', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases abundance of', 'source': 'MESH:D001398', 'target': 'InterPro:IPR033907'}, {'key': 'causes', 'source': 'InterPro:IPR033907', 'target': 'GO:0019835'}, {'key': 'in taxon', 'source': 'GO:0019835', 'target': 'NCBITaxon:613'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:613'}, {'key': 'causes', 'source': 'NCBITaxon:613', 'target': 'MESH:D016868'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001398', 'label': 'Drug', 'name': 'Aztreonam'}, {'id': 'UniProt:A0A5C7DBD7', 'label': 'Protein', 'name': 'Penicillin binding protein 3'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0019835', 'label': 'BiologicalProcess', 'name': 'Cytolysis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:613', 'label': 'OrganismTaxon', 'name': 'Serratia'}, {'id': 'MESH:D016868', 'label': 'Disease', 'name': 'Bacterial infection due to Serratia'}], 'reference': ['https://go.drugbank.com/drugs/DB00355#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00625_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Efavirenz', 'drug_mesh': 'MESH:C098320', 'drugbank': 'DB:DB00625'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C098320', 'target': 'UniProt:Q72547'}, {'key': 'prevents', 'source': 'UniProt:Q72547', 'target': 'GO:0039692'}, {'key': 'in taxon', 'source': 'GO:0039692', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C098320', 'label': 'Drug', 'name': 'Efavirenz'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'Reverse transcriptase/RNaseH'}, {'id': 'GO:0039692', 'label': 'BiologicalProcess', 'name': 'Viral DNA replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00625#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00883_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Isosorbide dinitrate', 'drug_mesh': 'MESH:D007548', 'drugbank': 'DB:DB00883'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D007548', 'target': 'MESH:D009569'}, {'key': 'positively regulates', 'source': 'MESH:D009569', 'target': 'InterPro:IPR001170'}, {'key': 'increases activity of', 'source': 'InterPro:IPR001170', 'target': 'MESH:D006152'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0006470'}, {'key': 'positively regulates', 'source': 'MESH:D006152', 'target': 'GO:0051208'}, {'key': 'positively correlated with', 'source': 'GO:0051208', 'target': 'GO:0060087'}, {'key': 'precedes', 'source': 'GO:0051208', 'target': 'GO:0042311'}, {'key': 'ameliorates', 'source': 'GO:0042311', 'target': 'MESH:D000787'}, {'key': 'occurs in', 'source': 'GO:0006470', 'target': 'MESH:D018994'}, {'key': 'positively correlated with', 'source': 'MESH:D018994', 'target': 'GO:0060087'}, {'key': 'ameliorates', 'source': 'GO:0060087', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007548', 'label': 'Drug', 'name': 'Isosorbide dinitrate'}, {'id': 'MESH:D009569', 'label': 'ChemicalSubstance', 'name': 'Nitric oxide'}, {'id': 'InterPro:IPR001170', 'label': 'GeneFamily', 'name': 'Guanylate cyclase'}, {'id': 'GO:0051208', 'label': 'BiologicalProcess', 'name': 'Sequestering of calcium ion'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'MESH:D006152', 'label': 'ChemicalSubstance', 'name': \"Cyclic guanosine 3',5'-monophosphate (cGMP)\"}, {'id': 'GO:0006470', 'label': 'BiologicalProcess', 'name': 'Protein dephosphorylation'}, {'id': 'MESH:D018994', 'label': 'ChemicalSubstance', 'name': 'Myosin light chains'}, {'id': 'GO:0060087', 'label': 'BiologicalProcess', 'name': 'Relaxation of vascular associated smooth muscle'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00883#mechanismofaction', 'https://en.wikipedia.org/wiki/Isosorbide_dinitrate#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01225_MESH_D020246_1', 'disease': 'Deep venous thrombosis', 'disease_mesh': 'MESH:D020246', 'drug': 'Enoxaparin sodium', 'drug_mesh': 'MESH:D017984', 'drugbank': 'DB:DB01225'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D017984', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00734'}, {'key': 'decreases abundance of', 'source': 'UniProt:P00734', 'target': 'MESH:D005337'}, {'key': 'prevents', 'source': 'MESH:D005337', 'target': 'GO:0007596'}, {'key': 'prevents', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'manifestation of', 'source': 'GO:0007596', 'target': 'MESH:D020246'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017984', 'label': 'Drug', 'name': 'Enoxaparin sodium'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00734', 'label': 'Protein', 'name': 'Factor IIa (thrombin)'}, {'id': 'MESH:D005337', 'label': 'ChemicalSubstance', 'name': 'Fibrin'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'Blood clotting'}, {'id': 'MESH:D020246', 'label': 'Disease', 'name': 'Deep venous thrombosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01225#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00022_MESH_D019698_1', 'disease': 'Chronic hepatitis C', 'disease_mesh': 'MESH:D019698', 'drug': 'Peginterferon alfa-2b', 'drug_mesh': 'MESH:C417083', 'drugbank': 'DB:DB00022'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C417083', 'target': 'UniProt:P17181'}, {'key': 'decreases activity of', 'source': 'MESH:C417083', 'target': 'UniProt:P27958'}, {'key': 'prevents', 'source': 'UniProt:P27958', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11103'}, {'key': 'positively regulates', 'source': 'UniProt:P17181', 'target': 'REACT:R-HSA-8950505'}, {'key': 'increases response to', 'source': 'REACT:R-HSA-8950505', 'target': 'GO:0140374'}, {'key': 'in taxon', 'source': 'GO:0140374', 'target': 'NCBITaxon:11103'}, {'key': 'causes', 'source': 'NCBITaxon:11103', 'target': 'MESH:D019698'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C417083', 'label': 'Drug', 'name': 'Peginterferon alfa-2b'}, {'id': 'UniProt:P17181', 'label': 'Protein', 'name': 'Interferon alpha/beta receptor 1'}, {'id': 'UniProt:P27958', 'label': 'Protein', 'name': 'Viral DNA polymerase'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral replication'}, {'id': 'REACT:R-HSA-8950505', 'label': 'Pathway', 'name': 'JAK/STAT pathway'}, {'id': 'GO:0140374', 'label': 'BiologicalProcess', 'name': 'Innate antiviral immune'}, {'id': 'NCBITaxon:11103', 'label': 'OrganismTaxon', 'name': 'Hepatitis C virus'}, {'id': 'MESH:D019698', 'label': 'Disease', 'name': 'Chronic hepatitis C'}], 'reference': ['https://go.drugbank.com/drugs/DB00022#mechanismofaction', 'https://en.wikipedia.org/wiki/Peginterferon_alfa-2b']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06209_MESH_D054058_1', 'disease': 'Acute coronary syndrome', 'disease_mesh': 'MESH:D054058', 'drug': 'Prasugrel', 'drug_mesh': 'MESH:D000068799', 'drugbank': 'DB:DB06209'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068799', 'target': 'UniProt:Q9H244'}, {'key': 'decreases molecular interaction', 'source': 'UniProt:Q9H244', 'target': 'MESH:D000244'}, {'key': 'decreases activity of', 'source': 'MESH:D000244', 'target': 'PR:000028445'}, {'key': 'prevents', 'source': 'PR:000028445', 'target': 'GO:0070527'}, {'key': 'correlated with', 'source': 'GO:0070527', 'target': 'MESH:D054058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068799', 'label': 'Drug', 'name': 'Prasugrel'}, {'id': 'UniProt:Q9H244', 'label': 'Protein', 'name': 'P2Y purinoceptor 12'}, {'id': 'MESH:D000244', 'label': 'ChemicalSubstance', 'name': 'Adenosine diphosphate (ADP)'}, {'id': 'PR:000028445', 'label': 'MacromolecularComplex', 'name': 'Glycoprotein GPIIb/IIIa complex'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'MESH:D054058', 'label': 'Disease', 'name': 'Acute coronary syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06209#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'MacromolecularComplex', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D015451_1', 'disease': 'Chronic lymphoid leukemia, disease', 'disease_mesh': 'MESH:D015451', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'part of', 'source': 'GO:0006260', 'target': 'GO:0046651'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'GO:0046651'}, {'key': 'positively correlated with', 'source': 'GO:0046651', 'target': 'MESH:D015451'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'GO:0046651', 'label': 'BiologicalProcess', 'name': 'Lymphocyte proliferation'}, {'id': 'MESH:D015451', 'label': 'Disease', 'name': 'Chronic lymphoid leukemia, disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Chronic_lymphocytic_leukemia#Signs_and_symptoms']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D008224_1', 'disease': \"Follicular non-Hodgkin's lymphoma\", 'disease_mesh': 'MESH:D008224', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'part of', 'source': 'GO:0006260', 'target': 'GO:0042100'}, {'key': 'part of', 'source': 'GO:0006351', 'target': 'GO:0042100'}, {'key': 'positively correlated with', 'source': 'GO:0042100', 'target': 'MESH:D008224'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'GO:0042100', 'label': 'BiologicalProcess', 'name': 'B cell proliferation'}, {'id': 'MESH:D008224', 'label': 'Disease', 'name': \"Follicular non-Hodgkin's lymphoma\"}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Follicular_lymphoma']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00291_MESH_D006689_1', 'disease': \"Hodgkin's disease\", 'disease_mesh': 'MESH:D006689', 'drug': 'Chlorambucil', 'drug_mesh': 'MESH:D002699', 'drugbank': 'DB:DB00291'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D002699', 'target': 'MESH:D004247'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006260'}, {'key': 'participates in', 'source': 'MESH:D004247', 'target': 'GO:0006351'}, {'key': 'occurs in', 'source': 'GO:0006260', 'target': 'CL:0000542'}, {'key': 'occurs in', 'source': 'GO:0006351', 'target': 'CL:0000542'}, {'key': 'positively correlated with', 'source': 'CL:0000542', 'target': 'MESH:D006689'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002699', 'label': 'Drug', 'name': 'Chlorambucil'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription, DNA-templated'}, {'id': 'CL:0000542', 'label': 'Cell', 'name': 'Lymphocyte'}, {'id': 'MESH:D006689', 'label': 'Disease', 'name': \"Hodgkin's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00291', 'https://en.wikipedia.org/wiki/Hodgkin_lymphoma']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00439_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Cerivastatin', 'drug_mesh': 'MESH:C086276', 'drugbank': 'DB:DB00439'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086276', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086276', 'label': 'Drug', 'name': 'Cerivastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00439']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00439_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Cerivastatin', 'drug_mesh': 'MESH:C086276', 'drugbank': 'DB:DB00439'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086276', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086276', 'label': 'Drug', 'name': 'Cerivastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://en.wikipedia.org/wiki/Combined_hyperlipidemia', 'https://go.drugbank.com/drugs/DB00439']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01126_MESH_D011470_1', 'disease': 'Benign prostatic hyperplasia', 'disease_mesh': 'MESH:D011470', 'drug': 'Dutasteride', 'drug_mesh': 'MESH:D000068538', 'drugbank': 'DB:DB01126'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068538', 'target': 'UniProt:P31213'}, {'key': 'decreases activity of', 'source': 'MESH:D000068538', 'target': 'UniProt:P18405'}, {'key': 'increases abundance of', 'source': 'UniProt:P31213', 'target': 'MESH:D013196'}, {'key': 'increases abundance of', 'source': 'UniProt:P18405', 'target': 'MESH:D013196'}, {'key': 'positively correlated with', 'source': 'MESH:D013196', 'target': 'MESH:D011470'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068538', 'label': 'Drug', 'name': 'Dutasteride'}, {'id': 'UniProt:P31213', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 2'}, {'id': 'UniProt:P18405', 'label': 'Protein', 'name': '3-oxo-5-alpha-steroid 4-dehydrogenase 1'}, {'id': 'MESH:D013196', 'label': 'ChemicalSubstance', 'name': 'Dihydrotestosterone'}, {'id': 'MESH:D011470', 'label': 'Disease', 'name': 'Benign prostatic hyperplasia'}], 'reference': ['https://go.drugbank.com/drugs/DB01126']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D011014_1', 'disease': 'Pneumonia', 'disease_mesh': 'MESH:D011014', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D011014'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D011014', 'label': 'Disease', 'name': 'Pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01328_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Cefonicid', 'drug_mesh': 'MESH:D015790', 'drugbank': 'DB:DB01328'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015790', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015790', 'label': 'Drug', 'name': 'Cefonicid'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01328']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Mestranol is a biologically inactive prodrug of ethinylestradiol, which it is demethylated in the liver with a conversion efficiency of 70%. Mestranol is used as an estrogen component of many combined oral contraceptives. The combined oral contraceptives show efficacy in a treatment of menorrhagia, but not estrogen component itself.', 'directed': True, 'graph': {'_id': 'DB01357_MESH_D008595_1', 'disease': 'Menorrhagia', 'disease_mesh': 'MESH:D008595', 'drug': 'Mestranol', 'drug_mesh': 'MESH:D008656', 'drugbank': 'DB:DB01357'}, 'links': [{'key': 'treats', 'source': 'MESH:D008656', 'target': 'MESH:D008595'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008656', 'label': 'Drug', 'name': 'Mestranol'}, {'id': 'MESH:D008595', 'label': 'Disease', 'name': 'Menorrhagia'}], 'reference': ['https://go.drugbank.com/drugs/DB01357', 'https://pubmed.ncbi.nlm.nih.gov/26695687/']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Mestranol is a biologically inactive prodrug of ethinylestradiol, which it is demethylated in the liver with a conversion efficiency of 70%. Mestranol is used as an estrogen component of many combined oral contraceptives. The combined oral contraceptives show efficacy in endometriosis symptoms management, but not estrogen component itself.', 'directed': True, 'graph': {'_id': 'DB01357_MESH_D004715_1', 'disease': 'Endometriosis', 'disease_mesh': 'MESH:D004715', 'drug': 'Mestranol', 'drug_mesh': 'MESH:D008656', 'drugbank': 'DB:DB01357'}, 'links': [{'key': 'treats', 'source': 'MESH:D008656', 'target': 'MESH:D004715'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008656', 'label': 'Drug', 'name': 'Mestranol'}, {'id': 'MESH:D004715', 'label': 'Disease', 'name': 'Endometriosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01357', 'https://pubmed.ncbi.nlm.nih.gov/31488888/']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Calfactant adsorbs rapidly to the surface of the alveolar air-fluid interface and modifies surface tension to a minimum of less than 3 mN/m. It acts in a manner similar to natural lung surfactant, thus preventing or treating respiratory distress syndrome.', 'directed': True, 'graph': {'_id': 'DB06415_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'Calfactant', 'drug_mesh': 'MESH:C117342', 'drugbank': 'DB:DB06415'}, 'links': [{'key': 'capable of', 'source': 'MESH:C117342', 'target': 'GO:0043129'}, {'key': 'negatively correlated with', 'source': 'GO:0043129', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C117342', 'label': 'Drug', 'name': 'Calfactant'}, {'id': 'GO:0043129', 'label': 'BiologicalProcess', 'name': 'Surfactant homeostasis'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06415']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09033_MESH_D003424_1', 'disease': \"Crohn's disease\", 'disease_mesh': 'MESH:D003424', 'drug': 'Vedolizumab', 'drug_mesh': 'MESH:C543529', 'drugbank': 'DB:DB09033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P13612'}, {'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P26010'}, {'key': 'positively regulates', 'source': 'UniProt:P13612', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:P26010', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0072676'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0072676', 'target': 'MESH:D003424'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543529', 'label': 'Drug', 'name': 'Vedolizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'UniProt:P26010', 'label': 'Protein', 'name': 'Integrin beta-7'}, {'id': 'UniProt:Q13477', 'label': 'Protein', 'name': 'Mucosal addressin cell adhesion molecule 1'}, {'id': 'GO:0072676', 'label': 'BiologicalProcess', 'name': 'Lymphocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003424', 'label': 'Disease', 'name': \"Crohn's disease\"}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25952593/', 'https://go.drugbank.com/drugs/DB09033#BE0000590']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09033_MESH_D003093_1', 'disease': 'Ulcerative colitis', 'disease_mesh': 'MESH:D003093', 'drug': 'Vedolizumab', 'drug_mesh': 'MESH:C543529', 'drugbank': 'DB:DB09033'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P13612'}, {'key': 'decreases activity of', 'source': 'MESH:C543529', 'target': 'UniProt:P26010'}, {'key': 'positively regulates', 'source': 'UniProt:P13612', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:P26010', 'target': 'UniProt:Q13477'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0072676'}, {'key': 'positively regulates', 'source': 'UniProt:Q13477', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0072676', 'target': 'MESH:D003093'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003093'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C543529', 'label': 'Drug', 'name': 'Vedolizumab'}, {'id': 'UniProt:P13612', 'label': 'Protein', 'name': 'Integrin alpha-4'}, {'id': 'UniProt:P26010', 'label': 'Protein', 'name': 'Integrin beta-7'}, {'id': 'UniProt:Q13477', 'label': 'Protein', 'name': 'Mucosal addressin cell adhesion molecule 1'}, {'id': 'GO:0072676', 'label': 'BiologicalProcess', 'name': 'Lymphocyte migration'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003093', 'label': 'Disease', 'name': 'Ulcerative colitis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/25952593/', 'https://go.drugbank.com/drugs/DB09033#BE0000590']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01037_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'Selegiline', 'drug_mesh': 'MESH:D012642', 'drugbank': 'DB:DB01037'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D012642', 'target': 'UniProt:P21397'}, {'key': 'positively regulates', 'source': 'UniProt:P21397', 'target': 'GO:0042402'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D012701'}, {'key': 'decreases abundance of', 'source': 'GO:0042402', 'target': 'MESH:D009638'}, {'key': 'positively correlated with', 'source': 'MESH:D012701', 'target': 'GO:0099153'}, {'key': 'positively correlated with', 'source': 'MESH:D009638', 'target': 'GO:0099155'}, {'key': 'disrupted by', 'source': 'GO:0099153', 'target': 'MESH:D003866'}, {'key': 'disrupted by', 'source': 'GO:0099155', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012642', 'label': 'Drug', 'name': 'Selegiline'}, {'id': 'UniProt:P21397', 'label': 'Protein', 'name': 'Amine oxidase [flavin-containing] A'}, {'id': 'GO:0042402', 'label': 'BiologicalProcess', 'name': 'Cellular biogenic amine catabolic process'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Norepinephrine'}, {'id': 'MESH:D012701', 'label': 'ChemicalSubstance', 'name': 'Serotonin'}, {'id': 'GO:0099153', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, serotonergic'}, {'id': 'GO:0099155', 'label': 'BiologicalProcess', 'name': 'Synaptic transmission, noradrenergic'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/26104056/', 'https://www.ncbi.nlm.nih.gov/books/NBK539848/', 'https://pubmed.ncbi.nlm.nih.gov/12369606/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions in Trichomonas by a ferredoxin-mediated electron transport system.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D014245_1', 'disease': 'Infection by Trichomonas', 'disease_mesh': 'MESH:D014245', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5722'}, {'key': 'causes', 'source': 'NCBITaxon:5722', 'target': 'MESH:D014245'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5722', 'label': 'OrganismTaxon', 'name': 'Trichomonas vaginalis'}, {'id': 'MESH:D014245', 'label': 'Disease', 'name': 'Infection by Trichomonas'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D005873_1', 'disease': 'Giardiasis', 'disease_mesh': 'MESH:D005873', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:5741'}, {'key': 'causes', 'source': 'NCBITaxon:5741', 'target': 'MESH:D005873'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:5741', 'label': 'OrganismTaxon', 'name': 'Giardia intestinalis'}, {'id': 'MESH:D005873', 'label': 'Disease', 'name': 'Giardiasis'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Secnidazole is a prodrug converted to an active form via reduction of nitro groups to radical anions.', 'directed': True, 'graph': {'_id': 'DB12834_MESH_D016585_1', 'disease': 'Bacterial vaginosis', 'disease_mesh': 'MESH:D016585', 'drug': 'Secnidazole', 'drug_mesh': 'MESH:C016724', 'drugbank': 'DB:DB12834'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C016724', 'target': 'GO:0000305'}, {'key': 'disrupts', 'source': 'GO:0000305', 'target': 'MESH:D004247'}, {'key': 'in taxon', 'source': 'MESH:D004247', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D016585'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C016724', 'label': 'Drug', 'name': 'Secnidazole'}, {'id': 'GO:0000305', 'label': 'BiologicalProcess', 'name': 'Response to oxygen radical'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D016585', 'label': 'Disease', 'name': 'Bacterial vaginosis'}], 'reference': ['https://go.drugbank.com/drugs/DB12834']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D019355', 'target': 'UniProt:P41180'}, {'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0055074'}, {'key': 'negatively correlated with', 'source': 'MESH:D002118', 'target': 'MESH:D006996'}, {'key': 'negatively correlated with', 'source': 'GO:0055074', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0055074', 'label': 'BiologicalProcess', 'name': 'calcium ion homeostasis'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D000080445_1', 'disease': 'Asthma-chronic obstructive pulmonary disease overlap syndrome', 'disease_mesh': 'MESH:D000080445', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D000080445'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D000080445'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D000080445'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D000080445', 'label': 'Disease', 'name': 'Asthma-chronic obstructive pulmonary disease overlap syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001249'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001249'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D011656_1', 'disease': 'Pulmonary emphysema', 'disease_mesh': 'MESH:D011656', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011656'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D011656', 'label': 'Disease', 'name': 'Pulmonary emphysema'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00277_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015105'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D015106'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'MESH:D018047'}, {'key': 'positively regulates', 'source': 'MESH:D015105', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'MESH:D015106', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'MESH:D016084'}, {'key': 'positively correlated with', 'source': 'MESH:D016084', 'target': 'MESH:D001986'}, {'key': 'positively regulates', 'source': 'MESH:D018047', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D001986'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'MESH:D018047', 'label': 'GeneFamily', 'name': 'Receptors, Purinergic P1'}, {'id': 'MESH:D015106', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-GMP Phosphodiesterases\"}, {'id': 'MESH:D015105', 'label': 'GeneFamily', 'name': \"3',5'-Cyclic-AMP Phosphodiesterases\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'MESH:D016084', 'label': 'BiologicalProcess', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00204_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'dofetilide', 'drug_mesh': 'MESH:C063533', 'drugbank': 'DB:DB00204'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:Q12809'}, {'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:O95069'}, {'key': 'negatively regulates', 'source': 'MESH:C063533', 'target': 'UniProt:Q14500'}, {'key': 'participates in', 'source': 'UniProt:Q12809', 'target': 'REACT:R-HSA-5576890'}, {'key': 'regulates', 'source': 'UniProt:O95069', 'target': 'GO:0030322'}, {'key': 'positively regulates', 'source': 'UniProt:Q14500', 'target': 'GO:0061337'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-5576890', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'GO:0030322', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'GO:0061337', 'target': 'MESH:D012032'}, {'key': 'negatively correlated with', 'source': 'MESH:D012032', 'target': 'HP:0001692'}, {'key': 'manifestation of', 'source': 'HP:0001692', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C063533', 'label': 'Drug', 'name': 'dofetilide'}, {'id': 'UniProt:Q12809', 'label': 'Protein', 'name': 'Potassium voltage-gated channel subfamily H member 2'}, {'id': 'UniProt:O95069', 'label': 'Protein', 'name': 'Potassium channel subfamily K member 2'}, {'id': 'UniProt:Q14500', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 12'}, {'id': 'GO:0030322', 'label': 'BiologicalProcess', 'name': 'stabilization of membrane potential'}, {'id': 'GO:0061337', 'label': 'BiologicalProcess', 'name': 'cardiac conduction'}, {'id': 'REACT:R-HSA-5576890', 'label': 'Pathway', 'name': 'Phase 3 - rapid repolarisation'}, {'id': 'MESH:D012032', 'label': 'BiologicalProcess', 'name': 'Refractory Period, Electrophysiological'}, {'id': 'HP:0001692', 'label': 'PhenotypicFeature', 'name': 'Atrial arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00204#mechanism-of-action', 'https://en.wikipedia.org/wiki/Dofetilide#Mechanism_of_action', 'https://www.cvpharmacology.com/antiarrhy/potassium-blockers', 'https://pubmed.ncbi.nlm.nih.gov/10907968/']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease, specially the acute form, is mainly caused by infection (https://en.wikipedia.org/wiki/Enterocolitis#Cause), leading to inflammation. So in addition to treating the symptoms (such as spams and GI secretions), antibiotics, anti-virals etc may be needed for treatment (https://en.wikipedia.org/wiki/Enterocolitis#Treatment).', 'directed': True, 'graph': {'_id': 'DB00771_MESH_D004760_1', 'disease': 'Enterocolitis', 'disease_mesh': 'MESH:D004760', 'drug': 'clidinium', 'drug_mesh': 'MESH:C054940', 'drugbank': 'DB:DB00771'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C054940', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'HP:0003394'}, {'key': 'correlated with', 'source': 'GO:0001696', 'target': 'MESH:D004760'}, {'key': 'correlated with', 'source': 'HP:0003394', 'target': 'MESH:D004760'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054940', 'label': 'Drug', 'name': 'clidinium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'Intestinal Secretions'}, {'id': 'HP:0003394', 'label': 'PhenotypicFeature', 'name': 'Muscle spasm'}, {'id': 'MESH:D004760', 'label': 'Disease', 'name': 'Enterocolitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00771#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clidinium_bromide#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00771_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'clidinium', 'drug_mesh': 'MESH:C054940', 'drugbank': 'DB:DB00771'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C054940', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0006939'}, {'key': 'positively correlated with', 'source': 'GO:0006939', 'target': 'MESH:D013035'}, {'key': 'increases abundance of', 'source': 'MESH:D013035', 'target': 'HP:0032155'}, {'key': 'correlated with', 'source': 'HP:0032155', 'target': 'HP:0002579'}, {'key': 'manifestation of', 'source': 'HP:0002579', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C054940', 'label': 'Drug', 'name': 'clidinium'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'smooth muscle contraction'}, {'id': 'HP:0032155', 'label': 'PhenotypicFeature', 'name': 'Abdominal cramps'}, {'id': 'MESH:D013035', 'label': 'BiologicalProcess', 'name': 'Spasm'}, {'id': 'HP:0002579', 'label': 'PhenotypicFeature', 'name': 'Gastrointestinal dysmotility'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB00771#mechanism-of-action', 'https://en.wikipedia.org/wiki/Clidinium_bromide#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Irritable_bowel_syndrome#Medication']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"In Parkinson's disease, there is imbalance between levels of acetylcholine and dopamine, where increased levels of acetylcholine and degeneration of dopaminergic pathways are observed. Therefore, muscarinic antagonists block central cholinergic activity and balance out neurotransmitters in the brain (https://en.wikipedia.org/wiki/Muscarinic_antagonist#Effects). Anticholinergic drugs may also be prescribed to improve bladder dysfunction (https://pubmed.ncbi.nlm.nih.gov/20370804/).\", 'directed': True, 'graph': {'_id': 'DB00942_MESH_D010300_1', 'disease': \"Parkinson's disease\", 'disease_mesh': 'MESH:D010300', 'drug': 'cycrimine', 'drug_mesh': 'MESH:C012262', 'drugbank': 'DB:DB00942'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C012262', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0007271'}, {'key': 'increases activity of', 'source': 'GO:0007271', 'target': 'GO:0014055'}, {'key': 'positively correlated with', 'source': 'GO:0014055', 'target': 'MESH:D010300'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012262', 'label': 'Drug', 'name': 'cycrimine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0007271', 'label': 'BiologicalProcess', 'name': 'synaptic transmission, cholinergic'}, {'id': 'GO:0014055', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion, neurotransmission'}, {'id': 'MESH:D010300', 'label': 'Disease', 'name': \"Parkinson's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB00942#mechanism-of-action', 'https://pubchem.ncbi.nlm.nih.gov/compound/2911#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The antiseizure mechanism of action based on the voltage sodium channels is not a consensus (https://en.wikipedia.org/wiki/Eslicarbazepine_acetate#Mechanism_of_action). The drug could also bind to calcium channels (https://go.drugbank.com/drugs/DB09119#mechanism-of-action). Note that the protein target listed in DrugBank (https://go.drugbank.com/drugs/DB09119#BE0005793) does not seem to be involved in epilepsy, but rather in inflammation and pain.', 'directed': True, 'graph': {'_id': 'DB09119_MESH_D004828_1', 'disease': 'Epilepsies, Partial', 'disease_mesh': 'MESH:D004828', 'drug': 'eslicarbazepine acetate', 'drug_mesh': 'MESH:C416835', 'drugbank': 'DB:DB09119'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:C416835', 'target': 'MESH:C571001'}, {'key': 'decreases activity of', 'source': 'MESH:C571001', 'target': 'InterPro:IPR001696'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0035725'}, {'key': 'regulates', 'source': 'GO:0035725', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'HP:0011097'}, {'key': 'positively correlated with', 'source': 'HP:0011097', 'target': 'MESH:D004828'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C416835', 'label': 'Drug', 'name': 'eslicarbazepine acetate'}, {'id': 'MESH:C571001', 'label': 'Drug', 'name': 'eslicarbazepine'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0035725', 'label': 'BiologicalProcess', 'name': 'sodium ion transmembrane transport'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'HP:0011097', 'label': 'PhenotypicFeature', 'name': 'Epileptic spasm'}, {'id': 'MESH:D004828', 'label': 'Disease', 'name': 'Epilepsies, Partial'}], 'reference': ['https://pubchem.ncbi.nlm.nih.gov/compound/179344#section=Pharmacology-and-Biochemistry', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL87992/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'This disease is also known as Disorder of lung as per DrugCentral. Note this disease name is a very generic term, that could encompass any diseases of the lungs, including neoplasms, infectious diseases (e.g. tuberculosis) and rare diseases (e.g. cystic fibrosis) for which theophylline may not have any therapeutic benefit at all. Therefore, this annotation is done for all lung diseases that could be indications for this drug to encompass diseases that are similar to asthma, bronchitis, COPD and alike.', 'directed': True, 'graph': {'_id': 'DB00277_MESH_D008171_1', 'disease': 'Lung Diseases', 'disease_mesh': 'MESH:D008171', 'drug': 'theophylline', 'drug_mesh': 'MESH:D013806', 'drugbank': 'DB:DB00277'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013806', 'target': 'UniProt:Q92769'}, {'key': 'positively regulates', 'source': 'UniProt:Q92769', 'target': 'GO:0016575'}, {'key': 'negatively correlated with', 'source': 'GO:0016575', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'InterPro:IPR023174'}, {'key': 'decreases activity of', 'source': 'MESH:D013806', 'target': 'InterPro:IPR001634'}, {'key': 'positively regulates', 'source': 'InterPro:IPR023174', 'target': 'GO:0006198'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR023174', 'target': 'GO:0019933'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001634', 'target': 'HP:4000007'}, {'key': 'positively correlated with', 'source': 'HP:4000007', 'target': 'MESH:D008171'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001634', 'target': 'GO:0006954'}, {'key': 'decreases abundance of', 'source': 'GO:0006198', 'target': 'CHEBI:17489'}, {'key': 'increases abundance of', 'source': 'GO:0019933', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0044557'}, {'key': 'negatively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D008171'}, {'key': 'negatively correlated with', 'source': 'GO:0044557', 'target': 'MESH:D008171'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:D000628', 'MESH:D031210'], 'id': 'MESH:D013806', 'label': 'Drug', 'name': 'theophylline'}, {'id': 'InterPro:IPR001634', 'label': 'GeneFamily', 'name': 'Adenosine receptor'}, {'id': 'InterPro:IPR023174', 'label': 'GeneFamily', 'name': \"3'5'-cyclic nucleotide phosphodiesterase, conserved site\"}, {'id': 'UniProt:Q92769', 'label': 'Protein', 'name': 'Histone deacetylase 2'}, {'id': 'GO:0016575', 'label': 'BiologicalProcess', 'name': 'histone deacetylation'}, {'id': 'GO:0006198', 'label': 'BiologicalProcess', 'name': 'cAMP catabolic process'}, {'id': 'GO:0019933', 'label': 'BiologicalProcess', 'name': 'cAMP-mediated signaling'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'relaxation of smooth muscle'}, {'id': 'HP:4000007', 'label': 'PhenotypicFeature', 'name': 'Bronchoconstriction'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': \"3',5'-cyclic AMP\"}, {'id': 'MESH:D008171', 'label': 'Disease', 'name': 'Lung Diseases'}], 'reference': ['https://go.drugbank.com/drugs/DB00277#mechanism-of-action', 'https://en.wikipedia.org/wiki/Theophylline#Pharmacodynamics', 'https://pubmed.ncbi.nlm.nih.gov/18660825/', 'https://pubmed.ncbi.nlm.nih.gov/12212985/', 'https://pubmed.ncbi.nlm.nih.gov/15980878/', 'https://pubmed.ncbi.nlm.nih.gov/19762093/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00046_MESH_D003922_1', 'disease': 'Diabetes mellitus type 1', 'disease_mesh': 'MESH:D003922', 'drug': 'insulin lispro', 'drug_mesh': 'MESH:D061268', 'drugbank': 'DB:DB00046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D061268', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'MESH:D055504'}, {'key': 'positively regulates', 'source': 'MESH:D055504', 'target': 'GO:0046323'}, {'key': 'negatively correlated with', 'source': 'GO:0046323', 'target': 'MESH:D003922'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061268', 'label': 'Drug', 'name': 'insulin lispro'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0004714', 'label': 'MolecularActivity', 'name': 'transmembrane receptor protein tyrosine kinase activity'}, {'id': 'MESH:D055504', 'label': 'GeneFamily', 'name': 'Insulin Receptor Substrate Proteins'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'glucose import'}, {'id': 'MESH:D003922', 'label': 'Disease', 'name': 'Diabetes mellitus type 1'}], 'reference': ['https://go.drugbank.com/drugs/DB00046#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201538/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00046_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'insulin lispro', 'drug_mesh': 'MESH:D061268', 'drugbank': 'DB:DB00046'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D061268', 'target': 'UniProt:P06213'}, {'key': 'positively regulates', 'source': 'UniProt:P06213', 'target': 'GO:0004714'}, {'key': 'positively regulates', 'source': 'GO:0004714', 'target': 'MESH:D055504'}, {'key': 'positively regulates', 'source': 'MESH:D055504', 'target': 'GO:0046323'}, {'key': 'negatively correlated with', 'source': 'GO:0046323', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D061268', 'label': 'Drug', 'name': 'insulin lispro'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0004714', 'label': 'MolecularActivity', 'name': 'transmembrane receptor protein tyrosine kinase activity'}, {'id': 'MESH:D055504', 'label': 'GeneFamily', 'name': 'Insulin Receptor Substrate Proteins'}, {'id': 'GO:0046323', 'label': 'BiologicalProcess', 'name': 'glucose import'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00046#mechanism-of-action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201538/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The disease is denoted Carcinoma of breast in the original file as per DrugCentral. The drug intercaltes with DNA and prevents DNA replication and downstream processes, some of them involving UniProt:P11388, which leads to cell/tumour death.', 'directed': True, 'graph': {'_id': 'DB00445_MESH_D001943_1', 'disease': 'Breast Neoplasms', 'disease_mesh': 'MESH:D001943', 'drug': 'epirubicin', 'drug_mesh': 'MESH:D015251', 'drugbank': 'DB:DB00445'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015251', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D001943'}, {'key': 'decreases abundance of', 'source': 'MESH:D015251', 'target': 'GO:0032993'}, {'key': 'has participant', 'source': 'GO:0032993', 'target': 'UniProt:P11388'}, {'key': 'positively correlated with', 'source': 'UniProt:P11388', 'target': 'GO:0006260'}, {'key': 'increases abundance of', 'source': 'MESH:D015251', 'target': 'MESH:D005609'}, {'key': 'positively correlated with', 'source': 'MESH:D005609', 'target': 'GO:0090734'}, {'key': 'positively correlated with', 'source': 'GO:0090734', 'target': 'GO:0006915'}, {'key': 'negatively correlated with', 'source': 'GO:0006915', 'target': 'MESH:D001943'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'GO:0006260', 'target': 'GO:0140014'}, {'key': 'positively correlated with', 'source': 'GO:0140014', 'target': 'HP:0031377'}, {'key': 'manifestation of', 'source': 'HP:0031377', 'target': 'MESH:D001943'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015251', 'label': 'Drug', 'name': 'epirubicin'}, {'id': 'UniProt:P11388', 'label': 'Protein', 'name': 'DNA topoisomerase 2-alpha'}, {'id': 'GO:0032993', 'label': 'CellularComponent', 'name': 'protein-DNA complex'}, {'id': 'MESH:D005609', 'label': 'ChemicalSubstance', 'name': 'Free Radicals'}, {'id': 'GO:0090734', 'label': 'CellularComponent', 'name': 'site of DNA damage'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'mitotic nuclear division'}, {'id': 'MESH:D001943', 'label': 'Disease', 'name': 'Breast Neoplasm'}], 'reference': ['https://go.drugbank.com/drugs/DB00445#mechanism-of-action', 'https://en.wikipedia.org/wiki/Epirubicin']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'CellularComponent', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The disease is also known as Deep venous thrombosis as per DrugCentral. Note that among the original MESH IDs for this drug one of them seems to have been deprecated (MESH:C438268) whereas the other (MESH:C049714) is for a compound where no evidence has been found to be related to fondaparinux.', 'directed': True, 'graph': {'_id': 'DB00569_MESH_D020246_1', 'disease': 'Venous Thrombosis', 'disease_mesh': 'MESH:D020246', 'drug': 'fondaparinux', 'drug_mesh': 'MESH:D000077425', 'drugbank': 'DB:DB00569'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000077425', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'positively correlated with', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'located in', 'source': 'GO:0007596', 'target': 'UBERON:0035552'}, {'key': 'location of', 'source': 'UBERON:0035552', 'target': 'MESH:D020246'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077425', 'label': 'Drug', 'name': 'fondaparinux'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'UBERON:0035552', 'label': 'GrossAnatomicalStructure', 'name': 'deep vein'}, {'id': 'MESH:D020246', 'label': 'Disease', 'name': 'Venous Thrombosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00569#BE0000280', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201202/', 'https://en.wikipedia.org/wiki/Fondaparinux#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'Disease']\n", - "{'comment': 'The disease is also known as Pulmonary thromboembolism as per DrugCentral. Note that among the original MESH IDs for this drug one of them seems to have been deprecated (MESH:C438268) whereas the other (MESH:C049714) is for a compound where no evidence has been found to be related to fondaparinux.', 'directed': True, 'graph': {'_id': 'DB00569_MESH_D011655_1', 'disease': 'Pulmonary Embolism', 'disease_mesh': 'MESH:D011655', 'drug': 'fondaparinux', 'drug_mesh': 'MESH:D000077425', 'drugbank': 'DB:DB00569'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D000077425', 'target': 'UniProt:P01008'}, {'key': 'decreases activity of', 'source': 'UniProt:P01008', 'target': 'UniProt:P00742'}, {'key': 'positively correlated with', 'source': 'UniProt:P00742', 'target': 'GO:0007596'}, {'key': 'positively correlated with', 'source': 'GO:0007596', 'target': 'HP:0001907'}, {'key': 'positively correlated with', 'source': 'HP:0001907', 'target': 'MESH:D011655'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000077425', 'label': 'Drug', 'name': 'fondaparinux'}, {'id': 'UniProt:P01008', 'label': 'Protein', 'name': 'Antithrombin-III'}, {'id': 'UniProt:P00742', 'label': 'Protein', 'name': 'Coagulation factor X'}, {'id': 'GO:0007596', 'label': 'BiologicalProcess', 'name': 'blood coagulation'}, {'id': 'HP:0001907', 'label': 'PhenotypicFeature', 'name': 'Thromboembolism'}, {'id': 'MESH:D011655', 'label': 'Disease', 'name': 'Pulmonary Embolism'}], 'reference': ['https://go.drugbank.com/drugs/DB00569#BE0000280', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201202/', 'https://en.wikipedia.org/wiki/Fondaparinux#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'strontium ranelate', 'drug_mesh': 'MESH:C081587', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C081587', 'target': 'MESH:D010006'}, {'key': 'increases abundance of', 'source': 'MESH:D010006', 'target': 'MESH:D053244'}, {'key': 'increases expression of', 'source': 'MESH:D010006', 'target': 'MESH:D053244'}, {'key': 'negatively correlated with', 'source': 'MESH:D053244', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D015663'}, {'key': 'positively regulates', 'source': 'MESH:C081587', 'target': 'UniProt:P41180'}, {'key': 'positively correlated with', 'source': 'UniProt:P41180', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'MESH:D010010'}, {'key': 'positively correlated with', 'source': 'MESH:D010010', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C081587', 'label': 'Drug', 'name': 'strontium ranelate'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'MESH:D053244', 'label': 'Protein', 'name': 'Osteoprotegerin'}, {'id': 'MESH:D010006', 'label': 'Cell', 'name': 'Osteoblasts'}, {'id': 'MESH:D010010', 'label': 'Cell', 'name': 'Osteoclasts'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB09267#mechanism-of-action', 'https://en.wikipedia.org/wiki/Strontium_ranelate#Mechanism_of_action']}\n", - "['Drug', 'Cell', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Cell', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'MESH:D002118', 'target': 'UniProt:P41180'}, {'key': 'negatively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0035898'}, {'key': 'positively correlated with', 'source': 'GO:0035898', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D010024'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'parathyroid hormone secretion'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11093_MESH_D015663_2', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'calcium citrate', 'drug_mesh': 'MESH:D019355', 'drugbank': 'DB:DB11093'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D019355', 'target': 'MESH:D002118'}, {'key': 'positively regulates', 'source': 'MESH:D002118', 'target': 'UniProt:P41180'}, {'key': 'negatively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0035898'}, {'key': 'positively correlated with', 'source': 'GO:0035898', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'HP:0004349'}, {'key': 'positively correlated with', 'source': 'HP:0004349', 'target': 'MESH:D015663'}, {'key': 'positively regulates', 'source': 'UniProt:P41180', 'target': 'GO:0070509'}, {'key': 'positively correlated with', 'source': 'GO:0070509', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019355', 'label': 'Drug', 'name': 'calcium citrate'}, {'id': 'MESH:D002118', 'label': 'ChemicalSubstance', 'name': 'Calcium'}, {'id': 'UniProt:P41180', 'label': 'Protein', 'name': 'Extracellular calcium-sensing receptor'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'parathyroid hormone secretion'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0004349', 'label': 'PhenotypicFeature', 'name': 'Reduced bone mineral density'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB11093#BE0000509']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D061387_1', 'disease': 'Chlamydial pneumonia', 'disease_mesh': 'MESH:D061387', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:Q9Z9A3'}, {'key': 'participates in', 'source': 'UniProt:Q9Z9A3', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:83558'}, {'key': 'causes', 'source': 'NCBITaxon:83558', 'target': 'MESH:D061387'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:Q9Z9A3', 'label': 'Protein', 'name': '50S ribosomal protein L1 (Chlamydia pneumoniae)'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:83558', 'label': 'OrganismTaxon', 'name': 'Chlamydia pneumoniae'}, {'id': 'MESH:D061387', 'label': 'Disease', 'name': 'Chlamydial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D002602_1', 'disease': 'Chancroid', 'disease_mesh': 'MESH:D002602', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:730'}, {'key': 'causes', 'source': 'NCBITaxon:730', 'target': 'MESH:D002602'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:730', 'label': 'OrganismTaxon', 'name': 'Haemophilus ducreyi'}, {'id': 'MESH:D002602', 'label': 'Disease', 'name': 'Chancroid'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D003234_1', 'disease': 'Bacterial conjunctivitis', 'disease_mesh': 'MESH:D003234', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D003234'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus sp.'}, {'id': 'MESH:D003234', 'label': 'Disease', 'name': 'Bacterial conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D011019_1', 'disease': 'Pneumonia due to Mycoplasma pneumoniae', 'disease_mesh': 'MESH:D011019', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:2104'}, {'key': 'causes', 'source': 'NCBITaxon:2104', 'target': 'MESH:D011019'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:2104', 'label': 'OrganismTaxon', 'name': 'Mycoplasma pneumoniae'}, {'id': 'MESH:D011019', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00207_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'azithromycin', 'drug_mesh': 'MESH:D017963', 'drugbank': 'DB:DB00207'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D017963', 'target': 'MESH:D012338'}, {'key': 'positively correlated with', 'source': 'MESH:D012338', 'target': 'UniProt:P0A7J6'}, {'key': 'participates in', 'source': 'UniProt:P0A7J6', 'target': 'GO:0045727'}, {'key': 'participates in', 'source': 'GO:0045727', 'target': 'GO:0051301'}, {'key': 'occurs in', 'source': 'GO:0051301', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017963', 'label': 'Drug', 'name': 'azithromycin'}, {'id': 'MESH:D012338', 'label': 'ChemicalSubstance', 'name': 'RNA, Ribosomal, 23S'}, {'id': 'UniProt:P0A7J6', 'label': 'Protein', 'name': '50S ribosomal protein L10'}, {'id': 'GO:0045727', 'label': 'BiologicalProcess', 'name': 'positive regulation of translation'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00207#BE0004800']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01319_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'fosamprenavir', 'drug_mesh': 'MESH:C426859', 'drugbank': 'DB:DB01319'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C426859', 'target': 'CHEBI:40050'}, {'key': 'decreases activity of', 'source': 'CHEBI:40050', 'target': 'UniProt:Q72874'}, {'key': 'increases activity of', 'source': 'UniProt:Q72874', 'target': 'UniProt:P04591'}, {'key': 'participates in', 'source': 'UniProt:P04591', 'target': 'GO:0019068'}, {'key': 'in taxon', 'source': 'GO:0019068', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C426859', 'label': 'Drug', 'name': 'fosamprenavir'}, {'id': 'CHEBI:40050', 'label': 'ChemicalSubstance', 'name': 'amprenavir'}, {'id': 'UniProt:Q72874', 'label': 'Protein', 'name': 'HIV-1 protease'}, {'id': 'UniProt:P04591', 'label': 'Protein', 'name': 'Gag polyprotein'}, {'id': 'GO:0019068', 'label': 'BiologicalProcess', 'name': 'virion assembly'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01319#BE0004854']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01168_MESH_D006689_1', 'disease': \"Hodgkin's disease\", 'disease_mesh': 'MESH:D006689', 'drug': 'procarbazine', 'drug_mesh': 'MESH:D011344', 'drugbank': 'DB:DB01168'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011344', 'target': 'GO:0030488'}, {'key': 'participates in', 'source': 'GO:0030488', 'target': 'GO:0006412'}, {'key': 'positively correlated with', 'source': 'GO:0006412', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D006689'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011344', 'label': 'Drug', 'name': 'procarbazine'}, {'id': 'GO:0030488', 'label': 'BiologicalProcess', 'name': 'tRNA methylation'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'translation'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D006689', 'label': 'Disease', 'name': \"Hodgkin's disease\"}], 'reference': ['https://go.drugbank.com/drugs/DB01168', 'https://pubchem.ncbi.nlm.nih.gov/compound/Procarbazine']}\n", - "['Drug', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01272_MESH_D006009_1', 'disease': 'Lysosomal alpha-1,4-glucosidase deficiency - infantile onset', 'disease_mesh': 'MESH:D006009', 'drug': 'alglucosidase alfa', 'drug_mesh': 'MESH:C509951', 'drugbank': 'DB:DB01272'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C509951', 'target': 'UniProt:P20645'}, {'key': 'participates in', 'source': 'UniProt:P20645', 'target': 'GO:0007041'}, {'key': 'occurs in', 'source': 'GO:0007041', 'target': 'GO:0005764'}, {'key': 'participates in', 'source': 'GO:0005764', 'target': 'GO:0004558'}, {'key': 'decreases abundance of', 'source': 'GO:0004558', 'target': 'MESH:D006003'}, {'key': 'positively correlated with', 'source': 'MESH:D006003', 'target': 'MESH:D006009'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C509951', 'label': 'Drug', 'name': 'alglucosidase alfa'}, {'id': 'UniProt:P20645', 'label': 'Protein', 'name': 'Cation-dependent mannose-6-phosphate receptor'}, {'id': 'GO:0007041', 'label': 'BiologicalProcess', 'name': 'lysosomal transport'}, {'id': 'GO:0005764', 'label': 'CellularComponent', 'name': 'lysosome'}, {'id': 'GO:0004558', 'label': 'MolecularActivity', 'name': 'alpha-1,4-glucosidase activity'}, {'id': 'MESH:D006003', 'label': 'ChemicalSubstance', 'name': 'glycogen'}, {'id': 'MESH:D006009', 'label': 'Disease', 'name': 'Lysosomal alpha-1,4-glucosidase deficiency - infantile onset'}], 'reference': ['https://go.drugbank.com/drugs/DB01272']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'MolecularActivity', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01243_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'chloroxine', 'drug_mesh': 'MESH:C004357', 'drugbank': 'DB:DB01243'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C004357', 'target': 'GO:0140014'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'UBERON:0001003'}, {'key': 'occurs in', 'source': 'GO:0140014', 'target': 'NCBITaxon:55193'}, {'key': 'positively correlated with', 'source': 'UBERON:0001003', 'target': 'HP:0040189'}, {'key': 'positively correlated with', 'source': 'NCBITaxon:55193', 'target': 'HP:0040189'}, {'key': 'positively correlated with', 'source': 'HP:0040189', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004357', 'label': 'Drug', 'name': 'chloroxine'}, {'id': 'GO:0140014', 'label': 'BiologicalProcess', 'name': 'mitosis'}, {'id': 'UBERON:0001003', 'label': 'GrossAnatomicalStructure', 'name': 'skin epidermis'}, {'id': 'NCBITaxon:55193', 'label': 'OrganismTaxon', 'name': 'Malassezia sp.'}, {'id': 'HP:0040189', 'label': 'PhenotypicFeature', 'name': 'scaling skin'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01243', 'https://pubchem.ncbi.nlm.nih.gov/compound/Chloroxine']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB04815_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'clioquinol', 'drug_mesh': 'MESH:D007464', 'drugbank': 'DB:DB04815'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D007464', 'target': 'NCBITaxon:4751'}, {'key': 'causes', 'source': 'NCBITaxon:4751', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007464', 'label': 'Drug', 'name': 'clioquinol'}, {'id': 'NCBITaxon:4751', 'label': 'OrganismTaxon', 'name': 'Fungi'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB04815']}\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06202_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'lasofoxifene', 'drug_mesh': 'MESH:C111332', 'drugbank': 'DB:DB06202'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C111332', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C111332', 'target': 'UniProt:Q92731'}, {'key': 'participates in', 'source': 'UniProt:P03372', 'target': 'GO:0043627'}, {'key': 'participates in', 'source': 'UniProt:Q92731', 'target': 'GO:0043627'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'GO:0043627', 'target': 'GO:0046849'}, {'key': 'contributes to', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'contributes to', 'source': 'GO:0046849', 'target': 'MESH:D015663'}, {'key': 'causes', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C111332', 'label': 'Drug', 'name': 'lasofoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor alpha'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0043627', 'label': 'BiologicalProcess', 'name': 'Response to estrogen'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0046849', 'label': 'BiologicalProcess', 'name': 'Bone remodeling'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06202', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2817938/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06372_MESH_D056587_1', 'disease': 'Cryopyrin associated periodic syndrome', 'disease_mesh': 'MESH:D056587', 'drug': 'rilonacept', 'drug_mesh': 'MESH:C531377', 'drugbank': 'DB:DB06372'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P01584'}, {'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P01583'}, {'key': 'decreases activity of', 'source': 'MESH:C531377', 'target': 'UniProt:P18510'}, {'key': 'participates in', 'source': 'UniProt:P01584', 'target': 'GO:0070498'}, {'key': 'participates in', 'source': 'UniProt:P01583', 'target': 'GO:0070498'}, {'key': 'participates in', 'source': 'UniProt:P18510', 'target': 'GO:0070498'}, {'key': 'positively regulates', 'source': 'GO:0070498', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D056587'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C531377', 'label': 'Drug', 'name': 'rilonacept'}, {'id': 'UniProt:P01584', 'label': 'Protein', 'name': 'Interleukin-1 beta'}, {'id': 'UniProt:P01583', 'label': 'Protein', 'name': 'Interleukin-1 alpha'}, {'id': 'UniProt:P18510', 'label': 'Protein', 'name': 'Interleukin-1 receptor antagonist protein'}, {'id': 'GO:0070498', 'label': 'BiologicalProcess', 'name': 'interleukin-1-mediated signaling pathway'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammation'}, {'id': 'MESH:D056587', 'label': 'Disease', 'name': 'Cryopyrin associated periodic syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB06372']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06761_MESH_D012127_1', 'disease': 'Respiratory distress syndrome in the newborn', 'disease_mesh': 'MESH:D012127', 'drug': 'beractant', 'drug_mesh': 'MESH:C072197', 'drugbank': 'DB:DB06761'}, 'links': [{'key': 'chemically similar to', 'source': 'MESH:C072197', 'target': 'UBERON:0008826'}, {'key': 'decreases activity of', 'source': 'UBERON:0008826', 'target': 'GO:0050828'}, {'key': 'located in', 'source': 'GO:0050828', 'target': 'UBERON:0002299'}, {'key': 'increases activity of', 'source': 'UBERON:0002299', 'target': 'GO:0043576'}, {'key': 'correlated with', 'source': 'GO:0043576', 'target': 'MESH:D012127'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C072197', 'label': 'Drug', 'name': 'beractant'}, {'id': 'UBERON:0008826', 'label': 'GrossAnatomicalStructure', 'name': 'pulmonary surfactant'}, {'id': 'GO:0050828', 'label': 'BiologicalProcess', 'name': 'Surface tension at the air-liquid interface'}, {'id': 'UBERON:0002299', 'label': 'GrossAnatomicalStructure', 'name': 'Alveolus of lung'}, {'id': 'GO:0043576', 'label': 'BiologicalProcess', 'name': 'Respiratory gaseous exchange'}, {'id': 'MESH:D012127', 'label': 'Disease', 'name': 'Respiratory distress syndrome in the newborn'}], 'reference': ['https://go.drugbank.com/drugs/DB06761']}\n", - "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'ilaprazole mechanism of action was not provided in the drugbank DB. From the literature it was reported as same as Omeprazole.', 'directed': True, 'graph': {'_id': 'DB11964_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'ilaprazole', 'drug_mesh': 'MESH:C119615', 'drugbank': 'DB:DB11964'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C119615', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119615', 'label': 'Drug', 'name': 'ilaprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB11964', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4009550/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'ilaprazole mechanism of action was not provided in the drugbank DB. From the literature it was reported as same as Omeprazole.', 'directed': True, 'graph': {'_id': 'DB11964_MESH_D005764_1', 'disease': 'Gastroesophageal reflux disease', 'disease_mesh': 'MESH:D005764', 'drug': 'ilaprazole', 'drug_mesh': 'MESH:C119615', 'drugbank': 'DB:DB11964'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C119615', 'target': 'UniProt:P20648'}, {'key': 'positively correlated with', 'source': 'UniProt:P20648', 'target': 'GO:0008900'}, {'key': 'located in', 'source': 'GO:0008900', 'target': 'UBERON:0000325'}, {'key': 'positively correlated with', 'source': 'UBERON:0000325', 'target': 'GO:0001696'}, {'key': 'positively correlated with', 'source': 'GO:0001696', 'target': 'MESH:D006356'}, {'key': 'manifestation of', 'source': 'MESH:D006356', 'target': 'MESH:D005764'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C119615', 'label': 'Drug', 'name': 'ilaprazole'}, {'id': 'UniProt:P20648', 'label': 'Protein', 'name': 'Potassium-transporting ATPase alpha chain 1'}, {'id': 'GO:0008900', 'label': 'MolecularActivity', 'name': 'P-type potassium:proton transporter activity'}, {'id': 'UBERON:0000325', 'label': 'GrossAnatomicalStructure', 'name': 'gastric gland'}, {'id': 'GO:0001696', 'label': 'BiologicalProcess', 'name': 'gastric acid secretion'}, {'id': 'MESH:D006356', 'label': 'PhenotypicFeature', 'name': 'Heartburn'}, {'id': 'MESH:D005764', 'label': 'Disease', 'name': 'Gastroesophageal reflux disease'}], 'reference': ['https://go.drugbank.com/drugs/DB11964', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4009550/']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12267_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'brigatinib', 'drug_mesh': 'MESH:C000598580', 'drugbank': 'DB:DB12267'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000598580', 'target': 'UniProt:Q9UM73'}, {'key': 'positively regulates', 'source': 'UniProt:Q9UM73', 'target': 'GO:0008283'}, {'key': 'decreases activity of', 'source': 'MESH:C000598580', 'target': 'UniProt:P00533'}, {'key': 'positively regulates', 'source': 'UniProt:P00533', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'CL:0001063'}, {'key': 'positively correlated with', 'source': 'CL:0001063', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000598580', 'label': 'Drug', 'name': 'brigatinib'}, {'id': 'UniProt:Q9UM73', 'label': 'Protein', 'name': 'anaplastic lymphoma kinase (ALK)'}, {'id': 'UniProt:P00533', 'label': 'Protein', 'name': 'Epidermal growth factor receptor'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'proliferation of cells'}, {'id': 'CL:0001063', 'label': 'Cell', 'name': 'tumor cell'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://go.drugbank.com/drugs/DB12267', 'https://www.sciencedirect.com/science/article/pii/S1319016418300902']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'comments': 'evogliptin mechanism of action was not provided in the drugbank DB. From the literature it was reported as a novel DPP-4 inhibitor, approved in South Korea.', 'directed': True, 'graph': {'_id': 'DB12625_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'evogliptin', 'drug_mesh': 'MESH:C557982', 'drugbank': 'DB:DB12625'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C557982', 'target': 'UniProt:P27487'}, {'key': 'negatively regulates', 'source': 'UniProt:P27487', 'target': 'CHEBI:80270'}, {'key': 'positively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0030073'}, {'key': 'negatively regulates', 'source': 'CHEBI:80270', 'target': 'GO:0070091'}, {'key': 'negatively regulates', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'GO:0070091', 'target': 'HP:0003074'}, {'key': 'positively correlated with', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C557982', 'label': 'Drug', 'name': 'evogliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase 4'}, {'id': 'CHEBI:80270', 'label': 'ChemicalSubstance', 'name': 'Glucagon-like peptide 1'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'insulin secretion'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'glucagon secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB12625', 'https://www.tandfonline.com/doi/abs/10.1080/14656566.2016.1183645']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Benzquinamide is a discontinued antiemetic drug used in post-operative care', 'directed': True, 'graph': {'_id': 'DB00767_MESH_D020250_1', 'disease': 'Postoperative nausea and vomiting', 'disease_mesh': 'MESH:D020250', 'drug': 'Benzquinamide', 'drug_mesh': 'MESH:C100234', 'drugbank': 'DB:DB00767'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C100234', 'target': 'InterPro:IPR000995'}, {'key': 'decreases activity of', 'source': 'MESH:C100234', 'target': 'UniProt:P35367'}, {'key': 'ameliorates', 'source': 'UniProt:P35367', 'target': 'MESH:D020250'}, {'key': 'ameliorates', 'source': 'InterPro:IPR000995', 'target': 'MESH:D020250'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C100234', 'label': 'Drug', 'name': 'Benzquinamide'}, {'id': 'InterPro:IPR000995', 'label': 'GeneFamily', 'name': 'Muscarinic acetycholine receptors'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptors'}, {'id': 'MESH:D020250', 'label': 'Disease', 'name': 'Postoperative nausea and vomiting'}], 'reference': ['https://go.drugbank.com/drugs/DB00767#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'Disease']\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D014069_1', 'disease': 'Tonsillitis', 'disease_mesh': 'MESH:D014069', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q54906'}, {'key': 'negatively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D014069'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D014069', 'label': 'Disease', 'name': 'Tonsillitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q54906'}, {'key': 'negatively regulates', 'source': 'UniProt:Q54906', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q54906', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:P02919'}, {'key': 'negatively regulates', 'source': 'UniProt:P02919', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:P02919', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01140_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Cefadroxil', 'drug_mesh': 'MESH:D002434', 'drugbank': 'DB:DB01140'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002434', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'increases activity of', 'source': 'MESH:D002434', 'target': 'InterPro:IPR033907'}, {'key': 'contributes to', 'source': 'InterPro:IPR033907', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002434', 'label': 'Drug', 'name': 'Cefadroxil'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'InterPro:IPR033907', 'label': 'GeneFamily', 'name': 'Autolysins'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01140#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01309_MESH_D003920_1', 'disease': 'Diabetes mellitus', 'disease_mesh': 'MESH:D003920', 'drug': 'Insulin glulisine', 'drug_mesh': 'MESH:C479079', 'drugbank': 'DB:DB01309'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C479079', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'manifestation of', 'source': 'MESH:D001786', 'target': 'MESH:D003920'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C479079', 'label': 'Drug', 'name': 'Insulin glulisine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003920', 'label': 'Disease', 'name': 'Diabetes mellitus'}], 'reference': ['https://go.drugbank.com/drugs/DB01309#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09080_MESH_D029424_1', 'disease': 'Chronic obstructive lung disease', 'disease_mesh': 'MESH:D029424', 'drug': 'Olodaterol', 'drug_mesh': 'MESH:C549647', 'drugbank': 'DB:DB09080'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C549647', 'target': 'UniProt:P07550'}, {'key': 'positively regulates', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'causes', 'source': 'MESH:D000242', 'target': 'GO:0044557'}, {'key': 'precedes', 'source': 'GO:0044557', 'target': 'GO:0097366'}, {'key': 'correlated with', 'source': 'GO:0097366', 'target': 'MESH:D029424'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C549647', 'label': 'Drug', 'name': 'Olodaterol'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic adenosine monophosphate (cAMP)'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'Bronchodilation'}, {'id': 'MESH:D029424', 'label': 'Disease', 'name': 'Chronic obstructive lung disease'}], 'reference': ['https://go.drugbank.com/drugs/DB09080#mechanismofaction']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13165_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'Ripasudil', 'drug_mesh': 'MESH:C584679', 'drugbank': 'DB:DB13165'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C584679', 'target': 'UniProt:Q13464'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13464', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C584679', 'label': 'Drug', 'name': 'Ripasudil'}, {'id': 'UniProt:Q13464', 'label': 'Protein', 'name': 'Rho-associated coiled-coil containing protein kinase 1 (ROCK1)'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Intraocular pressure (IOP)'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB13165#mechanismofaction']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13165_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'Ripasudil', 'drug_mesh': 'MESH:C584679', 'drugbank': 'DB:DB13165'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C584679', 'target': 'UniProt:Q13464'}, {'key': 'negatively regulates', 'source': 'UniProt:Q13464', 'target': 'HP:0007906'}, {'key': 'ameliorates', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C584679', 'label': 'Drug', 'name': 'Ripasudil'}, {'id': 'UniProt:Q13464', 'label': 'Protein', 'name': 'Rho-associated coiled-coil containing protein kinase 1 (ROCK1)'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Intraocular pressure (IOP)'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB13165#mechanismofaction']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB05630_MESH_D007896_1', 'disease': 'Leishmaniasis', 'disease_mesh': 'MESH:D007896', 'drug': 'Sodium stibogluconate', 'drug_mesh': 'MESH:D000967', 'drugbank': 'DB:DB05630'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000967', 'target': 'UniProt:P11387'}, {'key': 'negatively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0006260'}, {'key': 'in taxon', 'source': 'GO:0006260', 'target': 'NCBITaxon:5658'}, {'key': 'negatively regulates', 'source': 'UniProt:P11387', 'target': 'GO:0006351'}, {'key': 'decreases synthesis of', 'source': 'MESH:D000967', 'target': 'MESH:D000255'}, {'key': 'negatively regulates', 'source': 'MESH:D000255', 'target': 'GO:0044085'}, {'key': 'decreases synthesis of', 'source': 'MESH:D000967', 'target': 'MESH:D006160'}, {'key': 'negatively regulates', 'source': 'MESH:D006160', 'target': 'GO:0044085'}, {'key': 'in taxon', 'source': 'GO:0044085', 'target': 'NCBITaxon:5658'}, {'key': 'in taxon', 'source': 'GO:0006351', 'target': 'NCBITaxon:5658'}, {'key': 'causes', 'source': 'NCBITaxon:5658', 'target': 'MESH:D007896'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000967', 'label': 'Drug', 'name': 'Sodium stibogluconate'}, {'id': 'GO:0006351', 'label': 'BiologicalProcess', 'name': 'Transcription'}, {'id': 'MESH:D000255', 'label': 'ChemicalSubstance', 'name': 'ATP'}, {'id': 'MESH:D006160', 'label': 'ChemicalSubstance', 'name': 'GTP'}, {'id': 'GO:0044085', 'label': 'BiologicalProcess', 'name': 'Cellular component biogenesis'}, {'id': 'UniProt:P11387', 'label': 'Protein', 'name': 'DNA topoisomerase I'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'NCBITaxon:5658', 'label': 'OrganismTaxon', 'name': 'Leishmania'}, {'id': 'MESH:D007896', 'label': 'Disease', 'name': 'Leishmaniasis'}], 'reference': ['https://go.drugbank.com/drugs/DB05630#mechanismofaction', 'doi:10.3390/molecules14072317']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D000080223_1', 'disease': 'Chronic idiopathic urticaria', 'disease_mesh': 'MESH:D000080223', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D000080223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D000080223', 'label': 'Disease', 'name': 'Chronic idiopathic urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'In the U.S., Terfenadine was superseded by fexofenadine in the 1990s due to the risk of cardiac arrhythmia caused by QT interval prolongation', 'directed': True, 'graph': {'_id': 'DB00342_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Terfenadine', 'drug_mesh': 'MESH:D016593', 'drugbank': 'DB:DB00342'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:D016593', 'target': 'MESH:C093230'}, {'key': 'decreases activity of', 'source': 'MESH:C093230', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0006954'}, {'key': 'caused by', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016593', 'label': 'Drug', 'name': 'Terfenadine'}, {'id': 'MESH:C093230', 'label': 'ChemicalSubstance', 'name': 'Fexofenadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00342#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The etiology of granuloma annulare remains unknown https://pubmed.ncbi.nlm.nih.gov/23696233/', 'directed': True, 'graph': {'_id': 'DB00288_MESH_D016460_1', 'disease': 'Granuloma annulare', 'disease_mesh': 'MESH:D016460', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D016460'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D016460', 'label': 'Disease', 'name': 'Granuloma annulare'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Granuloma_annulare']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D003877_1', 'disease': 'Contact dermatitis', 'disease_mesh': 'MESH:D003877', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003877'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003877', 'label': 'Disease', 'name': 'Contact dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Contact_dermatitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D011538_1', 'disease': 'Pruritus ani', 'disease_mesh': 'MESH:D011538', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D011538'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D011538', 'label': 'Disease', 'name': 'Pruritus ani'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Pruritus_ani']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D016410_1', 'disease': 'Primary cutaneous T-cell lymphoma', 'disease_mesh': 'MESH:D016410', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000988'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D016410'}, {'key': 'manifestation of', 'source': 'HP:0000988', 'target': 'MESH:D016410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'HP:0000988', 'label': 'PhenotypicFeature', 'name': 'Skin rash'}, {'id': 'MESH:D016410', 'label': 'Disease', 'name': 'Primary cutaneous T-cell lymphoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Cutaneous_T_cell_lymphoma']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D009450_1', 'disease': 'Lichen simplex chronicus', 'disease_mesh': 'MESH:D009450', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D009450'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D009450', 'label': 'Disease', 'name': 'Lichen simplex chronicus'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Lichen_simplex_chronicus']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D012628_1', 'disease': 'Seborrheic dermatitis', 'disease_mesh': 'MESH:D012628', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D012628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D012628', 'label': 'Disease', 'name': 'Seborrheic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Seborrhoeic_dermatitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D008179_1', 'disease': 'Discoid lupus erythematosus', 'disease_mesh': 'MESH:D008179', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D008179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D008179', 'label': 'Disease', 'name': 'Discoid lupus erythematosus'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Discoid_lupus_erythematosus']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00288_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'Amcinonide', 'drug_mesh': 'MESH:C012716', 'drugbank': 'DB:DB00288'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C012716', 'target': 'UniProt:P04150'}, {'key': 'increases activity of', 'source': 'UniProt:P04150', 'target': 'UniProt:P04083'}, {'key': 'decreases activity of', 'source': 'UniProt:P04083', 'target': 'UniProt:P47712'}, {'key': 'negatively regulates', 'source': 'UniProt:P04083', 'target': 'UniProt:P35354'}, {'key': 'increases abundance of', 'source': 'UniProt:P47712', 'target': 'MESH:D011453'}, {'key': 'increases abundance of', 'source': 'UniProt:P35354', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000989'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003876'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C012716', 'label': 'Drug', 'name': 'Amcinonide'}, {'id': 'UniProt:P04150', 'label': 'Protein', 'name': 'Glucocorticoid receptor'}, {'id': 'UniProt:P04083', 'label': 'Protein', 'name': 'Annexin A1'}, {'id': 'UniProt:P47712', 'label': 'Protein', 'name': 'Cytosolic phospholipase A2'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00288', 'https://en.wikipedia.org/wiki/Atopic_dermatitis']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D009230_1', 'disease': 'Myxedema', 'disease_mesh': 'MESH:D009230', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'increases abundance of', 'source': 'GO:0070460', 'target': 'CHEBI:18085'}, {'key': 'positively correlated with', 'source': 'CHEBI:18085', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D009230'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'CHEBI:18085', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D009230', 'label': 'Disease', 'name': 'Myxedema'}], 'reference': ['https://en.wikipedia.org/wiki/Myxedema', 'https://go.drugbank.com/drugs/DB00451']}\n", - "['Drug', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D006042_1', 'disease': 'Goiter', 'disease_mesh': 'MESH:D006042', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D006042'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D006042', 'label': 'Disease', 'name': 'Goiter'}], 'reference': ['https://go.drugbank.com/drugs/DB00451']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D007037_1', 'disease': 'Hypothyroidism', 'disease_mesh': 'MESH:D007037', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0001659'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D007037'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D007037'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D007037'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'Temperature homeostasis'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'MESH:D007037', 'label': 'Disease', 'name': 'Hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Hypothyroidism#Signs_and_symptoms']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D003409_1', 'disease': 'Congenital hypothyroidism', 'disease_mesh': 'MESH:D003409', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001508'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001252'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0002045'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0001249'}, {'key': 'positively correlated with', 'source': 'HP:0001508', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001249', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0001252', 'target': 'MESH:D003409'}, {'key': 'positively correlated with', 'source': 'HP:0002045', 'target': 'MESH:D003409'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0001508', 'label': 'PhenotypicFeature', 'name': 'Failure to thrive'}, {'id': 'HP:0001252', 'label': 'PhenotypicFeature', 'name': 'Hypotonia'}, {'id': 'HP:0002045', 'label': 'PhenotypicFeature', 'name': 'Hypothermia'}, {'id': 'HP:0001249', 'label': 'PhenotypicFeature', 'name': 'Intellectual disability'}, {'id': 'MESH:D003409', 'label': 'Disease', 'name': 'Congenital hypothyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Congenital_hypothyroidism#Signs_and_symptoms']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'increases activity of', 'source': 'GO:0002154', 'target': 'UniProt:P01130'}, {'key': 'decreases abundance of', 'source': 'UniProt:P01130', 'target': 'MESH:D008078'}, {'key': 'positively correlated with', 'source': 'MESH:D008078', 'target': 'MESH:D006949'}, {'key': 'increases activity of', 'source': 'GO:0002154', 'target': 'UniProt:Q6Q788'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q6Q788', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'MESH:D008078', 'label': 'ChemicalSubstance', 'name': 'Cholesterol, LDL'}, {'id': 'UniProt:Q6Q788', 'label': 'Protein', 'name': 'Apolipoprotein A-V'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/LDL_receptor#Function', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6129606/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3109527/']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00451_MESH_D050031_1', 'disease': 'Hashimoto thyroiditis', 'disease_mesh': 'MESH:D050031', 'drug': 'Levothyroxine', 'drug_mesh': 'MESH:D013974', 'drugbank': 'DB:DB00451'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D013974', 'target': 'MESH:D014284'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D014284', 'target': 'UniProt:P10828'}, {'key': 'positively regulates', 'source': 'UniProt:P10827', 'target': 'GO:0002154'}, {'key': 'positively regulates', 'source': 'UniProt:P10828', 'target': 'GO:0002154'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0004324'}, {'key': 'positively correlated with', 'source': 'GO:0002154', 'target': 'GO:0010460'}, {'key': 'negatively regulates', 'source': 'GO:0002154', 'target': 'GO:0070460'}, {'key': 'positively regulates', 'source': 'GO:0070460', 'target': 'HP:0008249'}, {'key': 'occurs in', 'source': 'HP:0008249', 'target': 'MESH:D050031'}, {'key': 'positively regulates', 'source': 'GO:0002154', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0002154', 'target': 'HP:0012378'}, {'key': 'positively correlated with', 'source': 'HP:0004324', 'target': 'MESH:D050031'}, {'key': 'negatively correlated with', 'source': 'GO:0010460', 'target': 'MESH:D050031'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D050031'}, {'key': 'positively correlated with', 'source': 'HP:0012378', 'target': 'MESH:D050031'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013974', 'label': 'Drug', 'name': 'Levothyroxine'}, {'id': 'MESH:D014284', 'label': 'ChemicalSubstance', 'name': 'Triiodothyronine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0002154', 'label': 'BiologicalProcess', 'name': 'Thyroid hormone mediated signaling pathway'}, {'id': 'HP:0004324', 'label': 'PhenotypicFeature', 'name': 'Increased body weight'}, {'id': 'GO:0010460', 'label': 'BiologicalProcess', 'name': 'Positive regulation of heart rate'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'Intestinal motility'}, {'id': 'HP:0012378', 'label': 'PhenotypicFeature', 'name': 'Fatigue'}, {'id': 'GO:0070460', 'label': 'BiologicalProcess', 'name': 'Thyroid-stimulating hormone secretion'}, {'id': 'HP:0008249', 'label': 'PhenotypicFeature', 'name': 'Thyroid hyperplasia'}, {'id': 'MESH:D050031', 'label': 'Disease', 'name': 'Hashimoto thyroiditis'}], 'reference': ['https://go.drugbank.com/drugs/DB00451', 'https://en.wikipedia.org/wiki/Hashimoto%27s_thyroiditis']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'It seems that only low doses of naltrexone has been documented to enhance or produce an analgesic response. Low-dose naltrexone (LDN) describes the off-label use of naltrexone at low doses for diseases not related to chemical dependency or intoxication. The annotation is for Low Dose Naltrexone (LDN).', 'directed': True, 'graph': {'_id': 'DB00704_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'Low Dose Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:O00206'}, {'key': 'increases activity of', 'source': 'UniProt:O00206', 'target': 'UniProt:P01375'}, {'key': 'positively regulates', 'source': 'UniProt:P01375', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Low Dose Naltrexone'}, {'id': 'UniProt:O00206', 'label': 'Protein', 'name': 'Toll-like receptor 4'}, {'id': 'UniProt:P01375', 'label': 'Protein', 'name': 'Tumor necrosis factor'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/32845365/', 'https://pubmed.ncbi.nlm.nih.gov/30248938/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00704_MESH_D000437_1', 'disease': 'Alcoholism', 'disease_mesh': 'MESH:D000437', 'drug': 'Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41145'}, {'key': 'molecularly interacts with', 'source': 'UniProt:P41145', 'target': 'UniProt:P01213'}, {'key': 'positively correlated with', 'source': 'UniProt:P01213', 'target': 'HP:0030858'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P41143'}, {'key': 'positively correlated with', 'source': 'UniProt:P41143', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'MESH:D009270', 'target': 'UniProt:P35372'}, {'key': 'positively correlated with', 'source': 'UniProt:P35372', 'target': 'GO:0061527'}, {'key': 'positively correlated with', 'source': 'GO:0061527', 'target': 'HP:0030858'}, {'key': 'occurs in', 'source': 'HP:0030858', 'target': 'MESH:D000437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naltrexone'}, {'id': 'UniProt:P41145', 'label': 'Protein', 'name': 'Kappa-type opioid receptor'}, {'id': 'UniProt:P01213', 'label': 'Protein', 'name': 'Proenkephalin-B'}, {'id': 'HP:0030858', 'label': 'PhenotypicFeature', 'name': 'Addictive behavior'}, {'id': 'UniProt:P41143', 'label': 'Protein', 'name': 'Delta-type opioid receptor'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D000437', 'label': 'Disease', 'name': 'Alcoholism'}], 'reference': ['https://go.drugbank.com/drugs/DB00704', 'https://en.wikipedia.org/wiki/Naltrexone#Pharmacology', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2565602/']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Naltrexone is associated with minimal weight loss as monotherapy, but has potential utility in the treatment of obesity when combined with Pro-opiomelanocortin activator - bupropion.', 'directed': True, 'graph': {'_id': 'DB00704_MESH_D009765_1', 'disease': 'Obesity', 'disease_mesh': 'MESH:D009765', 'drug': 'Naltrexone', 'drug_mesh': 'MESH:D009270', 'drugbank': 'DB:DB00704'}, 'links': [{'key': 'treats', 'source': 'MESH:D009270', 'target': 'MESH:D009765'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009270', 'label': 'Drug', 'name': 'Naltrexone'}, {'id': 'MESH:D009765', 'label': 'Disease', 'name': 'Obesity'}], 'reference': ['https://go.drugbank.com/drugs/DB00704', 'https://pubmed.ncbi.nlm.nih.gov/19537999/']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'This medication is reserved for tumors that express PD-L1 or have high mutation burden.', 'directed': True, 'graph': {'_id': 'DB11595_MESH_D002295_1', 'disease': 'Transitional cell carcinoma', 'disease_mesh': 'MESH:D002295', 'drug': 'atezolizumab', 'drug_mesh': 'MESH:C000594389', 'drugbank': 'DB:DB11595'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C000594389', 'target': 'UniProt:Q9NZQ7'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0042098'}, {'key': 'negatively regulates', 'source': 'UniProt:Q9NZQ7', 'target': 'GO:0042110'}, {'key': 'positively correlated with', 'source': 'GO:0042098', 'target': 'GO:0002424'}, {'key': 'positively correlated with', 'source': 'GO:0042110', 'target': 'GO:0002424'}, {'key': 'negatively correlated with', 'source': 'GO:0002424', 'target': 'MESH:D002295'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C000594389', 'label': 'Drug', 'name': 'Atezolizumab'}, {'id': 'UniProt:Q9NZQ7', 'label': 'Protein', 'name': 'Programmed cell death 1 ligand 1'}, {'id': 'GO:0042098', 'label': 'BiologicalProcess', 'name': 'T cell proliferation'}, {'id': 'GO:0042110', 'label': 'BiologicalProcess', 'name': 'T cell activation'}, {'id': 'GO:0002424', 'label': 'BiologicalProcess', 'name': 'T cell mediated immune response to tumor cell'}, {'id': 'MESH:D002295', 'label': 'Disease', 'name': 'Transitional cell carcinoma'}], 'reference': ['https://go.drugbank.com/drugs/DB11595', 'https://en.wikipedia.org/wiki/Atezolizumab#Pharmacology', 'https://en.wikipedia.org/wiki/PD-1_and_PD-L1_inhibitors']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12478_MESH_D020734_1', 'disease': 'Parkinsonism', 'disease_mesh': 'MESH:D020734', 'drug': 'Piribedil', 'drug_mesh': 'MESH:D010891', 'drugbank': 'DB:DB12478'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D010891', 'target': 'UniProt:P14416'}, {'key': 'increases activity of', 'source': 'MESH:D010891', 'target': 'UniProt:P35462'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'UniProt:P35462', 'target': 'MESH:D004298'}, {'key': 'positively correlated with', 'source': 'MESH:D004298', 'target': 'GO:0061527'}, {'key': 'disrupted by', 'source': 'GO:0061527', 'target': 'MESH:D020734'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D010891', 'label': 'Drug', 'name': 'Piribedil'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'UniProt:P35462', 'label': 'Protein', 'name': 'D(3) dopamine receptor'}, {'id': 'MESH:D004298', 'label': 'ChemicalSubstance', 'name': 'Dopamine'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'MESH:D020734', 'label': 'Disease', 'name': 'Parkinsonism'}], 'reference': ['https://en.wikipedia.org/wiki/Piribedil', 'https://en.wikipedia.org/wiki/Parkinsonism']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Levomefolic acid can be found in contraceptive pills as a source of folic acid to help to prevent spinal cord birth defects in an unborn baby. There has not been any evidence to support that levomefolic acid on its own is an indication for acne vulgaris. When combined with hormones such as progestin and estrogen (birth pill) it can be used to treat moderate acne as well as premenstrual dysphoric disorder (https://www.webmd.com/drugs/2/drug-154717/beyaz-oral/details), but not on its own.', 'directed': True, 'graph': {'_id': 'DB11256_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'levomefolic acid', 'drug_mesh': 'MESH:C569381', 'drugbank': 'DB:DB11256'}, 'links': [{'key': 'treats', 'source': 'MESH:C569381', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569381', 'label': 'Drug', 'name': 'levomefolic acid'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://www.accessdata.fda.gov/drugsatfda_docs/nda/2010/022532Orig1s000CrossR.pdf']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Levomefolic acid can be found in contraceptive pills as a source of folic acid to help to prevent spinal cord birth defects in an unborn baby. There has not been any evidence to support that levomefolic acid on its own is an indication for acne vulgaris. When combined with hormones such as progestin and estrogen (birth pill) it can be used to treat moderate acne as well as premenstrual dysphoric disorder (https://www.webmd.com/drugs/2/drug-154717/beyaz-oral/details), but not on its own.', 'directed': True, 'graph': {'_id': 'DB11256_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'levomefolic acid', 'drug_mesh': 'MESH:C569381', 'drugbank': 'DB:DB11256'}, 'links': [{'key': 'treats', 'source': 'MESH:C569381', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C569381', 'label': 'Drug', 'name': 'levomefolic acid'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://dailymed.nlm.nih.gov/dailymed/drugInfo.cfm?setid=58cd12d3-39b1-4375-b7e0-09ba2378a52b']}\n", - "['Drug', 'Disease']\n", - "{'comment': \"The drug stimulates the expression of several genes (e.g. HSP, SOD, etc) but it's not clear if the drug binds to these or other targets to modulate the known actions namely oxygen radical scavenging, anti-oxidation, anti-inflammation, and acceleration of gastrointestinal wound healing.\", 'directed': True, 'graph': {'_id': 'DB09221_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'polaprezinc', 'drug_mesh': 'MESH:C061957', 'drugbank': 'DB:DB09221'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C061957', 'target': 'CHEBI:26523'}, {'key': 'positively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0070254'}, {'key': 'negatively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0070254', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'MESH:C061957', 'target': 'GO:0042060'}, {'key': 'negatively correlated with', 'source': 'MESH:C061957', 'target': 'NCBITaxon:210'}, {'key': 'causes', 'source': 'NCBITaxon:210', 'target': 'MESH:D010437'}, {'key': 'negatively correlated with', 'source': 'GO:0042060', 'target': 'MESH:D010437'}, {'key': 'positively correlated with', 'source': 'CHEBI:26523', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061957', 'label': 'Drug', 'name': 'polaprezinc'}, {'id': 'CHEBI:26523', 'label': 'ChemicalSubstance', 'name': 'reactive oxygen species'}, {'id': 'NCBITaxon:210', 'label': 'OrganismTaxon', 'name': 'Helicobacter pylori'}, {'id': 'GO:0042060', 'label': 'BiologicalProcess', 'name': 'Wound Healing'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'GO:0070254', 'label': 'BiologicalProcess', 'name': 'mucus secretion'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://en.wikipedia.org/wiki/Zinc_L-carnosine#Mechanisms_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001172'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is also known as Juvenile rheumatoid arthritis as per DrugCentral. Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D001171_1', 'disease': 'Arthritis, Juvenile', 'disease_mesh': 'MESH:D001171', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D001171'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D001171'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D001171', 'label': 'Disease', 'name': 'Arthritis, Juvenile'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D010003_1', 'disease': 'Osteoarthritis', 'disease_mesh': 'MESH:D010003', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0002829'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0001386'}, {'key': 'positively correlated with', 'source': 'HP:0001386', 'target': 'MESH:D010003'}, {'key': 'positively correlated with', 'source': 'HP:0002829', 'target': 'MESH:D010003'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0002829', 'label': 'PhenotypicFeature', 'name': 'Arthralgia'}, {'id': 'HP:0001386', 'label': 'PhenotypicFeature', 'name': 'Joint swelling'}, {'id': 'MESH:D010003', 'label': 'Disease', 'name': 'Osteoarthritis'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D005334_1', 'disease': 'Fever', 'disease_mesh': 'MESH:D005334', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D005334'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D005334', 'label': 'Disease', 'name': 'Fever'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D006261_1', 'disease': 'Headache Disorders', 'disease_mesh': 'MESH:D006261', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D006261'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D006261', 'label': 'Disease', 'name': 'Headache Disorders'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Dexibuprofen is an active enantiomer of ibuprofen.', 'directed': True, 'graph': {'_id': 'DB09213_MESH_D004412_1', 'disease': 'Dysmenorrhea', 'disease_mesh': 'MESH:D004412', 'drug': 'dexibuprofen', 'drug_mesh': 'MESH:C539402', 'drugbank': 'DB:DB09213'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P23219'}, {'key': 'decreases activity of', 'source': 'MESH:C539402', 'target': 'UniProt:P35354'}, {'key': 'participates in', 'source': 'UniProt:P23219', 'target': 'REACT:R-HSA-2162123'}, {'key': 'participates in', 'source': 'UniProt:P35354', 'target': 'REACT:R-HSA-2162123'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-2162123', 'target': 'MESH:D011453'}, {'key': 'positively correlated with', 'source': 'MESH:D011453', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D004412'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C539402', 'label': 'Drug', 'name': 'dexibuprofen'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'UniProt:P35354', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 2'}, {'id': 'REACT:R-HSA-2162123', 'label': 'Pathway', 'name': 'Synthesis of Prostaglandins (PG) and Thromboxanes (TX)'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D004412', 'label': 'Disease', 'name': 'Dysmenorrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB09213#BE0000262', 'https://go.drugbank.com/drugs/DB09213#BE0000017', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL175/', 'https://en.wikipedia.org/wiki/Ibuprofen#Pharmacology', 'https://en.wikipedia.org/wiki/Fever#PGE2_release']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08890_MESH_D043183_1', 'disease': 'Irritable bowel syndrome', 'disease_mesh': 'MESH:D043183', 'drug': 'linaclotide', 'drug_mesh': 'MESH:C523483', 'drugbank': 'DB:DB08890'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C523483', 'target': 'UniProt:P25092'}, {'key': 'positively regulates', 'source': 'UniProt:P25092', 'target': 'GO:0006182'}, {'key': 'increases activity of', 'source': 'GO:0006182', 'target': 'UBERON:0025525'}, {'key': 'negatively correlated with', 'source': 'UBERON:0025525', 'target': 'HP:0030895'}, {'key': 'decreases activity of', 'source': 'GO:0006182', 'target': 'UBERON:0001800'}, {'key': 'positively correlated with', 'source': 'UBERON:0001800', 'target': 'HP:0012531'}, {'key': 'manifestation of', 'source': 'HP:0030895', 'target': 'MESH:D043183'}, {'key': 'manifestation of', 'source': 'HP:0012531', 'target': 'MESH:D043183'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0015701'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006182', 'target': 'GO:0006833'}, {'key': 'positively correlated with', 'source': 'GO:0015701', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0006833', 'target': 'MESH:D007419'}, {'key': 'positively correlated with', 'source': 'GO:0015701', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'GO:0006833', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D043183'}, {'key': 'negatively correlated with', 'source': 'MESH:D007419', 'target': 'MESH:D043183'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C523483', 'label': 'Drug', 'name': 'linaclotide'}, {'id': 'UniProt:P25092', 'label': 'Protein', 'name': 'Heat-stable enterotoxin receptor'}, {'id': 'GO:0006182', 'label': 'BiologicalProcess', 'name': 'cGMP biosynthetic process'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0006833', 'label': 'BiologicalProcess', 'name': 'water transport'}, {'id': 'MESH:D007419', 'label': 'ChemicalSubstance', 'name': 'Intestinal Secretions'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'UBERON:0001800', 'label': 'GrossAnatomicalStructure', 'name': 'sensory ganglion'}, {'id': 'UBERON:0025525', 'label': 'GrossAnatomicalStructure', 'name': 'motor system'}, {'id': 'HP:0030895', 'label': 'PhenotypicFeature', 'name': 'Abnormal gastrointestinal motility'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'MESH:D043183', 'label': 'Disease', 'name': 'Irritable bowel syndrome'}], 'reference': ['https://go.drugbank.com/drugs/DB08890#mechanism-of-action', 'https://en.wikipedia.org/wiki/Linaclotide#Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06480_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'prucalopride', 'drug_mesh': 'MESH:C406662', 'drugbank': 'DB:DB06480'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C406662', 'target': 'UniProt:Q13639'}, {'key': 'positively regulates', 'source': 'UniProt:Q13639', 'target': 'GO:0061526'}, {'key': 'positively correlated with', 'source': 'GO:0061526', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C406662', 'label': 'Drug', 'name': 'prucalopride'}, {'id': 'UniProt:Q13639', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 4'}, {'id': 'GO:0061526', 'label': 'BiologicalProcess', 'name': 'acetylcholine secretion'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://go.drugbank.com/drugs/DB06480#mechanism-of-action', 'https://en.wikipedia.org/wiki/Prucalopride#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'The disease is denoted Menopausal flushing in the original file as per DrugCentral. The etiology of hot flashes has yet to be determined (https://pubmed.ncbi.nlm.nih.gov/15065632/).', 'directed': True, 'graph': {'_id': 'DB06401_MESH_D019584_1', 'disease': 'Hot Flashes', 'disease_mesh': 'MESH:D019584', 'drug': 'bazedoxifene', 'drug_mesh': 'MESH:C447119', 'drugbank': 'DB:DB06401'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:Q92731'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'regulates', 'source': 'UniProt:Q92731', 'target': 'GO:0097746'}, {'key': 'correlated with', 'source': 'GO:0097746', 'target': 'MESH:D014666'}, {'key': 'regulates', 'source': 'GO:0006874', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C447119', 'label': 'Drug', 'name': 'bazedoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0097746', 'label': 'BiologicalProcess', 'name': 'blood vessel diameter maintenance'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Hot Flashes'}], 'reference': ['https://go.drugbank.com/drugs/DB06401#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bazedoxifene#Pharmacology', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL46740/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The disease is denoted Postmenopausal osteoporosis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB06401_MESH_D015663_1', 'disease': 'Osteoporosis, Postmenopausal', 'disease_mesh': 'MESH:D015663', 'drug': 'bazedoxifene', 'drug_mesh': 'MESH:C447119', 'drugbank': 'DB:DB06401'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:P03372'}, {'key': 'increases activity of', 'source': 'MESH:C447119', 'target': 'UniProt:Q92731'}, {'key': 'positively regulates', 'source': 'UniProt:P03372', 'target': 'GO:0006874'}, {'key': 'positively correlated with', 'source': 'GO:0006874', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'UniProt:Q92731', 'target': 'GO:0001503'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C447119', 'label': 'Drug', 'name': 'bazedoxifene'}, {'id': 'UniProt:P03372', 'label': 'Protein', 'name': 'Estrogen receptor'}, {'id': 'UniProt:Q92731', 'label': 'Protein', 'name': 'Estrogen receptor beta'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:0006874', 'label': 'BiologicalProcess', 'name': 'cellular calcium ion homeostasis'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Osteoporosis, Postmenopausal'}], 'reference': ['https://go.drugbank.com/drugs/DB06401#mechanism-of-action', 'https://en.wikipedia.org/wiki/Bazedoxifene#Pharmacology', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL46740/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'The drug enables ribosomes to bypass premature stop codons caused by nonsense mutations in the dystrophin gene. This restores the full-length and functional capability of dystrophin. Without the drug, the premature stop codon means that a truncated protein will be produced, which will be unabled to play its role in muscle strenght and proper function leading to the disease. The disease is denoted Duchenne muscular dystrophy in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB05016_MESH_D020388_1', 'disease': 'Muscular Dystrophy, Duchenne', 'disease_mesh': 'MESH:D020388', 'drug': 'ataluren', 'drug_mesh': 'MESH:C515878', 'drugbank': 'DB:DB05016'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:C515878', 'target': 'UniProt:P11532'}, {'key': 'disrupted by', 'source': 'UniProt:P11532', 'target': 'MESH:D018389'}, {'key': 'predisposes', 'source': 'MESH:D018389', 'target': 'MESH:D059365'}, {'key': 'positively correlated with', 'source': 'MESH:D059365', 'target': 'HP:0003323'}, {'key': 'manifestation of', 'source': 'HP:0003323', 'target': 'MESH:D020388'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C515878', 'label': 'Drug', 'name': 'ataluren'}, {'id': 'UniProt:P11532', 'label': 'Protein', 'name': 'Dystrophin'}, {'id': 'MESH:D018389', 'label': 'ChemicalSubstance', 'name': 'Codon, Nonsense'}, {'id': 'MESH:D059365', 'label': 'BiologicalProcess', 'name': 'Nonsense Mediated mRNA Decay'}, {'id': 'HP:0003323', 'label': 'PhenotypicFeature', 'name': 'Progressive muscle weakness'}, {'id': 'MESH:D020388', 'label': 'Disease', 'name': 'Muscular Dystrophy, Duchenne'}], 'reference': ['https://go.drugbank.com/drugs/DB05016#mechanism-of-action', 'https://en.wikipedia.org/wiki/Ataluren#Pharmacology']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D004948_1', 'disease': 'Esotropia', 'disease_mesh': 'MESH:D004948', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'negatively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000549'}, {'key': 'manifestation of', 'source': 'HP:0000549', 'target': 'MESH:D004948'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000549', 'label': 'PhenotypicFeature', 'name': 'Abnormal conjugate eye movement'}, {'id': 'MESH:D004948', 'label': 'Disease', 'name': 'Esotropia'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The drug allows for the trabecular meshwork in the eye (UBERON:0005969) to open, increasing the outflow of the aqueous humor and having a positive impact on reducing intraocular pressure. Note that MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212). The disease is also known as Open-angle glaucoma as per in DrugCentral.', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D005902_1', 'disease': 'Glaucoma, Open-Angle', 'disease_mesh': 'MESH:D005902', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Glaucoma, Open-Angle'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The drug allows for the trabecular meshwork in the eye (UBERON:0005969) to open, increasing the outflow of the aqueous humor and having a positive impact on reducing intraocular pressure. Note that MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D005901_1', 'disease': 'Glaucoma', 'disease_mesh': 'MESH:D005901', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D005901'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular hypertension'}, {'id': 'MESH:D005901', 'label': 'Disease', 'name': 'Glaucoma'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'MESH:C061212 is not an alternative MESH ID for this drug (https://meshb.nlm.nih.gov/record/ui?ui=C061212).', 'directed': True, 'graph': {'_id': 'DB01057_MESH_D000080362_1', 'disease': \"Stargardt's disease\", 'disease_mesh': 'MESH:D000080362', 'drug': 'Echothiophate Iodide', 'drug_mesh': 'MESH:D004456', 'drugbank': 'DB:DB01057'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P22303'}, {'key': 'decreases activity of', 'source': 'MESH:D004456', 'target': 'UniProt:P06276'}, {'key': 'positively regulates', 'source': 'UniProt:P06276', 'target': 'GO:0003990'}, {'key': 'decreases abundance of', 'source': 'GO:0003990', 'target': 'MESH:D000109'}, {'key': 'positively regulates', 'source': 'UniProt:P22303', 'target': 'GO:0006581'}, {'key': 'decreases abundance of', 'source': 'GO:0006581', 'target': 'MESH:D000109'}, {'key': 'positively correlated with', 'source': 'MESH:D000109', 'target': 'HP:0000616'}, {'key': 'negatively correlated with', 'source': 'HP:0000616', 'target': 'HP:0007663'}, {'key': 'manifestation of', 'source': 'HP:0007663', 'target': 'MESH:D000080362'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004456', 'label': 'Drug', 'name': 'Echothiophate Iodide'}, {'id': 'UniProt:P22303', 'label': 'Protein', 'name': 'Acetylcholinesterase'}, {'id': 'UniProt:P06276', 'label': 'Protein', 'name': 'Cholinesterase'}, {'id': 'GO:0003990', 'label': 'MolecularActivity', 'name': 'acetylcholinesterase activity'}, {'id': 'GO:0006581', 'label': 'BiologicalProcess', 'name': 'acetylcholine catabolic process'}, {'id': 'MESH:D000109', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'HP:0000616', 'label': 'PhenotypicFeature', 'name': 'Miosis'}, {'id': 'HP:0007663', 'label': 'PhenotypicFeature', 'name': 'Reduced visual acuity'}, {'id': 'MESH:D000080362', 'label': 'Disease', 'name': \"Stargardt's disease\"}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1201341/', 'https://go.drugbank.com/drugs/DB01057#BE0002180', 'https://patents.google.com/patent/US7915312B2/en']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00703_MESH_D015812_1', 'disease': 'Angle-closure glaucoma', 'disease_mesh': 'MESH:D015812', 'drug': 'methazolamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB00703'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P07451'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P07451', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D015812'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004005', 'label': 'Drug', 'name': 'methazolamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P07451', 'label': 'Protein', 'name': 'Carbonic anhydrase 3'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D015812', 'label': 'Disease', 'name': 'Angle-closure glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00703#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00703_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'methazolamide', 'drug_mesh': 'MESH:D004005', 'drugbank': 'DB:DB00703'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00915'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P00918'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P07451'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P22748'}, {'key': 'negatively regulates', 'source': 'MESH:D004005', 'target': 'UniProt:P43166'}, {'key': 'positively regulates', 'source': 'UniProt:P00915', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P00918', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P07451', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P22748', 'target': 'GO:0015701'}, {'key': 'positively regulates', 'source': 'UniProt:P43166', 'target': 'GO:0015701'}, {'key': 'increases abundance of', 'source': 'GO:0015701', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'manifestation of', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004005', 'label': 'Drug', 'name': 'methazolamide'}, {'id': 'UniProt:P00915', 'label': 'Protein', 'name': 'Carbonic anhydrase 1'}, {'id': 'UniProt:P00918', 'label': 'Protein', 'name': 'Carbonic anhydrase 2'}, {'id': 'UniProt:P07451', 'label': 'Protein', 'name': 'Carbonic anhydrase 3'}, {'id': 'UniProt:P22748', 'label': 'Protein', 'name': 'Carbonic anhydrase 4'}, {'id': 'UniProt:P43166', 'label': 'Protein', 'name': 'Carbonic anhydrase 7'}, {'id': 'GO:0015701', 'label': 'BiologicalProcess', 'name': 'bicarbonate transport'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00703#mechanism-of-action', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC506660/', 'https://en.wikipedia.org/wiki/Glaucoma#Medication', 'https://www.aaopt.org/docs/knowledge-base/outline26514.doc?sfvrsn=5f863d3_0', 'https://en.wikipedia.org/wiki/Aqueous_humour#Clinical_significance']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00653_MESH_D003248_1', 'disease': 'Constipation', 'disease_mesh': 'MESH:D003248', 'drug': 'magnesium sulfate', 'drug_mesh': 'MESH:D008278', 'drugbank': 'DB:DB00653'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D008278', 'target': 'Pfam:PF02898'}, {'key': 'positively correlated with', 'source': 'Pfam:PF02898', 'target': 'GO:0120054'}, {'key': 'positively correlated with', 'source': 'MESH:D008278', 'target': 'UniProt:P06307'}, {'key': 'positively regulates', 'source': 'UniProt:P06307', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'MESH:D003248'}, {'key': 'subclass of', 'source': 'MESH:D008278', 'target': 'MESH:D054368'}, {'key': 'positively correlated with', 'source': 'MESH:D054368', 'target': 'GO:0030421'}, {'key': 'negatively correlated with', 'source': 'GO:0030421', 'target': 'MESH:D003248'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008278', 'label': 'Drug', 'name': 'magnesium sulfate'}, {'id': 'Pfam:PF02898', 'label': 'GeneFamily', 'name': 'Nitric oxide synthase'}, {'id': 'UniProt:P06307', 'label': 'Protein', 'name': 'Cholecystokinin'}, {'id': 'MESH:D054368', 'label': 'ChemicalSubstance', 'name': 'Laxatives'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'GO:0030421', 'label': 'BiologicalProcess', 'name': 'defecation'}, {'id': 'MESH:D003248', 'label': 'Disease', 'name': 'Constipation'}], 'reference': ['https://en.wikipedia.org/wiki/Laxative#Saline_laxative_agents', 'https://pubmed.ncbi.nlm.nih.gov/8878010/', 'https://www.gastrojournal.org/article/S0016-5085(03)01919-X/fulltext', 'https://pubmed.ncbi.nlm.nih.gov/27528058/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00061_MESH_C531816_1', 'disease': 'Adenosine deaminase deficiency', 'disease_mesh': 'MESH:C531816', 'drug': 'pegademase', 'drug_mesh': 'MESH:C051409', 'drugbank': 'DB:DB00061'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:C051409', 'target': 'CHEBI:17256'}, {'key': 'disrupts', 'source': 'CHEBI:17256', 'target': 'CL:0000084'}, {'key': 'positively correlated with', 'source': 'CL:0000084', 'target': 'GO:0002456'}, {'key': 'negatively correlated with', 'source': 'GO:0002456', 'target': 'MESH:C531816'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C051409', 'label': 'Drug', 'name': 'Pegademase'}, {'id': 'CHEBI:17256', 'label': 'ChemicalSubstance', 'name': \"2'-deoxyadenosine\"}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T cell'}, {'id': 'GO:0002456', 'label': 'BiologicalProcess', 'name': 'T cell mediated immunity'}, {'id': 'MESH:C531816', 'label': 'Disease', 'name': 'Adenosine deaminase deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00061', 'https://en.wikipedia.org/wiki/Adenosine_deaminase_deficiency']}\n", - "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D010024_1', 'disease': 'Osteoporosis', 'disease_mesh': 'MESH:D010024', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'GO:0033280', 'target': 'GO:0035898'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively regulates', 'source': 'GO:0035898', 'target': 'CL:0000092'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D010024'}, {'key': 'capable of', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D010024'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'Parathyroid hormone secretion'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'Hypocalcemia'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D010024', 'label': 'Disease', 'name': 'Osteoporosis'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257679/', 'https://go.drugbank.com/drugs/DB00169']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D015663_1', 'disease': 'Postmenopausal osteoporosis', 'disease_mesh': 'MESH:D015663', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively regulates', 'source': 'GO:0033280', 'target': 'GO:0035898'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively regulates', 'source': 'GO:0035898', 'target': 'CL:0000092'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D015663'}, {'key': 'capable of', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D015663'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'GO:0035898', 'label': 'BiologicalProcess', 'name': 'Parathyroid hormone secretion'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'Hypocalcemia'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'Osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'Bone Resorption'}, {'id': 'MESH:D015663', 'label': 'Disease', 'name': 'Postmenopausal osteoporosis'}], 'reference': ['https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257679/', 'https://go.drugbank.com/drugs/DB00169']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D007011_1', 'disease': 'Hypoparathyroidism', 'disease_mesh': 'MESH:D007011', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'HP:0002901'}, {'key': 'positively correlated with', 'source': 'HP:0002901', 'target': 'MESH:D007011'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'HP:0002901', 'label': 'PhenotypicFeature', 'name': 'Hypocalcemia'}, {'id': 'MESH:D007011', 'label': 'Disease', 'name': 'Hypoparathyroidism'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Hypoparathyroidism#Treatment', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257679/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D014808_1', 'disease': 'Vitamin D deficiency', 'disease_mesh': 'MESH:D014808', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D014808'}, {'key': 'negatively correlated with', 'source': 'GO:0033280', 'target': 'HP:0001324'}, {'key': 'positively correlated with', 'source': 'HP:0001324', 'target': 'MESH:D014808'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'HP:0001324', 'label': 'PhenotypicFeature', 'name': 'Muscle weakness'}, {'id': 'MESH:D014808', 'label': 'Disease', 'name': 'Vitamin D deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Vitamin_D_deficiency#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D012279_1', 'disease': 'Rickets', 'disease_mesh': 'MESH:D012279', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D012279'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'MESH:D012279', 'label': 'Disease', 'name': 'Rickets'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Rickets#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D006996_1', 'disease': 'Hypocalcemia', 'disease_mesh': 'MESH:D006996', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0070509'}, {'key': 'negatively correlated with', 'source': 'GO:0070509', 'target': 'MESH:D006996'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion import'}, {'id': 'MESH:D006996', 'label': 'Disease', 'name': 'Hypocalcemia'}], 'reference': ['https://go.drugbank.com/drugs/DB00169']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00169_MESH_D014808_2', 'disease': 'Vitamin deficiency', 'disease_mesh': 'MESH:D014808', 'drug': 'Colecalciferol', 'drug_mesh': 'MESH:D002762', 'drugbank': 'DB:DB00169'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D002762', 'target': 'UniProt:P11473'}, {'key': 'positively regulates', 'source': 'UniProt:P11473', 'target': 'GO:0033280'}, {'key': 'positively regulates', 'source': 'GO:0033280', 'target': 'GO:0030282'}, {'key': 'negatively correlated with', 'source': 'GO:0030282', 'target': 'MESH:D014808'}, {'key': 'negatively correlated with', 'source': 'GO:0033280', 'target': 'HP:0001324'}, {'key': 'positively correlated with', 'source': 'HP:0001324', 'target': 'MESH:D014808'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002762', 'label': 'Drug', 'name': 'Colecalciferol'}, {'id': 'UniProt:P11473', 'label': 'Protein', 'name': 'Vitamin D3 receptor'}, {'id': 'GO:0033280', 'label': 'BiologicalProcess', 'name': 'Response to vitamin D'}, {'id': 'GO:0030282', 'label': 'BiologicalProcess', 'name': 'Bone mineralization'}, {'id': 'HP:0001324', 'label': 'PhenotypicFeature', 'name': 'Muscle weakness'}, {'id': 'MESH:D014808', 'label': 'Disease', 'name': 'Vitamin deficiency'}], 'reference': ['https://go.drugbank.com/drugs/DB00169', 'https://en.wikipedia.org/wiki/Vitamin_D_deficiency#Signs_and_symptoms']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D018633_1', 'disease': 'Congenital atresia of the pulmonary valve', 'disease_mesh': 'MESH:D018633', 'drug': 'Alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D018633'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D018633', 'label': 'Disease', 'name': 'Congenital atresia of the pulmonary valve'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D000071079_1', 'disease': 'Pulmonary artery stenosis', 'disease_mesh': 'MESH:D000071079', 'drug': 'Alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D000071079'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D000071079', 'label': 'Disease', 'name': 'Pulmonary artery stenosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1', 'https://en.wikipedia.org/wiki/Tricuspid_atresia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D018785_1', 'disease': 'Congenital atresia of tricuspid valve', 'disease_mesh': 'MESH:D018785', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'HP:0001643'}, {'key': 'negatively correlated with', 'source': 'HP:0001643', 'target': 'MESH:D018785'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'HP:0001643', 'label': 'PhenotypicFeature', 'name': 'Patent ductus arteriosus'}, {'id': 'MESH:D018785', 'label': 'Disease', 'name': 'Congenital atresia of tricuspid valve'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Prostaglandin_E1', 'https://en.wikipedia.org/wiki/Tricuspid_atresia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D001017_1', 'disease': 'Coarctation of aorta', 'disease_mesh': 'MESH:D001017', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D001017'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D001017', 'label': 'Disease', 'name': 'Coarctation of aorta'}], 'reference': ['https://go.drugbank.com/drugs/DB00770', 'https://en.wikipedia.org/wiki/Coarctation_of_the_aorta']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D007172_1', 'disease': 'Impotence', 'disease_mesh': 'MESH:D007172', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'MESH:D007172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'MESH:D007172', 'label': 'Disease', 'name': 'Impotence'}], 'reference': ['https://go.drugbank.com/drugs/DB00770']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00770_MESH_D013771_1', 'disease': 'Tetralogy of Fallot', 'disease_mesh': 'MESH:D013771', 'drug': 'alprostadil', 'drug_mesh': 'MESH:D000527', 'drugbank': 'DB:DB00770'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000527', 'target': 'UniProt:P43116'}, {'key': 'positively regulates', 'source': 'UniProt:P43116', 'target': 'GO:0007189'}, {'key': 'positively regulates', 'source': 'GO:0007189', 'target': 'GO:0044557'}, {'key': 'positively correlated with', 'source': 'GO:0044557', 'target': 'GO:0042311'}, {'key': 'positively correlated with', 'source': 'GO:0042311', 'target': 'GO:0008015'}, {'key': 'negatively correlated with', 'source': 'GO:0008015', 'target': 'HP:0012418'}, {'key': 'occurs in', 'source': 'HP:0012418', 'target': 'MESH:D013771'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000527', 'label': 'Drug', 'name': 'Alprostadil'}, {'id': 'UniProt:P43116', 'label': 'Protein', 'name': 'Prostaglandin E2 receptor EP2 subtype'}, {'id': 'GO:0007189', 'label': 'BiologicalProcess', 'name': 'Adenylate cyclase-activating G protein-coupled receptor signaling pathway'}, {'id': 'GO:0044557', 'label': 'BiologicalProcess', 'name': 'Relaxation of smooth muscle'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0008015', 'label': 'BiologicalProcess', 'name': 'Blood circulation'}, {'id': 'HP:0012418', 'label': 'PhenotypicFeature', 'name': 'Hypoxemia'}, {'id': 'MESH:D013771', 'label': 'Disease', 'name': 'Tetralogy of Fallot'}], 'reference': ['https://go.drugbank.com/drugs/DB00770']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Azathioprine is a prodrug of 6-mercaptopurine', 'directed': True, 'graph': {'_id': 'DB00993_MESH_D001172_1', 'disease': 'Rheumatoid arthritis', 'disease_mesh': 'MESH:D001172', 'drug': 'azathioprine', 'drug_mesh': 'MESH:D001379', 'drugbank': 'DB:DB00993'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D001379', 'target': 'MESH:C032827'}, {'key': 'decreases activity of', 'source': 'MESH:C032827', 'target': 'UniProt:P63000'}, {'key': 'increases activity of', 'source': 'UniProt:P63000', 'target': 'UniProt:Q07817-1'}, {'key': 'negatively regulates', 'source': 'UniProt:Q07817-1', 'target': 'GO:0006915'}, {'key': 'negatively regulates', 'source': 'GO:0006915', 'target': 'CL:0000084'}, {'key': 'positively regulates', 'source': 'CL:0000084', 'target': 'GO:0006955'}, {'key': 'negatively regulates', 'source': 'MESH:D001379', 'target': 'GO:0042451'}, {'key': 'occurs in', 'source': 'GO:0042451', 'target': 'CL:0000738'}, {'key': 'positively regulates', 'source': 'CL:0000738', 'target': 'GO:0006955'}, {'key': 'positively regulates', 'source': 'GO:0006955', 'target': 'GO:0006955'}, {'key': 'disrupts', 'source': 'MESH:D001379', 'target': 'MESH:D004247'}, {'key': 'occurs in', 'source': 'MESH:D004247', 'target': 'CL:0000738'}, {'key': 'positively correlated with', 'source': 'GO:0006955', 'target': 'MESH:D001172'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D001379', 'label': 'Drug', 'name': 'Azathioprine'}, {'id': 'MESH:C032827', 'label': 'ChemicalSubstance', 'name': \"6-thioguanosine 5'-triphosphate\"}, {'id': 'UniProt:P63000', 'label': 'Protein', 'name': 'Ras-related C3 botulinum toxin substrate 1'}, {'id': 'UniProt:Q07817-1', 'label': 'Protein', 'name': 'Bcl-xL'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptotic process'}, {'id': 'CL:0000084', 'label': 'Cell', 'name': 'T cell'}, {'id': 'GO:0006955', 'label': 'BiologicalProcess', 'name': 'Immune response'}, {'id': 'GO:0042451', 'label': 'BiologicalProcess', 'name': 'Purine nucleoside biosynthetic process'}, {'id': 'CL:0000738', 'label': 'Cell', 'name': 'Leukocyte'}, {'id': 'MESH:D004247', 'label': 'ChemicalSubstance', 'name': 'DNA'}, {'id': 'MESH:D001172', 'label': 'Disease', 'name': 'Rheumatoid arthritis'}], 'reference': ['https://en.wikipedia.org/wiki/Azathioprine', 'https://go.drugbank.com/drugs/DB00993']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'Cell', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Flupentixol is not approved for use in the United States. Flupentixol exists in two geometric isomers, the trans(E) and pharmacologically active cis(Z) forms.It is generally understood that positive symptoms of schizophrenia arise from a dysregulated striatal dopamine pathway, leading to hyperstimulation of D2 receptors.', 'directed': True, 'graph': {'_id': 'DB00875_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'flupentixol', 'drug_mesh': 'MESH:D005475', 'drugbank': 'DB:DB00875'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005475', 'target': 'UniProt:P14416'}, {'key': 'positively correlated with', 'source': 'UniProt:P14416', 'target': 'REACT:R-HSA-390651'}, {'key': 'correlated with', 'source': 'REACT:R-HSA-390651', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005475', 'label': 'Drug', 'name': 'Flupentixol'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'D(2) dopamine receptor'}, {'id': 'REACT:R-HSA-390651', 'label': 'Pathway', 'name': 'Dopamine receptors'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00875']}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'comment': 'The link between guanfacine’s molecular mechanism and it’s effect on the treatment of ADHD has not been determined', 'directed': True, 'graph': {'_id': 'DB01018_MESH_D001289_1', 'disease': 'Attention deficit hyperactivity disorder', 'disease_mesh': 'MESH:D001289', 'drug': 'guanfacine', 'drug_mesh': 'MESH:D016316', 'drugbank': 'DB:DB01018'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016316', 'target': 'UniProt:P08913'}, {'key': 'treats', 'source': 'UniProt:P08913', 'target': 'MESH:D001289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016316', 'label': 'Drug', 'name': 'Guanfacine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'MESH:D001289', 'label': 'Disease', 'name': 'Attention deficit hyperactivity disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01018']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01018_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'guanfacine', 'drug_mesh': 'MESH:D016316', 'drugbank': 'DB:DB01018'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D016316', 'target': 'UniProt:P08913'}, {'key': 'positively correlated with', 'source': 'UniProt:P08913', 'target': 'GO:0004938'}, {'key': 'negatively regulates', 'source': 'GO:0004938', 'target': 'GO:0061533'}, {'key': 'positively correlated with', 'source': 'GO:0061533', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016316', 'label': 'Drug', 'name': 'Guanfacine'}, {'id': 'UniProt:P08913', 'label': 'Protein', 'name': 'Alpha-2A adrenergic receptor'}, {'id': 'GO:0004938', 'label': 'BiologicalProcess', 'name': 'Alpha2-adrenergic receptor activity'}, {'id': 'GO:0061533', 'label': 'BiologicalProcess', 'name': 'Norepinephrine secretion, neurotransmission'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01018#BE0000289']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01062_MESH_D053202_1', 'disease': 'Urge incontinence of urine', 'disease_mesh': 'MESH:D053202', 'drug': 'oxybutynin', 'drug_mesh': 'MESH:C005419', 'drugbank': 'DB:DB01062'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D053202'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005419', 'label': 'Drug', 'name': 'Oxybutynin'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D053202', 'label': 'Disease', 'name': 'Urge incontinence of urine'}], 'reference': ['https://go.drugbank.com/drugs/DB01062#BE0000045']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01062_MESH_D001750_1', 'disease': 'Neurogenic bladder', 'disease_mesh': 'MESH:D001750', 'drug': 'oxybutynin', 'drug_mesh': 'MESH:C005419', 'drugbank': 'DB:DB01062'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P08172'}, {'key': 'decreases activity of', 'source': 'MESH:C005419', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P08172', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0014832'}, {'key': 'positively regulates', 'source': 'GO:0014832', 'target': 'GO:0060073'}, {'key': 'positively correlated with', 'source': 'GO:0060073', 'target': 'MESH:D001750'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C005419', 'label': 'Drug', 'name': 'Oxybutynin'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UniProt:P08172', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M2'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'GO:0014832', 'label': 'BiologicalProcess', 'name': 'Urinary bladder smooth muscle contraction'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Urination'}, {'id': 'MESH:D001750', 'label': 'Disease', 'name': 'Neurogenic bladder'}], 'reference': ['https://go.drugbank.com/drugs/DB01062#BE0000045', 'https://en.wikipedia.org/wiki/Neurogenic_bladder_dysfunction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01152_MESH_D002181_1', 'disease': 'Candidiasis of vagina', 'disease_mesh': 'MESH:D002181', 'drug': 'candicidin', 'drug_mesh': 'MESH:D002174', 'drugbank': 'DB:DB01152'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D002174', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002174', 'label': 'Drug', 'name': 'Candicidin'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'Ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'Yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis of vagina'}], 'reference': ['https://go.drugbank.com/drugs/DB01152']}\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06282_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0031417'}, {'key': 'manifestation of', 'source': 'HP:0031417', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C472067', 'label': 'Drug', 'name': 'Levocetirizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0031417', 'label': 'PhenotypicFeature', 'name': 'Rhinorrhea'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06282#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06282_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0031417'}, {'key': 'manifestation of', 'source': 'HP:0031417', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C472067', 'label': 'Drug', 'name': 'Levocetirizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0031417', 'label': 'PhenotypicFeature', 'name': 'Rhinorrhea'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06282#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06282_MESH_D000080223_1', 'disease': 'Chronic idiopathic urticaria', 'disease_mesh': 'MESH:D000080223', 'drug': 'Levocetirizine', 'drug_mesh': 'MESH:C472067', 'drugbank': 'DB:DB06282'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C472067', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D000080223'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D000080223'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D000080223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C472067', 'label': 'Drug', 'name': 'Levocetirizine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D000080223', 'label': 'Disease', 'name': 'Chronic idiopathic urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB06282#BE0000442']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Ivacaftor as monotherapy has failed to show a benefit for patients with delta-F508 mutations', 'directed': True, 'graph': {'_id': 'DB08820_MESH_D003550_1', 'disease': 'Cystic fibrosis of the lung', 'disease_mesh': 'MESH:D003550', 'drug': 'Ivacaftor', 'drug_mesh': 'MESH:C545203', 'drugbank': 'DB:DB08820'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C545203', 'target': 'UniProt:P13569'}, {'key': 'disrupted by', 'source': 'UniProt:P13569', 'target': 'MESH:D003550'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C545203', 'label': 'Drug', 'name': 'Ivacaftor'}, {'id': 'UniProt:P13569', 'label': 'Protein', 'name': 'Cystic fibrosis transmembrane conductance regulator'}, {'id': 'MESH:D003550', 'label': 'Disease', 'name': 'Cystic fibrosis of the lung'}], 'reference': ['https://go.drugbank.com/drugs/DB08820']}\n", - "['Drug', 'Protein', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08841_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Tyramine', 'drug_mesh': 'MESH:D014439', 'drugbank': 'DB:DB08841'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'UniProt:P04035'}, {'key': 'ameliorates', 'source': 'UniProt:P04035', 'target': 'MESH:D002784'}, {'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'InterPro:IPR014371'}, {'key': 'ameliorates', 'source': 'InterPro:IPR014371', 'target': 'MESH:D002784'}, {'key': 'manifestation of', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014439', 'label': 'Drug', 'name': 'Tyramine'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'InterPro:IPR014371', 'label': 'GeneFamily', 'name': 'Acyl-CoA cholesterol acyltransferase'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Serum total cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08841#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08841_MESH_D006949_1', 'disease': 'Hyperlipidemia', 'disease_mesh': 'MESH:D006949', 'drug': 'Tyramine', 'drug_mesh': 'MESH:D014439', 'drugbank': 'DB:DB08841'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'UniProt:P04035'}, {'key': 'ameliorates', 'source': 'UniProt:P04035', 'target': 'MESH:D002784'}, {'key': 'decreases activity of', 'source': 'MESH:D014439', 'target': 'InterPro:IPR014371'}, {'key': 'ameliorates', 'source': 'InterPro:IPR014371', 'target': 'MESH:D002784'}, {'key': 'correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014439', 'label': 'Drug', 'name': 'Tyramine'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': 'HMG-CoA reductase'}, {'id': 'InterPro:IPR014371', 'label': 'GeneFamily', 'name': 'Acyl-CoA cholesterol acyltransferase'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Serum total cholesterol'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08841#mechanismofaction']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'Disease']\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01586_MESH_D002769_1', 'disease': 'Calculus in biliary tract', 'disease_mesh': 'MESH:D002769', 'drug': 'Ursodiol', 'drug_mesh': 'MESH:D014580', 'drugbank': 'DB:DB01586'}, 'links': [{'key': 'prevents', 'source': 'MESH:D014580', 'target': 'REACT:R-HSA-191273'}, {'key': 'disrupts', 'source': 'REACT:R-HSA-191273', 'target': 'HP:0011980'}, {'key': 'prevents', 'source': 'MESH:D014580', 'target': 'GO:0030299'}, {'key': 'disrupts', 'source': 'GO:0030299', 'target': 'HP:0011980'}, {'key': 'causes', 'source': 'HP:0011980', 'target': 'MESH:D002769'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014580', 'label': 'Drug', 'name': 'Ursodiol'}, {'id': 'GO:0030299', 'label': 'BiologicalProcess', 'name': 'Intestinal cholesterol absorption'}, {'id': 'REACT:R-HSA-191273', 'label': 'Pathway', 'name': 'Cholesterol synthesis'}, {'id': 'HP:0011980', 'label': 'PhenotypicFeature', 'name': 'Cholesterol gallstones'}, {'id': 'MESH:D002769', 'label': 'Disease', 'name': 'Calculus in biliary tract'}], 'reference': ['https://go.drugbank.com/drugs/DB01586#mechanismofaction']}\n", - "['Drug', 'Pathway', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01586_MESH_D008105_1', 'disease': 'Primary biliary cirrhosis', 'disease_mesh': 'MESH:D008105', 'drug': 'Ursodiol', 'drug_mesh': 'MESH:D014580', 'drugbank': 'DB:DB01586'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D014580', 'target': 'GO:0032782'}, {'key': 'positively regulates', 'source': 'GO:0032782', 'target': 'GO:0015721'}, {'key': 'correlated with', 'source': 'GO:0015721', 'target': 'MESH:D008105'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014580', 'label': 'Drug', 'name': 'Ursodiol'}, {'id': 'GO:0032782', 'label': 'BiologicalProcess', 'name': 'Bile secretion'}, {'id': 'GO:0015721', 'label': 'BiologicalProcess', 'name': 'Bile acid and bile salt transport'}, {'id': 'MESH:D008105', 'label': 'Disease', 'name': 'Primary biliary cirrhosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01586#mechanismofaction', 'https://doi.org/10.1159/000048854']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12017_MESH_D020301_1', 'disease': 'Spasm of cerebral arteries', 'disease_mesh': 'MESH:D020301', 'drug': 'Ozagrel', 'drug_mesh': 'MESH:C034364', 'drugbank': 'DB:DB12017'}, 'links': [{'key': 'decreases synthesis of', 'source': 'MESH:C034364', 'target': 'MESH:D013928'}, {'key': 'prevents', 'source': 'MESH:D013928', 'target': 'GO:0070527'}, {'key': 'positively regulates', 'source': 'GO:0070527', 'target': 'GO:0042311'}, {'key': 'ameliorates', 'source': 'GO:0042311', 'target': 'HP:0002637'}, {'key': 'correlated with', 'source': 'HP:0002637', 'target': 'MESH:D020301'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C034364', 'label': 'Drug', 'name': 'Ozagrel'}, {'id': 'MESH:D013928', 'label': 'ChemicalSubstance', 'name': 'Thromboxane A2'}, {'id': 'GO:0070527', 'label': 'BiologicalProcess', 'name': 'Platelet aggregation'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0002637', 'label': 'PhenotypicFeature', 'name': 'Cerebral ischemia'}, {'id': 'MESH:D020301', 'label': 'Disease', 'name': 'Spasm of cerebral arteries'}], 'reference': ['https://go.drugbank.com/drugs/DB12017#mechanismofaction', 'DOI:10.4103/0028-3886.271236']}\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB12017_MESH_D001249_1', 'disease': 'Asthma', 'disease_mesh': 'MESH:D001249', 'drug': 'Ozagrel', 'drug_mesh': 'MESH:C034364', 'drugbank': 'DB:DB12017'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C034364', 'target': 'GO:0006939'}, {'key': 'located in', 'source': 'GO:0006939', 'target': 'UBERON:0004225'}, {'key': 'positively correlated with', 'source': 'UBERON:0004225', 'target': 'HP:0032933'}, {'key': 'manifestation of', 'source': 'HP:0032933', 'target': 'MESH:D001249'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C034364', 'label': 'Drug', 'name': 'Ozagrel'}, {'id': 'GO:0006939', 'label': 'BiologicalProcess', 'name': 'Smooth muscle contraction'}, {'id': 'UBERON:0004225', 'label': 'GrossAnatomicalStructure', 'name': 'Respiratory system smooth muscle'}, {'id': 'HP:0032933', 'label': 'PhenotypicFeature', 'name': 'Airway hyperresponsiveness'}, {'id': 'MESH:D001249', 'label': 'Disease', 'name': 'Asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB12017#mechanismofaction', 'https://doi.org/10.1517/13543784.11.2.275']}\n", - "['Drug', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Benzoic acid is used in the salt form sodium benzoate', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D022124_1', 'disease': 'Hyperammonemia', 'disease_mesh': 'MESH:D022124', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D019817', 'target': 'MESH:D005998'}, {'key': 'positively regulates', 'source': 'MESH:D005998', 'target': 'GO:0007588'}, {'key': 'decreases abundance of', 'source': 'GO:0007588', 'target': 'MESH:D000641'}, {'key': 'contributes to', 'source': 'MESH:D000641', 'target': 'MESH:D022124'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D005998', 'label': 'ChemicalSubstance', 'name': 'Glycine'}, {'id': 'GO:0007588', 'label': 'BiologicalProcess', 'name': 'Renal excretion'}, {'id': 'MESH:D000641', 'label': 'ChemicalSubstance', 'name': 'Ammonia'}, {'id': 'MESH:D022124', 'label': 'Disease', 'name': 'Hyperammonemia'}], 'reference': ['https://go.drugbank.com/drugs/DB03793#mechanismofaction', 'https://www.accessdata.fda.gov/drugsatfda_docs/label/2005/020645lbl.pdf', 'https://en.wikipedia.org/wiki/Hyperammonemia#Treatment']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Systemic sclerosis', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D012594_1', 'disease': 'Systemic sclerosis', 'disease_mesh': 'MESH:D012594', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D012594'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D012594', 'label': 'Disease', 'name': 'Systemic sclerosis'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.alliedacademies.org/articles/treatment-of-scleroderma-with-paraaminobenzoic-acid-effect-on-disease-morbidity-10183.html', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Dermatomyositis', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D003882_1', 'disease': 'Dermatomyositis', 'disease_mesh': 'MESH:D003882', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D003882'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D003882', 'label': 'Disease', 'name': 'Dermatomyositis'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Pemphigus', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D010392_1', 'disease': 'Pemphigus', 'disease_mesh': 'MESH:D010392', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D010392'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D010392', 'label': 'Disease', 'name': 'Pemphigus'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Literature evidences shows potassium para-aminobenzoate is used to treat Induratio penis plastica', 'directed': True, 'graph': {'_id': 'DB03793_MESH_D010411_1', 'disease': 'Induratio penis plastica', 'disease_mesh': 'MESH:D010411', 'drug': 'Benzoic acid', 'drug_mesh': 'MESH:D019817', 'drugbank': 'DB:DB03793'}, 'links': [{'key': 'treats', 'source': 'MESH:D019817', 'target': 'MESH:D010411'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019817', 'label': 'Drug', 'name': 'Benzoic acid'}, {'id': 'MESH:D010411', 'label': 'Disease', 'name': 'Induratio penis plastica'}], 'reference': ['https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/554547', 'https://pubmed.ncbi.nlm.nih.gov/2406809/', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3533636/']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01058_MESH_D012552_1', 'disease': 'Infection by Schistosoma', 'disease_mesh': 'MESH:D012552', 'drug': 'Praziquantel', 'drug_mesh': 'MESH:D011223', 'drugbank': 'DB:DB01058'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D011223', 'target': 'UniProt:Q963L7'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q963L7', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'MESH:D011223', 'target': 'GO:0052200'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0002432'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0006909'}, {'key': 'in taxon', 'source': 'GO:0002432', 'target': 'NCBITaxon:6181'}, {'key': 'in taxon', 'source': 'GO:0006909', 'target': 'NCBITaxon:6181'}, {'key': 'in taxon', 'source': 'GO:0070509', 'target': 'NCBITaxon:6181'}, {'key': 'causes', 'source': 'NCBITaxon:6181', 'target': 'MESH:D012552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011223', 'label': 'Drug', 'name': 'Praziquantel'}, {'id': 'UniProt:Q963L7', 'label': 'Protein', 'name': 'Calcium ion channels'}, {'id': 'GO:0052200', 'label': 'BiologicalProcess', 'name': 'Host defense responses'}, {'id': 'GO:0002432', 'label': 'BiologicalProcess', 'name': 'Granuloma formation'}, {'id': 'GO:0006909', 'label': 'BiologicalProcess', 'name': 'Phagocytosis'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium influx'}, {'id': 'NCBITaxon:6181', 'label': 'OrganismTaxon', 'name': 'Schistosoma'}, {'id': 'MESH:D012552', 'label': 'Disease', 'name': 'Infection by Schistosoma'}], 'reference': ['https://go.drugbank.com/drugs/D011223#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/praziquantel#section=Pharmacology', 'https://en.wikipedia.org/wiki/Praziquantel']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01058_MESH_D009889_1', 'disease': 'Opisthorchiasis', 'disease_mesh': 'MESH:D009889', 'drug': 'Praziquantel', 'drug_mesh': 'MESH:D011223', 'drugbank': 'DB:DB01058'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D011223', 'target': 'UniProt:Q963L7'}, {'key': 'decreases abundance of', 'source': 'UniProt:Q963L7', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'MESH:D011223', 'target': 'GO:0052200'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0002432'}, {'key': 'precedes', 'source': 'GO:0052200', 'target': 'GO:0006909'}, {'key': 'in taxon', 'source': 'GO:0002432', 'target': 'NCBITaxon:6198'}, {'key': 'in taxon', 'source': 'GO:0006909', 'target': 'NCBITaxon:6198'}, {'key': 'in taxon', 'source': 'GO:0070509', 'target': 'NCBITaxon:6198'}, {'key': 'causes', 'source': 'NCBITaxon:6198', 'target': 'MESH:D009889'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011223', 'label': 'Drug', 'name': 'Praziquantel'}, {'id': 'UniProt:Q963L7', 'label': 'Protein', 'name': 'Calcium ion channels'}, {'id': 'GO:0052200', 'label': 'BiologicalProcess', 'name': 'Host defense responses'}, {'id': 'GO:0002432', 'label': 'BiologicalProcess', 'name': 'Granuloma formation'}, {'id': 'GO:0006909', 'label': 'BiologicalProcess', 'name': 'Phagocytosis'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium influx'}, {'id': 'NCBITaxon:6198', 'label': 'OrganismTaxon', 'name': 'Opisthorchis viverrini'}, {'id': 'MESH:D009889', 'label': 'Disease', 'name': 'Opisthorchiasis'}], 'reference': ['https://go.drugbank.com/drugs/D011223#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/praziquantel#section=Pharmacology', 'https://en.wikipedia.org/wiki/Praziquantel']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D014406_1', 'disease': 'Tularemia', 'disease_mesh': 'MESH:D014406', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:263'}, {'key': 'causes', 'source': 'NCBITaxon:263', 'target': 'MESH:D014406'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:263', 'label': 'OrganismTaxon', 'name': 'Francisella tularensis'}, {'id': 'MESH:D014406', 'label': 'Disease', 'name': 'Tularemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D010930_1', 'disease': 'Plague', 'disease_mesh': 'MESH:D010930', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:632'}, {'key': 'causes', 'source': 'NCBITaxon:632', 'target': 'MESH:D010930'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:632', 'label': 'OrganismTaxon', 'name': 'Yersinia pestis'}, {'id': 'MESH:D010930', 'label': 'Disease', 'name': 'Plague'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D002602_1', 'disease': 'Chancroid', 'disease_mesh': 'MESH:D002602', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:730'}, {'key': 'causes', 'source': 'NCBITaxon:730', 'target': 'MESH:D002602'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:730', 'label': 'OrganismTaxon', 'name': 'Haemophilus ducreyi'}, {'id': 'MESH:D002602', 'label': 'Disease', 'name': 'Chancroid'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D006100_1', 'disease': 'Granuloma inguinale', 'disease_mesh': 'MESH:D006100', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:39824'}, {'key': 'causes', 'source': 'NCBITaxon:39824', 'target': 'MESH:D006100'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:39824', 'label': 'OrganismTaxon', 'name': 'Klebsiella granulomatis'}, {'id': 'MESH:D006100', 'label': 'Disease', 'name': 'Granuloma inguinale'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01082_MESH_D002006_1', 'disease': 'Brucellosis', 'disease_mesh': 'MESH:D002006', 'drug': 'Streptomycin', 'drug_mesh': 'MESH:D013307', 'drugbank': 'DB:DB01082'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:D013307', 'target': 'PR:000023855'}, {'key': 'disrupts', 'source': 'PR:000023855', 'target': 'GO:0006412'}, {'key': 'in taxon', 'source': 'GO:0006412', 'target': 'NCBITaxon:234'}, {'key': 'causes', 'source': 'NCBITaxon:234', 'target': 'MESH:D002006'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013307', 'label': 'Drug', 'name': 'Streptomycin'}, {'id': 'PR:000023855', 'label': 'MacromolecularComplex', 'name': '30S ribosomal subunit'}, {'id': 'GO:0006412', 'label': 'BiologicalProcess', 'name': 'Protein synthesis'}, {'id': 'NCBITaxon:234', 'label': 'OrganismTaxon', 'name': 'Brucella'}, {'id': 'MESH:D002006', 'label': 'Disease', 'name': 'Brucellosis'}], 'reference': ['https://go.drugbank.com/drugs/DB01082#mechanismofaction']}\n", - "['Drug', 'MacromolecularComplex', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00628_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'Clorazepate', 'drug_mesh': 'MESH:D003009', 'drugbank': 'DB:DB00628'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003009', 'target': 'InterPro:IPR006028'}, {'key': 'positively regulates', 'source': 'InterPro:IPR006028', 'target': 'MESH:D005680'}, {'key': 'increases abundance of', 'source': 'MESH:D005680', 'target': 'GO:0070509'}, {'key': 'participates in', 'source': 'GO:0070509', 'target': 'GO:0060081'}, {'key': 'ameliorates', 'source': 'GO:0060081', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003009', 'label': 'Drug', 'name': 'Clorazepate'}, {'id': 'InterPro:IPR006028', 'label': 'GeneFamily', 'name': 'Gamma-aminobutyric acid-A receptor'}, {'id': 'MESH:D005680', 'label': 'ChemicalSubstance', 'name': 'Gamma-aminobutyric acid'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Chloride ion influx'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00628#mechanismofaction']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01146_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'Diphenylpyraline', 'drug_mesh': 'MESH:C009871', 'drugbank': 'DB:DB01146'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C009871', 'target': 'UniProt:P35367'}, {'key': 'prevents', 'source': 'UniProt:P35367', 'target': 'GO:0071420'}, {'key': 'ameliorates', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C009871', 'label': 'Drug', 'name': 'Diphenylpyraline'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB01146#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Diphenylpyraline#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06766_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Alcaftadine', 'drug_mesh': 'MESH:C557708', 'drugbank': 'DB:DB06766'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C557708', 'target': 'UniProt:P35367'}, {'key': 'decreases activity of', 'source': 'UniProt:P35367', 'target': 'GO:0001821'}, {'key': 'decreases activity of', 'source': 'GO:0001821', 'target': 'GO:0006935'}, {'key': 'ameliorates', 'source': 'GO:0006935', 'target': 'GO:0006954'}, {'key': 'decreases activity of', 'source': 'GO:0001821', 'target': 'GO:0043307'}, {'key': 'ameliorates', 'source': 'GO:0043307', 'target': 'GO:0006954'}, {'key': 'correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C557708', 'label': 'Drug', 'name': 'Alcaftadine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043307', 'label': 'BiologicalProcess', 'name': 'Eosinophil activation'}, {'id': 'GO:0001821', 'label': 'BiologicalProcess', 'name': 'Histamine secretion'}, {'id': 'GO:0006935', 'label': 'BiologicalProcess', 'name': 'Chemotaxis'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB06766#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Elosulfase alfa is a synthetic version of N-acetylgalactosamine-6-sulfatase, used in enzyme replacement therapy', 'directed': True, 'graph': {'_id': 'DB09051_MESH_D009085_1', 'disease': 'Mucopolysaccharidosis, MPS-IV-A', 'disease_mesh': 'MESH:D009085', 'drug': 'Elosulfase alfa', 'drug_mesh': 'MESH:C102295', 'drugbank': 'DB:DB09051'}, 'links': [{'key': 'molecularly interacts with', 'source': 'MESH:C102295', 'target': 'InterPro:IPR000479'}, {'key': 'increases uptake of', 'source': 'InterPro:IPR000479', 'target': 'GO:0005764'}, {'key': 'increases degradation of', 'source': 'GO:0005764', 'target': 'MESH:D006025'}, {'key': 'manifestation of', 'source': 'MESH:D006025', 'target': 'MESH:D009085'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C102295', 'label': 'Drug', 'name': 'Elosulfase alfa'}, {'id': 'InterPro:IPR000479', 'label': 'GeneFamily', 'name': 'Mannose-6-phosphate receptor'}, {'id': 'GO:0005764', 'label': 'CellularComponent', 'name': 'Lysosome'}, {'id': 'MESH:D006025', 'label': 'ChemicalSubstance', 'name': 'Glycosaminoglycan'}, {'id': 'MESH:D009085', 'label': 'Disease', 'name': 'Mucopolysaccharidosis, MPS-IV-A'}], 'reference': ['https://go.drugbank.com/drugs/DB09051#mechanismofaction', 'doi:10.2147/TACG.S69080', 'https://www.accessdata.fda.gov/drugsatfda_docs/label/2014/125460s000lbl.pdf']}\n", - "['Drug', 'GeneFamily', 'CellularComponent', 'ChemicalSubstance', 'Disease']\n", - "{'comment': 'Omarigliptin has been used in trials studying the treatment of Type 2 Diabetes Mellitus and Chronic Renal Insufficiency', 'directed': True, 'graph': {'_id': 'DB11992_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Omarigliptin', 'drug_mesh': 'MESH:C587539', 'drugbank': 'DB:DB11992'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C587539', 'target': 'UniProt:P27487'}, {'key': 'increases abundance of', 'source': 'UniProt:P27487', 'target': 'UniProt:P01275'}, {'key': 'negatively regulates', 'source': 'UniProt:P01275', 'target': 'GO:0070091'}, {'key': 'increases abundance of', 'source': 'UniProt:P27487', 'target': 'UniProt:P09681'}, {'key': 'negatively regulates', 'source': 'UniProt:P09681', 'target': 'GO:0070091'}, {'key': 'positively regulates', 'source': 'GO:0070091', 'target': 'GO:0030073'}, {'key': 'decreases abundance of', 'source': 'GO:0030073', 'target': 'MESH:D001786'}, {'key': 'negatively regulates', 'source': 'GO:0070091', 'target': 'GO:0035483'}, {'key': 'decreases abundance of', 'source': 'GO:0035483', 'target': 'MESH:D001786'}, {'key': 'correlated with', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C587539', 'label': 'Drug', 'name': 'Omarigliptin'}, {'id': 'UniProt:P27487', 'label': 'Protein', 'name': 'Dipeptidyl peptidase-4'}, {'id': 'UniProt:P01275', 'label': 'Protein', 'name': 'Glucagon-like peptide-1'}, {'id': 'GO:0070091', 'label': 'BiologicalProcess', 'name': 'Glucagon release'}, {'id': 'UniProt:P09681', 'label': 'Protein', 'name': 'Gastric inhibitory polypeptide'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'Gastric emptying'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB11992#mechanismofaction', 'https://en.wikipedia.org/wiki/Omarigliptin']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB11783_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'imidapril', 'drug_mesh': 'MESH:C065166', 'drugbank': 'DB:DB11783'}, 'links': [{'key': 'produces', 'source': 'MESH:C065166', 'target': 'MESH:C078006'}, {'key': 'decreases activity of', 'source': 'MESH:C078006', 'target': 'UniProt:P12821'}, {'key': 'positively regulates', 'source': 'UniProt:P12821', 'target': 'GO:0002003'}, {'key': 'positively regulates', 'source': 'GO:0002003', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C065166', 'label': 'Drug', 'name': 'imidapril'}, {'id': 'MESH:C078006', 'label': 'Drug', 'name': 'imidaprilat'}, {'id': 'UniProt:P12821', 'label': 'Protein', 'name': 'Angiotensin-converting enzyme'}, {'id': 'GO:0002003', 'label': 'BiologicalProcess', 'name': 'angiotensin maturation'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL317094/', 'https://en.wikipedia.org/wiki/ACE_inhibitor#Effects']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The drug may also modulate other members of the Voltage-gated L-type calcium channel protein family (https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1275868/) or T-type calcium channel protein family (https://en.wikipedia.org/wiki/Azelnidipine).', 'directed': True, 'graph': {'_id': 'DB09230_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'azelnidipine', 'drug_mesh': 'MESH:C061679', 'drugbank': 'DB:DB09230'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C061679', 'target': 'UniProt:Q02641'}, {'key': 'positively regulates', 'source': 'UniProt:Q02641', 'target': 'GO:0061577'}, {'key': 'positively regulates', 'source': 'GO:0061577', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C061679', 'label': 'Drug', 'name': 'azelnidipine'}, {'id': 'UniProt:Q02641', 'label': 'Protein', 'name': 'Voltage-dependent L-type calcium channel subunit beta-1'}, {'id': 'GO:0061577', 'label': 'BiologicalProcess', 'name': 'calcium ion transmembrane transport via high voltage-gated calcium channel'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB09230#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The disease is denoted as Ulcerative cystitis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB01093_MESH_D018856_1', 'disease': 'Cystitis, Interstitial', 'disease_mesh': 'MESH:D018856', 'drug': 'dimethyl sulfoxide', 'drug_mesh': 'MESH:D004121', 'drugbank': 'DB:DB01093'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D004121', 'target': 'GO:0006954'}, {'key': 'negatively correlated with', 'source': 'MESH:D004121', 'target': 'HP:0012531'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'HP:0100577'}, {'key': 'positively correlated with', 'source': 'HP:0012531', 'target': 'HP:0100577'}, {'key': 'manifestation of', 'source': 'HP:0100577', 'target': 'MESH:D018856'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004121', 'label': 'Drug', 'name': 'dimethyl sulfoxide'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'inflammatory response'}, {'id': 'HP:0012531', 'label': 'PhenotypicFeature', 'name': 'Pain'}, {'id': 'HP:0100577', 'label': 'PhenotypicFeature', 'name': 'Urinary bladder inflammation'}, {'id': 'MESH:D018856', 'label': 'Disease', 'name': 'Cystitis, Interstitial'}], 'reference': ['https://go.drugbank.com/drugs/DB01093']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00952_MESH_D008881_1', 'disease': 'Migraine', 'disease_mesh': 'MESH:D008881', 'drug': 'Naratriptan', 'drug_mesh': 'MESH:C106783', 'drugbank': 'DB:DB00952'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P28221'}, {'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P28222'}, {'key': 'positively regulates', 'source': 'MESH:C106783', 'target': 'UniProt:P30939'}, {'key': 'negatively regulates', 'source': 'UniProt:P28221', 'target': 'GO:0150076'}, {'key': 'negatively regulates', 'source': 'UniProt:P30939', 'target': 'GO:0150076'}, {'key': 'positively regulates', 'source': 'UniProt:P28222', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0150076', 'target': 'MESH:D008881'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D008881'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106783', 'label': 'Drug', 'name': 'Naratriptan'}, {'id': 'UniProt:P28221', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1D'}, {'id': 'UniProt:P28222', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1B'}, {'id': 'UniProt:P30939', 'label': 'Protein', 'name': '5-hydroxytryptamine receptor 1F'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0150076', 'label': 'BiologicalProcess', 'name': 'neuroinflammatory response'}, {'id': 'MESH:D008881', 'label': 'Disease', 'name': 'Migraine'}], 'reference': ['https://go.drugbank.com/drugs/DB00952', 'https://pubmed.ncbi.nlm.nih.gov/31263254/', 'https://pubmed.ncbi.nlm.nih.gov/15911785/', 'https://pubmed.ncbi.nlm.nih.gov/15320857/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00801_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'halazepam', 'drug_mesh': 'MESH:C010175', 'drugbank': 'DB:DB00801'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C010175', 'target': 'MESH:D018079'}, {'key': 'positively regulates', 'source': 'MESH:D018079', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0060081'}, {'key': 'negatively correlated with', 'source': 'GO:0060081', 'target': 'MESH:D000071080'}, {'key': 'positively correlated with', 'source': 'MESH:D000071080', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C010175', 'label': 'Drug', 'name': 'halazepam'}, {'id': 'MESH:D018079', 'label': 'GeneFamily', 'name': 'Receptors, GABA'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D000071080', 'label': 'BiologicalProcess', 'name': 'Cortical Excitability'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00801', 'https://pubchem.ncbi.nlm.nih.gov/compound/31640#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00683_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'midazolam', 'drug_mesh': 'MESH:D008874', 'drugbank': 'DB:DB00683'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D008874', 'target': 'MESH:D018079'}, {'key': 'positively regulates', 'source': 'MESH:D018079', 'target': 'GO:0006821'}, {'key': 'positively correlated with', 'source': 'GO:0006821', 'target': 'GO:0060081'}, {'key': 'negatively correlated with', 'source': 'GO:0060081', 'target': 'MESH:D000071080'}, {'key': 'positively correlated with', 'source': 'MESH:D000071080', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D008874', 'label': 'Drug', 'name': 'midazolam'}, {'id': 'MESH:D018079', 'label': 'GeneFamily', 'name': 'Receptors, GABA'}, {'id': 'GO:0006821', 'label': 'BiologicalProcess', 'name': 'chloride transport'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'membrane hyperpolarization'}, {'id': 'MESH:D000071080', 'label': 'BiologicalProcess', 'name': 'Cortical Excitability'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB00683']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'MESH:D002179 was denoted as Candidiasis of skin in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002179_1', 'disease': 'Candidiasis, Cutaneous', 'disease_mesh': 'MESH:D002179', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002179'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002179', 'label': 'Disease', 'name': 'Candidiasis, Cutaneous'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'MESH:D002179 was denoted as Candidiasis of mouth in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002180_1', 'disease': 'Candidiasis, Oral', 'disease_mesh': 'MESH:D002180', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002180'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002180', 'label': 'Disease', 'name': 'Candidiasis, Oral'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comments': 'MESH:D002179 was denoted as Candidiasis of mouth in the original file.', 'directed': True, 'graph': {'_id': 'DB00646_MESH_D002181_1', 'disease': 'Candidiasis, Vulvovaginal', 'disease_mesh': 'MESH:D002181', 'drug': 'nystatin', 'drug_mesh': 'MESH:D009761', 'drugbank': 'DB:DB00646'}, 'links': [{'key': 'causes', 'source': 'MESH:D009761', 'target': 'MESH:D015227'}, {'key': 'disrupts', 'source': 'MESH:D015227', 'target': 'GO:0006811'}, {'key': 'located in', 'source': 'GO:0006811', 'target': 'GO:0030445'}, {'key': 'produces', 'source': 'MESH:D009761', 'target': 'UBERON:0008915'}, {'key': 'located in', 'source': 'UBERON:0008915', 'target': 'GO:0030445'}, {'key': 'molecularly interacts with', 'source': 'MESH:D009761', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'regulates', 'source': 'GO:0030445', 'target': 'MESH:D002463'}, {'key': 'in taxon', 'source': 'MESH:D002463', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009761', 'label': 'Drug', 'name': 'nystatin'}, {'id': 'UBERON:0008915', 'label': 'GrossAnatomicalStructure', 'name': 'pore'}, {'id': 'MESH:D015227', 'label': 'BiologicalProcess', 'name': 'Lipid Peroxidation'}, {'id': 'GO:0006811', 'label': 'BiologicalProcess', 'name': 'ion transport'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'MESH:D002463', 'label': 'PhenotypicFeature', 'name': 'Cell Membrane Permeability'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidiasis, Vulvovaginal'}], 'reference': ['https://go.drugbank.com/drugs/DB00646', 'https://en.wikipedia.org/wiki/Nystatin#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'GrossAnatomicalStructure', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'CellularComponent', 'PhenotypicFeature', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'At higher doses, bisoprolol antagonizes the B2 receptors, but is mainly selective for B1 receptors.', 'directed': True, 'graph': {'_id': 'DB00612_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'bisoprolol', 'drug_mesh': 'MESH:D017298', 'drugbank': 'DB:DB00612'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017298', 'target': 'UBERON:0034729'}, {'key': 'positively correlated with', 'source': 'UBERON:0034729', 'target': 'GO:0042310'}, {'key': 'decreases activity of', 'source': 'MESH:D017298', 'target': 'UniProt:P08588'}, {'key': 'positively correlated with', 'source': 'UniProt:P08588', 'target': 'HP:0033533'}, {'key': 'positively correlated with', 'source': 'HP:0033533', 'target': 'HP:0032263'}, {'key': 'negatively correlated with', 'source': 'MESH:D017298', 'target': 'GO:0002001'}, {'key': 'positively correlated with', 'source': 'GO:0002001', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017298', 'label': 'Drug', 'name': 'bisoprolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UBERON:0034729', 'label': 'GrossAnatomicalStructure', 'name': 'sympathetic nerve'}, {'id': 'GO:0002001', 'label': 'BiologicalProcess', 'name': 'renin secretion into blood stream'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'HP:0033533', 'label': 'PhenotypicFeature', 'name': 'Increased cardiac output'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00612', 'https://en.wikipedia.org/wiki/Bisoprolol#Mechanism_of_action']}\n", - "['Drug', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00509_MESH_D006949_1', 'disease': 'Hyperlipidemias', 'disease_mesh': 'MESH:D006949', 'drug': 'dextrothyroxine', 'drug_mesh': 'MESH:D003918', 'drugbank': 'DB:DB00509'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D003918', 'target': 'UniProt:P10827'}, {'key': 'increases activity of', 'source': 'MESH:D003918', 'target': 'UniProt:P10828'}, {'key': 'positively correlated with', 'source': 'UniProt:P10827', 'target': 'GO:0006707'}, {'key': 'increases activity of', 'source': 'UniProt:P10828', 'target': 'UniProt:P01130'}, {'key': 'positively correlated with', 'source': 'UniProt:P01130', 'target': 'GO:0043691'}, {'key': 'positively correlated with', 'source': 'UniProt:P01130', 'target': 'GO:0034381'}, {'key': 'negatively correlated with', 'source': 'GO:0006707', 'target': 'MESH:D006949'}, {'key': 'negatively correlated with', 'source': 'GO:0043691', 'target': 'MESH:D006949'}, {'key': 'negatively correlated with', 'source': 'GO:0034381', 'target': 'MESH:D006949'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003918', 'label': 'Drug', 'name': 'dextrothyroxine'}, {'id': 'UniProt:P10827', 'label': 'Protein', 'name': 'Thyroid hormone receptor alpha'}, {'id': 'UniProt:P10828', 'label': 'Protein', 'name': 'Thyroid hormone receptor beta'}, {'id': 'GO:0006707', 'label': 'BiologicalProcess', 'name': 'cholesterol catabolic process'}, {'id': 'UniProt:P01130', 'label': 'Protein', 'name': 'Low-density lipoprotein receptor'}, {'id': 'GO:0043691', 'label': 'BiologicalProcess', 'name': 'reverse cholesterol transport'}, {'id': 'GO:0034381', 'label': 'BiologicalProcess', 'name': 'plasma lipoprotein particle clearance'}, {'id': 'MESH:D006949', 'label': 'Disease', 'name': 'Hyperlipidemias'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/9440092/', 'https://pubmed.ncbi.nlm.nih.gov/20935564/', 'https://go.drugbank.com/drugs/DB00509#mechanism-of-action', 'https://en.wikipedia.org/wiki/Triiodothyronine#Lipids']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00195_MESH_D009798_1', 'disease': 'Ocular hypertension', 'disease_mesh': 'MESH:D009798', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'MESH:D009798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'MESH:D009798', 'label': 'Disease', 'name': 'Ocular Hypertension'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00195_MESH_D005902_1', 'disease': 'Open-angle glaucoma', 'disease_mesh': 'MESH:D005902', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'UBERON:0001796'}, {'key': 'positively correlated with', 'source': 'UBERON:0001796', 'target': 'HP:0007906'}, {'key': 'positively correlated with', 'source': 'HP:0007906', 'target': 'MESH:D005902'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'UBERON:0001796', 'label': 'GrossAnatomicalStructure', 'name': 'aqueous humor of eyeball'}, {'id': 'HP:0007906', 'label': 'PhenotypicFeature', 'name': 'Ocular Hypertension'}, {'id': 'MESH:D005902', 'label': 'Disease', 'name': 'Open-angle glaucoma'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018784_1', 'disease': 'Abdominal abscess', 'disease_mesh': 'MESH:D018784', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018784'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018784', 'label': 'Disease', 'name': 'Abdominal abscess'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D011018_1', 'disease': 'Pneumococcal pneumonia', 'disease_mesh': 'MESH:D011018', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumococcal pneumonia'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D059413_1', 'disease': 'Infectious disease of abdomen', 'disease_mesh': 'MESH:D059413', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:573'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:550'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:287'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:550', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:287', 'target': 'MESH:D059413'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D059413'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'NCBITaxon:550', 'label': 'OrganismTaxon', 'name': 'Enterobacter cloacae'}, {'id': 'NCBITaxon:287', 'label': 'OrganismTaxon', 'name': 'Pseudomonas aeruginosa'}, {'id': 'MESH:D059413', 'label': 'Disease', 'name': 'Infectious disease of abdomen'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00303_MESH_D018410_2', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'ertapenem', 'drug_mesh': 'MESH:C446479', 'drugbank': 'DB:DB00303'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C446479', 'target': 'Pfam:PF00905'}, {'key': 'positively regulates', 'source': 'Pfam:PF00905', 'target': 'GO:0009252'}, {'key': 'in taxon', 'source': 'GO:0009252', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C446479', 'label': 'Drug', 'name': 'ertapenem'}, {'id': 'Pfam:PF00905', 'label': 'GeneFamily', 'name': 'Penicillin binding proteins'}, {'id': 'GO:0009252', 'label': 'BiologicalProcess', 'name': 'peptidoglycan biosynthetic process'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://en.wikipedia.org/wiki/Ertapenem#Mechanism_of_action', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1359/']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'L-type calcium channels are modulated by the adrenergic nervous system, hence betaxolol could indirectly modulate L calcium channels, decreasing heart rate and contraction, ultimately decreasing high blood pressure (https://en.wikipedia.org/wiki/L-type_calcium_channel#Inhibition_and_modulation).', 'directed': True, 'graph': {'_id': 'DB00195_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'betaxolol', 'drug_mesh': 'MESH:D015784', 'drugbank': 'DB:DB00195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D015784', 'target': 'UniProt:P08588'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'increases abundance of', 'source': 'REACT:R-HSA-418555', 'target': 'CHEBI:17489'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-418555', 'target': 'InterPro:IPR005446'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR005446', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'CHEBI:17489', 'target': 'GO:0060047'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015784', 'label': 'Drug', 'name': 'betaxolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'InterPro:IPR005446', 'label': 'GeneFamily', 'name': 'Voltage-dependent calcium channel, L-type, alpha-1 subunit'}, {'id': 'CHEBI:17489', 'label': 'ChemicalSubstance', 'name': '3,5-cyclic AMP'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00195#mechanism-of-action', 'https://en.wikipedia.org/wiki/Betaxolol', 'https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL423/', 'https://pubchem.ncbi.nlm.nih.gov/compound/2369#section=Pharmacology-and-Biochemistry', 'https://en.wikipedia.org/wiki/CAMP-dependent_pathway#Importance']}\n", - "['Drug', 'Protein', 'Pathway', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'Pathway', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'This disease is also known as Herpes simplex keratitis as per DrugCentral. The drug needs to be converted to Vidarabine Phosphate first (monophosphate --> diphosphate --> triphosphate) to become active and exert its role as inhibitor (https://pubchem.ncbi.nlm.nih.gov/compound/21704#section=Mechanism-of-Action).', 'directed': True, 'graph': {'_id': 'DB00194_MESH_D016849_1', 'disease': 'Keratitis, Herpetic', 'disease_mesh': 'MESH:D016849', 'drug': 'vidarabine', 'drug_mesh': 'MESH:D014740', 'drugbank': 'DB:DB00194'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D014740', 'target': 'MESH:D001084'}, {'key': 'decreases activity of', 'source': 'MESH:D001084', 'target': 'UniProt:P04293'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0039686'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0090503'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0043631'}, {'key': 'in taxon', 'source': 'GO:0043631', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0039686', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0090503', 'target': 'NCBITaxon:10299'}, {'key': 'causes', 'source': 'NCBITaxon:10299', 'target': 'MESH:D016849'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014740', 'label': 'Drug', 'name': 'vidarabine'}, {'id': 'MESH:D001084', 'label': 'ChemicalSubstance', 'name': 'Vidarabine Phosphate'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit'}, {'id': 'GO:0039686', 'label': 'BiologicalProcess', 'name': 'bidirectional double-stranded viral DNA replication'}, {'id': 'GO:0090503', 'label': 'BiologicalProcess', 'name': 'RNA phosphodiester bond hydrolysis, exonucleolytic'}, {'id': 'GO:0043631', 'label': 'BiologicalProcess', 'name': 'RNA polyadenylation'}, {'id': 'NCBITaxon:10299', 'label': 'OrganismTaxon', 'name': 'Human alphaherpesvirus 1 strain 17'}, {'id': 'MESH:D016849', 'label': 'Disease', 'name': 'Keratitis, Herpetic'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1090/', 'https://en.wikipedia.org/wiki/Vidarabine#Mode_of_action', 'https://go.drugbank.com/drugs/DB00194']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This disease is denoted as Herpes simplex dendritic keratitis in the original file as per DrugCentral. The drug needs to be converted to Vidarabine Phosphate first (monophosphate --> diphosphate --> triphosphate) to become active and exert its role as inhibitor (https://pubchem.ncbi.nlm.nih.gov/compound/21704#section=Mechanism-of-Action).', 'directed': True, 'graph': {'_id': 'DB00194_MESH_D007635_1', 'disease': 'Keratitis, Dendritic', 'disease_mesh': 'MESH:D007635', 'drug': 'vidarabine', 'drug_mesh': 'MESH:D014740', 'drugbank': 'DB:DB00194'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D014740', 'target': 'MESH:D001084'}, {'key': 'decreases activity of', 'source': 'MESH:D001084', 'target': 'UniProt:P04293'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0039686'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0090503'}, {'key': 'positively regulates', 'source': 'UniProt:P04293', 'target': 'GO:0043631'}, {'key': 'in taxon', 'source': 'GO:0043631', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0039686', 'target': 'NCBITaxon:10299'}, {'key': 'in taxon', 'source': 'GO:0090503', 'target': 'NCBITaxon:10299'}, {'key': 'causes', 'source': 'NCBITaxon:10299', 'target': 'MESH:D007635'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014740', 'label': 'Drug', 'name': 'vidarabine'}, {'id': 'MESH:D001084', 'label': 'ChemicalSubstance', 'name': 'Vidarabine Phosphate'}, {'id': 'UniProt:P04293', 'label': 'Protein', 'name': 'DNA polymerase catalytic subunit'}, {'id': 'GO:0039686', 'label': 'BiologicalProcess', 'name': 'bidirectional double-stranded viral DNA replication'}, {'id': 'GO:0090503', 'label': 'BiologicalProcess', 'name': 'RNA phosphodiester bond hydrolysis, exonucleolytic'}, {'id': 'GO:0043631', 'label': 'BiologicalProcess', 'name': 'RNA polyadenylation'}, {'id': 'NCBITaxon:10299', 'label': 'OrganismTaxon', 'name': 'Human alphaherpesvirus 1 strain 17'}, {'id': 'MESH:D007635', 'label': 'Disease', 'name': 'Keratitis, Dendritic'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL1090/', 'https://en.wikipedia.org/wiki/Vidarabine#Mode_of_action', 'https://go.drugbank.com/drugs/DB00194']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'This disease is denoted as Malignant neoplasm of liver in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB00322_MESH_D008113_1', 'disease': 'Liver Neoplasms', 'disease_mesh': 'MESH:D008113', 'drug': 'floxuridine', 'drug_mesh': 'MESH:D005467', 'drugbank': 'DB:DB00322'}, 'links': [{'key': 'has metabolite', 'source': 'MESH:D005467', 'target': 'CHEBI:46345'}, {'key': 'decreases activity of', 'source': 'CHEBI:46345', 'target': 'UniProt:P04818'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006235'}, {'key': 'positively regulates', 'source': 'UniProt:P04818', 'target': 'GO:0006231'}, {'key': 'positively correlated with', 'source': 'GO:0006231', 'target': 'GO:0006260'}, {'key': 'positively correlated with', 'source': 'GO:0006235', 'target': 'GO:0006260'}, {'key': 'precedes', 'source': 'GO:0006260', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D008113'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005467', 'label': 'Drug', 'name': 'floxuridine'}, {'id': 'CHEBI:46345', 'label': 'ChemicalSubstance', 'name': '5-fluorouracil'}, {'id': 'UniProt:P04818', 'label': 'Protein', 'name': 'Thymidylate synthase'}, {'id': 'GO:0006235', 'label': 'BiologicalProcess', 'name': 'dTTP biosynthetic process'}, {'id': 'GO:0006231', 'label': 'BiologicalProcess', 'name': 'dTMP biosynthetic process'}, {'id': 'GO:0006260', 'label': 'BiologicalProcess', 'name': 'DNA replication'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D008113', 'label': 'Disease', 'name': 'Liver Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB00322#mechanism-of-action', 'https://en.wikipedia.org/wiki/Floxuridine#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Fluorouracil#Mechanism_of_action']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The MESH disease term (MESH:D002289) is known as Carcinoma, Non-Small-Cell Lung on the MESH website.', 'directed': True, 'graph': {'_id': 'DB00361_MESH_D002289_1', 'disease': 'Non-small cell lung cancer', 'disease_mesh': 'MESH:D002289', 'drug': 'vinorelbine', 'drug_mesh': 'MESH:C030852', 'drugbank': 'DB:DB00361'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C030852', 'target': 'InterPro:IPR000217'}, {'key': 'positively regulates', 'source': 'InterPro:IPR000217', 'target': 'GO:0000086'}, {'key': 'positively correlated with', 'source': 'GO:0000086', 'target': 'GO:0051301'}, {'key': 'positively correlated with', 'source': 'GO:0051301', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D002289'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C030852', 'label': 'Drug', 'name': 'vinorelbine'}, {'id': 'InterPro:IPR000217', 'label': 'GeneFamily', 'name': 'Tubulin'}, {'id': 'GO:0000086', 'label': 'BiologicalProcess', 'name': 'G2/M transition of mitotic cell cycle'}, {'id': 'GO:0051301', 'label': 'BiologicalProcess', 'name': 'cell division'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D002289', 'label': 'Disease', 'name': 'Non-small cell lung cancer'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL553025/', 'https://go.drugbank.com/drugs/DB00361#mechanism-of-action', 'https://en.wikipedia.org/wiki/Vinorelbine#Pharmacology']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'Term MESH:D011537 is also known as pruritus.', 'directed': True, 'graph': {'_id': 'DB03255_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'phenol', 'drug_mesh': 'MESH:D019800', 'drugbank': 'DB:DB03255'}, 'links': [{'key': 'subclass of', 'source': 'MESH:D019800', 'target': 'MESH:D000982'}, {'key': 'subclass of', 'source': 'MESH:D019800', 'target': 'MESH:D000890'}, {'key': 'ameliorates', 'source': 'MESH:D000982', 'target': 'MESH:D011537'}, {'key': 'ameliorates', 'source': 'MESH:D000890', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D019800', 'label': 'Drug', 'name': 'phenol'}, {'id': 'MESH:D000982', 'label': 'ChemicalSubstance', 'name': 'Antipruritics'}, {'id': 'MESH:D000890', 'label': 'ChemicalSubstance', 'name': 'Anti-Infective Agents'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB03255#indication', 'https://www.genome.jp/dbget-bin/www_bget?drug:D00033', 'https://pubchem.ncbi.nlm.nih.gov/compound/996#section=Pharmacology']}\n", - "['Drug', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00112_MESH_D005909_1', 'disease': 'Glioblastoma multiforme', 'disease_mesh': 'MESH:D005909', 'drug': 'Bevacizumab', 'drug_mesh': 'MESH:D000068258', 'drugbank': 'DB:DB00112'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000068258', 'target': 'UniProt:P15692'}, {'key': 'participates in', 'source': 'UniProt:P15692', 'target': 'REACT:R-HSA-194138'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-194138', 'target': 'MESH:D005909'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000068258', 'label': 'Drug', 'name': 'Bevacizumab'}, {'id': 'UniProt:P15692', 'label': 'Protein', 'name': 'Vascular endothelial growth factor A'}, {'id': 'REACT:R-HSA-194138', 'label': 'Pathway', 'name': 'Signaling by Vascular Epithelial Growth Factors (VEGF)'}, {'id': 'MESH:D005909', 'label': 'Disease', 'name': 'Glioblastoma multiforme'}], 'reference': ['https://go.drugbank.com/drugs/DB00112', 'https://en.wikipedia.org/wiki/Glioblastoma']}\n", - "['Drug', 'Protein', 'Pathway', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D010437_1', 'disease': 'Peptic ulcer', 'disease_mesh': 'MESH:D010437', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P11229'}, {'key': 'participates in', 'source': 'UniProt:P20309', 'target': 'GO:0001699'}, {'key': 'participates in', 'source': 'UniProt:P11229', 'target': 'GO:0001699'}, {'key': 'increases abundance of', 'source': 'GO:0001699', 'target': 'MESH:D005744'}, {'key': 'positively regulates', 'source': 'MESH:D005744', 'target': 'InterPro:IPR034162'}, {'key': 'positively correlated with', 'source': 'InterPro:IPR034162', 'target': 'MESH:D010437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'GO:0001699', 'label': 'BiologicalProcess', 'name': 'Acetylcholine-induced gastric acid secretion'}, {'id': 'MESH:D005744', 'label': 'ChemicalSubstance', 'name': 'Gastric acid'}, {'id': 'InterPro:IPR034162', 'label': 'GeneFamily', 'name': 'Pepsin catalytic domain'}, {'id': 'MESH:D010437', 'label': 'Disease', 'name': 'Peptic ulcer'}], 'reference': ['https://go.drugbank.com/drugs/DB00424']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'GeneFamily', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D053159_1', 'disease': 'Dysuria', 'disease_mesh': 'MESH:D053159', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'positively correlated with', 'source': 'UniProt:P20309', 'target': 'CHEBI:15355'}, {'key': 'positively regulates', 'source': 'CHEBI:15355', 'target': 'UBERON:0000381'}, {'key': 'positively regulates', 'source': 'UBERON:0000381', 'target': 'GO:0060073'}, {'key': 'manifestation of', 'source': 'GO:0060073', 'target': 'MESH:D053159'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'CHEBI:15355', 'label': 'ChemicalSubstance', 'name': 'Acetylcholine'}, {'id': 'UBERON:0000381', 'label': 'GrossAnatomicalStructure', 'name': 'Urinary bladder detrusor smooth muscle'}, {'id': 'GO:0060073', 'label': 'BiologicalProcess', 'name': 'Micturition'}, {'id': 'MESH:D053159', 'label': 'Disease', 'name': 'MESH:D053159'}], 'reference': ['https://en.wikipedia.org/wiki/Dysuria', 'https://go.drugbank.com/drugs/DB00424', 'https://en.wikipedia.org/wiki/Muscarinic_acetylcholine_receptor']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00424_MESH_D012798_1', 'disease': 'Excessive salivation', 'disease_mesh': 'MESH:D012798', 'drug': 'Hyoscyamine', 'drug_mesh': 'MESH:D064692', 'drugbank': 'DB:DB00424'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P20309'}, {'key': 'decreases activity of', 'source': 'MESH:D064692', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P20309', 'target': 'UBERON:0001044'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'UBERON:0001044'}, {'key': 'positively regulates', 'source': 'UBERON:0001044', 'target': 'GO:0046541'}, {'key': 'positively correlated with', 'source': 'GO:0046541', 'target': 'MESH:D012798'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D064692', 'label': 'Drug', 'name': 'Hyoscyamine'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UniProt:P20309', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M3'}, {'id': 'UBERON:0001044', 'label': 'GrossAnatomicalStructure', 'name': 'Saliva-secreting gland'}, {'id': 'GO:0046541', 'label': 'BiologicalProcess', 'name': 'Saliva secretion'}, {'id': 'MESH:D012798', 'label': 'Disease', 'name': 'Excessive salivation'}], 'reference': ['https://go.drugbank.com/drugs/DB00424', 'https://en.wikipedia.org/wiki/Muscarinic_acetylcholine_receptor#Receptor_isoforms']}\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00485_MESH_D011023_1', 'disease': 'Staphylococcal pneumonia', 'disease_mesh': 'MESH:D011023', 'drug': 'Dicloxacillin', 'drug_mesh': 'MESH:D004009', 'drugbank': 'DB:DB00485'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004009', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1279'}, {'key': 'causes', 'source': 'NCBITaxon:1279', 'target': 'MESH:D011023'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004009', 'label': 'Drug', 'name': 'Dicloxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1279', 'label': 'OrganismTaxon', 'name': 'Staphylococcus'}, {'id': 'MESH:D011023', 'label': 'Disease', 'name': 'Staphylococcal pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB00485']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00485_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Dicloxacillin', 'drug_mesh': 'MESH:D004009', 'drugbank': 'DB:DB00485'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004009', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004009', 'label': 'Drug', 'name': 'Dicloxacillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB00485']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00609_MESH_D014397_1', 'disease': 'Pulmonary tuberculosis', 'disease_mesh': 'MESH:D014397', 'drug': 'Ethionamide', 'drug_mesh': 'MESH:D005000', 'drugbank': 'DB:DB00609'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005000', 'target': 'UniProt:P9WGR1'}, {'key': 'positively regulates', 'source': 'UniProt:P9WGR1', 'target': 'GO:0071768'}, {'key': 'positively correlated with', 'source': 'GO:0071768', 'target': 'GO:0042546'}, {'key': 'has output', 'source': 'GO:0042546', 'target': 'GO:0005618'}, {'key': 'in taxon', 'source': 'GO:0005618', 'target': 'NCBITaxon:1773'}, {'key': 'causes', 'source': 'NCBITaxon:1773', 'target': 'MESH:D014397'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005000', 'label': 'Drug', 'name': 'Ethionamide'}, {'id': 'UniProt:P9WGR1', 'label': 'Protein', 'name': 'Enoyl-[acyl-carrier-protein] reductase [NADH]'}, {'id': 'GO:0071768', 'label': 'BiologicalProcess', 'name': 'Mycolic acid biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1773', 'label': 'OrganismTaxon', 'name': 'Mycobacterium tuberculosis'}, {'id': 'MESH:D014397', 'label': 'Disease', 'name': 'Pulmonary tuberculosis'}], 'reference': ['https://go.drugbank.com/drugs/DB00609']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Potentially toxic. No longer prescribed.', 'directed': True, 'graph': {'_id': 'DB00891_MESH_D003874_1', 'disease': 'Dermatitis herpetiformis', 'disease_mesh': 'MESH:D003874', 'drug': 'Sulfapyridine', 'drug_mesh': 'MESH:D013427', 'drugbank': 'DB:DB00891'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D013427', 'target': 'GO:0002553'}, {'key': 'negatively regulates', 'source': 'MESH:D013427', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0002553', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D003874'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013427', 'label': 'Drug', 'name': 'Sulfapyridine'}, {'id': 'GO:0002553', 'label': 'BiologicalProcess', 'name': 'Histamine secretion by mast cell'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003874', 'label': 'Disease', 'name': 'Dermatitis herpetiformis'}], 'reference': ['https://pubmed.ncbi.nlm.nih.gov/15842404/']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00920_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Ketotifen', 'drug_mesh': 'MESH:D007665', 'drugbank': 'DB:DB00920'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D007665', 'target': 'UniProt:P35367'}, {'key': 'negatively regulates', 'source': 'MESH:D007665', 'target': 'GO:0043303'}, {'key': 'increases abundance of', 'source': 'GO:0043303', 'target': 'MESH:D006632'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UBERON:0035501'}, {'key': 'positively regulates', 'source': 'UBERON:0035501', 'target': 'GO:0070075'}, {'key': 'manifestation of', 'source': 'GO:0070075', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007665', 'label': 'Drug', 'name': 'Ketotifen'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0043303', 'label': 'BiologicalProcess', 'name': 'Mast cell degranulation'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UBERON:0035501', 'label': 'GrossAnatomicalStructure', 'name': 'Free nerve ending'}, {'id': 'GO:0070075', 'label': 'BiologicalProcess', 'name': 'Tear secretion'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00920']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'GrossAnatomicalStructure', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D012223_1', 'disease': 'Vasomotor rhinitis', 'disease_mesh': 'MESH:D012223', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D012223'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D012223', 'label': 'Disease', 'name': 'Vasomotor rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D006255_1', 'disease': 'Seasonal allergic rhinitis', 'disease_mesh': 'MESH:D006255', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D006255'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D006255', 'label': 'Disease', 'name': 'Seasonal allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0010783'}, {'key': 'positively correlated with', 'source': 'HP:0010783', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0010783', 'label': 'PhenotypicFeature', 'name': 'Erythema'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D012912_1', 'disease': 'Sneezing', 'disease_mesh': 'MESH:D012912', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D012220'}, {'key': 'positively correlated with', 'source': 'MESH:D012220', 'target': 'MESH:D012912'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D012220', 'label': 'Disease', 'name': 'Rhinitis'}, {'id': 'MESH:D012912', 'label': 'Disease', 'name': 'Sneezing'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D020773_1', 'disease': 'Headache disorder', 'disease_mesh': 'MESH:D020773', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D020773'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D020773', 'label': 'Disease', 'name': 'Headache disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D001991_1', 'disease': 'Bronchitis', 'disease_mesh': 'MESH:D001991', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P07550'}, {'key': 'causes', 'source': 'UniProt:P07550', 'target': 'GO:0097366'}, {'key': 'negatively correlated with', 'source': 'GO:0097366', 'target': 'MESH:D001991'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0097366', 'label': 'BiologicalProcess', 'name': 'Response to bronchodilator'}, {'id': 'MESH:D001991', 'label': 'Disease', 'name': 'Bronchitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D003139_1', 'disease': 'Common cold', 'disease_mesh': 'MESH:D003139', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P35348'}, {'key': 'positively regulates', 'source': 'UniProt:P35348', 'target': 'GO:0042310'}, {'key': 'negatively correlated with', 'source': 'GO:0042310', 'target': 'HP:0001742'}, {'key': 'positively correlated with', 'source': 'HP:0001742', 'target': 'MESH:D003139'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0001742', 'label': 'PhenotypicFeature', 'name': 'Nasal obstruction'}, {'id': 'MESH:D003139', 'label': 'Disease', 'name': 'Common cold'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01364_MESH_D001986_1', 'disease': 'Bronchospasm', 'disease_mesh': 'MESH:D001986', 'drug': 'Ephedrine', 'drug_mesh': 'MESH:D004809', 'drugbank': 'DB:DB01364'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D004809', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'UniProt:P07550', 'target': 'HP:4000007'}, {'key': 'positively correlated with', 'source': 'HP:4000007', 'target': 'MESH:D001986'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004809', 'label': 'Drug', 'name': 'Ephedrine'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'HP:4000007', 'label': 'PhenotypicFeature', 'name': 'Bronchoconstriction'}, {'id': 'MESH:D001986', 'label': 'Disease', 'name': 'Bronchospasm'}], 'reference': ['https://go.drugbank.com/drugs/DB01364']}\n", - "['Drug', 'Protein', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB09185_MESH_D009290_1', 'disease': 'Cataplexy and narcolepsy', 'disease_mesh': 'MESH:D009290', 'drug': 'Viloxazine', 'drug_mesh': 'MESH:D014745', 'drugbank': 'DB:DB09185'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D014745', 'target': 'UniProt:P23975'}, {'key': 'positively regulates', 'source': 'UniProt:P23975', 'target': 'GO:0051620'}, {'key': 'decreases abundance of', 'source': 'GO:0051620', 'target': 'MESH:D009638'}, {'key': 'negatively regulates', 'source': 'MESH:D009638', 'target': 'GO:0030431'}, {'key': 'negatively regulates', 'source': 'MESH:D009638', 'target': 'HP:0002524'}, {'key': 'positively correlated with', 'source': 'GO:0030431', 'target': 'MESH:D009290'}, {'key': 'positively correlated with', 'source': 'HP:0002524', 'target': 'MESH:D009290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014745', 'label': 'Drug', 'name': 'Viloxazine'}, {'id': 'UniProt:P23975', 'label': 'Protein', 'name': 'Sodium-dependent noradrenaline transporter'}, {'id': 'GO:0051620', 'label': 'BiologicalProcess', 'name': 'Noradrenaline uptake'}, {'id': 'MESH:D009638', 'label': 'ChemicalSubstance', 'name': 'Noradrenaline'}, {'id': 'GO:0030431', 'label': 'BiologicalProcess', 'name': 'Sleep'}, {'id': 'HP:0002524', 'label': 'PhenotypicFeature', 'name': 'Cataplexy'}, {'id': 'MESH:D009290', 'label': 'Disease', 'name': 'Cataplexy and narcolepsy'}], 'reference': ['https://en.wikipedia.org/wiki/Cataplexywithdrawn', 'https://go.drugbank.com/drugs/DB09185', 'https://pubmed.ncbi.nlm.nih.gov/3704453/']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004827_1', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004827'}, {'key': 'decreases activity of', 'source': 'MESH:C084822', 'target': 'InterPro:IPR001320'}, {'key': 'molecularly interacts with', 'source': 'InterPro:IPR001320', 'target': 'MESH:D018698'}, {'key': 'positively correlated with', 'source': 'MESH:D018698', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'InterPro:IPR001320', 'label': 'GeneFamily', 'name': 'Ionotropic glutamate receptor'}, {'id': 'MESH:D018698', 'label': 'ChemicalSubstance', 'name': 'Glutamic Acid'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn. This annotation is for higher concentrations of metharbital which can inhibit the calcium-dependent release of neurotransmitters such as glutamate.', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004827_2', 'disease': 'Epilepsy', 'disease_mesh': 'MESH:D004827', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C084822', 'target': 'GO:0005245'}, {'key': 'positively regulates', 'source': 'GO:0005245', 'target': 'GO:0061535'}, {'key': 'positively correlated with', 'source': 'GO:0061535', 'target': 'MESH:D004827'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'GO:0005245', 'label': 'BiologicalProcess', 'name': 'Voltage-gated calcium channel activity'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'MESH:D004827', 'label': 'Disease', 'name': 'Epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB00463_MESH_D004830_1', 'disease': 'Tonic-clonic epilepsy', 'disease_mesh': 'MESH:D004830', 'drug': 'metharbital', 'drug_mesh': 'MESH:C084822', 'drugbank': 'DB:DB00463'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'MESH:C084822', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0022851'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0022851'}, {'key': 'positively correlated with', 'source': 'GO:0022851', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0019228'}, {'key': 'contributes to', 'source': 'GO:0019228', 'target': 'GO:0050806'}, {'key': 'positively correlated with', 'source': 'GO:0050806', 'target': 'MESH:D004830'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C084822', 'label': 'Drug', 'name': 'Metharbital'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0022851', 'label': 'MolecularActivity', 'name': 'GABA-gated chloride ion channel activity'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'Neuronal action potential'}, {'id': 'GO:0050806', 'label': 'BiologicalProcess', 'name': 'Positive regulation of synaptic transmission'}, {'id': 'MESH:D004830', 'label': 'Disease', 'name': 'Tonic-clonic epilepsy'}], 'reference': ['https://go.drugbank.com/drugs/DB00463', 'https://en.wikipedia.org/wiki/Barbiturate#Mechanism_of_action', 'https://en.wikipedia.org/wiki/Generalized_tonic%E2%80%93clonic_seizure#Causes']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D003233_1', 'disease': 'Allergic conjunctivitis', 'disease_mesh': 'MESH:D003233', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003233'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D003233', 'label': 'Disease', 'name': 'Allergic conjunctivitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D065631_1', 'disease': 'Allergic rhinitis', 'disease_mesh': 'MESH:D065631', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'has phenotype', 'source': 'GO:0006954', 'target': 'HP:0031417'}, {'key': 'manifestation of', 'source': 'HP:0031417', 'target': 'MESH:D065631'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0031417', 'label': 'PhenotypicFeature', 'name': 'Rhinorrhea'}, {'id': 'MESH:D065631', 'label': 'Disease', 'name': 'Allergic rhinitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D003876_1', 'disease': 'Atopic dermatitis', 'disease_mesh': 'MESH:D003876', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000989'}, {'key': 'manifestation of', 'source': 'HP:0000989', 'target': 'MESH:D003876'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D003876'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'HP:0000989', 'label': 'PhenotypicFeature', 'name': 'Pruritus'}, {'id': 'MESH:D003876', 'label': 'Disease', 'name': 'Atopic dermatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D014581_1', 'disease': 'Urticaria', 'disease_mesh': 'MESH:D014581', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively regulates', 'source': 'UniProt:P35367', 'target': 'GO:0004969'}, {'key': 'participates in', 'source': 'GO:0004969', 'target': 'GO:0071420'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'GO:0043117'}, {'key': 'positively correlated with', 'source': 'GO:0071420', 'target': 'HP:0000969'}, {'key': 'manifestation of', 'source': 'HP:0000969', 'target': 'MESH:D014581'}, {'key': 'manifestation of', 'source': 'GO:0043117', 'target': 'MESH:D014581'}, {'key': 'causes', 'source': 'GO:0006954', 'target': 'MESH:D014581'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'GO:0004969', 'label': 'MolecularActivity', 'name': 'Histamine receptor activity'}, {'id': 'GO:0071420', 'label': 'BiologicalProcess', 'name': 'Cellular response to histamine'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'GO:0043117', 'label': 'BiologicalProcess', 'name': 'Positive regulation of vascular permeability'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D014581', 'label': 'Disease', 'name': 'Urticaria'}], 'reference': ['https://go.drugbank.com/drugs/DB00557']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00557_MESH_D011537_1', 'disease': 'Itching of skin', 'disease_mesh': 'MESH:D011537', 'drug': 'hydroxyzine', 'drug_mesh': 'MESH:D006919', 'drugbank': 'DB:DB00557'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D006919', 'target': 'UniProt:P35367'}, {'key': 'positively correlated with', 'source': 'UniProt:P35367', 'target': 'MESH:D006632'}, {'key': 'positively regulates', 'source': 'MESH:D006632', 'target': 'UniProt:Q8NER1'}, {'key': 'positively regulates', 'source': 'UniProt:Q8NER1', 'target': 'CL:0000197'}, {'key': 'contributes to', 'source': 'CL:0000197', 'target': 'MESH:D011537'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D006919', 'label': 'Drug', 'name': 'Hydroxyzine'}, {'id': 'UniProt:P35367', 'label': 'Protein', 'name': 'Histamine H1 receptor'}, {'id': 'MESH:D006632', 'label': 'ChemicalSubstance', 'name': 'Histamine'}, {'id': 'UniProt:Q8NER1', 'label': 'Protein', 'name': 'Transient receptor potential cation channel subfamily V member 1'}, {'id': 'CL:0000197', 'label': 'Cell', 'name': 'Sensory Receptor Cell'}, {'id': 'MESH:D011537', 'label': 'Disease', 'name': 'Itching of skin'}], 'reference': ['https://go.drugbank.com/drugs/DB00557', 'https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2519061/']}\n", - "['Drug', 'Protein', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00854_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'levorphanol', 'drug_mesh': 'MESH:D007981', 'drugbank': 'DB:DB00854'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D007981', 'target': 'UniProt:P35372'}, {'key': 'positively regulates', 'source': 'UniProt:P35372', 'target': 'REACT:R-HSA-111885'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'GO:1990793'}, {'key': 'negatively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'GO:0061535'}, {'key': 'positively regulates', 'source': 'REACT:R-HSA-111885', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0099610'}, {'key': 'located in', 'source': 'GO:1990793', 'target': 'CL:0000198'}, {'key': 'located in', 'source': 'GO:0061535', 'target': 'CL:0000198'}, {'key': 'positively regulates', 'source': 'GO:0099610', 'target': 'CL:0000198'}, {'key': 'positively correlated with', 'source': 'CL:0000198', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007981', 'label': 'Drug', 'name': 'levorphanol'}, {'id': 'UniProt:P35372', 'label': 'Protein', 'name': 'Mu-type opioid receptor'}, {'id': 'REACT:R-HSA-111885', 'label': 'Pathway', 'name': 'Opioid Signalling'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:1990793', 'label': 'BiologicalProcess', 'name': 'Substance P secretion, neurotransmission'}, {'id': 'GO:0061535', 'label': 'BiologicalProcess', 'name': 'Glutamate secretion, neurotransmission'}, {'id': 'GO:0099610', 'label': 'BiologicalProcess', 'name': 'Action potential initiation'}, {'id': 'CL:0000198', 'label': 'Cell', 'name': 'nociceptor'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00854', 'https://en.wikipedia.org/wiki/Opioid_receptor']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'Cell', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Cell', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D004927_1', 'disease': 'Infection due to Escherichia coli', 'disease_mesh': 'MESH:D004927', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:562'}, {'key': 'causes', 'source': 'NCBITaxon:562', 'target': 'MESH:D004927'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:562', 'label': 'OrganismTaxon', 'name': 'Escherichia coli'}, {'id': 'MESH:D004927', 'label': 'Disease', 'name': 'Infection due to Escherichia coli'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D013203_1', 'disease': 'Infection due to Staphylococcus aureus', 'disease_mesh': 'MESH:D013203', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1280'}, {'key': 'causes', 'source': 'NCBITaxon:1280', 'target': 'MESH:D013203'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1280', 'label': 'OrganismTaxon', 'name': 'Staphylococcus aureus'}, {'id': 'MESH:D013203', 'label': 'Disease', 'name': 'Infection due to Staphylococcus aureus'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D007710_1', 'disease': 'Pneumonia due to Klebsiella pneumoniae', 'disease_mesh': 'MESH:D007710', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:573'}, {'key': 'causes', 'source': 'NCBITaxon:573', 'target': 'MESH:D007710'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:573', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae'}, {'id': 'MESH:D007710', 'label': 'Disease', 'name': 'Pneumonia due to Klebsiella pneumoniae'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D010612_1', 'disease': 'Pharyngitis', 'disease_mesh': 'MESH:D010612', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D010612'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D010612', 'label': 'Disease', 'name': 'Pharyngitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01060', 'https://en.wikipedia.org/wiki/Pharyngitis#Bacterial']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D013290_1', 'disease': 'Streptococcus pyogenes infection', 'disease_mesh': 'MESH:D013290', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1314'}, {'key': 'causes', 'source': 'NCBITaxon:1314', 'target': 'MESH:D013290'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1314', 'label': 'OrganismTaxon', 'name': 'Streptococcus pyogenes'}, {'id': 'MESH:D013290', 'label': 'Disease', 'name': 'Streptococcus pyogenes infection'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D018410_1', 'disease': 'Bacterial pneumonia', 'disease_mesh': 'MESH:D018410', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:2'}, {'key': 'causes', 'source': 'NCBITaxon:2', 'target': 'MESH:D018410'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:2', 'label': 'OrganismTaxon', 'name': 'Bacteria'}, {'id': 'MESH:D018410', 'label': 'Disease', 'name': 'Bacterial pneumonia'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D011018_1', 'disease': 'Pneumonia due to Streptococcus', 'disease_mesh': 'MESH:D011018', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:1313'}, {'key': 'causes', 'source': 'NCBITaxon:1313', 'target': 'MESH:D011018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:1313', 'label': 'OrganismTaxon', 'name': 'Streptococcus pneumoniae'}, {'id': 'MESH:D011018', 'label': 'Disease', 'name': 'Pneumonia due to Streptococcus'}], 'reference': ['https://go.drugbank.com/drugs/DB01060']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01060_MESH_D012226_1', 'disease': 'Rhinoscleroma', 'disease_mesh': 'MESH:D012226', 'drug': 'Amoxicillin', 'drug_mesh': 'MESH:D000658', 'drugbank': 'DB:DB01060'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D000658', 'target': 'InterPro:IPR001460'}, {'key': 'positively regulates', 'source': 'InterPro:IPR001460', 'target': 'GO:0018104'}, {'key': 'positively regulates', 'source': 'GO:0018104', 'target': 'GO:0009273'}, {'key': 'has output', 'source': 'GO:0009273', 'target': 'GO:0005618'}, {'key': 'occurs in', 'source': 'GO:0005618', 'target': 'NCBITaxon:39831'}, {'key': 'causes', 'source': 'NCBITaxon:39831', 'target': 'MESH:D012226'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000658', 'label': 'Drug', 'name': 'Amoxicillin'}, {'id': 'InterPro:IPR001460', 'label': 'GeneFamily', 'name': 'Penicillin-binding protein, transpeptidase'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Cross-linking of the peptidoglycan'}, {'id': 'GO:0009273', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-based cell wall biogenesis'}, {'id': 'GO:0005618', 'label': 'CellularComponent', 'name': 'Cell wall'}, {'id': 'NCBITaxon:39831', 'label': 'OrganismTaxon', 'name': 'Klebsiella pneumoniae subsp. rhinoscleromatis'}, {'id': 'MESH:D012226', 'label': 'Disease', 'name': 'Rhinoscleroma'}], 'reference': ['https://go.drugbank.com/drugs/DB01060', 'https://en.wikipedia.org/wiki/Rhinoscleroma']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01241_MESH_D015228_1', 'disease': 'Hypertriglyceridemia', 'disease_mesh': 'MESH:D015228', 'drug': 'gemfibrozil', 'drug_mesh': 'MESH:D015248', 'drugbank': 'DB:DB01241'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D015248', 'target': 'UniProt:Q07869'}, {'key': 'increases activity of', 'source': 'UniProt:Q07869', 'target': 'UniProt:P06858'}, {'key': 'positively regulates', 'source': 'UniProt:P06858', 'target': 'GO:0016042'}, {'key': 'decreases abundance of', 'source': 'GO:0016042', 'target': 'MESH:D014280'}, {'key': 'positively correlated with', 'source': 'MESH:D014280', 'target': 'MESH:D015228'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D015248', 'label': 'Drug', 'name': 'Gemfibrozil'}, {'id': 'UniProt:Q07869', 'label': 'Protein', 'name': 'Peroxisome proliferator-activated receptor alpha'}, {'id': 'UniProt:P06858', 'label': 'Protein', 'name': 'Lipoprotein lipase'}, {'id': 'GO:0016042', 'label': 'BiologicalProcess', 'name': 'Lipid catabolic process'}, {'id': 'MESH:D014280', 'label': 'ChemicalSubstance', 'name': 'Triglycerides'}, {'id': 'MESH:D015228', 'label': 'Disease', 'name': 'Hypertriglyceridemia'}], 'reference': ['https://go.drugbank.com/drugs/DB01241', 'https://en.wikipedia.org/wiki/Hypertriglyceridemia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08860_MESH_D006937_1', 'disease': 'Hypercholesterolemia', 'disease_mesh': 'MESH:D006937', 'drug': 'Pitavastatin', 'drug_mesh': 'MESH:C108475', 'drugbank': 'DB:DB08860'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C108475', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006937'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C108475', 'label': 'Drug', 'name': 'Pitavastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006937', 'label': 'Disease', 'name': 'Hypercholesterolemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08860', 'https://en.wikipedia.org/wiki/Hypercholesterolemia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB08860_MESH_D006950_1', 'disease': 'Mixed hyperlipidemia', 'disease_mesh': 'MESH:D006950', 'drug': 'Pitavastatin', 'drug_mesh': 'MESH:C108475', 'drugbank': 'DB:DB08860'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C108475', 'target': 'UniProt:P04035'}, {'key': 'positively regulates', 'source': 'UniProt:P04035', 'target': 'GO:0006695'}, {'key': 'increases abundance of', 'source': 'GO:0006695', 'target': 'MESH:D002784'}, {'key': 'positively correlated with', 'source': 'MESH:D002784', 'target': 'MESH:D006950'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C108475', 'label': 'Drug', 'name': 'Pitavastatin'}, {'id': 'UniProt:P04035', 'label': 'Protein', 'name': '3-hydroxy-3-methylglutaryl-coenzyme A reductase'}, {'id': 'GO:0006695', 'label': 'BiologicalProcess', 'name': 'Cholesterol biosynthetic process'}, {'id': 'MESH:D002784', 'label': 'ChemicalSubstance', 'name': 'Cholesterol'}, {'id': 'MESH:D006950', 'label': 'Disease', 'name': 'Mixed hyperlipidemia'}], 'reference': ['https://go.drugbank.com/drugs/DB08860', 'https://en.wikipedia.org/wiki/Combined_hyperlipidemia']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00718_MESH_D019694_1', 'disease': 'Chronic type B viral hepatitis', 'disease_mesh': 'MESH:D019694', 'drug': 'Adefovir dipivoxil', 'drug_mesh': 'MESH:C106812', 'drugbank': 'DB:DB00718'}, 'links': [{'key': 'increases abundance of', 'source': 'MESH:C106812', 'target': 'MESH:C120290'}, {'key': 'decreases activity of', 'source': 'MESH:C120290', 'target': 'UniProt:P24024'}, {'key': 'negatively regulates', 'source': 'UniProt:P24024', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:10407'}, {'key': 'causes', 'source': 'NCBITaxon:10407', 'target': 'MESH:D019694'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C106812', 'label': 'Drug', 'name': 'Adefovir dipivoxil'}, {'id': 'MESH:C120290', 'label': 'ChemicalSubstance', 'name': 'Adefovir diphosphate'}, {'id': 'UniProt:P24024', 'label': 'Protein', 'name': 'DNA polymerase'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral replication'}, {'id': 'NCBITaxon:10407', 'label': 'OrganismTaxon', 'name': 'Hepatitis B Virus'}, {'id': 'MESH:D019694', 'label': 'Disease', 'name': 'Chronic type B viral hepatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00718#mechanismofaction']}\n", - "['Drug', 'ChemicalSubstance', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Carbenicillin is a semisynthetic penicillin', 'directed': True, 'graph': {'_id': 'DB00578_MESH_D011472_1', 'disease': 'Prostatitis', 'disease_mesh': 'MESH:D011472', 'drug': 'Carbenicillin', 'drug_mesh': 'MESH:D002228', 'drugbank': 'DB:DB00578'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002228', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D011472'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002228', 'label': 'Disease', 'name': 'Carbenicillin'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D011472', 'label': 'Disease', 'name': 'Prostatitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00578#mechanismofaction']}\n", - "{'comment': 'Carbenicillin is a semisynthetic penicillin', 'directed': True, 'graph': {'_id': 'DB00578_MESH_D014552_1', 'disease': 'Urinary tract infectious disease', 'disease_mesh': 'MESH:D014552', 'drug': 'Carbenicillin', 'drug_mesh': 'MESH:D002228', 'drugbank': 'DB:DB00578'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D002228', 'target': 'UniProt:Q53613'}, {'key': 'negatively regulates', 'source': 'UniProt:Q53613', 'target': 'GO:0018104'}, {'key': 'disrupts', 'source': 'GO:0018104', 'target': 'GO:0042546'}, {'key': 'contributes to', 'source': 'GO:0042546', 'target': 'GO:0008219'}, {'key': 'in taxon', 'source': 'GO:0008219', 'target': 'NCBITaxon:543'}, {'key': 'causes', 'source': 'NCBITaxon:543', 'target': 'MESH:D014552'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D002228', 'label': 'Disease', 'name': 'Carbenicillin'}, {'id': 'UniProt:Q53613', 'label': 'Protein', 'name': 'Penicillin binding protein'}, {'id': 'GO:0018104', 'label': 'BiologicalProcess', 'name': 'Peptidoglycan-protein cross-linking'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'GO:0008219', 'label': 'BiologicalProcess', 'name': 'Cell death'}, {'id': 'NCBITaxon:543', 'label': 'OrganismTaxon', 'name': 'Enterobacteriaceae'}, {'id': 'MESH:D014552', 'label': 'Disease', 'name': 'Urinary tract infectious disease'}], 'reference': ['https://go.drugbank.com/drugs/DB00578#mechanismofaction']}\n", - "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D000788_1', 'disease': 'Prinzmetal angina', 'disease_mesh': 'MESH:D000788', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000746'}, {'key': 'prevents', 'source': 'CL:0000746', 'target': 'HP:0025497'}, {'key': 'negatively regulates', 'source': 'HP:0025497', 'target': 'HP:0000875'}, {'key': 'correlated with', 'source': 'HP:0000875', 'target': 'MESH:D000788'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000746', 'label': 'Cell', 'name': 'Cardiac muscle cells'}, {'id': 'HP:0025497', 'label': 'PhenotypicFeature', 'name': 'Coronary artery spasm'}, {'id': 'HP:0000875', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D000788', 'label': 'Disease', 'name': 'Prinzmetal angina'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Cell', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000359'}, {'key': 'negatively regulates', 'source': 'CL:0000359', 'target': 'GO:0070509'}, {'key': 'precedes', 'source': 'GO:0070509', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0000822'}, {'key': 'correlated with', 'source': 'HP:0000822', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000359', 'label': 'Cell', 'name': 'Vascular smooth muscle cell'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Calcium ion influx'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:Q01668'}, {'key': 'located in', 'source': 'UniProt:Q01668', 'target': 'CL:0000746'}, {'key': 'causes', 'source': 'CL:0000746', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0000875'}, {'key': 'correlated with', 'source': 'HP:0000875', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:Q01668', 'label': 'Protein', 'name': 'L-type Cav1.3 channel'}, {'id': 'CL:0000746', 'label': 'Cell', 'name': 'Cardiac muscle cells'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'HP:0000875', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://en.wikipedia.org/wiki/Amlodipine#Mechanism_of_action']}\n", - "['Drug', 'Protein', 'Cell', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00381_MESH_D020521_1', 'disease': 'Cerebrovascular accident', 'disease_mesh': 'MESH:D020521', 'drug': 'Amlodipine', 'drug_mesh': 'MESH:D017311', 'drugbank': 'DB:DB00381'}, 'links': [{'key': 'decreases abundance of', 'source': 'MESH:D017311', 'target': 'UniProt:P05305'}, {'key': 'prevents', 'source': 'UniProt:P05305', 'target': 'GO:0042310'}, {'key': 'increases activity of', 'source': 'MESH:D017311', 'target': 'UniProt:P29474'}, {'key': 'decreases activity of', 'source': 'UniProt:P29474', 'target': 'UniProt:Q03135'}, {'key': 'causes', 'source': 'UniProt:Q03135', 'target': 'GO:0042311'}, {'key': 'negatively regulates', 'source': 'GO:0042311', 'target': 'HP:0004421'}, {'key': 'negatively regulates', 'source': 'GO:0042310', 'target': 'HP:0004421'}, {'key': 'correlated with', 'source': 'HP:0004421', 'target': 'MESH:D020521'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D017311', 'label': 'Drug', 'name': 'Amlodipine'}, {'id': 'UniProt:P05305', 'label': 'Protein', 'name': 'Endothelin 1'}, {'id': 'UniProt:P29474', 'label': 'Protein', 'name': 'Endothelial nitric oxide synthase'}, {'id': 'UniProt:Q03135', 'label': 'Protein', 'name': 'Caveolin 1'}, {'id': 'GO:0042311', 'label': 'BiologicalProcess', 'name': 'Vasodilation'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0004421', 'label': 'PhenotypicFeature', 'name': 'Blood pressure'}, {'id': 'MESH:D020521', 'label': 'Disease', 'name': 'Cerebrovascular accident'}], 'reference': ['https://go.drugbank.com/drugs/DB00381#mechanismofaction', 'https://doi.org/10.1161/HYPERTENSIONAHA.107.096610']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00979_MESH_D015878_1', 'disease': 'Dilated pupil', 'disease_mesh': 'MESH:D015878', 'drug': 'Cyclopentolate', 'drug_mesh': 'MESH:D003519', 'drugbank': 'DB:DB00979'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D003519', 'target': 'UniProt:P11229'}, {'key': 'positively regulates', 'source': 'UniProt:P11229', 'target': 'GO:0090075'}, {'key': 'located in', 'source': 'GO:0090075', 'target': 'UBERON:0001607'}, {'key': 'causes', 'source': 'UBERON:0001607', 'target': 'MESH:D015878'}, {'key': 'located in', 'source': 'GO:0090075', 'target': 'UBERON:0001605'}, {'key': 'causes', 'source': 'UBERON:0001605', 'target': 'MESH:D015878'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D003519', 'label': 'Drug', 'name': 'Cyclopentolate'}, {'id': 'UniProt:P11229', 'label': 'Protein', 'name': 'Muscarinic acetylcholine receptor M1'}, {'id': 'UBERON:0001605', 'label': 'OrganismTaxon', 'name': 'Ciliary muscle'}, {'id': 'GO:0090075', 'label': 'BiologicalProcess', 'name': 'Relaxation of muscle'}, {'id': 'UBERON:0001607', 'label': 'OrganismTaxon', 'name': 'Sphincter pupillae'}, {'id': 'MESH:D015878', 'label': 'Disease', 'name': 'Dilated pupil'}], 'reference': ['https://go.drugbank.com/drugs/DB00979#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01195_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Flecainide', 'drug_mesh': 'MESH:D005424', 'drugbank': 'DB:DB01195'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'UniProt:Q14524'}, {'key': 'negatively regulates', 'source': 'UniProt:Q14524', 'target': 'GO:0086001'}, {'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'InterPro:IPR013521'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR013521', 'target': 'GO:0086001'}, {'key': 'negatively correlated with', 'source': 'GO:0086001', 'target': 'GO:0006936'}, {'key': 'located in', 'source': 'GO:0006936', 'target': 'UBERON:0004146'}, {'key': 'decreases activity of', 'source': 'MESH:D005424', 'target': 'UniProt:Q92736'}, {'key': 'negatively regulates', 'source': 'UniProt:Q92736', 'target': 'GO:0015278'}, {'key': 'located in', 'source': 'GO:0015278', 'target': 'GO:0016529'}, {'key': 'decreases activity of', 'source': 'GO:0016529', 'target': 'GO:0051899'}, {'key': 'decreases activity of', 'source': 'UBERON:0004146', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D005424', 'label': 'Drug', 'name': 'Flecainide'}, {'id': 'UniProt:Q14524', 'label': 'Protein', 'name': 'Nav1.5 sodium channel'}, {'id': 'GO:0086001', 'label': 'BiologicalProcess', 'name': 'Cardiac muscle cell action potential'}, {'id': 'GO:0006936', 'label': 'BiologicalProcess', 'name': 'Muscle contraction'}, {'id': 'InterPro:IPR013521', 'label': 'GeneFamily', 'name': 'Inward-rectifier potassium channel'}, {'id': 'UniProt:Q92736', 'label': 'Protein', 'name': 'Ryanodine receptor 2'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0016529', 'label': 'CellularComponent', 'name': 'Sarcoplasmic reticulum'}, {'id': 'UBERON:0004146', 'label': 'GrossAnatomicalStructure', 'name': 'His-Purkinje system'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB01195#mechanismofaction', 'https://pubchem.ncbi.nlm.nih.gov/compound/Flecainide#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00047_MESH_D003922_1', 'disease': 'Diabetes mellitus type 1', 'disease_mesh': 'MESH:D003922', 'drug': 'Insulin glargine', 'drug_mesh': 'MESH:D000069036', 'drugbank': 'DB:DB00047'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069036', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'causes', 'source': 'MESH:D001786', 'target': 'MESH:D003922'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069036', 'label': 'Drug', 'name': 'Insulin glargine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003922', 'label': 'Disease', 'name': 'Diabetes mellitus type 1'}], 'reference': ['https://go.drugbank.com/drugs/DB00047#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00047_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'Insulin glargine', 'drug_mesh': 'MESH:D000069036', 'drugbank': 'DB:DB00047'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D000069036', 'target': 'UniProt:P06213'}, {'key': 'positively correlated with', 'source': 'UniProt:P06213', 'target': 'GO:0004713'}, {'key': 'positively regulates', 'source': 'GO:0004713', 'target': 'REACT:R-HSA-198203'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0010906'}, {'key': 'decreases abundance of', 'source': 'GO:0010906', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0019216'}, {'key': 'decreases abundance of', 'source': 'GO:0019216', 'target': 'MESH:D001786'}, {'key': 'regulates', 'source': 'REACT:R-HSA-198203', 'target': 'GO:0051246'}, {'key': 'decreases abundance of', 'source': 'GO:0051246', 'target': 'MESH:D001786'}, {'key': 'causes', 'source': 'MESH:D001786', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D000069036', 'label': 'Drug', 'name': 'Insulin glargine'}, {'id': 'UniProt:P06213', 'label': 'Protein', 'name': 'Insulin receptor'}, {'id': 'GO:0019216', 'label': 'BiologicalProcess', 'name': 'Lipid metabolism'}, {'id': 'GO:0051246', 'label': 'BiologicalProcess', 'name': 'Protein metabolism'}, {'id': 'GO:0004713', 'label': 'BiologicalProcess', 'name': 'Tyrosine kinase activity'}, {'id': 'REACT:R-HSA-198203', 'label': 'Pathway', 'name': 'PI3K/AKT activation'}, {'id': 'GO:0010906', 'label': 'BiologicalProcess', 'name': 'Glucose metabolism'}, {'id': 'MESH:D001786', 'label': 'ChemicalSubstance', 'name': 'Blood glucose'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB00047#mechanismofaction']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D012559_1', 'disease': 'Schizophrenia', 'disease_mesh': 'MESH:D012559', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D012559'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D012559', 'label': 'Disease', 'name': 'Schizophrenia'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D003865_1', 'disease': 'Major depressive disorder', 'disease_mesh': 'MESH:D003865', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P28223'}, {'key': 'increases abundance of', 'source': 'UniProt:P28223', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D003865'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A serotonin receptors'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D003865', 'label': 'Disease', 'name': 'Major depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00334_MESH_D001714_1', 'disease': 'Bipolar Disorder', 'disease_mesh': 'MESH:D001714', 'drug': 'Olanzapine', 'drug_mesh': None, 'drugbank': 'DB:DB00334'}, 'links': [{'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P28223'}, {'key': 'increases abundance of', 'source': 'UniProt:P28223', 'target': 'GO:0061527'}, {'key': 'decreases activity of', 'source': 'DB:DB00334', 'target': 'UniProt:P14416'}, {'key': 'increases abundance of', 'source': 'UniProt:P14416', 'target': 'GO:0061527'}, {'key': 'located in', 'source': 'GO:0061527', 'target': 'UBERON:0000451'}, {'key': 'positively regulates', 'source': 'UBERON:0000451', 'target': 'HP:0000708'}, {'key': 'manifestation of', 'source': 'HP:0000708', 'target': 'MESH:D001714'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00334', 'label': 'Drug', 'name': 'Olanzapine'}, {'id': 'UniProt:P28223', 'label': 'Protein', 'name': '5HT2A serotonin receptors'}, {'id': 'UniProt:P14416', 'label': 'Protein', 'name': 'Dopamine D2 receptor'}, {'id': 'GO:0061527', 'label': 'BiologicalProcess', 'name': 'Dopamine secretion, neurotransmission'}, {'id': 'UBERON:0000451', 'label': 'GrossAnatomicalStructure', 'name': 'Prefrontal complex'}, {'id': 'HP:0000708', 'label': 'PhenotypicFeature', 'name': 'Behavioral abnormality'}, {'id': 'MESH:D001714', 'label': 'Disease', 'name': 'Bipolar Disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00334#mechanismofaction', 'https://psychopharmacologyinstitute.com/publication/mechanism-of-action-and-pharmacodynamics-of-olanzapine-2161']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D002312_1', 'disease': 'Hypertrophic cardiomyopathy', 'disease_mesh': 'MESH:D002312', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D002312'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D002312'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D002312', 'label': 'Disease', 'name': 'Hypertrophic cardiomyopathy'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D000787_1', 'disease': 'Angina pectoris', 'disease_mesh': 'MESH:D000787', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D000787'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D000787'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D000787', 'label': 'Disease', 'name': 'Angina pectoris'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0002027'}, {'key': 'correlated with', 'source': 'GO:0002027', 'target': 'MESH:D006973'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0003073'}, {'key': 'correlated with', 'source': 'GO:0003073', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'GO:0003073', 'label': 'BiologicalProcess', 'name': 'Systemic arterial blood pressure'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0002027', 'label': 'BiologicalProcess', 'name': 'Heart rate'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D006391_1', 'disease': 'Hemangioma', 'disease_mesh': 'MESH:D006391', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR027928'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR027928', 'target': 'GO:0002016'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR027928'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P13945'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'InterPro:IPR027928'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'UniProt:P09038'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'UniProt:P09038'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'UniProt:P09038'}, {'key': 'negatively regulates', 'source': 'UniProt:P09038', 'target': 'GO:0002016'}, {'key': 'precedes', 'source': 'GO:0002016', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'GO:0006915'}, {'key': 'correlated with', 'source': 'GO:0006915', 'target': 'MESH:D006391'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'UniProt:P09038', 'label': 'Protein', 'name': 'Basic growth factor of fibroblasts (bFGF)'}, {'id': 'InterPro:IPR027928', 'label': 'GeneFamily', 'name': 'Vascular endothelial growth factor (VEGF)'}, {'id': 'GO:0002016', 'label': 'BiologicalProcess', 'name': 'Renin-angiotensin-aldosterone system'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'Apoptosis'}, {'id': 'MESH:D006391', 'label': 'Disease', 'name': 'Hemangioma'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D001281_1', 'disease': 'Atrial fibrillation', 'disease_mesh': 'MESH:D001281', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P13945'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D001281'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D001281', 'label': 'Disease', 'name': 'Atrial fibrillation'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00571_MESH_D013617_1', 'disease': 'Supraventricular tachycardia', 'disease_mesh': 'MESH:D013617', 'drug': 'Propranolol', 'drug_mesh': 'MESH:D011433', 'drugbank': 'DB:DB00571'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P08588'}, {'key': 'decreases activity of', 'source': 'UniProt:P08588', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P07550'}, {'key': 'decreases activity of', 'source': 'UniProt:P07550', 'target': 'InterPro:IPR030672'}, {'key': 'decreases activity of', 'source': 'MESH:D011433', 'target': 'UniProt:P13945'}, {'key': 'decreases activity of', 'source': 'UniProt:P13945', 'target': 'InterPro:IPR030672'}, {'key': 'decreases synthesis of', 'source': 'InterPro:IPR030672', 'target': 'MESH:D000242'}, {'key': 'negatively regulates', 'source': 'MESH:D000242', 'target': 'GO:0015278'}, {'key': 'decreases activity of', 'source': 'GO:0015278', 'target': 'GO:0051899'}, {'key': 'ameliorates', 'source': 'GO:0051899', 'target': 'HP:0004308'}, {'key': 'correlated with', 'source': 'HP:0004308', 'target': 'MESH:D013617'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D011433', 'label': 'Drug', 'name': 'Propranolol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P13945', 'label': 'Protein', 'name': 'Beta-3 adrenergic receptor'}, {'id': 'InterPro:IPR030672', 'label': 'GeneFamily', 'name': 'Adenylate cyclase'}, {'id': 'MESH:D000242', 'label': 'ChemicalSubstance', 'name': 'Cyclic AMP'}, {'id': 'GO:0015278', 'label': 'BiologicalProcess', 'name': 'Calcium release'}, {'id': 'GO:0051899', 'label': 'BiologicalProcess', 'name': 'Membrane depolarization'}, {'id': 'HP:0004308', 'label': 'PhenotypicFeature', 'name': 'Ventricular arrhythmia'}, {'id': 'MESH:D013617', 'label': 'Disease', 'name': 'Supraventricular tachycardia'}], 'reference': ['https://go.drugbank.com/drugs/DB00571#mechanismofaction', 'https://en.wikipedia.org/wiki/Propranolol#Mechanism_of_action', 'https://pubchem.ncbi.nlm.nih.gov/compound/Propranolol#section=Pharmacology-and-Biochemistry']}\n", - "['Drug', 'Protein', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Quinfamide is a member of quinolines, has been used in trials studying the treatment of Amoebiasis and Helminthiasis. The details of the mechanism of action are not known, but the overall effect is intraluminal immobilization of the Entamoeba', 'directed': True, 'graph': {'_id': 'DB12780_MESH_D000562_1', 'disease': 'Amebic infection', 'disease_mesh': 'MESH:D000562', 'drug': 'Quinfamide', 'drug_mesh': 'MESH:C026546', 'drugbank': 'DB:DB12780'}, 'links': [{'key': 'treats', 'source': 'MESH:C026546', 'target': 'MESH:D000562'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C026546', 'label': 'Drug', 'name': 'Quinfamide'}, {'id': 'MESH:D000562', 'label': 'Disease', 'name': 'Amebic infection'}], 'reference': ['https://go.drugbank.com/drugs/DB12780#mechanismofaction', 'https://drugs.ncats.io/drug/O1ZB1046R1']}\n", - "['Drug', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D012594_1', 'disease': 'Systemic sclerosis', 'disease_mesh': 'MESH:D012594', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively regulates', 'source': 'GO:0042310', 'target': 'HP:0000822'}, {'key': 'manifestation of', 'source': 'HP:0000822', 'target': 'MESH:D012594'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'HP:0000822', 'label': 'PhenotypicFeature', 'name': 'Hypertension'}, {'id': 'MESH:D012594', 'label': 'Disease', 'name': 'Systemic sclerosis'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D006976_1', 'disease': 'Pulmonary hypertension', 'disease_mesh': 'MESH:D006976', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D006976'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D006976', 'label': 'Disease', 'name': 'Pulmonary hypertension'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00559_MESH_D000081029_1', 'disease': 'Pulmonary arterial hypertension', 'disease_mesh': 'MESH:D000081029', 'drug': 'bosentan', 'drug_mesh': 'MESH:C086232', 'drugbank': 'DB:DB00559'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P25101'}, {'key': 'decreases activity of', 'source': 'MESH:C086232', 'target': 'UniProt:P24530'}, {'key': 'positively regulates', 'source': 'UniProt:P25101', 'target': 'GO:0042310'}, {'key': 'capable of', 'source': 'UniProt:P24530', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'MESH:D000081029'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C086232', 'label': 'Drug', 'name': 'Bosentan'}, {'id': 'UniProt:P25101', 'label': 'Protein', 'name': 'Endothelin-1 receptor'}, {'id': 'UniProt:P24530', 'label': 'Protein', 'name': 'Endothelin receptor type B'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'Vasoconstriction'}, {'id': 'MESH:D000081029', 'label': 'Disease', 'name': 'Pulmonary arterial hypertension'}], 'reference': ['https://en.wikipedia.org/wiki/Bosentan', 'https://go.drugbank.com/drugs/DB00559#BE0000043']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007018_1', 'disease': 'Hypopituitarism', 'disease_mesh': 'MESH:D007018', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D013739', 'target': 'GO:0034699'}, {'key': 'positively correlated with', 'source': 'GO:0034699', 'target': 'MESH:D007986'}, {'key': 'negatively correlated with', 'source': 'MESH:D007986', 'target': 'MESH:D007018'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0034699', 'label': 'BiologicalProcess', 'name': 'Response to luteinizing hormone'}, {'id': 'MESH:D007986', 'label': 'ChemicalSubstance', 'name': 'Luteinizing Hormone'}, {'id': 'MESH:D007018', 'label': 'Disease', 'name': 'Hypopituitarism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Hypopituitarism']}\n", - "['Drug', 'BiologicalProcess', 'ChemicalSubstance', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D011628_2', 'disease': 'Delayed puberty', 'disease_mesh': 'MESH:D011628', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0045136'}, {'key': 'negatively correlated with', 'source': 'GO:0045136', 'target': 'MESH:D011628'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0045136', 'label': 'BiologicalProcess', 'name': 'Development of secondary sexual characteristics'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'MESH:D011628', 'label': 'Disease', 'name': 'Delayed puberty'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Delayed_puberty']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D007006_1', 'disease': 'Hypogonadotropic hypogonadism', 'disease_mesh': 'MESH:D007006', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'positively correlated with', 'source': 'MESH:D013739', 'target': 'GO:0034699'}, {'key': 'positively correlated with', 'source': 'GO:0034699', 'target': 'MESH:D007986'}, {'key': 'positively correlated with', 'source': 'MESH:D007986', 'target': 'GO:0005183'}, {'key': 'negatively correlated with', 'source': 'GO:0005183', 'target': 'MESH:D007006'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'GO:0034699', 'label': 'BiologicalProcess', 'name': 'Response to luteinizing hormone'}, {'id': 'MESH:D007986', 'label': 'ChemicalSubstance', 'name': 'Luteinizing Hormone'}, {'id': 'GO:0005183', 'label': 'BiologicalProcess', 'name': 'Gonadotropin hormone-releasing hormone activity'}, {'id': 'MESH:D007006', 'label': 'Disease', 'name': 'Hypogonadotropic hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB00624', 'https://en.wikipedia.org/wiki/Hypogonadotropic_hypogonadism']}\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13944_MESH_D005058_1', 'disease': 'Male hypogonadism', 'disease_mesh': 'MESH:D005058', 'drug': 'testosterone enantate', 'drug_mesh': 'MESH:C004648', 'drugbank': 'DB:DB13944'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004648', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0060742'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0007283'}, {'key': 'negatively correlated with', 'source': 'GO:0060742', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0008584', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0019102', 'target': 'MESH:D005058'}, {'key': 'negatively correlated with', 'source': 'GO:0007283', 'target': 'MESH:D005058'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004648', 'label': 'Drug', 'name': 'Testosterone enantate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0060742', 'label': 'BiologicalProcess', 'name': 'Epithelial cell differentiation involved in prostate gland development'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'Male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'Male somatic sex determination'}, {'id': 'GO:0007283', 'label': 'BiologicalProcess', 'name': 'Spermatogenesis'}, {'id': 'MESH:D005058', 'label': 'Disease', 'name': 'Male hypogonadism'}], 'reference': ['https://go.drugbank.com/drugs/DB13944']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB13944_MESH_D007713_1', 'disease': \"Klinefelter's syndrome, XXY\", 'disease_mesh': 'MESH:D007713', 'drug': 'Testosterone enantate', 'drug_mesh': 'MESH:C004648', 'drugbank': 'DB:DB13944'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:C004648', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0003006'}, {'key': 'positively regulates', 'source': 'GO:0030521', 'target': 'GO:0048808'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D007713'}, {'key': 'negatively correlated with', 'source': 'GO:0003006', 'target': 'HP:0003251'}, {'key': 'positively correlated with', 'source': 'HP:0003251', 'target': 'MESH:D007713'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C004648', 'label': 'Drug', 'name': 'Testosterone enantate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'GO:0003006', 'label': 'BiologicalProcess', 'name': 'Developmental process involved in reproduction'}, {'id': 'HP:0003251', 'label': 'PhenotypicFeature', 'name': 'Male infertility'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'MESH:D007713', 'label': 'Disease', 'name': \"Klinefelter's syndrome, XXY\"}], 'reference': ['https://en.wikipedia.org/wiki/Klinefelter_syndrome', 'https://go.drugbank.com/drugs/DB13944']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D003456_2', 'disease': 'Undescended testicle', 'disease_mesh': 'MESH:D003456', 'drug': 'Testosterone', 'drug_mesh': 'MESH:D013739', 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D013739', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0048808'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0008584'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0019102'}, {'key': 'negatively correlated with', 'source': 'GO:0048808', 'target': 'MESH:D003456'}, {'key': 'negatively correlated with', 'source': 'GO:0008584', 'target': 'MESH:D003456'}, {'key': 'negatively correlated with', 'source': 'GO:0019102', 'target': 'MESH:D003456'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D013739', 'label': 'Drug', 'name': 'Testosterone'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0048808', 'label': 'BiologicalProcess', 'name': 'Male genitalia morphogenesis'}, {'id': 'GO:0008584', 'label': 'BiologicalProcess', 'name': 'Male gonad development'}, {'id': 'GO:0019102', 'label': 'BiologicalProcess', 'name': 'Male somatic sex determination'}, {'id': 'MESH:D003456', 'label': 'Disease', 'name': 'Undescended testicle'}], 'reference': ['https://go.drugbank.com/drugs/DB13944']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00624_MESH_D019584_1', 'disease': 'Menopausal flushing', 'disease_mesh': 'MESH:D019584', 'drug': 'testosterone cypionate', 'drug_mesh': None, 'drugbank': 'DB:DB00624'}, 'links': [{'key': 'increases activity of', 'source': 'DB:DB00624', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0030521'}, {'key': 'treats', 'source': 'GO:0030521', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB00624', 'label': 'Drug', 'name': 'Testosterone cypionate'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0030521', 'label': 'BiologicalProcess', 'name': 'Androgen receptor signaling pathway'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Menopausal flushing'}], 'reference': ['https://go.drugbank.com/drugs/DB13943']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00639_MESH_D002181_1', 'disease': 'Candidal vulvovaginitis', 'disease_mesh': 'MESH:D002181', 'drug': 'butoconazole', 'drug_mesh': 'MESH:C017125', 'drugbank': 'DB:DB00639'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C017125', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'precedes', 'source': 'GO:0006696', 'target': 'GO:0042546'}, {'key': 'occurs in', 'source': 'GO:0042546', 'target': 'NCBITaxon:5476'}, {'key': 'causes', 'source': 'NCBITaxon:5476', 'target': 'MESH:D002181'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C017125', 'label': 'Drug', 'name': 'Butoconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase (Candida albicans)'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'Ergosterol biosynthetic process'}, {'id': 'GO:0042546', 'label': 'BiologicalProcess', 'name': 'Cell wall biogenesis'}, {'id': 'NCBITaxon:5476', 'label': 'OrganismTaxon', 'name': 'Candida albicans'}, {'id': 'MESH:D002181', 'label': 'Disease', 'name': 'Candidal vulvovaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB00639', 'https://en.wikipedia.org/wiki/Vaginal_yeast_infection']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D008118_1', 'disease': 'Infection by Loa loa', 'disease_mesh': 'MESH:D008118', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:100942'}, {'key': 'causes', 'source': 'NCBITaxon:100942', 'target': 'MESH:D008118'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:100942', 'label': 'OrganismTaxon', 'name': 'Chrysops sp.'}, {'id': 'MESH:D008118', 'label': 'Disease', 'name': 'Infection by Loa loa'}], 'reference': ['https://go.drugbank.com/drugs/DB00711', 'https://en.wikipedia.org/wiki/Loa_loa_filariasis#Cause']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D011657_1', 'disease': 'Eosinophilic asthma', 'disease_mesh': 'MESH:D011657', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D004049', 'target': 'UniProt:P09917'}, {'key': 'decreases activity of', 'source': 'MESH:D004049', 'target': 'UniProt:P23219'}, {'key': 'increases abundance of', 'source': 'UniProt:P09917', 'target': 'MESH:D015289'}, {'key': 'increases abundance of', 'source': 'UniProt:P23219', 'target': 'MESH:D011453'}, {'key': 'positively regulates', 'source': 'MESH:D015289', 'target': 'GO:0006954'}, {'key': 'positively regulates', 'source': 'MESH:D011453', 'target': 'GO:0006954'}, {'key': 'positively correlated with', 'source': 'GO:0006954', 'target': 'MESH:D011657'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'UniProt:P09917', 'label': 'Protein', 'name': 'Polyunsaturated fatty acid 5-lipoxygenase'}, {'id': 'UniProt:P23219', 'label': 'Protein', 'name': 'Prostaglandin G/H synthase 1'}, {'id': 'MESH:D011453', 'label': 'ChemicalSubstance', 'name': 'Prostaglandins'}, {'id': 'MESH:D015289', 'label': 'ChemicalSubstance', 'name': 'Leukotrienes'}, {'id': 'GO:0006954', 'label': 'BiologicalProcess', 'name': 'Inflammatory response'}, {'id': 'MESH:D011657', 'label': 'Disease', 'name': 'Eosinophilic asthma'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", - "['Drug', 'Protein', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D009855_1', 'disease': 'Infection by Onchocerca volvulus', 'disease_mesh': 'MESH:D009855', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:6282'}, {'key': 'causes', 'source': 'NCBITaxon:6282', 'target': 'MESH:D009855'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:6282', 'label': 'OrganismTaxon', 'name': 'Onchocerca volvulus'}, {'id': 'MESH:D009855', 'label': 'Disease', 'name': 'Infection by Onchocerca volvulus'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00711_MESH_D004604_1', 'disease': 'Lymphatic filariasis', 'disease_mesh': 'MESH:D004604', 'drug': 'diethylcarbamazine', 'drug_mesh': 'MESH:D004049', 'drugbank': 'DB:DB00711'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004049', 'target': 'GO:0019369'}, {'key': 'regulates', 'source': 'GO:0019369', 'target': 'GO:0005886'}, {'key': 'in taxon', 'source': 'GO:0005886', 'target': 'NCBITaxon:6293'}, {'key': 'causes', 'source': 'NCBITaxon:6293', 'target': 'MESH:D004604'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004049', 'label': 'Drug', 'name': 'Diethylcarbamazine'}, {'id': 'GO:0019369', 'label': 'BiologicalProcess', 'name': 'Arachidonic acid metabolic process'}, {'id': 'GO:0005886', 'label': 'CellularComponent', 'name': 'Plasma membrane'}, {'id': 'NCBITaxon:6293', 'label': 'OrganismTaxon', 'name': 'Wuchereria bancrofti'}, {'id': 'MESH:D004604', 'label': 'Disease', 'name': 'Lymphatic filariasis'}], 'reference': ['https://go.drugbank.com/drugs/DB00711']}\n", - "['Drug', 'BiologicalProcess', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00943_MESH_D015658_1', 'disease': 'Human immunodeficiency virus infection', 'disease_mesh': 'MESH:D015658', 'drug': 'Zalcitabine', 'drug_mesh': 'MESH:D016047', 'drugbank': 'DB:DB00943'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:D016047', 'target': 'UniProt:Q72547'}, {'key': 'positively regulates', 'source': 'UniProt:Q72547', 'target': 'GO:0003964'}, {'key': 'positively correlated with', 'source': 'GO:0003964', 'target': 'GO:0019079'}, {'key': 'in taxon', 'source': 'GO:0019079', 'target': 'NCBITaxon:11676'}, {'key': 'causes', 'source': 'NCBITaxon:11676', 'target': 'MESH:D015658'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D016047', 'label': 'Drug', 'name': 'Zalcitabine'}, {'id': 'UniProt:Q72547', 'label': 'Protein', 'name': 'HIV-1 reverse transcriptase'}, {'id': 'GO:0003964', 'label': 'MolecularActivity', 'name': 'RNA-directed DNA polymerase activity'}, {'id': 'GO:0019079', 'label': 'BiologicalProcess', 'name': 'Viral genome replication'}, {'id': 'NCBITaxon:11676', 'label': 'OrganismTaxon', 'name': 'Human immunodeficiency virus 1'}, {'id': 'MESH:D015658', 'label': 'Disease', 'name': 'Human immunodeficiency virus infection'}], 'reference': ['https://go.drugbank.com/drugs/DB00943#BE0004136']}\n", - "['Drug', 'Protein', 'MolecularActivity', 'BiologicalProcess', 'OrganismTaxon', 'Disease']\n", - "{'comment': 'Illicit', 'directed': True, 'graph': {'_id': 'DB01545_MESH_D003866_1', 'disease': 'Depressive disorder', 'disease_mesh': 'MESH:D003866', 'drug': 'ethyl loflazepate', 'drug_mesh': 'MESH:C040581,MESH:C029617', 'drugbank': 'DB:DB01545'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0007214'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'HP:0000739'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'HP:0000737'}, {'key': 'positively correlated with', 'source': 'HP:0000739', 'target': 'MESH:D003866'}, {'key': 'positively correlated with', 'source': 'HP:0000737', 'target': 'MESH:D003866'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01545', 'label': 'Drug', 'name': 'Ethyl loflazepate'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0007214', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid signaling pathway'}, {'id': 'HP:0000739', 'label': 'PhenotypicFeature', 'name': 'Anxiety'}, {'id': 'HP:0000737', 'label': 'PhenotypicFeature', 'name': 'Irritability'}, {'id': 'MESH:D003866', 'label': 'Disease', 'name': 'Depressive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01545', 'https://en.wikipedia.org/wiki/Gamma-Aminobutyric_acid']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Withdrawn', 'directed': True, 'graph': {'_id': 'DB01545_MESH_D001007_1', 'disease': 'Anxiety', 'disease_mesh': 'MESH:D001007', 'drug': 'ethyl loflazepate', 'drug_mesh': 'MESH:C040581,MESH:C029617', 'drugbank': 'DB:DB01545'}, 'links': [{'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P14867'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P47869'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P34903'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P48169'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:P31644'}, {'key': 'positively regulates', 'source': 'DB:DB01545', 'target': 'UniProt:Q16445'}, {'key': 'positively regulates', 'source': 'UniProt:Q16445', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P14867', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P47869', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P34903', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P48169', 'target': 'GO:0007214'}, {'key': 'positively regulates', 'source': 'UniProt:P31644', 'target': 'GO:0007214'}, {'key': 'negatively correlated with', 'source': 'GO:0007214', 'target': 'MESH:D001007'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB01545', 'label': 'Drug', 'name': 'Ethyl loflazepate'}, {'id': 'UniProt:P14867', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-1'}, {'id': 'UniProt:P47869', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-2'}, {'id': 'UniProt:P34903', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-3'}, {'id': 'UniProt:P48169', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-4'}, {'id': 'UniProt:P31644', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-5'}, {'id': 'UniProt:Q16445', 'label': 'Protein', 'name': 'Gamma-aminobutyric acid receptor subunit alpha-6'}, {'id': 'GO:0007214', 'label': 'BiologicalProcess', 'name': 'Gamma-aminobutyric acid signaling pathway'}, {'id': 'MESH:D001007', 'label': 'Disease', 'name': 'Anxiety'}], 'reference': ['https://go.drugbank.com/drugs/DB01545', 'https://en.wikipedia.org/wiki/Gamma-Aminobutyric_acid']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Gluconolactone is used as a component of irrigation solution Renacidin for dissolution of bladder calculi of the struvite or apatite variety.', 'directed': True, 'graph': {'_id': 'DB04564_MESH_D001744_1', 'disease': 'Urinary bladder stone', 'disease_mesh': 'MESH:D001744', 'drug': 'gluconolactone', 'drug_mesh': None, 'drugbank': 'DB:DB04564'}, 'links': [{'key': 'treats', 'source': 'DB:DB04564', 'target': 'MESH:D001744'}], 'multigraph': True, 'nodes': [{'id': 'DB:DB04564', 'label': 'Drug', 'name': 'Gluconolactone'}, {'id': 'MESH:D001744', 'label': 'Disease', 'name': 'Urinary bladder stone'}], 'reference': ['https://drugs.ncats.io/drug/WQ29KQ9POT']}\n", - "['Drug', 'Disease']\n", - "{'comment': 'Withdrawn. Glibornuride is a sulfonylurea-type anti-diabetic drug.', 'directed': True, 'graph': {'_id': 'DB08962_MESH_D003924_1', 'disease': 'Diabetes mellitus type 2', 'disease_mesh': 'MESH:D003924', 'drug': 'glibornuride', 'drug_mesh': 'MESH:C073323', 'drugbank': 'DB:DB08962'}, 'links': [{'key': 'decreases activity of', 'source': 'MESH:C073323', 'target': 'UniProt:Q14654'}, {'key': 'participates in', 'source': 'UniProt:Q14654', 'target': 'GO:0060081'}, {'key': 'negatively regulates', 'source': 'GO:0060081', 'target': 'GO:0070509'}, {'key': 'positively regulates', 'source': 'GO:0070509', 'target': 'GO:0030073'}, {'key': 'negatively correlated with', 'source': 'GO:0030073', 'target': 'HP:0003074'}, {'key': 'manifestation of', 'source': 'HP:0003074', 'target': 'MESH:D003924'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C073323', 'label': 'Drug', 'name': 'Glibornuride'}, {'id': 'UniProt:Q14654', 'label': 'Protein', 'name': 'ATP-sensitive inward rectifier potassium channel 11'}, {'id': 'GO:0060081', 'label': 'BiologicalProcess', 'name': 'Membrane hyperpolarization'}, {'id': 'GO:0070509', 'label': 'BiologicalProcess', 'name': 'Transmembrane calcium influx'}, {'id': 'GO:0030073', 'label': 'BiologicalProcess', 'name': 'Insulin secretion'}, {'id': 'HP:0003074', 'label': 'PhenotypicFeature', 'name': 'Hyperglycemia'}, {'id': 'MESH:D003924', 'label': 'Disease', 'name': 'Diabetes mellitus type 2'}], 'reference': ['https://go.drugbank.com/drugs/DB08962', 'https://en.wikipedia.org/wiki/Sulfonylurea']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Drospirenone seems to have much lower affinity to androgen receptor than to the progesterone counterpart (https://en.wikipedia.org/wiki/Drospirenone#Pharmacology).', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D000152_1', 'disease': 'Acne vulgaris', 'disease_mesh': 'MESH:D000152', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P10275'}, {'key': 'positively regulates', 'source': 'UniProt:P10275', 'target': 'GO:0006702'}, {'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'negatively correlated with', 'source': 'UniProt:P06401', 'target': 'GO:0006702'}, {'key': 'increases abundance of', 'source': 'GO:0006702', 'target': 'UBERON:0001866'}, {'key': 'produced by', 'source': 'UBERON:0001866', 'target': 'HP:0025249'}, {'key': 'positively correlated with', 'source': 'HP:0025249', 'target': 'MESH:D000152'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'UniProt:P10275', 'label': 'Protein', 'name': 'Androgen receptor'}, {'id': 'GO:0006702', 'label': 'BiologicalProcess', 'name': 'androgen biosynthetic process'}, {'id': 'UBERON:0001866', 'label': 'GrossAnatomicalStructure', 'name': 'sebum'}, {'id': 'HP:0025249', 'label': 'PhenotypicFeature', 'name': 'Comedo'}, {'id': 'MESH:D000152', 'label': 'Disease', 'name': 'Acne vulgaris'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'GrossAnatomicalStructure', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"The use of progesterone, progestin and similar compounds may not be superior to placebo in reducing premenstrual symptoms judging from the results of the majority of controlled trials (https://pubmed.ncbi.nlm.nih.gov/7791258/). Also note that it is generally agreed that neither a deficiency nor excess in progesterone/progestin levels is etiologically relevant to the disorder (https://pubmed.ncbi.nlm.nih.gov/16650465/). It's largelly accepted that SSRIs as better treatment and should be the first attempt for treatment of premenstrual dysphoric disorder.\", 'directed': True, 'graph': {'_id': 'DB01395_MESH_D065446_1', 'disease': 'Premenstrual dysphoric disorder', 'disease_mesh': 'MESH:D065446', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P08235'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'GO:0005890'}, {'key': 'positively correlated with', 'source': 'UniProt:P08235', 'target': 'InterPro:IPR001696'}, {'key': 'regulates', 'source': 'GO:0005890', 'target': 'GO:0070294'}, {'key': 'regulates', 'source': 'GO:0005890', 'target': 'GO:0036359'}, {'key': 'regulates', 'source': 'InterPro:IPR001696', 'target': 'GO:0070294'}, {'key': 'correlated with', 'source': 'GO:0036359', 'target': 'HP:0000969'}, {'key': 'correlated with', 'source': 'GO:0070294', 'target': 'HP:0000969'}, {'key': 'correlated with', 'source': 'GO:0036359', 'target': 'MESH:D059373'}, {'key': 'correlated with', 'source': 'GO:0070294', 'target': 'MESH:D059373'}, {'key': 'manifestation of', 'source': 'MESH:D059373', 'target': 'MESH:D065446'}, {'key': 'correlated with', 'source': 'HP:0000969', 'target': 'MESH:D065446'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P08235', 'label': 'Protein', 'name': 'Mineralocorticoid receptor'}, {'id': 'InterPro:IPR001696', 'label': 'GeneFamily', 'name': 'Voltage gated sodium channel, alpha subunit'}, {'id': 'GO:0005890', 'label': 'CellularComponent', 'name': 'sodium:potassium-exchanging ATPase complex'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0036359', 'label': 'BiologicalProcess', 'name': 'renal potassium excretion'}, {'id': 'HP:0000969', 'label': 'PhenotypicFeature', 'name': 'Edema'}, {'id': 'MESH:D059373', 'label': 'PhenotypicFeature', 'name': 'Mastodynia'}, {'id': 'MESH:D065446', 'label': 'Disease', 'name': 'Premenstrual dysphoric disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antimineralocorticoid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/18472980/']}\n", - "['Drug', 'Protein', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'Protein', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'The disease is denoted Menopausal flushing in the original file. Note that a combination therapy of estradiol and drospirenone would be more effective at reducing the frequency of hot flushes and other menopausal symptoms, than a mono-therapy relying on progestin only. Also, since many progestogens have off-target effects including estrogenic effects, the improvement in hot flashes maybe due to the drug binding to estrogen receptors instead. Note the term Vasomotor System (https://en.wikipedia.org/wiki/Vasomotor_center) does not seem to be represented in other ontologies.', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D019584_1', 'disease': 'Hot Flashes', 'disease_mesh': 'MESH:D019584', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'decreases abundance of', 'source': 'UniProt:P06401', 'target': 'Pfam:PF00446'}, {'key': 'positively correlated with', 'source': 'Pfam:PF00446', 'target': 'MESH:D019584'}, {'key': 'correlated with', 'source': 'UniProt:P06401', 'target': 'MESH:D014666'}, {'key': 'positively regulates', 'source': 'MESH:D014666', 'target': 'GO:0001659'}, {'key': 'negatively correlated with', 'source': 'GO:0001659', 'target': 'HP:0005968'}, {'key': 'positively correlated with', 'source': 'HP:0005968', 'target': 'MESH:D019584'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'Pfam:PF00446', 'label': 'GeneFamily', 'name': 'Gonadotropin-releasing hormone'}, {'id': 'MESH:D014666', 'label': 'GrossAnatomicalStructure', 'name': 'Vasomotor System'}, {'id': 'GO:0001659', 'label': 'BiologicalProcess', 'name': 'temperature homeostasis'}, {'id': 'HP:0005968', 'label': 'PhenotypicFeature', 'name': 'Temperature instability'}, {'id': 'MESH:D019584', 'label': 'Disease', 'name': 'Hot Flashes'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Progestogen_(medication)#Pharmacodynamics', 'https://www.tandfonline.com/doi/full/10.1080/13697137.2018.1472567', 'https://journals.lww.com/co-endocrinology/Abstract/2015/12000/Progesterone_or_progestin_as_menopausal_ovarian.13.aspx']}\n", - "['Drug', 'Protein', 'GeneFamily', 'Disease']\n", - "['Drug', 'Protein', 'GrossAnatomicalStructure', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': 'Note that the combination therapy of estradiol and drospirenone would be more effective at treating atrophic vaginitis, than a mono-therapy relying on progestin only. Also, since many progestogens have off-target effects including estrogenic effects, the improvement in hot flashes maybe due to the drug binding to estrogen receptors instead.', 'directed': True, 'graph': {'_id': 'DB01395_MESH_D059268_1', 'disease': 'Atrophic vaginitis', 'disease_mesh': 'MESH:D059268', 'drug': 'drospirenone', 'drug_mesh': 'MESH:C035144', 'drugbank': 'DB:DB01395'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:C035144', 'target': 'UniProt:P06401'}, {'key': 'participates in', 'source': 'UniProt:P06401', 'target': 'REACT:R-HSA-9018519'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-9018519', 'target': 'HP:0031088'}, {'key': 'negatively correlated with', 'source': 'REACT:R-HSA-9018519', 'target': 'HP:0030683'}, {'key': 'manifestation of', 'source': 'HP:0030683', 'target': 'MESH:D059268'}, {'key': 'manifestation of', 'source': 'HP:0031088', 'target': 'MESH:D059268'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C035144', 'label': 'Drug', 'name': 'drospirenone'}, {'id': 'UniProt:P06401', 'label': 'Protein', 'name': 'Progesterone receptor'}, {'id': 'REACT:R-HSA-9018519', 'label': 'Pathway', 'name': 'Estrogen-dependent gene expression'}, {'id': 'HP:0030683', 'label': 'PhenotypicFeature', 'name': 'Vaginitis'}, {'id': 'HP:0031088', 'label': 'PhenotypicFeature', 'name': 'Vaginal dryness'}, {'id': 'MESH:D059268', 'label': 'Disease', 'name': 'Atrophic vaginitis'}], 'reference': ['https://go.drugbank.com/drugs/DB01395#mechanism-of-action', 'https://en.wikipedia.org/wiki/Antimineralocorticoid#Mechanism_of_action', 'https://pubmed.ncbi.nlm.nih.gov/18472980/']}\n", - "['Drug', 'Protein', 'Pathway', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D003967_1', 'disease': 'Diarrhea', 'disease_mesh': 'MESH:D003967', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'positively regulates', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'increases abundance of', 'source': 'InterPro:IPR001418', 'target': 'CHEBI:16480'}, {'key': 'negatively regulates', 'source': 'CHEBI:16480', 'target': 'GO:0120054'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0035483'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0030432'}, {'key': 'increases activity of', 'source': 'GO:0035483', 'target': 'GO:0120054'}, {'key': 'increases activity of', 'source': 'GO:0030432', 'target': 'GO:0120054'}, {'key': 'negatively correlated with', 'source': 'GO:0120054', 'target': 'HP:0002019'}, {'key': 'negatively correlated with', 'source': 'HP:0002019', 'target': 'MESH:D003967'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0030432', 'label': 'BiologicalProcess', 'name': 'peristalsis'}, {'id': 'GO:0035483', 'label': 'BiologicalProcess', 'name': 'gastric emptying'}, {'id': 'CHEBI:16480', 'label': 'ChemicalSubstance', 'name': 'nitric oxide'}, {'id': 'GO:0120054', 'label': 'BiologicalProcess', 'name': 'intestinal motility'}, {'id': 'HP:0002019', 'label': 'PhenotypicFeature', 'name': 'Constipation'}, {'id': 'MESH:D003967', 'label': 'Disease', 'name': 'Diarrhea'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids', 'https://en.wikipedia.org/wiki/Morphine#Constipation']}\n", - "['Drug', 'GeneFamily', 'ChemicalSubstance', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D010146_1', 'disease': 'Pain', 'disease_mesh': 'MESH:D010146', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0019233'}, {'key': 'regulates', 'source': 'GO:0019233', 'target': 'MESH:D010146'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D010146', 'label': 'Disease', 'name': 'Pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00295_MESH_D059350_1', 'disease': 'Chronic pain', 'disease_mesh': 'MESH:D059350', 'drug': 'morphine', 'drug_mesh': 'MESH:D009020', 'drugbank': 'DB:DB00295'}, 'links': [{'key': 'increases activity of', 'source': 'MESH:D009020', 'target': 'InterPro:IPR001418'}, {'key': 'decreases activity of', 'source': 'InterPro:IPR001418', 'target': 'GO:0019233'}, {'key': 'regulates', 'source': 'GO:0019233', 'target': 'MESH:D059350'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D009020', 'label': 'Drug', 'name': 'morphine'}, {'id': 'InterPro:IPR001418', 'label': 'GeneFamily', 'name': 'Opioid receptor'}, {'id': 'GO:0019233', 'label': 'BiologicalProcess', 'name': 'sensory perception of pain'}, {'id': 'MESH:D059350', 'label': 'Disease', 'name': 'Chronic pain'}], 'reference': ['https://go.drugbank.com/drugs/DB00295#mechanism-of-action', 'https://en.wikipedia.org/wiki/Analgesic#Opioids', 'https://en.wikipedia.org/wiki/Chronic_pain#Opioids']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'comments': 'Etidronate is a weak inhibitor of proton transport in animal models (https://pubmed.ncbi.nlm.nih.gov/8889850/).', 'directed': True, 'graph': {'_id': 'DB01077_MESH_C562390_1', 'disease': 'Humoral Hypercalcemia Of Malignancy', 'disease_mesh': 'MESH:C562390', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D012968', 'target': 'GO:0140603'}, {'key': 'increases activity of', 'source': 'GO:0140603', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'MESH:D012968', 'target': 'UniProt:P38606'}, {'key': 'positively regulates', 'source': 'UniProt:P38606', 'target': 'GO:1902600'}, {'key': 'positively correlated with', 'source': 'GO:1902600', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'MESH:D012968', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'positively regulates', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:C562390'}, {'key': 'molecularly interacts with', 'source': 'MESH:D012968', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:C562390'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:C562390'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0140603', 'label': 'MolecularActivity', 'name': 'ATP hydrolysis activity'}, {'id': 'UniProt:P38606', 'label': 'Protein', 'name': 'V-type proton ATPase catalytic subunit A'}, {'id': 'GO:1902600', 'label': 'BiologicalProcess', 'name': 'proton transmembrane transport'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'MESH:C562390', 'label': 'Disease', 'name': 'Humoral Hypercalcemia Of Malignancy'}], 'reference': ['https://go.drugbank.com/drugs/DB01077#mechanism-of-action', 'https://drugs.ncats.io/drug/M2F465ROXU', 'https://www.caymanchem.com/product/20769/etidronate-(sodium-salt)', 'https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", - "['Drug', 'MolecularActivity', 'Cell', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'comment': 'Etidronate is a weak inhibitor of proton transport in animal models (https://pubmed.ncbi.nlm.nih.gov/8889850/).', 'directed': True, 'graph': {'_id': 'DB01077_MESH_D010001_1', 'disease': 'Osteitis deformans', 'disease_mesh': 'MESH:D010001', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'negatively correlated with', 'source': 'MESH:D012968', 'target': 'GO:0140603'}, {'key': 'increases activity of', 'source': 'GO:0140603', 'target': 'CL:0000092'}, {'key': 'negatively regulates', 'source': 'MESH:D012968', 'target': 'UniProt:P38606'}, {'key': 'positively regulates', 'source': 'UniProt:P38606', 'target': 'GO:1902600'}, {'key': 'positively correlated with', 'source': 'GO:1902600', 'target': 'GO:0045453'}, {'key': 'positively regulates', 'source': 'MESH:D012968', 'target': 'GO:0006915'}, {'key': 'decreases abundance of', 'source': 'GO:0006915', 'target': 'CL:0000092'}, {'key': 'positively regulates', 'source': 'CL:0000092', 'target': 'GO:0045453'}, {'key': 'positively correlated with', 'source': 'GO:0045453', 'target': 'MESH:D010001'}, {'key': 'molecularly interacts with', 'source': 'MESH:D012968', 'target': 'CHEBI:52255'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:0001503'}, {'key': 'positively correlated with', 'source': 'CHEBI:52255', 'target': 'GO:1990523'}, {'key': 'negatively correlated with', 'source': 'GO:1990523', 'target': 'MESH:D010001'}, {'key': 'negatively correlated with', 'source': 'GO:0001503', 'target': 'MESH:D010001'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0140603', 'label': 'MolecularActivity', 'name': 'ATP hydrolysis activity'}, {'id': 'UniProt:P38606', 'label': 'Protein', 'name': 'V-type proton ATPase catalytic subunit A'}, {'id': 'GO:1902600', 'label': 'BiologicalProcess', 'name': 'proton transmembrane transport'}, {'id': 'CHEBI:52255', 'label': 'ChemicalSubstance', 'name': 'hydroxylapatite'}, {'id': 'CL:0000092', 'label': 'Cell', 'name': 'osteoclast'}, {'id': 'GO:0045453', 'label': 'BiologicalProcess', 'name': 'bone resorption'}, {'id': 'GO:0006915', 'label': 'BiologicalProcess', 'name': 'apoptotic process'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'GO:1990523', 'label': 'BiologicalProcess', 'name': 'bone regeneration'}, {'id': 'MESH:D010001', 'label': 'Disease', 'name': 'Osteitis deformans'}], 'reference': ['https://go.drugbank.com/drugs/DB01077#mechanism-of-action', 'https://drugs.ncats.io/drug/M2F465ROXU', 'https://www.caymanchem.com/product/20769/etidronate-(sodium-salt)', 'https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", - "['Drug', 'MolecularActivity', 'Cell', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'Protein', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'BiologicalProcess', 'Disease']\n", - "['Drug', 'ChemicalSubstance', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB01077_MESH_D009999_1', 'disease': 'Heterotopic ossification', 'disease_mesh': 'MESH:D009999', 'drug': 'etidronic acid', 'drug_mesh': 'MESH:D012968', 'drugbank': 'DB:DB01077'}, 'links': [{'key': 'prevents', 'source': 'MESH:D012968', 'target': 'GO:0001503'}, {'key': 'correlated with', 'source': 'GO:0001503', 'target': 'HP:0011849'}, {'key': 'manifestation of', 'source': 'HP:0011849', 'target': 'MESH:D009999'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D012968', 'label': 'Drug', 'name': 'etidronic acid'}, {'id': 'GO:0001503', 'label': 'BiologicalProcess', 'name': 'ossification'}, {'id': 'HP:0011849', 'label': 'PhenotypicFeature', 'name': 'Abnormal bone ossification'}, {'id': 'MESH:D009999', 'label': 'Disease', 'name': 'Heterotopic ossification'}], 'reference': ['https://en.wikipedia.org/wiki/Etidronic_acid#Medical']}\n", - "['Drug', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00384_MESH_D004487_1', 'disease': 'Edema', 'disease_mesh': 'MESH:D004487', 'drug': 'triamterene', 'drug_mesh': 'MESH:D014223', 'drugbank': 'DB:DB00384'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014223', 'target': 'Pfam:PF00858'}, {'key': 'positively regulates', 'source': 'Pfam:PF00858', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'MESH:D004487'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014223', 'label': 'Drug', 'name': 'triamterene'}, {'id': 'Pfam:PF00858', 'label': 'GeneFamily', 'name': 'Amiloride-sensitive sodium channel'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'MESH:D004487', 'label': 'Disease', 'name': 'Edema'}], 'reference': ['https://en.wikipedia.org/wiki/Triamterene#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00384']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00384_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'triamterene', 'drug_mesh': 'MESH:D014223', 'drugbank': 'DB:DB00384'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D014223', 'target': 'Pfam:PF00858'}, {'key': 'positively regulates', 'source': 'Pfam:PF00858', 'target': 'GO:0070294'}, {'key': 'positively correlated with', 'source': 'GO:0070294', 'target': 'GO:0003092'}, {'key': 'positively correlated with', 'source': 'GO:0003092', 'target': 'HP:0011105'}, {'key': 'positively correlated with', 'source': 'HP:0011105', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D014223', 'label': 'Drug', 'name': 'triamterene'}, {'id': 'Pfam:PF00858', 'label': 'GeneFamily', 'name': 'Amiloride-sensitive sodium channel'}, {'id': 'GO:0070294', 'label': 'BiologicalProcess', 'name': 'renal sodium ion absorption'}, {'id': 'GO:0003092', 'label': 'BiologicalProcess', 'name': 'renal water retention'}, {'id': 'HP:0011105', 'label': 'PhenotypicFeature', 'name': 'Hypervolemia'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://en.wikipedia.org/wiki/Triamterene#Mechanism_of_action', 'https://go.drugbank.com/drugs/DB00384', 'https://pubmed.ncbi.nlm.nih.gov/25616035/', 'https://www.heighpubs.org/hjch/ach-aid1011.php']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'commments': 'Antagonism of beta-2-adrenergic receptors may lead to some of the side effects of labetalol (e.g. bronchospasms); however this may be slightly attenuated by alpha-1-adrenergic antagonism (https://pubmed.ncbi.nlm.nih.gov/6354658/).', 'directed': True, 'graph': {'_id': 'DB00598_MESH_D006973_1', 'disease': 'Hypertensive disorder', 'disease_mesh': 'MESH:D006973', 'drug': 'labetalol', 'drug_mesh': 'MESH:D007741', 'drugbank': 'DB:DB00598'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P08588'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P07550'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P35348'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P35368'}, {'key': 'negatively regulates', 'source': 'MESH:D007741', 'target': 'UniProt:P25100'}, {'key': 'participates in', 'source': 'UniProt:P08588', 'target': 'REACT:R-HSA-418555'}, {'key': 'participates in', 'source': 'UniProt:P07550', 'target': 'REACT:R-HSA-418555'}, {'key': 'participates in', 'source': 'UniProt:P35348', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P35368', 'target': 'REACT:R-HSA-416476'}, {'key': 'participates in', 'source': 'UniProt:P25100', 'target': 'REACT:R-HSA-416476'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-418555', 'target': 'GO:0060047'}, {'key': 'positively correlated with', 'source': 'REACT:R-HSA-416476', 'target': 'GO:0042310'}, {'key': 'positively correlated with', 'source': 'GO:0060047', 'target': 'HP:0032263'}, {'key': 'positively correlated with', 'source': 'GO:0042310', 'target': 'HP:0032263'}, {'key': 'manifestation of', 'source': 'HP:0032263', 'target': 'MESH:D006973'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D007741', 'label': 'Drug', 'name': 'labetalol'}, {'id': 'UniProt:P08588', 'label': 'Protein', 'name': 'Beta-1 adrenergic receptor'}, {'id': 'UniProt:P07550', 'label': 'Protein', 'name': 'Beta-2 adrenergic receptor'}, {'id': 'UniProt:P35348', 'label': 'Protein', 'name': 'Alpha-1A adrenergic receptor'}, {'id': 'UniProt:P35368', 'label': 'Protein', 'name': 'Alpha-1B adrenergic receptor'}, {'id': 'UniProt:P25100', 'label': 'Protein', 'name': 'Alpha-1D adrenergic receptor'}, {'id': 'REACT:R-HSA-418555', 'label': 'Pathway', 'name': 'G alpha (s) signalling events'}, {'id': 'REACT:R-HSA-416476', 'label': 'Pathway', 'name': 'G alpha (q) signalling events'}, {'id': 'GO:0042310', 'label': 'BiologicalProcess', 'name': 'vasoconstriction'}, {'id': 'GO:0060047', 'label': 'BiologicalProcess', 'name': 'heart contraction'}, {'id': 'HP:0032263', 'label': 'PhenotypicFeature', 'name': 'Increased blood pressure'}, {'id': 'MESH:D006973', 'label': 'Disease', 'name': 'Hypertensive disorder'}], 'reference': ['https://go.drugbank.com/drugs/DB00598']}\n", - "['Drug', 'Protein', 'Pathway', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comment': \"Note that this drug is used as a support to the treatment of chronic alcoholism by producing an acute sensitivity to ethanol (as part of an avoidance therapy for alcohol abuse). It's been suggested that disulfiram itself is unlikely responsible for the enzyme inactivation in vivo; several active metabolites of the drug, especially diethylthiomethylcarbamate, inhibits the enzyme in vitro (https://pubchem.ncbi.nlm.nih.gov/compound/3117#section=Mechanism-of-Action).\", 'directed': True, 'graph': {'_id': 'DB00822_MESH_D000437_1', 'disease': 'Alcoholism', 'disease_mesh': 'MESH:D000437', 'drug': 'disulfiram', 'drug_mesh': 'MESH:D004221', 'drugbank': 'DB:DB00822'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D004221', 'target': 'UniProt:P05091'}, {'key': 'positively regulates', 'source': 'UniProt:P05091', 'target': 'GO:0006069'}, {'key': 'decreases abundance of', 'source': 'GO:0006069', 'target': 'CHEBI:15343'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002017'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002098'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0001033'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002098'}, {'key': 'positively correlated with', 'source': 'CHEBI:15343', 'target': 'HP:0002017'}, {'key': 'negatively correlated with', 'source': 'HP:0001033', 'target': 'MESH:D000437'}, {'key': 'negatively correlated with', 'source': 'HP:0002098', 'target': 'MESH:D000437'}, {'key': 'negatively correlated with', 'source': 'HP:0002017', 'target': 'MESH:D000437'}], 'multigraph': True, 'nodes': [{'id': 'MESH:D004221', 'label': 'Drug', 'name': 'disulfiram'}, {'id': 'UniProt:P05091', 'label': 'Protein', 'name': 'Aldehyde dehydrogenase, mitochondrial'}, {'id': 'CHEBI:15343', 'label': 'ChemicalSubstance', 'name': 'acetaldehyde'}, {'id': 'GO:0006069', 'label': 'BiologicalProcess', 'name': 'ethanol oxidation'}, {'id': 'HP:0001033', 'label': 'PhenotypicFeature', 'name': 'Facial flushing after alcohol intake'}, {'id': 'HP:0002098', 'label': 'PhenotypicFeature', 'name': 'Respiratory distress'}, {'id': 'HP:0002017', 'label': 'PhenotypicFeature', 'name': 'Nausea and vomiting'}, {'id': 'MESH:D000437', 'label': 'Disease', 'name': 'Alcoholism'}], 'reference': ['https://www.ebi.ac.uk/chembl/compound_report_card/CHEMBL964/', 'https://en.wikipedia.org/wiki/Disulfiram', 'https://en.wikipedia.org/wiki/Acetaldehyde#Aggravating_factors']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'PhenotypicFeature', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB06637_MESH_D009103_1', 'disease': 'Multiple sclerosis', 'disease_mesh': 'MESH:D009103', 'drug': 'fampridine', 'drug_mesh': 'MESH:D015761', 'drugbank': 'DB:DB06637'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:D015761', 'target': 'InterPro:IPR028325'}, {'key': 'negatively regulates', 'source': 'InterPro:IPR028325', 'target': 'GO:0019228'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0019226'}, {'key': 'positively correlated with', 'source': 'GO:0019228', 'target': 'GO:0019227'}, {'key': 'negatively correlated with', 'source': 'GO:0019227', 'target': 'HP:0002355'}, {'key': 'negatively correlated with', 'source': 'GO:0019226', 'target': 'HP:0002355'}, {'key': 'positively correlated with', 'source': 'HP:0002355', 'target': 'MESH:D009103'}], 'multigraph': True, 'nodes': [{'alt_name': ['Dalfampridine', '4-Aminopyridine', '4-AP'], 'id': 'MESH:D015761', 'label': 'Drug', 'name': 'fampridine'}, {'id': 'InterPro:IPR028325', 'label': 'GeneFamily', 'name': 'Voltage-gated potassium channel'}, {'id': 'GO:0019228', 'label': 'BiologicalProcess', 'name': 'neuronal action potential'}, {'id': 'GO:0019227', 'label': 'BiologicalProcess', 'name': 'neuronal action potential propagation'}, {'id': 'GO:0019226', 'label': 'BiologicalProcess', 'name': 'transmission of nerve impulse'}, {'id': 'HP:0002355', 'label': 'PhenotypicFeature', 'name': 'Difficulty walking'}, {'id': 'MESH:D009103', 'label': 'Disease', 'name': 'Multiple sclerosis'}], 'reference': ['https://go.drugbank.com/drugs/DB06637', 'https://en.wikipedia.org/wiki/4-Aminopyridine#Multiple_sclerosis']}\n", - "['Drug', 'GeneFamily', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The disease is denoted as Malignant tumor of testis in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB06810_MESH_D013736_1', 'disease': 'Testicular Neoplasms', 'disease_mesh': 'MESH:D013736', 'drug': 'plicamycin', 'drug_mesh': 'MESH:D008926', 'drugbank': 'DB:DB06810'}, 'links': [{'key': 'disrupts', 'source': 'MESH:D008926', 'target': 'GO:0000785'}, {'key': 'correlated with', 'source': 'GO:0000785', 'target': 'GO:0032774'}, {'key': 'positively correlated with', 'source': 'GO:0032774', 'target': 'GO:0008283'}, {'key': 'positively correlated with', 'source': 'GO:0008283', 'target': 'HP:0031377'}, {'key': 'positively correlated with', 'source': 'HP:0031377', 'target': 'MESH:D013736'}], 'multigraph': True, 'nodes': [{'alt_ids': ['MESH:C066851'], 'id': 'MESH:D008926', 'label': 'Drug', 'name': 'plicamycin'}, {'id': 'GO:0000785', 'label': 'CellularComponent', 'name': 'chromatin'}, {'id': 'GO:0032774', 'label': 'BiologicalProcess', 'name': 'RNA biosynthetic process'}, {'id': 'GO:0008283', 'label': 'BiologicalProcess', 'name': 'cell population proliferation'}, {'id': 'HP:0031377', 'label': 'PhenotypicFeature', 'name': 'Abnormal cell proliferation'}, {'id': 'MESH:D013736', 'label': 'Disease', 'name': 'Testicular Neoplasms'}], 'reference': ['https://go.drugbank.com/drugs/DB06810', 'https://en.wikipedia.org/wiki/Plicamycin']}\n", - "['Drug', 'CellularComponent', 'BiologicalProcess', 'PhenotypicFeature', 'Disease']\n", - "{'comments': 'The disease is denoted as Pityriasis versicolor in the original file as per DrugCentral.', 'directed': True, 'graph': {'_id': 'DB00239_MESH_D014010_1', 'disease': 'Tinea Versicolor', 'disease_mesh': 'MESH:D014010', 'drug': 'oxiconazole', 'drug_mesh': 'MESH:C022155', 'drugbank': 'DB:DB00239'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C022155', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014010'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C022155', 'label': 'Drug', 'name': 'oxiconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014010', 'label': 'Disease', 'name': 'Tinea Versicolor'}], 'reference': ['https://go.drugbank.com/drugs/DB00239', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacology']}\n", - "['Drug', 'Protein', 'BiologicalProcess', 'ChemicalSubstance', 'CellularComponent', 'OrganismTaxon', 'Disease']\n", - "{'directed': True, 'graph': {'_id': 'DB00239_MESH_D014008_1', 'disease': 'Tinea pedis', 'disease_mesh': 'MESH:D014008', 'drug': 'oxiconazole', 'drug_mesh': 'MESH:C022155', 'drugbank': 'DB:DB00239'}, 'links': [{'key': 'negatively regulates', 'source': 'MESH:C022155', 'target': 'UniProt:P10613'}, {'key': 'positively regulates', 'source': 'UniProt:P10613', 'target': 'GO:0006696'}, {'key': 'produces', 'source': 'GO:0006696', 'target': 'CHEBI:16933'}, {'key': 'located in', 'source': 'CHEBI:16933', 'target': 'GO:0030445'}, {'key': 'in taxon', 'source': 'GO:0030445', 'target': 'NCBITaxon:237561'}, {'key': 'causes', 'source': 'NCBITaxon:237561', 'target': 'MESH:D014008'}], 'multigraph': True, 'nodes': [{'id': 'MESH:C022155', 'label': 'Drug', 'name': 'oxiconazole'}, {'id': 'UniProt:P10613', 'label': 'Protein', 'name': 'Lanosterol 14-alpha demethylase'}, {'id': 'GO:0006696', 'label': 'BiologicalProcess', 'name': 'ergosterol biosynthetic process'}, {'id': 'CHEBI:16933', 'label': 'ChemicalSubstance', 'name': 'ergosterol'}, {'id': 'GO:0030445', 'label': 'CellularComponent', 'name': 'yeast-form cell wall'}, {'id': 'NCBITaxon:237561', 'label': 'OrganismTaxon', 'name': 'Candida albicans SC5314'}, {'id': 'MESH:D014008', 'label': 'Disease', 'name': 'Tinea pedis'}], 'reference': ['https://go.drugbank.com/drugs/DB00239', 'https://en.wikipedia.org/wiki/Clotrimazole#Pharmacology']}\n" - ] - }, - { - "name": "stderr", - "output_type": "stream", - "text": [ - "IOPub data rate exceeded.\n", - "The notebook server will temporarily stop sending output\n", - "to the client in order to avoid crashing it.\n", - "To change this limit, set the config variable\n", - "`--NotebookApp.iopub_data_rate_limit`.\n", - "\n", - "Current values:\n", - "NotebookApp.iopub_data_rate_limit=1000000.0 (bytes/sec)\n", - "NotebookApp.rate_limit_window=3.0 (secs)\n", - "\n" - ] - } - ], + "outputs": [], "source": [ "\n", "all_metapath_nodes = defaultdict(list)\n", "for i, p in enumerate(ind):\n", - " print(p)\n", " _id = (p[\"graph\"][\"_id\"])\n", " \n", " drug_id, dis_id = path_to_tup(p)\n", @@ -4096,7 +212,6 @@ " st = 'Drug' #start node\n", " end = 'Disease' #end node\n", " for mp in nx.all_simple_paths(graph, st, end):\n", - " print (mp)\n", " mp_str = (\" - \".join(mp))\n", " all_metapath_nodes[_id].append(mp_str)\n", "\n", @@ -4105,47 +220,6 @@ " next " ] }, - { - "cell_type": "code", - "execution_count": 8, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "3706" - ] - }, - "execution_count": 8, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "len(all_metapath_nodes)" - ] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - }, { "cell_type": "markdown", "metadata": {}, @@ -4155,7 +229,7 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 8, "metadata": {}, "outputs": [], "source": [ @@ -4209,1182 +283,6 @@ " next " ] }, - { - "cell_type": "code", - "execution_count": 10, - "metadata": {}, - "outputs": [ - { - "data": { - "text/plain": [ - "defaultdict(list,\n", - " {'DB00619_MESH_D015464_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", - " 'DB00619_MESH_D034721_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00316_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease',\n", - " 'Drug - negatively regulates - Pathway - affects risk for - Disease'],\n", - " 'DB00316_MESH_D005334_1': ['Drug - negatively regulates - Pathway - occurs in - GrossAnatomicalStructure - location of - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00945_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease'],\n", - " 'DB00945_MESH_D013927_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has output - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00788_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01059_MESH_D004405_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - MolecularActivity - precedes - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01380_MESH_D007634_1': ['Drug - decreases abundance of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - decreases abundance of - Protein - negatively regulates - BiologicalProcess - causes - Disease',\n", - " 'Drug - decreases abundance of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01610_MESH_D003586_1': ['Drug - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00916_MESH_D018805_1': ['Drug - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00618_MESH_D000073605_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01060_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB09335_MESH_D011023_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00479_MESH_D016920_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01234_MESH_D013717_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00438_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB06762_MESH_D006973_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", - " 'DB01263_MESH_D009181_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - located in - CellularComponent - correlated with - Disease'],\n", - " 'DB08799_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01137_MESH_D011704_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00814_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - increases activity of - GeneFamily - causes - Disease'],\n", - " 'DB00393_MESH_D013345_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00326_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", - " 'DB00588_MESH_D001991_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00623_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - manifestation of - Disease'],\n", - " 'DB00342_MESH_D017449_1': ['Drug - decreases activity of - Protein - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01048_MESH_D015658_1': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00717_MESH_D008595_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00246_MESH_D012559_1': ['Drug - decreases activity of - Protein - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00748_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00066_MESH_D016649_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01212_MESH_D006069_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB02703_MESH_D000881_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00682_MESH_D011655_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB09046_MESH_D008060_1': ['Drug - increases activity of - Protein - regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01332_MESH_D007710_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00455_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00935_MESH_D015508_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB01174_MESH_D004827_1': ['Drug - increases activity of - GeneFamily - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00281_MESH_D010146_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00476_MESH_D003865_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00366_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00650_MESH_D000749_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", - " 'DB01211_MESH_D015523_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00350_MESH_D000505_1': ['Drug - positively regulates - Pathway - contributes to - BiologicalProcess - located in - Cell - affected by - Disease',\n", - " 'Drug - positively regulates - Pathway - contributes to - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - produces - Cell - affected by - Disease',\n", - " 'Drug - positively regulates - Protein - participates in - BiologicalProcess - located in - Cell - affected by - Disease',\n", - " 'Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00350_MESH_D006973_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00203_MESH_D007172_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01155_MESH_D018410_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00443_MESH_D003424_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'MESH_C106301_MESH_D003233_1': ['Drug - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00620_MESH_D003424_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00996_MESH_D012148_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01598_MESH_D010538_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00860_MESH_D012507_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB09345_MESH_D010146_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00994_MESH_D007634_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00303_MESH_D018410_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB06786_MESH_D012871_1': ['Drug - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01100_MESH_D005879_1': ['Drug - decreases activity of - Protein - caused by - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01527_MESH_D000856_1': ['Drug - contraindicated for - Disease'],\n", - " 'DB00367_MESH_D008595_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB08908_MESH_D009103_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00638_MESH_D006943_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00344_MESH_D003865_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB13399_MESH_D006976_1': ['Drug - decreases activity of - Protein - positively correlated with - Disease'],\n", - " 'DB12770_MESH_D005764_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB04938_MESH_D004414_1': ['Drug - increases activity of - Protein - molecularly interacts with - ChemicalSubstance - prevents - Disease'],\n", - " 'DB00199_MESH_D008088_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB02362_MESH_D010392_1': ['Drug - treats - Disease'],\n", - " 'DB01067_MESH_D006943_1': ['Drug - decreases activity of - Protein - prevents - Disease'],\n", - " 'DB12212_MESH_D013610_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01106_MESH_D003233_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01418_MESH_D011655_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", - " 'DB14649_MESH_D009101_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB13676_MESH_D012559_1': ['Drug - decreases activity of - Protein - participates in - Pathway - affects risk for - Disease'],\n", - " 'DB00024_MESH_D013964_1': ['Drug - increases activity of - Protein - expressed in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB00524_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09142_MESH_D005705_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB12184_MESH_D003865_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00193_MESH_D010146_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00347_MESH_D004832_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB11901_MESH_D011471_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09105_MESH_D007014_1': ['Drug - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00357_MESH_D001943_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB06785_MESH_D010062_1': ['Drug - decreases activity of - Protein - expressed in - GrossAnatomicalStructure - produces - GeneFamily - causes - Disease'],\n", - " 'DB00130_MESH_D012778_1': ['Drug - produces - Cell - capable of - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01217_MESH_D001943_1': ['Drug - decreases activity of - Protein - produces - ChemicalSubstance - positively regulates - MolecularActivity - correlated with - Disease'],\n", - " 'DB03404_MESH_D017118_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has participant - ChemicalSubstance - manifestation of - Disease'],\n", - " 'DB09166_MESH_D001008_1': ['Drug - increases activity of - Protein - capable of - MolecularActivity - correlated with - Disease'],\n", - " 'DB07565_MESH_D014435_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB11100_MESH_D012628_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00016_MESH_D000740_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - has output - Cell - negatively correlated with - Disease'],\n", - " 'DB00795_MESH_D003093_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00529_MESH_D017726_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00878_MESH_D010518_1': ['Drug - disrupts - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00059_MESH_D054198_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01201_MESH_D014397_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB11152_MESH_D003218_1': ['Drug - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB12131_MESH_D003704_1': ['Drug - decreases activity of - Protein - part of - CellularComponent - correlated with - Disease'],\n", - " 'DB13142_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", - " 'DB01437_MESH_D007319_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01213_MESH_D000138_1': ['Drug - decreases activity of - Protein - participates in - Pathway - has output - ChemicalSubstance - causes - Disease'],\n", - " 'DB04931_MESH_D046351_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB11693_MESH_D014605_1': ['Drug - decreases activity of - Protein - produces - Cell - causes - Disease'],\n", - " 'DB11254_MESH_D014010_1': ['Drug - treats - Disease'],\n", - " 'DB00602_MESH_D009855_1': ['Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB09065_MESH_D015658_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB11945_MESH_D015266_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00253_MESH_D014605_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", - " 'DB00253_MESH_D003320_1': ['Drug - treats - Disease'],\n", - " 'DB00253_MESH_D003233_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", - " 'DB00253_MESH_D012393_1': ['Drug - treats - Disease'],\n", - " 'DB00253_MESH_D007500_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", - " 'DB00253_MESH_D015863_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - contributes to - BiologicalProcess - causes - Disease'],\n", - " 'DB00630_MESH_D015663_1': ['Drug - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00630_MESH_D010001_1': ['Drug - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00861_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00861_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00861_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00861_MESH_D059350_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01324_MESH_D006973_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", - " 'DB06691_MESH_D003139_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - caused by - OrganismTaxon - causes - Disease'],\n", - " 'DB06691_MESH_D003233_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - occurs in - Disease'],\n", - " 'DB06691_MESH_D006255_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB06691_MESH_D012912_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - increases activity of - Cell - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", - " 'DB06691_MESH_D065631_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB06691_MESH_D004412_1': ['Drug - negatively regulates - Protein - expressed in - Cell - contributes to - BiologicalProcess - occurs in - Disease'],\n", - " 'DB06691_MESH_D012223_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - participates in - Disease'],\n", - " 'DB06691_MESH_D014581_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - causes - BiologicalProcess - positively correlated with - PhenotypicFeature - occurs in - Disease'],\n", - " 'DB06691_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - Cell - contributes to - Disease'],\n", - " 'DB08822_MESH_D006973_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", - " 'DB08880_MESH_D009103_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB09310_MESH_C567691_1': ['Drug - chemically similar to - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00115_MESH_D014806_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - positively regulates - Protein - negatively regulates - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00115_MESH_D001361_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - positively regulates - Protein - negatively regulates - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00115_MESH_D000752_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00115_MESH_D018798_1': ['Drug - negatively correlated with - Disease'],\n", - " 'DB00856_MESH_D009128_1': ['Drug - causes - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00983_MESH_D011656_1': ['Drug - positively regulates - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB01200_MESH_D000172_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01200_MESH_D010301_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB01200_MESH_D010300_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB01200_MESH_D006966_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01211_MESH_D013203_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB01211_MESH_D013290_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB01211_MESH_D061387_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB01211_MESH_D011019_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB01211_MESH_D018410_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB01211_MESH_D011018_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - occurs in - Disease'],\n", - " 'DB06799_MESH_D014552_1': ['Drug - produces - ChemicalSubstance - causes - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB09162_MESH_D054559_1': ['Drug - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB12498_MESH_D016411_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00413_MESH_D010300_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB00413_MESH_D012148_1': ['Drug - positively regulates - Protein - positively correlated with - ChemicalSubstance - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00421_MESH_D006929_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB00421_MESH_D004487_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00421_MESH_D001201_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00421_MESH_D006973_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - contributes to - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00601_MESH_D011018_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00601_MESH_D013290_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00601_MESH_D013203_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00601_MESH_D011023_1': ['Drug - negatively regulates - ChemicalSubstance - located in - CellularComponent - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00760_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB00760_MESH_D016920_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00760_MESH_D016920_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00760_MESH_D018784_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB00760_MESH_D008585_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB00760_MESH_D008586_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB01351_MESH_D013226_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01351_MESH_D004827_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01550_MESH_D009765_1': ['Drug - has metabolite - ChemicalSubstance - positively regulates - MolecularActivity - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB06335_MESH_D003924_1': ['Drug - negatively regulates - Protein - negatively regulates - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB08867_MESH_D007889_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00008_MESH_D019698_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00008_MESH_D019698_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00216_MESH_D008881_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00216_MESH_D008881_2': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00216_MESH_D008881_3': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00216_MESH_D008881_4': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00607_MESH_D013203_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00607_MESH_D013203_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00607_MESH_D011023_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00607_MESH_D011023_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00871_MESH_D011656_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00871_MESH_D011656_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00871_MESH_D011537_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00871_MESH_D011537_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00871_MESH_D001249_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00871_MESH_D001249_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00871_MESH_D001991_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00871_MESH_D001991_2': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01141_MESH_D058387_1': ['Drug - negatively regulates - Protein - negatively correlated with - BiologicalProcess - disrupts - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB06708_MESH_D016778_1': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - decreases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", - " 'DB01601_MESH_D015658_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB05352_MESH_D000686_1': ['Drug - increases stability of - Protein - enables - MolecularActivity - causes - BiologicalProcess - causes - Disease'],\n", - " 'DB12459_MESH_D002289_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB12459_MESH_D010051_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00182_MESH_D009765_1': ['Drug - decreases uptake of - Protein - causes - ChemicalSubstance - located in - GrossAnatomicalStructure - decreases abundance of - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00182_MESH_D009765_2': ['Drug - decreases uptake of - Protein - causes - ChemicalSubstance - located in - GrossAnatomicalStructure - decreases abundance of - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00182_MESH_D009290_1': ['Drug - decreases uptake of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - treats - Disease'],\n", - " 'DB00182_MESH_D009290_2': ['Drug - decreases activity of - GeneFamily - located in - CellularComponent - increases abundance of - ChemicalSubstance - treats - Disease'],\n", - " 'DB00182_MESH_D001289_1': ['Drug - decreases uptake of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - negatively correlated with - Disease'],\n", - " 'DB00182_MESH_D001289_2': ['Drug - decreases activity of - Protein - located in - CellularComponent - increases abundance of - ChemicalSubstance - regulates - Disease'],\n", - " 'DB00182_MESH_D001289_3': ['Drug - contributes to - Protein - located in - CellularComponent - treats - Disease'],\n", - " 'DB00182_MESH_D001289_4': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - causes - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00182_MESH_D001289_5': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - causes - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00435_MESH_D010547_1': ['Drug - positively regulates - PhenotypicFeature - located in - GrossAnatomicalStructure - causes - Disease'],\n", - " 'DB00435_MESH_D006976_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00568_MESH_D009325_1': ['Drug - negatively regulates - GeneFamily - treats - Disease'],\n", - " 'DB00568_MESH_D014717_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - treats - Disease'],\n", - " 'DB00568_MESH_D014717_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - treats - Disease'],\n", - " 'DB00568_MESH_D009041_1': ['Drug - negatively regulates - GeneFamily - treats - Disease'],\n", - " 'DB00655_MESH_D000152_1': ['Drug - increases abundance of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", - " 'DB00655_MESH_D010024_1': ['Drug - regulates - ChemicalSubstance - treats - Disease'],\n", - " 'DB01294_MESH_D003967_1': ['Drug - increases uptake of - ChemicalSubstance - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB01294_MESH_D003967_2': ['Drug - produces - ChemicalSubstance - negatively regulates - Pathway - regulates - BiologicalProcess - located in - GrossAnatomicalStructure - treats - Disease'],\n", - " 'DB01294_MESH_D004415_1': ['Drug - molecularly interacts with - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB01105_MESH_D009765_1': ['Drug - decreases abundance of - ChemicalSubstance - regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB01105_MESH_D009765_2': ['Drug - decreases abundance of - ChemicalSubstance - regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB09010_MESH_D003110_1': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - correlated with - Disease'],\n", - " 'DB09010_MESH_D000086382_1': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB01685_MESH_D033461_1': ['Drug - decreases activity of - Protein - affects uptake of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB01685_MESH_D033461_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB01685_MESH_D006073_1': ['Drug - decreases activity of - Protein - affects uptake of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB01685_MESH_D006073_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB09357_MESH_D007418_1': ['Drug - produces - ChemicalSubstance - actively involved in - Pathway - located in - Cell - treats - Disease'],\n", - " 'DB09357_MESH_D018589_1': ['Drug - produces - ChemicalSubstance - actively involved in - Pathway - located in - Cell - treats - Disease'],\n", - " 'DB09357_MESH_D003963_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", - " 'DB09357_MESH_D004485_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", - " 'DB09357_MESH_D012871_1': ['Drug - increases activity of - BiologicalProcess - treats - Disease'],\n", - " 'DB00007_MESH_D004715_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00007_MESH_D011629_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00222_MESH_D003924_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00250_MESH_D003874_1': ['Drug - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00250_MESH_D000152_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00250_MESH_D007918_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00250_MESH_D007918_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00332_MESH_D011656_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00332_MESH_D029424_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00332_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00332_MESH_D001986_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00332_MESH_D001991_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00408_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00408_MESH_D001714_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01101_MESH_D013274_1': ['Drug - produces - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00991_MESH_D010003_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB00991_MESH_D001171_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB00991_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB01100_MESH_D005879_2': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01708_MESH_D004414_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", - " 'DB01708_MESH_D008180_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - CellularComponent - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - CellularComponent - positively correlated with - Disease'],\n", - " 'DB04865_MESH_D015464_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", - " 'DBDB08902_MESH_C571912_1': ['Drug - decreases activity of - Protein - produced by - OrganismTaxon - causes - Disease'],\n", - " 'DB12417_MESH_D003924_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00283_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00283_MESH_D011537_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00283_MESH_D012912_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00283_MESH_D012223_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00283_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00283_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00360_MESH_D010661_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB00626_MESH_D007634_1': ['Drug - decreases abundance of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00994_MESH_D014552_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00994_MESH_D010032_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00994_MESH_D014605_1': ['Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00994_MESH_D006501_1': ['Drug - decreases activity of - ChemicalSubstance - in taxon - OrganismTaxon - regulates - BiologicalProcess - prevents - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01307_MESH_D003920_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01606_MESH_D000077299_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01606_MESH_D018410_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01606_MESH_D013203_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01606_MESH_D001064_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01606_MESH_D018784_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB12319_MESH_D033461_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB12319_MESH_D006073_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01579_MESH_D009765_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - prevents - Disease'],\n", - " 'DB01579_MESH_D009765_2': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - prevents - Disease'],\n", - " 'DB01579_MESH_D009765_3': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - treats - Disease'],\n", - " 'DB01579_MESH_D009765_4': ['Drug - negatively regulates - Protein - increases abundance of - ChemicalSubstance - increases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01579_MESH_D009765_5': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - treats - Disease'],\n", - " 'DB00313_MESH_D004832_1': ['Drug - decreases activity of - Protein - disrupts - Pathway - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00313_MESH_D004832_2': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00313_MESH_D004832_3': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00313_MESH_D004832_4': ['Drug - decreases activity of - Protein - prevents - Disease'],\n", - " 'DB00313_MESH_D004832_5': ['Drug - decreases activity of - Protein - disrupts - Pathway - positively regulates - BiologicalProcess - treats - Disease'],\n", - " 'DB00313_MESH_D004832_6': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00313_MESH_D004832_7': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00313_MESH_D004832_8': ['Drug - molecularly interacts with - Protein - positively regulates - BiologicalProcess - treats - Disease'],\n", - " 'DB00313_MESH_D004832_9': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00313_MESH_D001714_1': ['Drug - decreases activity of - GeneFamily - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB00313_MESH_D001714_2': ['Drug - negatively regulates - Protein - located in - GrossAnatomicalStructure - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00313_MESH_D001714_3': ['Drug - negatively regulates - Protein - located in - GrossAnatomicalStructure - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00313_MESH_D004827_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00313_MESH_D004827_2': ['Drug - negatively regulates - Pathway - disrupts - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00313_MESH_D004827_3': ['Drug - negatively regulates - Pathway - disrupts - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00313_MESH_D004827_4': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00313_MESH_D008881_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - participates in - Pathway - treats - Disease'],\n", - " 'DB00495_MESH_D015658_1': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - expressed in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00495_MESH_D015658_2': ['Drug - increases abundance of - ChemicalSubstance - decreases activity of - Protein - in taxon - OrganismTaxon - expressed in - BiologicalProcess - causes - Disease'],\n", - " 'DB01227_MESH_D009293_1': ['Drug - increases activity of - Protein - causes - BiologicalProcess - causes - Disease'],\n", - " 'DB01227_MESH_D009293_2': ['Drug - increases activity of - Protein - produces - BiologicalProcess - causes - Disease'],\n", - " 'DB01210_MESH_D005902_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01210_MESH_D005902_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01210_MESH_D005902_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB01210_MESH_D005902_4': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB01210_MESH_D009798_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01210_MESH_D009798_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01210_MESH_D009798_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB01210_MESH_D009798_4': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB00027_MESH_D003234_1': ['Drug - directly interacts with - CellularComponent - increases activity of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00027_MESH_D003234_2': ['Drug - causes - BiologicalProcess - treats - Disease'],\n", - " 'DB00758_MESH_D054058_1': ['Drug - enabled by - Protein - located in - Cell - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00758_MESH_D054058_2': ['Drug - enabled by - Protein - located in - Cell - prevents - ChemicalSubstance - decreases activity of - MacromolecularComplex - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00758_MESH_D020766_1': ['Drug - enabled by - Protein - located in - Cell - prevents - BiologicalProcess - causes - Disease'],\n", - " 'DB00758_MESH_D020766_2': ['Drug - enabled by - Protein - located in - Cell - prevents - ChemicalSubstance - decreases activity of - MacromolecularComplex - prevents - BiologicalProcess - causes - Disease'],\n", - " 'DB08873_MESH_D019698_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB08873_MESH_D019698_2': ['Drug - decreases activity of - Protein - affects activity of - BiologicalProcess - located in - OrganismTaxon - treats - Disease'],\n", - " 'DB01282_MESH_D011218_1': ['Drug - treats - Disease'],\n", - " 'DB01282_MESH_D006473_1': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - increases activity of - BiologicalProcess - prevents - Disease'],\n", - " 'DB00671_MESH_D006069_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D006069_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D014069_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D014069_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D013290_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D013290_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D001991_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D001991_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D014552_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D014552_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D010612_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D010612_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00671_MESH_D012141_1': ['Drug - increases activity of - Protein - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00671_MESH_D012141_2': ['Drug - molecularly interacts with - Protein - located in - CellularComponent - location of - OrganismTaxon - decreases activity of - BiologicalProcess - treats - Disease',\n", - " 'Drug - molecularly interacts with - Protein - contributes to - BiologicalProcess - treats - Disease'],\n", - " 'DB00835_MESH_D006255_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D006255_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D006255_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00835_MESH_D014581_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D014581_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D014581_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00835_MESH_D011537_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D011537_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D011537_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00835_MESH_D003233_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D003233_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D003233_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00835_MESH_D012223_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D012223_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D012223_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00835_MESH_D065631_1': ['Drug - decreases activity of - Protein - decreases molecular interaction - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00835_MESH_D065631_2': ['Drug - decreases activity of - Protein - treats - Disease'],\n", - " 'DB00835_MESH_D065631_3': ['Drug - decreases activity of - GeneFamily - treats - Disease'],\n", - " 'DB12459_MESH_D010051_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB12459_MESH_D002289_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00325_MESH_D006973_1': ['Drug - produces - ChemicalSubstance - positively regulates - BiologicalProcess - negatively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00813_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", - " 'DB00901_MESH_D001991_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00901_MESH_D001987_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00901_MESH_D001249_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00901_MESH_D011656_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01119_MESH_D007340_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB01119_MESH_D006946_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB01119_MESH_D046768_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB02659_MESH_D001660_1': ['Drug - produced by - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB02659_MESH_D002769_1': ['Drug - treats - Disease'],\n", - " 'DB02659_MESH_D003248_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB02659_MESH_D019294_1': ['Drug - produced by - Protein - negatively correlated with - Disease',\n", - " 'Drug - produced by - Protein - decreases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB08976_MESH_D059787_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB09076_MESH_D029424_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB09488_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - participates in - Disease'],\n", - " 'DB09488_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB09488_MESH_D006255_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB09488_MESH_D012912_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", - " 'DB09488_MESH_D003139_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - caused by - OrganismTaxon - causes - Disease'],\n", - " 'DB09488_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB09552_MESH_D010032_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB12159_MESH_D003876_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00051_MESH_D017497_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D001172_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D001171_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D015535_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D013167_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D003424_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00051_MESH_D003093_1': ['Drug - decreases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00107_MESH_D006473_1': ['Drug - increases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00811_MESH_D019698_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00811_MESH_D018357_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01091_MESH_D014008_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01091_MESH_D014010_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01188_MESH_D014010_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01188_MESH_D002179_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01188_MESH_D014008_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01188_MESH_D014009_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01188_MESH_D012628_1': ['Drug - disrupts - CellularComponent - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - capable of - MolecularActivity - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01388_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01388_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB08792_MESH_D000562_1': ['Drug - treats - Disease'],\n", - " 'DB08896_MESH_D046152_1': ['Drug - decreases activity of - Protein - participates in - Pathway - contributes to - BiologicalProcess - causes - Disease'],\n", - " 'DB11362_MESH_D000081029_1': ['Drug - increases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB11943_MESH_D017192_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB12523_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB02329_MESH_D010437_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively regulates - ChemicalSubstance - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB12523_MESH_D012221_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_3': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_4': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00871_MESH_D015352_1': ['Drug - positively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_5': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB05812_MESH_D011471_6': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - produces - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB00198_MESH_D007251_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00285_MESH_D016584_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D016584_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D000072861_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D000072861_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D000072861_3': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D003865_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D003865_3': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00543_MESH_D003866_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00285_MESH_D003866_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00543_MESH_D003866_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB12248_MESH_D001249_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB12248_MESH_D011656_1': ['Drug - positively regulates - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB06817_MESH_D015658_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB11614_MESH_D065631_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB11614_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB08909_MESH_D056806_1': ['Drug - derives into - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB01436_MESH_D007011_1': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D007011_2': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D007011_3': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D012080_1': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D012080_2': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D012080_3': ['Drug - interacts with - Protein - increases abundance of - ChemicalSubstance - treats - Disease',\n", - " 'Drug - interacts with - Protein - positively regulates - BiologicalProcess - increases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB01436_MESH_D006961_1': ['Drug - increases activity of - Protein - decreases secretion of - ChemicalSubstance - treats - Disease'],\n", - " 'DB13158_MESH_D004485_1': ['Drug - increases activity of - Protein - decreases activity of - ChemicalSubstance - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB13158_MESH_D003876_1': ['Drug - increases activity of - Protein - decreases activity of - ChemicalSubstance - positively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB04932_MESH_D006504_1': ['Drug - increases activity of - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", - " 'DB04932_MESH_D006504_2': ['Drug - increases activity of - ChemicalSubstance - participates in - BiologicalProcess - correlated with - Disease'],\n", - " 'DB04932_MESH_D006504_3': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", - " 'DB04846_MESH_D006973_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - causes - Disease'],\n", - " 'DB04846_MESH_D000787_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - treats - Disease'],\n", - " 'DB00981_MESH_D005902_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - increases activity of - GeneFamily - treats - Disease'],\n", - " 'DB00981_MESH_D005902_2': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - increases activity of - GeneFamily - treats - Disease'],\n", - " 'DB13001_MESH_D010146_1': ['Drug - decreases activity of - Protein - decreases activity of - Pathway - treats - Disease'],\n", - " 'DB01080_MESH_D013036_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - treats - Disease'],\n", - " 'DB00447_MESH_D012141_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D011014_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D001991_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D013290_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00447_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - contributes to - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB08882_MESH_D003924_1': ['Drug - decreases activity of - Protein - positively regulates - ChemicalSubstance - treats - Disease'],\n", - " 'DB08882_MESH_D003924_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", - " 'DB08882_MESH_D003924_3': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - treats - Disease'],\n", - " 'DB08882_MESH_D003924_4': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - treats - Disease'],\n", - " 'DB08882_MESH_D003924_5': ['Drug - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB00488_MESH_D010051_1': ['Drug - increases activity of - GeneFamily - produces - ChemicalSubstance - enabled by - MolecularActivity - disrupts - Cell - causes - Disease'],\n", - " 'DB00488_MESH_D010051_2': ['Drug - increases activity of - GeneFamily - produces - ChemicalSubstance - enabled by - MolecularActivity - disrupts - Cell - causes - Disease'],\n", - " 'DB00383_MESH_D010437_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB00550_MESH_D006980_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00550_MESH_D013958_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00564_MESH_D014277_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB00564_MESH_D004830_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00564_MESH_D020435_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB00564_MESH_D004828_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00564_MESH_D065768_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00564_MESH_D012640_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00564_MESH_D004827_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00611_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", - " 'DB00611_MESH_D048949_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", - " 'DB00647_MESH_D010146_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - positively regulates - Cell - positively correlated with - Disease'],\n", - " 'DB01087_MESH_D016780_1': ['Drug - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01340_MESH_D006973_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - Disease'],\n", - " 'DB06196_MESH_D054179_1': ['Drug - decreases activity of - Protein - molecularly interacts with - ChemicalSubstance - contributes to - BiologicalProcess - has phenotype - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB06756_MESH_D006712_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB06756_MESH_D003556_1': ['Drug - contributes to - PhenotypicFeature - negatively correlated with - Disease'],\n", - " 'DB06770_MESH_D011537_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", - " 'DB09211_MESH_D013919_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00241_MESH_D018781_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00740_MESH_D000690_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - Disease',\n", - " 'Drug - decreases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - Disease'],\n", - " 'DB00999_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00999_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", - " 'DB01029_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", - " 'DB01029_MESH_D003928_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - causes - Disease'],\n", - " 'DB04574_MESH_D059268_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB06616_MESH_D001752_1': ['Drug - decreases activity of - Protein - causes - Disease'],\n", - " 'DB07402_MESH_D013167_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB07402_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB07402_MESH_D006073_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB07402_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - causes - Disease'],\n", - " 'DB09321_MESH_D005076_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09321_MESH_D014008_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", - " 'DB09321_MESH_D002179_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease'],\n", - " 'DB09321_MESH_D011537_1': ['Drug - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB09321_MESH_D011538_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB09321_MESH_D006484_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09321_MESH_D003963_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09321_MESH_D011349_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09321_MESH_D014010_1': ['Drug - decreases abundance of - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - occurs in - Disease'],\n", - " 'DB00781_MESH_D014605_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00781_MESH_D003234_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00781_MESH_D014552_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00781_MESH_D010032_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00781_MESH_D007634_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - GeneFamily - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00828_MESH_D014552_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - part of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00494_MESH_D010300_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00136_MESH_D017674_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00136_MESH_D006996_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00136_MESH_D007011_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00136_MESH_D012080_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00165_MESH_D026681_1': ['Drug - interacts with - Protein - positively regulates - MolecularActivity - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB09304_MESH_D003866_1': ['Drug - decreases activity of - Protein - correlated with - BiologicalProcess - correlated with - Disease'],\n", - " 'DB09304_MESH_D003866_2': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00411_MESH_D005902_1': ['Drug - increases activity of - GeneFamily - participates in - Pathway - positively correlated with - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00411_MESH_D005902_2': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - located in - CellularComponent - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00799_MESH_D000152_1': ['Drug - increases activity of - Protein - negatively correlated with - Pathway - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00799_MESH_D011565_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB04930_MESH_D012532_1': ['Drug - disrupts - Protein - positively regulates - BiologicalProcess - occurs in - Cell - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00850_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB06237_MESH_D007172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - located in - GrossAnatomicalStructure - participates in - Disease'],\n", - " 'DB00878_MESH_D005891_1': ['Drug - disrupts - CellularComponent - causes - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00651_MESH_D000080445_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D000080445_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D029481_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D029481_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D001986_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D001986_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D011656_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D011656_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D001249_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00651_MESH_D001249_2': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11574_MESH_D019698_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB11574_MESH_D019698_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09078_MESH_D000077273_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D000077273_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D000077273_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D000077273_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D000077273_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D018263_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D018263_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D018263_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D018263_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D018263_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D002292_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D002292_2': ['Drug - decreases activity of - GeneFamily - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D002292_3': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D002292_4': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB09078_MESH_D002292_5': ['Drug - decreases activity of - Protein - disrupts - BiologicalProcess - located in - Cell - participates in - Disease'],\n", - " 'DB06655_MESH_D003924_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB11750_MESH_D003876_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D003876_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D003877_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D003877_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D012628_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D012628_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D012536_1': ['Drug - positively regulates - Protein - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB11750_MESH_D012536_2': ['Drug - increases activity of - ChemicalSubstance - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB08865_MESH_D002289_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB08865_MESH_D002289_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB08865_MESH_D002289_3': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00508_MESH_D011618_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00508_MESH_D011618_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00508_MESH_D011618_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00508_MESH_D011618_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00508_MESH_D011618_5': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00508_MESH_D014839_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00508_MESH_D014839_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00508_MESH_D014839_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00508_MESH_D014839_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00508_MESH_D009325_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00508_MESH_D009325_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00508_MESH_D009325_3': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00508_MESH_D009325_4': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00404_MESH_D001007_1': ['Drug - positively regulates - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - actively involved in - Disease'],\n", - " 'DB00404_MESH_D016584_1': ['Drug - positively regulates - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - GrossAnatomicalStructure - positively regulates - BiologicalProcess - actively involved in - Disease'],\n", - " 'DB00921_MESH_D059350_1': ['Drug - increases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - ameliorates - Disease'],\n", - " 'DB00921_MESH_D059350_2': ['Drug - decreases activity of - Protein - decreases response to - PhenotypicFeature - positively regulates - BiologicalProcess - ameliorates - Disease'],\n", - " 'DB00921_MESH_D009293_1': ['Drug - increases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - ameliorates - Disease'],\n", - " 'DB00921_MESH_D009293_2': ['Drug - decreases activity of - Protein - decreases response to - PhenotypicFeature - caused by - BiologicalProcess - ameliorates - Disease'],\n", - " 'DB08998_MESH_D003866_1': ['Drug - decreases activity of - BiologicalProcess - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01167_MESH_D006660_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01167_MESH_D001759_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01167_MESH_D055744_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01167_MESH_D060585_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01167_MESH_D058387_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01167_MESH_D001228_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - affects synthesis of - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB04861_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB04861_MESH_D006973_2': ['Drug - decreases activity of - ChemicalSubstance - regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB04861_MESH_D006973_3': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - prevents - Disease'],\n", - " 'DB01113_MESH_D016491_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB01132_MESH_D003924_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB01132_MESH_D003924_2': ['Drug - increases activity of - Protein - negatively regulates - Pathway - increases response to - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB01132_MESH_D003924_3': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB00489_MESH_D001281_1': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - negatively regulates - BiologicalProcess - caused by - Disease'],\n", - " 'DB00489_MESH_D001281_2': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - caused by - Disease'],\n", - " 'DB00708_MESH_D010149_1': ['Drug - increases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - disrupts - BiologicalProcess - ameliorates - Disease'],\n", - " 'DB00775_MESH_D054058_1': ['Drug - decreases activity of - MacromolecularComplex - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00385_MESH_D001749_1': ['Drug - decreases activity of - Protein - causes - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", - " 'DB00385_MESH_D001749_2': ['Drug - decreases activity of - GeneFamily - negatively regulates - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", - " 'DB00313_MESH_D001714_4': ['Drug - negatively regulates - Protein - contributes to - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", - " 'DB00313_MESH_D001714_5': ['Drug - negatively regulates - Protein - contributes to - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", - " 'DB00313_MESH_D008881_2': ['Drug - decreases activity of - Protein - located in - GrossAnatomicalStructure - decreases abundance of - ChemicalSubstance - participates in - Pathway - prevents - Disease'],\n", - " 'DB01282_MESH_D006473_2': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB00248_MESH_D006966_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00289_MESH_D001289_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - decreases activity of - MolecularActivity - participates in - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00400_MESH_D014008_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00400_MESH_D014006_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00400_MESH_D014009_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00783_MESH_D065446_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB00783_MESH_D019584_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", - " 'DB00783_MESH_D015663_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00783_MESH_D059268_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", - " 'DB00783_MESH_D000152_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB00829_MESH_D013742_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00829_MESH_D009128_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00829_MESH_D000430_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00829_MESH_D013226_1': ['Drug - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00829_MESH_D004827_1': ['Drug - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00842_MESH_D000430_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00842_MESH_D001007_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively regulates - Disease'],\n", - " 'DB09081_MESH_D029242_1': ['Drug - positively regulates - BiologicalProcess - has participant - CellularComponent - disrupted by - Disease'],\n", - " 'DB00331_MESH_D003924_1': ['Drug - decreases activity of - Protein - part of - BiologicalProcess - negatively regulates - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", - " 'Drug - decreases activity of - Protein - part of - BiologicalProcess - decreases abundance of - ChemicalSubstance - decreases activity of - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", - " 'Drug - decreases activity of - Protein - part of - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - negatively regulates - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - decreases abundance of - ChemicalSubstance - decreases activity of - MolecularActivity - increases activity of - GeneFamily - negatively regulates - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00515_MESH_D010051_1': ['Drug - negatively regulates - BiologicalProcess - part of - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - disrupts - ChemicalSubstance - participates in - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00643_MESH_D014257_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00643_MESH_D001196_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00643_MESH_D017229_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - disrupts - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00848_MESH_D001196_1': ['Drug - increases activity of - Protein - positively regulates - PhenotypicFeature - negatively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00848_MESH_D000724_1': ['Drug - increases activity of - Protein - positively regulates - PhenotypicFeature - negatively correlated with - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01130_MESH_D009450_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01130_MESH_D011538_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01130_MESH_D016410_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - occurs in - Disease'],\n", - " 'DB01130_MESH_D003877_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01130_MESH_D003876_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01130_MESH_D016460_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01130_MESH_D005076_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01130_MESH_D012628_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01130_MESH_D008179_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01233_MESH_D005764_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - GrossAnatomicalStructure - negatively regulates - Disease',\n", - " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01577_MESH_D009765_1': ['Drug - positively regulates - MolecularActivity - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB05266_MESH_D001249_1': ['Drug - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB06702_MESH_D053202_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09559_MESH_D002289_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00310_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", - " 'DB00310_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - PhenotypicFeature - contributes to - Disease'],\n", - " 'DB00553_MESH_D016410_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - PhenotypicFeature - causes - Disease'],\n", - " 'DB00553_MESH_D014820_1': ['Drug - positively regulates - Cell - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00622_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00622_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00747_MESH_D043183_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - Disease'],\n", - " 'DB00747_MESH_D015878_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00747_MESH_D015863_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00747_MESH_D014605_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00747_MESH_D012223_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", - " 'DB00747_MESH_D009041_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - PhenotypicFeature - occurs in - Disease'],\n", - " 'DB00747_MESH_D003139_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", - " 'DB00747_MESH_D065631_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - GrossAnatomicalStructure - occurs in - Disease'],\n", - " 'DB00747_MESH_D003371_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively regulates - Disease'],\n", - " 'DB00747_MESH_D010437_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB00865_MESH_D009765_1': ['Drug - increases activity of - Protein - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01263_MESH_D008271_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01263_MESH_D001228_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01263_MESH_D002862_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01263_MESH_D060585_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01263_MESH_D003047_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01263_MESH_D002177_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB05659_MESH_D017192_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB05659_MESH_D012141_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00026_MESH_D001172_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - Pathway - positively regulates - PhenotypicFeature - occurs in - Disease'],\n", - " 'DB00026_MESH_D056587_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00065_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00065_MESH_D003093_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00065_MESH_D003424_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00065_MESH_D013167_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00065_MESH_D015535_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00423_MESH_D009128_1': ['Drug - causes - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00496_MESH_D053202_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00547_MESH_D016410_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - occurs in - Disease'],\n", - " 'DB00547_MESH_D016460_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00547_MESH_D011538_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00547_MESH_D008179_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00547_MESH_D003876_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00547_MESH_D009450_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - contributes to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00547_MESH_D003877_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00547_MESH_D005076_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00547_MESH_D012628_1': ['Drug - increases activity of - Protein - negatively regulates - Pathway - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB00918_MESH_D008881_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - negatively regulates - Disease',\n", - " 'Drug - increases activity of - Protein - decreases activity of - GrossAnatomicalStructure - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09041_MESH_D014009_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01193_MESH_D018879_1': ['Drug - decreases activity of - Protein - negatively regulates - PhenotypicFeature - ameliorates - Disease'],\n", - " 'DB00414_MESH_D003924_1': ['Drug - increases activity of - Cell - increases secretion of - ChemicalSubstance - ameliorates - Disease'],\n", - " 'DB00964_MESH_D005902_1': ['Drug - increases activity of - Protein - decreases synthesis of - GrossAnatomicalStructure - negatively regulates - PhenotypicFeature - ameliorates - Disease',\n", - " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - ameliorates - Disease'],\n", - " 'DB05015_MESH_D016411_1': ['Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - PhenotypicFeature - correlated with - Disease',\n", - " 'Drug - decreases activity of - GeneFamily - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - correlated with - Disease'],\n", - " 'DB00468_MESH_D016778_1': ['Drug - decreases activity of - Protein - disrupts - GeneFamily - increases abundance of - ChemicalSubstance - enables - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00468_MESH_D016778_2': ['Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - Pathway - enables - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00700_MESH_D006973_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - decreases abundance of - PhenotypicFeature - prevents - Disease',\n", - " 'Drug - decreases activity of - Protein - decreases abundance of - PhenotypicFeature - prevents - Disease'],\n", - " 'DB04854_MESH_D033461_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB00053_MESH_D005776_1': ['Drug - increases degradation of - ChemicalSubstance - enables - Pathway - prevents - Disease'],\n", - " 'DB01131_MESH_D016778_1': ['Drug - decreases activity of - Protein - decreases synthesis of - Pathway - disrupts - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D004697_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D018784_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D059413_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D011018_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D018410_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB01597_MESH_D004716_1': ['Drug - negatively regulates - OrganismTaxon - causes - Disease'],\n", - " 'DB00575_MESH_D006973_1': ['Drug - increases activity of - Protein - coexists with - GeneFamily - positively regulates - MolecularActivity - causes - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00575_MESH_D006973_2': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - decreases activity of - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00575_MESH_D001289_1': ['Drug - increases activity of - Protein - located in - GrossAnatomicalStructure - prevents - BiologicalProcess - disrupts - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00575_MESH_D005902_1': ['Drug - increases activity of - Protein - decreases activity of - BiologicalProcess - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB01164_MESH_D007008_1': ['Drug - treats - Disease'],\n", - " 'DB01164_MESH_D006947_1': ['Drug - regulates - BiologicalProcess - located in - GrossAnatomicalStructure - ameliorates - Disease'],\n", - " 'DB01164_MESH_D006323_1': ['Drug - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - correlated with - Disease'],\n", - " 'DB01164_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - located in - GrossAnatomicalStructure - ameliorates - Disease'],\n", - " 'DB00302_MESH_D004715_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00302_MESH_D008595_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00347_MESH_D004827_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00668_MESH_D005902_1': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00668_MESH_D005902_2': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00668_MESH_D005902_3': ['Drug - decreases activity of - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - occurs in - Cell - disrupted by - Disease'],\n", - " 'DB00668_MESH_D000707_1': ['Drug - increases activity of - Protein - participates in - Pathway - negatively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - Pathway - negatively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00668_MESH_D007022_1': ['Drug - increases activity of - Protein - participates in - Pathway - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - negatively correlated with - Disease'],\n", - " 'DB06823_MESH_D003555_1': ['Drug - decreases abundance of - ChemicalSubstance - causes - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00930_MESH_D006937_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB05219_MESH_D003876_1': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09053_MESH_D008258_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB09053_MESH_D020522_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01037_MESH_D010300_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01037_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01261_MESH_D003924_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB05229_MESH_D000081029_1': ['Drug - increases activity of - Protein - decreases abundance of - ChemicalSubstance - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB08871_MESH_D008080_1': ['Drug - negatively regulates - MacromolecularComplex - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB11915_MESH_D000071057_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Pathway - positively correlated with - Disease'],\n", - " 'DB12323_MESH_D015464_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - GeneFamily - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_3': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_4': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_5': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_6': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_7': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01244_MESH_D000787_8': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB13761_MESH_D007787_1': ['Drug - increases degradation of - ChemicalSubstance - positively correlated with - BiologicalProcess - disrupted by - Disease'],\n", - " 'DB00977_MESH_D065446_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB00977_MESH_D019584_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - treats - Disease'],\n", - " 'DB00977_MESH_D000152_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - negatively regulates - Cell - positively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB00977_MESH_D059268_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - prevents - Disease'],\n", - " 'DB00977_MESH_D015663_1': ['Drug - increases activity of - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00067_MESH_D006467_1': ['Drug - increases abundance of - Protein - disrupted by - Disease'],\n", - " 'DB00067_MESH_D053206_1': ['Drug - negatively regulates - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00067_MESH_D014842_1': ['Drug - increases abundance of - Protein - disrupted by - Disease'],\n", - " 'DB00203_MESH_D007172_2': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00203_MESH_D000081029_1': ['Drug - decreases activity of - Protein - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00491_MESH_D003924_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB00738_MESH_D014353_1': ['Drug - disrupts - ChemicalSubstance - occurs in - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB00995_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - causes - Disease',\n", - " 'Drug - negatively regulates - Cell - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01004_MESH_D007635_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01004_MESH_D017726_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01064_MESH_D006323_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01064_MESH_D054537_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01064_MESH_D002303_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01064_MESH_D003139_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - occurs in - Disease',\n", - " 'Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - occurs in - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - occurs in - Disease',\n", - " 'Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - occurs in - Disease'],\n", - " 'DB01064_MESH_D012769_1': ['Drug - increases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB06692_MESH_D006470_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09036_MESH_D005871_1': ['Drug - decreases activity of - Protein - positively correlated with - Disease'],\n", - " 'DB11770_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00434_MESH_D003233_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively regulates - GrossAnatomicalStructure - positively regulates - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00434_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - Cell - contributes to - Disease'],\n", - " 'DB00434_MESH_D014581_1': ['Drug - decreases activity of - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00434_MESH_D012912_1': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", - " 'DB00434_MESH_D065631_1': ['Drug - negatively regulates - Protein - positively correlated with - ChemicalSubstance - positively regulates - CellularComponent - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - affected by - Disease'],\n", - " 'DB00960_MESH_D006973_1': ['Drug - decreases activity of - Protein - positively regulates - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00188_MESH_D020522_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - decreases activity of - CellularComponent - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00188_MESH_D009101_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - decreases activity of - CellularComponent - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01042_MESH_D010051_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01042_MESH_D009101_1': ['Drug - disrupts - ChemicalSubstance - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01138_MESH_D033461_1': ['Drug - decreases activity of - Protein - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01397_MESH_D001416_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D002062_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D018771_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D013585_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D004412_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D005334_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - Disease'],\n", - " 'DB01397_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB01397_MESH_D020773_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB06794_MESH_D003233_1': ['Drug - negatively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB09449_MESH_D003248_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00434_MESH_D012912_2': ['Drug - decreases activity of - Protein - participates in - MolecularActivity - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - contributes to - Disease'],\n", - " 'DB00300_MESH_D015658_1': ['Drug - has metabolite - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00300_MESH_D019694_1': ['Drug - has metabolite - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01266_MESH_D003218_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB11817_MESH_D001172_1': ['Drug - decreases activity of - Protein - positively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB09279_MESH_D006973_1': ['Drug - increases activity of - GeneFamily - positively regulates - BiologicalProcess - correlated with - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - Disease',\n", - " 'Drug - decreases secretion of - ChemicalSubstance - increases response to - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D003424_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D001249_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D065631_1': ['Drug - molecularly interacts with - Protein - negatively regulates - Pathway - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D003424_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", - " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D001249_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", - " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01222_MESH_D065631_2': ['Drug - molecularly interacts with - Protein - decreases activity of - GeneFamily - prevents - BiologicalProcess - correlated with - Disease',\n", - " 'Drug - molecularly interacts with - Protein - prevents - BiologicalProcess - correlated with - Disease'],\n", - " 'DB06724_MESH_D006996_1': ['Drug - increases abundance of - ChemicalSubstance - contributes to - Disease'],\n", - " 'DB06724_MESH_D004415_1': ['Drug - decreases activity of - GeneFamily - prevents - BiologicalProcess - causes - Disease',\n", - " 'Drug - decreases activity of - BiologicalProcess - causes - Disease'],\n", - " 'DB01150_MESH_D001991_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01150_MESH_D012141_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01150_MESH_D013290_1': ['Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01150_MESH_D014069_1': ['Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01150_MESH_D013203_1': ['Drug - increases activity of - Protein - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - increases activity of - GeneFamily - contributes to - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00215_MESH_D003866_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - CellularComponent - correlated with - Disease'],\n", - " 'DB00215_MESH_D003865_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - CellularComponent - correlated with - Disease'],\n", - " 'DB00401_MESH_D006973_1': ['Drug - decreases activity of - GeneFamily - decreases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB01267_MESH_D011618_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - correlated with - Disease'],\n", - " 'DB00110_MESH_D018357_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01603_MESH_D012852_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01603_MESH_D011023_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09060_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09060_MESH_D059413_2': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09060_MESH_D059413_3': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09060_MESH_D059413_4': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09060_MESH_D011704_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB12225_MESH_D019698_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09208_MESH_D006073_1': ['Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB06684_MESH_D003865_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB06684_MESH_D003865_2': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01698_MESH_D001206_1': ['Drug - increases activity of - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB12865_MESH_D006962_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01166_MESH_D007383_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - decreases abundance of - ChemicalSubstance - increases activity of - GeneFamily - negatively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01144_MESH_D005902_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - increases abundance of - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB08842_MESH_D000544_1': ['Drug - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - positively correlated with - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - increases activity of - CellularComponent - positively regulates - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - increases activity of - MolecularActivity - positively regulates - BiologicalProcess - occurs in - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - BiologicalProcess - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - BiologicalProcess - occurs in - ChemicalSubstance - positively correlated with - Disease',\n", - " 'Drug - increases expression of - GeneFamily - contributes to - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00903_MESH_D004487_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - negatively correlated with - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00038_MESH_D013921_1': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00038_MESH_D013921_2': ['Drug - increases activity of - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00464_MESH_D014648_1': ['Drug - part of - ChemicalSubstance - negatively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB00797_MESH_D014652_1': ['Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00797_MESH_D014652_2': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00797_MESH_D002561_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00797_MESH_D010547_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - negatively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01144_MESH_D015812_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - increases abundance of - GrossAnatomicalStructure - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00257_MESH_D002181_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D003963_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D002179_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D002180_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D014008_1': ['Drug - disrupts - ChemicalSubstance - located in - CellularComponent - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D014010_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - produces - ChemicalSubstance - located in - CellularComponent - regulates - PhenotypicFeature - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09274_MESH_D016778_1': ['Drug - negatively regulates - Protein - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09274_MESH_D016780_1': ['Drug - negatively regulates - GeneFamily - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09296_MESH_D019698_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively regulates - Protein - increases abundance of - ChemicalSubstance - located in - CellularComponent - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB08949_MESH_D052456_1': ['Drug - positively regulates - Protein - increases abundance of - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB08949_MESH_D006950_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB08949_MESH_D015228_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB08949_MESH_D006937_1': ['Drug - increases activity of - Protein - participates in - Pathway - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB11581_MESH_D015451_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - located in - Cell - location of - Disease'],\n", - " 'DB01191_MESH_D009765_1': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - affects risk for - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01191_MESH_D009765_2': ['Drug - positively regulates - Protein - participates in - Pathway - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01009_MESH_D001172_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB01009_MESH_D001172_2': ['Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease',\n", - " 'Drug - negatively regulates - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01009_MESH_D010146_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB01009_MESH_D004412_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01009_MESH_D010003_1': ['Drug - negatively regulates - Protein - participates in - Pathway - increases abundance of - ChemicalSubstance - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB08949_MESH_D010383_1': ['Drug - increases abundance of - ChemicalSubstance - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00257_MESH_D000152_1': ['Drug - positively regulates - GeneFamily - negatively regulates - BiologicalProcess - increases abundance of - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00257_MESH_D000152_2': ['Drug - negatively regulates - Protein - positively correlated with - BiologicalProcess - caused by - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB09256_MESH_D013274_1': ['Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - decreases activity of - Protein - negatively regulates - BiologicalProcess - located in - Cell - contributes to - Disease',\n", - " 'Drug - increases activity of - GeneFamily - increases abundance of - ChemicalSubstance - negatively regulates - BiologicalProcess - located in - Cell - contributes to - Disease'],\n", - " 'DB01267_MESH_D012559_1': ['Drug - decreases activity of - Protein - positively regulates - Pathway - correlated with - Disease'],\n", - " 'DB12833_MESH_D002012_1': ['Drug - increases activity of - Protein - negatively regulates - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB09079_MESH_D002289_1': ['Drug - decreases activity of - GeneFamily - negatively regulates - Pathway - participates in - BiologicalProcess - contributes to - Disease',\n", - " 'Drug - decreases activity of - Protein - negatively regulates - Pathway - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB09079_MESH_D000080203_1': ['Drug - decreases activity of - Protein - negatively regulates - Pathway - prevents - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB05336_MESH_C571912_1': ['Drug - molecularly interacts with - GeneFamily - part of - ChemicalSubstance - prevents - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB13125_MESH_D013921_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB04897_MESH_D012127_1': ['Drug - chemically similar to - Protein - decreases activity of - BiologicalProcess - correlated with - Disease'],\n", - " 'DB01106_MESH_D003233_2': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - decreases response to - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01106_MESH_D003233_3': ['Drug - increases activity of - Protein - decreases response to - PhenotypicFeature - correlated with - Disease'],\n", - " 'DB00593_MESH_D004832_1': ['Drug - positively regulates - Protein - increases transport of - ChemicalSubstance - decreases activity of - BiologicalProcess - located in - GrossAnatomicalStructure - prevents - Disease'],\n", - " 'DB00593_MESH_D004832_2': ['Drug - decreases activity of - MolecularActivity - increases transport of - ChemicalSubstance - positively regulates - BiologicalProcess - prevents - Disease'],\n", - " 'DB09038_MESH_D003924_1': ['Drug - decreases activity of - Protein - negatively regulates - BiologicalProcess - has phenotype - PhenotypicFeature - decreases abundance of - ChemicalSubstance - correlated with - Disease'],\n", - " 'DB00501_MESH_D004381_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00501_MESH_D013276_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00501_MESH_D015043_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - negatively regulates - GeneFamily - correlated with - Disease'],\n", - " 'DB00501_MESH_D009377_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - negatively regulates - GeneFamily - correlated with - Disease'],\n", - " 'DB00501_MESH_D004415_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00501_MESH_D005764_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00501_MESH_D006356_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00501_MESH_D034721_1': ['Drug - decreases activity of - Protein - prevents - BiologicalProcess - located in - Cell - correlated with - Disease'],\n", - " 'DB01183_MESH_D009293_1': ['Drug - decreases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - causes - Disease'],\n", - " 'DB01183_MESH_D010146_1': ['Drug - decreases activity of - Protein - negatively regulates - GeneFamily - decreases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - caused by - Disease'],\n", - " 'DB00152_MESH_D013832_1': ['Drug - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00152_MESH_D014806_1': ['Drug - treats - Disease'],\n", - " 'DB00152_MESH_D020915_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00152_MESH_D001361_1': ['Drug - negatively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00152_MESH_D000752_1': ['Drug - treats - Disease'],\n", - " 'DB00211_MESH_D007024_1': ['Drug - has metabolite - ChemicalSubstance - increases activity of - Protein - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - negatively correlated with - Disease'],\n", - " 'DB00245_MESH_D010301_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00245_MESH_D020734_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00245_MESH_D001480_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00245_MESH_D010300_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", - " 'Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - manifestation of - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - occurs in - GrossAnatomicalStructure - disrupted by - Disease',\n", - " 'Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - positively correlated with - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00458_MESH_D053206_1': ['Drug - decreases activity of - GeneFamily - positively correlated with - ChemicalSubstance - positively regulates - GrossAnatomicalStructure - positively regulates - BiologicalProcess - manifestation of - Disease'],\n", - " 'DB00458_MESH_D003866_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00707_MESH_D002289_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00707_MESH_D004938_1': ['Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00726_MESH_D003866_1': ['Drug - decreases activity of - Protein - positively correlated with - ChemicalSubstance - negatively regulates - BiologicalProcess - negatively correlated with - Disease',\n", - " 'Drug - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01115_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01115_MESH_D000788_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB01115_MESH_D000787_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01178_MESH_D001007_1': ['Drug - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively regulates - Disease'],\n", - " 'DB09101_MESH_D015658_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01208_MESH_D011019_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01208_MESH_D011018_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01208_MESH_D061387_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01208_MESH_D011014_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease'],\n", - " 'DB01219_MESH_D009128_1': ['Drug - negatively regulates - Protein - part of - CellularComponent - participates in - MolecularActivity - participates in - BiologicalProcess - regulates - Disease'],\n", - " 'DB01219_MESH_C535694_1': ['Drug - negatively regulates - Protein - part of - CellularComponent - participates in - MolecularActivity - participates in - BiologicalProcess - regulates - Disease'],\n", - " 'DB01246_MESH_D014581_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01246_MESH_D012912_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01246_MESH_D000799_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01246_MESH_D003233_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01246_MESH_D011537_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01246_MESH_D065631_1': ['Drug - negatively regulates - Protein - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB01413_MESH_D013290_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01413_MESH_D059413_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB01413_MESH_D011018_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - positively correlated with - Disease'],\n", - " 'DB01413_MESH_D013203_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01413_MESH_D018410_1': ['Drug - negatively regulates - Protein - positively regulates - MolecularActivity - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB04884_MESH_D061686_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - increases abundance of - ChemicalSubstance - prevents - Disease'],\n", - " 'DB06788_MESH_D011629_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB09013_MESH_D005902_1': ['Drug - decreases activity of - Protein - regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB09013_MESH_D009798_1': ['Drug - decreases activity of - Protein - regulates - PhenotypicFeature - treats - Disease'],\n", - " 'DB00099_MESH_C537592_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00099_MESH_C536227_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00274_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00274_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00274_MESH_D011014_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00274_MESH_D059413_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00274_MESH_D011023_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00574_MESH_D009765_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - negatively regulates - BiologicalProcess - positively correlated with - Disease'],\n", - " 'DB00808_MESH_D004487_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - contributes to - Disease'],\n", - " 'DB00808_MESH_D006973_1': ['Drug - decreases activity of - Protein - participates in - BiologicalProcess - affects risk for - Disease'],\n", - " 'DB00939_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00939_MESH_D008595_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB00939_MESH_D004412_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00939_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00939_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - participates in - BiologicalProcess - causes - Disease'],\n", - " 'DB00953_MESH_D008881_1': ['Drug - positively regulates - Protein - positively regulates - MolecularActivity - positively correlated with - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB01045_MESH_D014397_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09046_MESH_C562448_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - produced by - GrossAnatomicalStructure - negatively correlated with - Disease'],\n", - " 'DB09046_MESH_D052497_1': ['Drug - increases activity of - Protein - positively correlated with - ChemicalSubstance - produced by - GrossAnatomicalStructure - negatively correlated with - Disease'],\n", - " 'DB09093_MESH_D014141_1': ['Drug - decreases activity of - GeneFamily - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases activity of - ChemicalSubstance - participates in - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB09352_MESH_D015878_1': ['Drug - positively regulates - BiologicalProcess - positively regulates - Protein - positively regulates - Disease'],\n", - " 'DB12975_MESH_D016780_1': ['Drug - negatively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", - " 'DB12975_MESH_D016780_2': ['Drug - molecularly interacts with - ChemicalSubstance - disrupts - Cell - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB12975_MESH_D016778_1': ['Drug - negatively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - disrupts - OrganismTaxon - causes - Disease'],\n", - " 'DB12975_MESH_D016778_2': ['Drug - molecularly interacts with - ChemicalSubstance - disrupts - Cell - location of - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D012628_1': ['Drug - disrupts - OrganismTaxon - causes - Disease',\n", - " 'Drug - negatively correlated with - Disease'],\n", - " 'DB00257_MESH_D005892_1': ['Drug - disrupts - OrganismTaxon - causes - Disease'],\n", - " 'DB00257_MESH_D000152_3': ['Drug - disrupts - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases abundance of - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00257_MESH_D013281_1': ['Drug - disrupts - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D011018_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D018410_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D014069_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D010612_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D013203_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D006069_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01416_MESH_D013290_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB06710_MESH_D019584_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB06710_MESH_D005058_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - positively correlated with - ChemicalSubstance - negatively correlated with - Disease'],\n", - " 'DB06710_MESH_D011628_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00555_MESH_D012640_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D012640_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D004828_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D004828_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D065768_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D065768_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D004827_1': ['Drug - negatively regulates - GeneFamily - positively regulates - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00555_MESH_D004827_2': ['Drug - negatively regulates - Protein - participates in - Pathway - positively correlated with - BiologicalProcess - positively correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00850_MESH_D012559_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB00233_MESH_D014397_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01061_MESH_D011015_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01061_MESH_D016868_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01061_MESH_D014552_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01147_MESH_D013203_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01147_MESH_D011023_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01147_MESH_D010612_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01147_MESH_D012852_1': ['Drug - decreases activity of - GeneFamily - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB01401_MESH_D005334_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB01401_MESH_D001172_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01401_MESH_D010003_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - positively regulates - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB01401_MESH_D010146_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - positively regulates - BiologicalProcess - causes - Disease'],\n", - " 'DB02383_MESH_D048909_1': ['Drug - decreases activity of - Protein - increases abundance of - ChemicalSubstance - causes - BiologicalProcess - positively correlated with - PhenotypicFeature - manifestation of - Disease'],\n", - " 'DB05351_MESH_D010437_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB05351_MESH_D005764_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - increases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB05521_MESH_D019698_1': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease',\n", - " 'Drug - decreases activity of - Protein - capable of - MolecularActivity - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB06774_MESH_D051474_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB06774_MESH_D009437_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB06774_MESH_D001416_1': ['Drug - increases activity of - Protein - positively regulates - BiologicalProcess - disrupts - CellularComponent - located in - Cell - positively regulates - Disease',\n", - " 'Drug - decreases abundance of - ChemicalSubstance - positively correlated with - Disease'],\n", - " 'DB09040_MESH_D014009_1': ['Drug - decreases activity of - MacromolecularComplex - positively regulates - BiologicalProcess - in taxon - OrganismTaxon - causes - Disease'],\n", - " 'DB11606_MESH_C536392_1': ['Drug - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB11607_MESH_D006467_1': ['Drug - participates in - BiologicalProcess - negatively correlated with - Disease'],\n", - " 'DB00347_MESH_D004832_2': ['Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - correlated with - PhenotypicFeature - positively correlated with - Disease'],\n", - " 'DB00668_MESH_D001987_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB00668_MESH_D001991_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB00668_MESH_D011656_1': ['Drug - positively regulates - Protein - negatively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB00668_MESH_D012135_1': ['Drug - positively regulates - Protein - negatively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " 'DB00668_MESH_D004417_1': ['Drug - positively regulates - Protein - positively regulates - BiologicalProcess - located in - GrossAnatomicalStructure - location of - Disease'],\n", - " ...})" - ] - }, - "execution_count": 10, - "metadata": {}, - "output_type": "execute_result" - } - ], - "source": [ - "all_metapath_edges" - ] - }, { "cell_type": "markdown", "metadata": {}, @@ -5394,7 +292,7 @@ }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 9, "metadata": {}, "outputs": [], "source": [ @@ -5449,7 +347,7 @@ }, { "cell_type": "code", - "execution_count": 12, + "execution_count": 10, "metadata": {}, "outputs": [ { @@ -5702,7 +600,7 @@ "[3738 rows x 11 columns]" ] }, - "execution_count": 12, + "execution_count": 10, "metadata": {}, "output_type": "execute_result" } @@ -5713,7 +611,7 @@ }, { "cell_type": "code", - "execution_count": 13, + "execution_count": 11, "metadata": {}, "outputs": [ { @@ -5734,7 +632,7 @@ }, { "cell_type": "code", - "execution_count": 14, + "execution_count": 12, "metadata": {}, "outputs": [ { @@ -5760,7 +658,7 @@ }, { "cell_type": "code", - "execution_count": 15, + "execution_count": 13, "metadata": {}, "outputs": [ { @@ -5785,7 +683,7 @@ }, { "cell_type": "code", - "execution_count": 16, + "execution_count": 14, "metadata": {}, "outputs": [ { @@ -5794,7 +692,7 @@ "40" ] }, - "execution_count": 16, + "execution_count": 14, "metadata": {}, "output_type": "execute_result" } @@ -5805,7 +703,7 @@ }, { "cell_type": "code", - "execution_count": 17, + "execution_count": 15, "metadata": { "scrolled": true }, @@ -5833,7 +731,7 @@ }, { "cell_type": "code", - "execution_count": 18, + "execution_count": 16, "metadata": {}, "outputs": [ { @@ -5865,7 +763,7 @@ }, { "cell_type": "code", - "execution_count": 19, + "execution_count": 17, "metadata": {}, "outputs": [ { @@ -5885,7 +783,7 @@ "Length: 140, dtype: int64" ] }, - "execution_count": 19, + "execution_count": 17, "metadata": {}, "output_type": "execute_result" } @@ -5897,7 +795,7 @@ }, { "cell_type": "code", - "execution_count": 20, + "execution_count": 18, "metadata": {}, "outputs": [ { @@ -5922,7 +820,7 @@ }, { "cell_type": "code", - "execution_count": 21, + "execution_count": 19, "metadata": { "scrolled": true }, @@ -5944,7 +842,7 @@ "Length: 140, dtype: int64" ] }, - "execution_count": 21, + "execution_count": 19, "metadata": {}, "output_type": "execute_result" } @@ -5955,14 +853,14 @@ }, { "cell_type": "code", - "execution_count": 29, + "execution_count": 20, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", + "image/png": 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\n", 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" + "
" ] }, "metadata": {}, @@ -6000,17 +898,19 @@ }, { "cell_type": "code", - "execution_count": 30, + "execution_count": 21, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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\n", 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\n", 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\n", 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" + "
" ] }, - "metadata": {}, + "metadata": { + "needs_background": "light" + }, "output_type": "display_data" } ], @@ -6054,7 +956,7 @@ }, { "cell_type": "code", - "execution_count": 32, + "execution_count": 23, "metadata": { "scrolled": true }, @@ -6065,7 +967,7 @@ "870" ] }, - "execution_count": 32, + "execution_count": 23, "metadata": {}, "output_type": "execute_result" } @@ -6074,20 +976,6 @@ "len(set(unique_metaedges))" ] }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - }, - { - "cell_type": "code", - "execution_count": null, - "metadata": {}, - "outputs": [], - "source": [] - }, { "cell_type": "markdown", "metadata": {}, @@ -6104,7 +992,7 @@ }, { "cell_type": "code", - "execution_count": 33, + "execution_count": 24, "metadata": {}, "outputs": [], "source": [ @@ -6129,14 +1017,14 @@ }, { "cell_type": "code", - "execution_count": 34, + "execution_count": 25, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" + "
" ] }, "metadata": {}, @@ -6144,8 +1032,6 @@ } ], "source": [ - "\n", - "sns.set(rc={\"figure.dpi\":300})\n", "sns.set_style(\"ticks\") \n", "g = sns.barplot(x=\"count\", y=\"meta_path\", data=mp_nodes_df.head(10), orient = \"h\")\n", "g.set_xlim(0,700)\n", @@ -6156,7 +1042,7 @@ }, { "cell_type": "code", - "execution_count": 35, + "execution_count": 26, "metadata": { "scrolled": true }, @@ -6167,7 +1053,7 @@ "313" ] }, - "execution_count": 35, + "execution_count": 26, "metadata": {}, "output_type": "execute_result" } @@ -6207,7 +1093,7 @@ }, { "cell_type": "code", - "execution_count": 36, + "execution_count": 27, "metadata": { "scrolled": true }, @@ -6235,14 +1121,14 @@ }, { "cell_type": "code", - "execution_count": 37, + "execution_count": 28, "metadata": {}, "outputs": [ { "data": { - "image/png": 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YXXr37m1IL1q0yK7Xab6o/NFHH7VYROQIf//9t2nhTLpevXrpzTffzLKuBQcH68cffzQssElLS9MXX3zh8DJCunDhgtX7gnkwg6w0a9ZMkyZNsljwnJl58+bp7Nmzhrzhw4fr2WefzfIe16pVK02ePNnQ/icmJuqbb76xuay5cfToUc2aNcuQ9+6779rUf2jYsKGmTZtmuNbWrFljCLTtTE8//bReffVVi+CWGdWoUUNvvvmmIe/YsWMWQZludx06dNCHH35oWGhtrmnTppoyZYrhc09KSrIIDmLOlXXfFf25/KJAgQIKCQkx5C1ZssSuY5j3EVq1amU1GEs6V4+j7GXel1i1apVF/zAr5n2JVq1aqVy5cg4pmy2qVaumGTNmWJ0/sSY6OlpffvmlIe+5557Tu+++m20fqFq1apo5c6YhmNnBgwezDFp27Ngxi+DRTzzxhEaPHp1p8AvpVt9zxowZ2S4Mz++efPJJde7cOcv3wlz79u319ddfG/KyG9c6kivr0IEDBwwP/ahSpYpdweyLFy+up59+2q42Pz/btm2batWqZfW/2rVrq0mTJgoJCdFbb71lCLDh5eWlHj166KeffnLaNXf58mWLelqnTh1NmTLFIrhlRqVLl9b3339vcc+YMWOGIRC5I7h6zLZ48WKLAGUff/yxRXBLcw899FCWgSUcbeHChRYPv+jVq5e+/vprq8EtzXl6eqpDhw4aN25cltu5ap7PXebMmWMIxiLdutdlVf/N2fsdR8age9KtYH0zZ87Mcm6nQIECGjt2rB577DFD/q5du7KdZ3PFHJsr56CdPYYwP/6IESOsBrfMTNOmTfX888/bvP3t4LXXXss2MH+/fv30yiuvGPLOnDmj+fPnZ7nf119/bagLXl5emjJlSpbzQZ6enho8eLBefPFFQ/7p06e1YMGCTPfL+JADSRo7dmyW46mMPDw81KZNG/Xr18+m7fO69Ic0ZWQ+3sxKSkqKli5dasjLKihnYmKi3nvvPUNeSEiIJk6cmOX3sNKtPskPP/ygqlWrmvIuXrxoEWAzNwoUKKAePXoY8rKruxmlpKRYlMdZ343/888/+vvvvw15bdq00Q8//GBzsMHmzZtbjCsyyivz6fbO9WYmr4/dc4oxbfbv7YULF/Tbb78Z8mydc/3uu+9s/q7eEZo2bWq4vk6fPq2IiIhMtzcPgPnMM8+Y/n39+nXt3bs30303b95sSDdu3Ngp3805S6NGjTR16tQsA/L5+vpqwoQJhs85OTlZK1ascEURbzuO+u2YNeZ98xYtWlgNbpmZ0qVLa9iwYSpfvnym27ijXW/Tpo0GDhyY5W+ozAUGBmrmzJmGvtGyZcsy/e2J5Jr5u7zejwMAAAAAAAAAwJ0IcAkAAAAAAADkkLUf2l67ds2uYzRr1izPB7eUpLVr1yoyMtKQN27cOJueGF+4cGG9++67TipZ3rNixQpDgBRPT0+NGzfOpkUPVatW1bBhw+w+55kzZ7R69WrDOT/99FP5+fnZfIyxY8caAgWsWbMm0x/dX7t2zWKxy3333acXXnjBzpLbr2rVqhaLMrOSkpKiGTNmGPKGDx+u4OBgm4/Ru3dvNWzY0JS+dOmS/vrrL5v3t0evXr0MCyA2bdqUZTC8y5cvG9LOCIwxffp0Q7pfv352BZ1s06aNHnroIVM6ISEh00W0rng97uDp6WlxfWS3qOP06dNatWqVIe/xxx+3WMSfXz366KOGRYWXLl3Sv//+a9O+1hYHmy+uzSseeeQRFS1a1JS+ePGizQs1Dx8+rH379hnynNVnMA8EWLZsWY0ZM8amfYOCgizq98GDB7Vjxw6HlQ9SRESEBg8erJiYGEN+s2bNbA7u6u3trQ8++MDmBb2pqan69ddfDXl169bV4MGDbdq/RYsWFnV27dq1FoFynOGHH35QWlqaKd2xY0e7FvzVqVNHAwcONOSZXyfOcNddd9kc/Puhhx6yWDSZ1aLc202RIkX0zjvvGAJJZqZx48YWgUbWrVunS5cuWd3e1XX/du3/5JR5wI+9e/cqLCzMpn1jY2Mtglhk1Udw9TgqJ+6//35DcPWbN29a9IMyEx0dbQhULzmvL5GZcePGGfpC2Zk9e7YSEhJM6Xr16tm14Lh8+fJ6+eWXDXlZtd9z5841pEuVKqVXX33VpnNVq1btjgvcZKtWrVoZxtAHDx7MtM11NFfWIfMAhsHBwTYHv4NtHnzwQa1cuVIfffRRjh8IY4s5c+YYAod5enrq/ffft6n98vX11bhx4wyffWJioubMmePQMrp6zGZe/tatW1sEoc7MI488olatWtm0bW6kpKTohx9+MOQFBQXp7bffzjPXor3zfO6wYsUKq0FJn376aZuPYe93HNu2bdORI0cMeS+99JICAwNt2v+tt96yCL6ZVeApV8yxuXoO2tljCMYo9gkODtaTTz5p07bPPPOM6tata8gz75NmdPbsWYu5xL59+6pZs2Y2ne+FF16wCNI4e/Zsw5xJRuafff369W06z+3KfHz6+++/29yOb9q0yfC9qre3tx599NFMt//jjz8MfeayZcvq/ffft/me5uvraxEo19FzWU888YRhHmbv3r0W7Xlm1q9fb3h9Pj4+Fg/BchTzB0+ULl1an3zyiUMfjJYX5tPtnevNSl4fu7vanTKmlW4Fqs3Yrtkz59qkSZNsgzs7UqFChQyfi2QZiDKjjAEuq1atatGm27qvdGu+N7/w8vLSJ598kuUDtNJVqlRJHTp0MOSZfy8J2zjit2OZMZ9/ckbfPD+162XKlDGMPxMTE7O8nl0xf5cf+nEAAAAAAAAAALgLAS4BAAAAAACAHLL2I+WMP/q1hXngnLzKfCFlo0aN7FrY1rBhQ4sFB7er5cuXG9L33Xef6tSpY/P+ffr0sXvR/vz585WammpKt27d2uZgV+lKliypzp07m9IpKSn677//rG67atUqxcXFGfJeeeUVlywe79Onj12L0DZv3qyzZ8+a0n5+furTp4/d5+3du7fFcZ3B09PTsCjhxo0bWS4QNF+cYr4ANbdOnDih7du3m9JeXl42B3fKyNb3z/yzdfTrcacGDRoY0nv27Mly+yVLlhgWlfn4+Oill15yRtHcolSpUhYBL5YsWWLTvv/++69hkYi3t7ceeeQRRxbPYYoWLWpRtnnz5tm07/z58w3pBg0aqHbt2g4rW7qoqCht27bNkNe/f3+7FrQOHDjQ4t61YsUKh5TvTpWamqqYmBjt2LFDn3zyiUJCQizuBz4+Pho9erTNx2zdurWqVKli8/YHDhzQmTNnDHnPPvusvLy8bD7GkCFDDIthU1JSLAKLOFpcXJxFf2zIkCF2H8f83mW+qNUZ+vfvb9PCU+lWn8F8Ye3hw4edUaw86dFHH1XZsmVt3n7QoEGGupicnKyVK1da3dbVdd/Z/bn8pl69eqpVq5Yhz9Y+wvLly5WYmGhKlyxZUm3bts10e1ePo3LCw8PDImCUrX2JJUuWGAK2lS1bNsv3w9Fq1aplc+CddOavbfDgwTYFVcioW7duKliwoCm9Y8cOQ73IyHyuo2fPnnaNx/v06WM4F/6P+ZyRq4Iwu7IOmbff5g+GQe799ddf6tWrl7799lu751zt8eeffxrS9913n10BIxo1aqR77703y2PmhqvHbKdPn9bRo0cNeU899ZTN55Jkc6C33Ni2bZthzk+6FSTRkcGrcsveeT5XSExM1Pnz5/Xnn39q0KBBGjFihEUbV69evSyDsJmz9zsO8+ujePHidgVHKlasmPr162fI+++//xQdHW11e1fMsbl6DtrZYwjGKPZ55plnbO5veHp6WgSQPX78eKbj+VWrVhnGLJ6ennr22WdtLpu3t7cGDRpkyDt9+rQOHDhgdXv6N0bWHtJk63dD5uPY1q1bKyAgINPtzfuxTz75pOFhCrZo1aqVKlasaEqfPHlSFy5csOsYWalUqZLuu+8+Q575HHZmzLd74IEH5O/v77CypTt79qzhOy3p1pxQyZIlHXaOvDKfbu9cb2byw9jdHe6EMa1k+buG3M65Opv5fHhmc/ZxcXHav3+/Yb+yZcuqevXq2e4rSVu3bs3yvHlZu3bt7GobzNv1O+k7BkdyxG/HMuOKvnl+a9ft+d2FK/q3+aEfBwAAAAAAAACAu+T+kY0AAAAAAADAHSotLc0iz54Afz4+PmrTpo0ji+Q0+/btM6QzBvCwVefOnbMN6JbfpaWlGRZLSFKXLl3sOkbBggXVsWNHm4O4SJaLLB588EG7zpmucePGWrRokSm9c+dOde3aNdvzBQcH2x0IJqc6dOhg1/bmZW3Xrl2OFro3adLEkN65c6fdx4iIiNCRI0cUERGh+Ph4xcfHGxZXpzNfnB8WFqa6detaPWb16tW1bt06U3rq1Klq06aNwxYGmr9/jRs3VqlSpew+TsOGDeXl5WV6vXv37lVycrJhcagkVatWzZD+9ddf1bVrV1WuXNnuc7pKYmKiTpw4oSNHjigmJkZxcXFKSEiweo/I6MSJE1n+3fy9b9++vUqXLp3r8uYl3bt3N9TfNWvW6Nq1aypWrFiW+y1evNiQzm5xsLv16dNHc+bMMaX/+ecfXbx4MctFggkJCVq6dKkhzzy4laPs3r3bIs/egKGFChXSgw8+aLiHWDsuLG3bts0ikJutPvjgA7sCjnfs2NGu4+/atcuQLlKkiN334fLly6tp06aGRd/Orhu7du0yBHSrUKGCXQGK0lWsWFHlypUzLSA7c+aMIiMjndoWmwf+zU5gYKAhfeXKFUcWJ0+zt49drlw5NWnSxBDkILOF6a6u+87uz+VH3bp108cff2xK//777xoxYkS2i2rN+wghISFZBo119Tgqp3r27KmJEyea2rajR49qz5492T5EwjyASI8ePewK1Jpb9t53wsLCDAuMfXx81K5dO7vPW7BgQQUHB5vGbAkJCTp48KDF+3Xx4kVdvHjRkNepUye7zlWsWDG1bNnScA3f7iIjI3X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\n", 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" + "
" ] }, "metadata": {}, @@ -6250,14 +1136,14 @@ } ], "source": [ - "sns.set(rc={\"figure.dpi\":300})\n", + "\n", "sns.barplot(x=\"count\", y=\"meta_path-edges\", data=mp_nodes_edges_df.head(10), orient = \"h\")\n", "sns.set_style(\"white\") " ] }, { "cell_type": "code", - "execution_count": 38, + "execution_count": 29, "metadata": {}, "outputs": [ { @@ -6266,7 +1152,7 @@ "1500" ] }, - "execution_count": 38, + "execution_count": 29, "metadata": {}, "output_type": "execute_result" } @@ -6306,7 +1192,7 @@ }, { "cell_type": "code", - "execution_count": 39, + "execution_count": 30, "metadata": {}, "outputs": [], "source": [ @@ -6318,14 +1204,14 @@ }, { "cell_type": "code", - "execution_count": 40, + "execution_count": 31, "metadata": {}, "outputs": [ { "data": { - "image/png": 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J19fXdJ+FChVKM96pUyd5eXmZ6qt37942sTt/EAMAAAAAAJBTSDwDgHzqww8/zPDoqTu8vb3VuXNnQ2z//v0OncvVq1cNZUfvdpNfPPnkk4YkoS1bttgcn2KPkJAQvfDCC5nWc3V1TfMIszs7HDk7Z/5j+qmnnjKUjx8/rri4OPsnmw05eY/+888/OnjwoKXs4eGhiRMn2p0A4erqqrFjxxqew0WLFhl28slpY8eOzXAnMGvz589XfHy8pVytWjW98sordrcvUaKEXn75ZUNs3rx56dZfuXKlLl26ZIi9++67mSaEmXH27FnDbnfOzs6aMGGCqS/lxowZY0jA3LBhg8LCwkzNo3jx4nYfe9S2bVs1a9bMEFu+fLlu3bplakyzbt68qWXLlhlizZo1U4cOHexq37VrV5ukoyVLligmJsbUPMqUKaOXXnrJVJu8UrRoUcN7YEJCgv7+++8M2+TGfZ+XrH+mbNy40ZD4mZETJ07YvDc74pjNnNCjRw9Def369ZkmHd6xYsUKw3oODAxU8+bNHTo/AMD959y5c3rmmWcUHh5uiJcuXVqzZ89W4cKFs9RveseXP/LII6b7qlmzpk0if3h4uGH3cgAAAAAAAEcj8QwA8qEqVaqYOg7D+kPpo0ePOnQ+1sk+1olo9wtnZ2dDUl1cXJyOHTtmup9evXrZvVNQ3bp1bWLNmzfPdFevOx588EHD65OcnGw4Li+n5PQ9ar17TefOnVWsWDH7J6jbCYB373oWHR3t8KTM9FSqVMn0Ma3W1/zcc8/ZlXx4t86dO6tAgQKW8s6dO9NNtlu6dKmhXKlSJbVv397UeJlZtGiRUlJSLOXGjRurWrVqpvrw9/dX69atLeXk5GT9888/pvro1atXurtJpGXQoEGGcmRkpLZs2WJqTLP+/PNP3bx50xAbPHiwqT6s60dHR+vPP/801UfPnj3z3Q5XGalVq5ahvHfv3gzr58Z9n5cee+wx+fv7W8q3bt3SmjVr7GprnfhYqVIlVa1a1aHzc5TQ0FDDccWJiYlasWKFXW0XLVpkKHfu3Flubm4OnR8A4P5y4cIFPfPMMzZ//BAUFKQ5c+aY/nfK3ayPc78jKz+DnZycVLlyZZv4lStXTPcFAAAAAABgL9e8ngAAwJb1rjWZufvLV+l2wlR8fHymx/PZq2zZsobyDz/8oI4dOyo4ONgh/eeGixcv6tixY7p48aJiYmIUExOT5m5m586dM5RPnDhh+kN/M3+dbv3cmm3v4uKi4OBgnThxwhK7fv263e2zKqfvUesjYayPVbNX3bp1DX3t3r3bkIyWU1q0aGGq/okTJwy7J7i5uemxxx4zPW6BAgVUvXp1y/G48fHxOnz4sB588EFDvfj4eO3bt88Q6969u+nxMrNt2zZDOauvY506dQwJQ7t27cr0+Mm73X1cp73jBQUF6cKFC5bYvn37cnRXpN27dxvKpUuXtkmqyky9evVs5r1nzx5D4l5m8svOTzdv3tSxY8d08uRJRUdHKyYmJs1d56x3Lzt58mS6febWfZ+X3Nzc1K5dO8Nuh8uWLbPZIcxaSkqKVq5caYjl193O7ujRo4fh2NSFCxfq2WefzbDNnj17dPz4cUvZycnJZudQAADudunSJfXt29fw+5V0e7fhOXPm2P0HQ+lJ79/U6e2Elpm02lkfDQoAAAAAAOBIJJ4BQD6U1l8pZ8T6OA3p9k43jko8a9asmcaNG6fExERJ0rVr19SxY0c9/fTT6tixoypUqOCQcRzt7Nmz+umnn7R69Wpdvnw5S33Ye0TZHQUKFFCZMmXsru/l5WUTM3vkm3Uf1rsm5YScvEdPnz5tc4RNlSpVzE3w/7HeQeDs2bNZ6scss7t63UkUu6NcuXKGncvMSOuarRPP9u/fb1nPd9SvXz9L46UnLi5Ohw8fNsSy+jrefQSuZJsgmpHAwEAFBQWZHrNGjRqGLxhzere8AwcOGMrWr5m9ateuneV5+/r65mlCcUJCgpYuXaoVK1Zoz549Sk1NNd1HRu/ZuXHf5wddunQxJJ7t3btXJ0+eVLly5dJt89dffxl2cXFzc8v3O8F16tRJkydPthwvffLkSe3cuTPD5GLrnSUbNGig0qVL5+g8AQD3rrCwMPXt21fnz583xIsVK6a5c+c65Pcm6z/QuSOru3GmtXNtTh8ZDwAAAAAA/m8j8QwA8iFfX19T9dNK3nHkh8slSpTQM888o5kzZ1piMTExmjFjhmbMmKGSJUuqXr16qlOnjmrXrq1KlSrJycnJYeOblZqaqi+++EJff/11uscM2is6OtpU/bQSrDKSVnKR2dffuo/c+GIhJ+/RtJKKzB5bmZ6oqCiH9JMZs8ftWF/zsWPHVKlSJYfMJa1rtk7EdHNzU/ny5R0y3h2XLl2ySfLp3LmzQ/o28zqm92VeZipUqKC1a9dayjl9RJF1/1lN6LVOXLVO4sxIdo6Jyq4dO3bo7bff1unTp7PVT0bv2blx3+cHVatWVaVKlQxHRS9fvlwjRoxIt431MZuNGzdW4cKFc2yOjuDj46M2bdoYdkNcuHBhuolnN2/eNKxpSex2BgBI152kM+s/XClatKjmzp3rsMTl6tWrpxm/efOm6X9bSmn/LpTV3dMAAAAAAADs4ZzXEwAA2MrqXzfnpBEjRqR7VNfFixe1cuVKvffee+rYsaMaNGig4cOHa8OGDTaJJzktNTVVY8aM0dSpU7OddCbJ9PzT+gtzs/Lj628tJ+eYk0fBmN3BLqu8vb1N1c/ta7Yez9fXV87Ojv21ML+8jmaTJO+wfg1z+t6x/pIwq/O2bmdm3mntwJgb/vrrLw0YMCDbSWdSxu/ZuXHf5xfWx2SuWLFCKSkpadaNjo7Whg0bMmyfX/Xs2dNQXrduXbr3/M8//6zY2FhLOSAgwPSxyACA/xvCw8P1zDPP2PxuUqRIEc2ZM8fUDteZ8fPzS3PHa+td1uxlfSSodPtnHgAAAAAAQE5hxzMAgF1cXFz0/vvvq3Xr1vrqq6+0ffv2dI9Bi4yM1Jo1a7RmzRoFBQXplVdeUYcOHXJlnsuXL9eiRYsMMRcXFzVu3FgNGzZUlSpVVLx4cfn5+alAgQI2iWKjR4+22fkFuSsnE3zSS7xwNBcXF1P1c/uaY2JiDGUPDw+Hj2t2t0AzzLyOWT1y2Po5sX7OHM26/0KFCmWpH+t2Zubt6pr7/zSIjIzUiBEjbHZADAkJ0eOPP64HH3xQQUFBKlKkiAoWLKgCBQoYksW2bdumvn372jVWbtz3+UWHDh00ceJESyLe5cuXtXXrVj3yyCM2ddesWWN4/gMCAtSkSZNcm2t21KxZU9WqVdOhQ4ckSfHx8Vq5cqV69+5tU9f6d4NOnTo5JFkcAHB/uXbtmp555hmdOnXKEA8MDNScOXMyPLo6q5o2barjx48bYnv27FHVqlVN9RMVFaUTJ04YYgUKFMjyDsAAAAAAAAD2IPEMAGDKww8/rIcfflgXLlzQH3/8oR07dmjnzp3pHkN34cIFvfrqq9qxY4c++OCDHJ1bcnKyJk+ebIiVKVNGX375pd0ftsfFxeXE1GCCdaKQp6ennn76aYf0HRwc7JB+HM36mitUqKCmTZs6pO+6devaxKx3trp7FyBHSesY2YEDBzrkGF4zxw7Fx8dnaQzr58TT0zNL/djL09PTkICY1fci63Y5Pe/smjlzpmEnMldXV7377rt68skn7bpXzLy+uXHf5xcBAQFq3LixNm7caIktW7YszcQz62Tr9u3b3xM7b97Ro0cPjRkzxlJeuHChTeLZoUOHLMlpd3DMJgDAWkREhJ555hmb5K2AgADNnj07xxK4OnTooG+++cYQW7FihXr16mWqn5UrV9r8cVjt2rXT/L0cAAAAAADAUUg8AwBkSVBQkJ5++mlLQtD58+e1a9cubdmyRX/88YeioqIM9RcuXKiKFSuqT58+OTanPXv2GBLgXF1dTSWdSbl3FCPS5+/vbygnJCRoxIgR9+2ReJLtNQcGBmrUqFE5Np71cYxRUVFKSUlx6HNsfU2S1KdPHxUvXtxhY9jD+r3IXtY7tplJdssKb29vw/tPVudt3S6n551dv/76q6E8aNAgUwlBZp6n3Ljv85MuXboYEs/Wr1+vmzdvGhLwTp8+rT179ti0u5e0a9dOH3/8sW7evClJOnbsmPbt26datWpZ6ixYsMDQJjQ0VGXLls3VeQIA8rfIyEg9++yz+vfffw1xf39/zZkzRxUqVMixsStUqKDQ0FBt377dEtu3b5/++OMPu3chvXnzpr777jubeKtWrRw2TwAAAAAAgLTcn9+yAAByXalSpdSxY0d98skn+vPPP/XOO+/YHPn21Vdf5ehRh7t37zaUGzRoYPqv0q3/uh25r2jRooZyYmKizp49m0ezyR3W13zy5MkcHa9EiRKGcmJiov777z+HjmF9TVLerK+sjmn9pWNa1+NI1v1bj28v62OaihQpkuU55bSrV6/qzJkzhljPnj1N9WHm9c2N+z4/adKkiQICAizl+Ph4/fLLL4Y61rudVa1aVZUrV86V+TmKh4eHzXHeCxcutPx/bGysVq9ebXic3c4AAHe7ceOG+vfvr6NHjxrifn5+mj17tipWrJjjcxg6dKhN7K233tK5c+cybZucnKy3335bFy9eNMSLFy+ubt26OWyOAAAAAAAAaSHxDADgcAUKFFCvXr30v//9zxC/du2azVFXdzji+L2rV68aymb/Kv38+fMKCwvL9jyQPZUrV7Y5Eu/PP//Mo9nkjnr16hnKYWFhOnbsWI6NV7NmTbm7uxtiO3bscOgY/v7+NomfefE6Xr16VRcuXDDd7sCBA4ZyzZo1063riPevGjVqGMr79u3LUj979+41lDOad16zfs/28/NTsWLFTPVhnXCckdy47+9wxD2RXW5ubmrfvr0hdneiWUpKilauXGl4vHPnzrkyN0ezTlhcs2aNZQe0u/9fun2fsfsLAOCOmzdvauDAgTb/Tr2TdJZ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\n", 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" + "
" ] }, "metadata": {}, @@ -6341,14 +1227,14 @@ }, { "cell_type": "code", - "execution_count": 41, + "execution_count": 32, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" ] }, "metadata": {}, @@ -6371,7 +1257,7 @@ }, { "cell_type": "code", - "execution_count": 42, + "execution_count": 33, "metadata": {}, "outputs": [], "source": [ @@ -6383,14 +1269,14 @@ }, { "cell_type": "code", - "execution_count": 43, + "execution_count": 34, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" + "
" ] }, "metadata": {}, @@ -6420,7 +1306,7 @@ }, { "cell_type": "code", - "execution_count": 44, + "execution_count": 35, "metadata": { "scrolled": true }, @@ -6516,7 +1402,7 @@ "[5486 rows x 1 columns]" ] }, - "execution_count": 44, + "execution_count": 35, "metadata": {}, "output_type": "execute_result" } @@ -6534,7 +1420,7 @@ }, { "cell_type": "code", - "execution_count": 45, + "execution_count": 36, "metadata": {}, "outputs": [], "source": [ @@ -6545,7 +1431,7 @@ }, { "cell_type": "code", - "execution_count": 46, + "execution_count": 37, "metadata": {}, "outputs": [ { @@ -6618,7 +1504,7 @@ "4 Drug - decreases activity of - Protein Protein decreases activity of" ] }, - "execution_count": 46, + "execution_count": 37, "metadata": {}, "output_type": "execute_result" } @@ -6629,16 +1515,16 @@ }, { "cell_type": "code", - "execution_count": 47, + "execution_count": 38, "metadata": { "scrolled": true }, "outputs": [ { "data": { - "image/png": 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L69atU6sPmUwGPz8/+Pn5YevWrfjrr7/QuHFjyeNmZGRgxYoV2Lp1q8pAf6a3b99iwYIFOHz4MNatW4fSpUtLHq+w+v7773Hv3j21rzsAkJiYiCtXruDKlSuoU6cOVqxYobXA3KtXrzB+/HiVwcmcBAcHY8aMGUo/T2Ulk8lw9+5d3L17Fx07dsTChQvVqmipjsJwH9NUSkoK5s+fj0OHDuX4eS2ruLg4XL9+HdevX4eXlxcOHjyYh7MkIqIv1Zf/LwgiIiIiIiIiIiIi+iK9ffsW/fv3h5eXl6Q/jgOfQ2geHh4YOnRojtWIchIdHY0BAwZICvHJZDIcPnwYP/74o8qqUF+TtLQ0+Pv7C9oMDAzg6uoquS9lx4WFheHjx4+5mqOmfv31V6xfv17tP8bLZDIsWbIEBw4ckLfFxMTghx9+yDE8mVVCQgLGjBmDR48eSZ7zkSNHMGLECLXCk4pCQ0Mxfvx4bNmyRe1jgoOD8f3330sOT35Ntm7ditGjR6sdOskqPj4eCxYswNy5c3MMQ2UnIyMDM2bMwPr163MMT2b15MkTDBgwAPHx8ZLHvHnzJnr16oVz585Jvk5nUndcX19f9O3bV+3wZFYJCQlYtWoVJk2alG01tS/BhQsXMHTo0BzDk1klJSVhwoQJSisF57eQkBD0798fe/bsUSs8qeju3bvo3bs3Hjx4kKt5eHl5YezYsRqHJ5OTkzF58mQsWLBAoz5CQkIwYsQIyWGtjIwMzJo1Cxs3bpR0vXj27Bn69++P4OBgqVMttO7evavxdQcA7t+/j549e4o+v2giKCgIffv21Tg8+ebNGwwcODDH8KSi//3vfxg5ciRSUlI0GjerwnAf01RKSgpGjRqFAwcOSApPEhERqYsVKImIiIiIiIiIiIgo34WHh6N///5Kl9MsUaIE2rZtC2dnZ1haWiIiIgL+/v44d+6cKMRw584dDB06FPv379e4EuWMGTPw4sUL+bajo6N8fAsLC3z69Am+vr44f/484uLiBMfeuHEDkydPxvr16zUa+0sRGhoqCiWVKFFC45956dKlRWG8ly9fwsHBQeM5amLnzp2CIKSTkxNatWqFSpUqwdLSErGxsXj48CHOnDkjeu0XLFiAb775Bo6Ojpg8eTL8/Pzkj1WvXh3NmjVDqVKlYGZmhvDwcNy8eRPe3t6CP/wnJSVh3rx5OHLkCPT11fuTzbFjxzBnzhxRu46ODmrXro3mzZvD0dERenp6+PDhA65fvw4fHx9B4E4mk+Hvv/+Gjo6OqJKmMnPmzFG6ZHPVqlXh5uaGcuXKwcLCAvr6+oiPj0dMTAxevHiBgIAA+Pr6Zhv2MzAwQJUqVeTbQUFBgtCVpaWlWksT56WlS5di8+bNonYrKys0adIE1atXh62tLYyNjREbG4vAwEBcuXJFFHA9fPgwLCwsMHPmTI3m8c8//wgqOTo6OqJFixZwcXGBtbU1EhISEBQUhH///VcUonr58iWWLVuGX375Re3xLl68iJ9++klpWMba2hpNmjSBq6srbGxsYGhoiNjYWISGhsLX1xf379+XFNgMCgrCoEGDlC7XXa5cObRp0wZly5aFubk5wsLC8OjRI3h7e4v2P3v2LFJSUrB+/Xro6OioPX5h8fTpUyxfvlz+HjA2Nkbjxo1Rv3592NnZQV9fH+/evcO1a9dw48YNwbFpaWn4+eefcfr0aRQrVkxp/2XKlEFMTAwA4NOnT6KlwbO+F1WxtLRU+VhISAj69OmjdMnxmjVrom7duihfvjwsLCyQmpqKsLAw3L9/H5cvXxYExD59+oTRo0fD09MTTk5OOc5JUWBgIHbv3i2/3urp6aFevXpo1KgRSpQoAWNjY3z48AFPnjzB06dPRcenpqZi2LBhSr9YUaZMGTRs2BCVK1eGpaUl9PX1ERkZicePH+PSpUuIiIiQ75uWloZffvkFdnZ2cHd3V2vuCxYswPHjx0XtpqamcHd3R82aNWFvb4/Y2Fi8evUK586dky+PHhYWhvHjx8PZ2VmtsXLL0tJSfs6kpqYiKChI8Lijo2O25wvw+eepDkNDQ7i6uqJixYryc8jMzAzp6emIjY3FixcvcPfuXcG9GPh8Lo0fPx5Hjx6Fubm5hGf3fxITE0VhXBcXFzRr1gxlypSBhYUFIiIi8OrVK5w5c0Z0fGxsLH744Qel99HSpUujTZs28vtoZGQkAgIC4O3tLf+MfPv2bY2W6s4qv+5jeXWN2bRpk+iaB3w+x5o2bYqKFSvC1tYWRkZGSExMRHx8PF6/fo3AwEA8ePBA6b2FiIgoKwYoiYiIiIiIiIiIiChfyWQyzJo1SxSeNDY2xuTJkzFo0CDo6emJjvv555+xatUqbN++XRBC8/Pzw9KlS5WGynLy8OFDeTDQ0NAQkyZNwpAhQ5SOHxsbi4ULF+LIkSOCdm9vbxw9ehTdu3eXPP6XIiQkRNSWm+VVlR379u1bNGzYUOM+NbF06VIAgImJCWbOnIk+ffqIXvs+ffpg8uTJGD9+PO7duydvT0pKwsaNG1G+fHl5xbzSpUvjzz//VLpk66BBg/D48WOMHj0a4eHh8nZ/f3+cOXMGnTt3znG+r1+/xu+//y5qd3FxwV9//YWaNWuKHhs5ciSCgoIwZ84cUUW3f/75B25ubqhRo4bKMe/cuQMfHx9BW+nSpbF48WK1lnCPjo7G5cuXceDAAaWBtuLFiwvCQu7u7oLzzd3dPdfBkdw4d+6cKHRiaWmJqVOnolu3bjAyMlJ6nEwmw3///Ydff/1V8Hpv27YN9evXl7zU8sePH+XzMDMzw6xZs9CzZ0+l16opU6bIl/nOav/+/Rg9ejSKFy+e43hv3rzB9OnTReFJOzs7jBs3Dr1798429JuSkoIrV67gwIEDOVY7S0lJwZQpU0QBFysrK8yZMwddu3ZVelx0dDQWLVoET09PQfuFCxewa9euAl1qVlPLly+X35O6du2KadOmKQ2Wjxw5Erdu3cL48eMFoa4PHz5g3759GDVqlNL+//rrL/n/r169GmvWrBE8riy4p66UlBRMnDhRFJhq1aoVpk+fnm2oLywsDEuWLMGJEyfkbVFRUZg4cSIOHDig9DzPzs6dO+XBbTc3N/z666+oWLGi0n2VVSxdvHixKDxZsWJFzJ49G02bNlUZzk1KSsKuXbuwatUqeQhWJpNh5syZOH78eI73zZs3b2L37t2i9m7dumHOnDlKg2UzZszAgQMHsGTJEsTHx+PJkyeCL4XkpdatW8uvZcHBwaLr2oQJE9CjRw+N+zcxMUGHDh3QqVMnNGjQAMbGxjkeExgYiIULF+LatWvytjdv3mD58uWSAuRZnTt3Tn4+OTk54ZdffkHLli2V7jtr1ixR24IFCxAaGipoMzMzk3/uUHY+/fzzz9i6dSvWrFmDtLQ07N27FwYGBhrPP7/uY3lxjUlOTsbWrVsFbSYmJpg3bx66d+8OXd3sF11NSUnB7du34enpKamyLxERFS1cwpuIiIiIiIiIiIiI8tWpU6dEy4waGRlhw4YNKsOLwOeA5YwZM/Dbb7+JHtu1axceP34seS6ZwQl9fX2sWrUKw4cPVzl+sWLFsGDBAowcOVL02MKFCxEbGyt5/C+FskqhuakKWKJECVFb1j/O55eUlBSYmJhg+/bt6N+/v8rX3s7ODhs3boStra2g/cSJE1i1ahUAoFKlSjhw4IDS8GSmGjVqyPfPSjEApsrvv/8uCplVr14de/fuVRqezOTs7Ixdu3ahUaNGgvbU1NQcg8fnz58XbBsYGGDr1q1qhSeBzyGNLl26YPfu3Rg7dqxaxxQW4eHhmD17tqCtXLlyOHHiBPr27asydAJ8rgjatm1bHDlyRHS+L1++XPKytKmpqZDJZLCyssLevXuVhn0zGRgYYOrUqejTp4+gPT09XRQAV2X69OnyKmKZKlWqhMOHD6N///45Vkw1NDRE69atsWnTJuzatSvbfbdt2yZaYtfKygo7d+5UGZ4EPp9bCxcuxI8//ih6bOnSpV9kUCbznjRx4kQsWbIk26q8bm5uWLdunSh8dfjw4Tydoypr1qwR3YenTp2KDRs25FgR0d7eHn///TfGjRsnaH/8+DHOnj0reS6ZYbd27dph27ZtKsOTAETv4ytXrsDDw0PQ1rp1axw9ehTffPNNtpVNjY2NMWrUKGzcuFEQdouJicHGjRuznXNGRgZ++eUX0bVh2LBhWLx4scpKjjo6OujXrx82bdoEExMTAJ+DnF+DK1euYNGiRWjWrJla4Ung83Vqy5Yt6Nmzp6Dd09MT0dHRGs0j83wqX7489u3bpzI8CXz+PJn1+vjgwQPRPd7U1BRbtmxB3759VZ5PhoaGGDNmDJYuXQo9PT3IZDKNlvEuTPcxTd24cUP02efXX39Fz549cwxPAp9/lk2bNsWyZcuUVuEkIiICGKAkIiIiIiIiIiIiony2fft2Udv06dOzDZ5l1bdvX/Tr10/QJpPJsGPHDo3nNGbMGLRq1UqtfadNmwY3NzdBW3R0dK4qdxV2ykIHpqamGvdnZmYmalNcnj2/zJkzB3Xq1MlxPwsLCwwbNkzQlpiYiISEBBgZGWHFihWigKUy9evXR7NmzQRtPj4+SqugZfXs2TNBRS3g889x/fr1KpfrzcrIyAhr1qyBvb29qN/MCprKKC4F7ebmhrJly+Y4njKZ4Z4vxa5duwTBaBMTE2zZskVpAFgVR0dHLF++XND2/PlzUTBVXQsWLFBrCVTgc3hNMRyT3WuddR/FaqXW1tbYtm2bRsHpUqVKqXwsNTVVacW9hQsXqv08J0+eLHpPpaSkYM+ePdImWki0a9dO7bBxvXr10KFDB0Hb69ev8ebNm7yYmkrR0dGi0GG/fv1UVsJUZfz48WjatKmgTbGSqrqcnJywaNEiyVX71q5dK9iuXLkyVq5cCUNDQ7X7aNq0KX766SdBm6enp9KlzTNdvHgRr1+/FrTVr19f5VLJiurXry8Kyn3p1Lm3KaOrq4tff/1VcL1KTEzEqVOnNJ6Lvr4+li9frlYF36yUXYdmzJiBunXrqnV8x44dMXjwYEljZlUY72NSZS5Rn8nY2BhdunTRqK8v7XMIERHlHwYoiYiIiIiIiIiIiCjfPHjwAH5+foI2FxcXDBgwQFI/U6dOFVVjOnv2bLbhBFWKFy+utKpkdubNmydq279/v+SxvxSJiYmiNnWrQSmjrOKRsjHyWrly5dC7d2+192/fvr3S9q5du2Zb4SynftLS0hAQEJDtMcpCZmPHjpUU5ihWrBimTp2qVt+Z4uPjBdtWVlZqj/cli4+Px969ewVtQ4cORenSpSX3Va9ePVFA/L///pPcj5ubm6Slv62srNCiRQtB29OnT5GRkZHtccoqdM2bNy/baoia+vfff0UVblu0aAF3d3dJ/fzyyy+iipwHDhyQL6P8pdDV1cX06dMlHfPdd9+J2nx9fbU1JbXs2bNHUCHO1NRU8vPIpBgeffr0qSjIrY4JEyYoDetn586dO7h//76gbfbs2RotnTx06FDB+CkpKaLq21kp+wyh7LNGdnr37q128PhrZ2RkJAoX37t3T+P+vvvuO1SrVk3SMTExMThz5oygzdnZGX379pXUz/jx42FhYSHpGKBw3sc0ofg5pFixYjlWQSYiIpKKAUoiIiIiIiIiIiIiyjeKFfSAz1Wq1FmCLysLCwt06tRJ0Jaamopbt25JnlPXrl2zXcJQGRcXF1HVwsDAQLx7907y+F8CZSEkKdW4FCkLXxZE0Klnz57ZLseqqHTp0korYvXq1UvSuMpCGC9fvsz2mOvXrwu2DQwMJI8LAJ06dRKFIH18fORLlCpS3Pfhw4dIS0uTPO6X5saNG6IlrDX5eWdSXPJVk2uVlLBvpho1agi2ExISsl3aOi4uDrdv3xa0OTk5iYJI2qLsnvD9999L7qdMmTL45ptvBG1RUVF48uSJxnMrCI0aNUKZMmUkHVOrVi1RW07XE21TXGa7Q4cOMDc316ivunXrisJiiudkTszNzTU6ZxWfR6lSpdSujq3I2NgYDRs2FLSpeh6pqam4efOmoK1mzZqSw5C6urro06ePtIl+xRSrJStW1pVCk+v/vXv3RMtu9+jRQ/JnXjMzM3Ts2FHy+IXxPqYJxc8hnz59ElVrJSIiyi0GKImIiIiIiIiIiIgo3yir/tOuXTuN+lL2x2RNqgu1adNGo/Hbtm0rasvNH+e/NFKCh+ocK5PJcjMdjdSvX1/yMYpLGJuYmKB69eqS+nBychK1ZV1iU9GnT59ES1g2atRIo2qQhoaGoup+CQkJ8Pf3V7p/zZo1BdvBwcGYN29egVQMzU+KwZDixYsrfd3UpbiMdUhIiCjYkhM3NzfJ4yoL42V3rt25c0cUpu3SpYuouqO2KF6zTU1NRctxq0tb94SC1KBBA8nH2NrawtTUVNAWFxenrSnlKDo6Gs+ePRO0qbs8sTK6urooWbKkoE1qELZWrVoaVUlWDDgqflFCKsX3varn8fTpUyQnJwvalH3GUIemx30JIiMj8d9//2Ht2rWYOnUqRowYgf79+6Nbt27o2rWr6L+NGzcKjn///r1G4xobG6N27dqSj1P2mVCxKrC6WrVqJfmYwngf04RiSFwmk2Hy5Mlf7ZeWiIioYLC2MRERERERERERERHlG8XwQIkSJWBvb69RX9WrV4eurq5gOVrF5cFzoq+vr/Fyl8qqCPr5+WlUJaiwU7Z8qWLYQ4qkpCS1xshritWp1KG4JGzJkiUlLyWpbFnZ7EJtys5rV1dXSWMqHuvp6Sloe/LkidIgaKdOnfDPP/8IXjNPT09cunQJ3bt3R7t27VCjRg3JFbUKO8XgXUxMDLp27apxf1mXN84UGRmp9rKsRkZGKFGihORxlVVMze5cU1y+GMhdGC47CQkJePXqlaCtatWqGoc1FattAtLvCQWtXLlyGh1nbm4uOMeye4217cGDB6Jl4Tdu3Ijdu3dr3OebN28E25GRkZKOl7rUMvA5dBoQECBou379eq7e958+fRJsq3oeypZc1/Qa7+DgAHt7e4SFhWl0fGF048YN7Ny5E1evXs1Vteq0tDTEx8dLXtq9cuXKGl2XFIPFxsbGqFChguR+AM3O6cJ2H9NU1apVUa1aNcG/Ifz8/NC+fXt07NgRHTt2RKNGjTQKTRMREWVigJKIiIiIiIiIiIiI8oVMJkN0dLSgzdnZWeP+zMzM4OjoiJCQEHmb1JCFo6Oj5OW7Myn7I3h4eLhGfRV2yv4orSwEqS5lxypWUMsPmvzRXzHoqY0+AGS7LLay8zo3752KFSuqNQYA2NvbY/LkyVi4cKGgPTw8HFu2bMGWLVtgYWGBOnXqoGbNmqhduzbq1KkjOaBS2ChWKktMTFRZpVNTUVFRaod4LS0tNRpDWbg3u3NN2TXMxcVFo7FzEhUVJao8m5vzukKFCqJQvdR7QkHT9HVWvKZk9xprm7KqfooVc3MrKipK0v62traSxwgLCxMFQcPDw7V6X1f1PCIiIkRt5cuX13icChUqfBUByri4OPz888/43//+p9U+pd6fbGxsNBpL8fUuUaKExgHx4sWLw8DAQFKAtLDdx3Lj119/xaBBgwRLoicnJ+PYsWM4duwYDAwMUKNGDdSuXRs1a9ZEgwYNYGdnl+fzIiKirwcDlERERERERERERESUL+Li4kRLwyqrjiaFhYWFIECpGNDMSW7Gl1rZ7UumbKloZZWI1KXsWE2Wo84tbVS9zI/KmcrO69xUfFIW0souoDRkyBCkp6dj+fLlSoNZMTExuHTpEi5dugTgc2ivVq1a+Pbbb/Htt99qHD4pSFKvJZqQEkLOrwqt2j7XsqNs6dfcXJN1dXVhbm4u6Dc/XkdtklrNtjCQGm7UhNSKx+bm5pLHKMjnoe33Qm4/WxUGcXFxGD58uNJlsHNDkwqWmpxPgPh1ze3rYm5uLikUXtjuY7lRu3ZtbNy4EVOmTFH6M0hNTcW9e/cEVTednZ3Rvn17dOnSRePKn0REVHR8XespEBEREREREREREVGhFR8fL2rLbdVBExOTHMeQcrwUpqam0NHRydX4XwplVXyUVR1Tl7JjNakYVlQoO69yc+4qOzanc3f48OE4efIkunTpkmPV1rS0NNy9exd//vkn3N3dsXjx4lwFbvNbYmKioMpVURIXFydqy6vqsHkxVm7vCSRdYQypalLlT1mIMb/kxzX+S7Nw4UKl4cly5cphyJAhWLFiBQ4dOoQrV67g7t27ePz4MQICAgT/KVZO1pSmwWbF+0hug/CGhoZq7/s13seaNGmCM2fOYPTo0bC2ts5x/6CgIKxbtw7ffvstJkyYoPXKuERE9HX58r7GRERERERERERERERfJGVLJuY2VJWYmJjjGFKOlyIhIUG0/OyXvmyxKqVKlRK1hYaGatyfsmOVjUGfKTuvcnPuKjtWnXO3QoUKWLp0KWJjY3Hx4kX4+Pjg7t27ePnypei9kHWsbdu2wdvbG9u2bYOTk5PG884vRkZGoqWg27Rpg7Vr1xbgrPKHskprCQkJeXJtUzVWbuT2nkDSGRsbi9qOHz+OKlWqFMBsNKcsGD5nzhz88MMPeT62qmu8ppUPc3N/KAwCAgLg6ekpaDM1NcXvv/+OLl26iL68okp+VUdURfH1y22gW1noXJWv9T5mZWWFKVOmYMKECbhx4wauX7+OO3fu4OnTpyqri8pkMpw9exbXrl3DihUr0KxZs3yeNRERfQkYoCQiIiIiIiIiIiKifGFubg49PT3BMt65XfJasWKUsqWJs5Ob8ZUd+zUsm6lMyZIlYWRkJFh+9N27d0hJSZFUESmTsipAXF5RNWXndW6qpSk7VsoS6sWKFUOXLl3QpUsXAJ8r0N2/fx937tzBpUuX8OzZM9Exr169wujRo+Hp6anROZOfdHV1YWFhIVjSNzg4uOAmlI+UnQcxMTF5EkRUtjR4bq7JGRkZooCR1HuCpjRZFvhroawSXHBw8BcXoFT1PPKDqveCpgHK3H62KmheXl6C4B8ALF68GO3atZPUT0FXR1W8/uRmmfiUlBRJAfOv/T6mr6+PZs2aycOQKSkpePToEe7du4crV67g3r17SEtLExwTFxeHCRMmwNPTE+XLly+IaRMRUSHGJbyJiIiIiIiIiIiIKF/o6OiIwjlBQUEa95eQkIB3794J2tRZ0i+rd+/eCUKBUrx8+VLU9rUuQ62vr4/KlSsL2lJTU+Hn5ye5r7S0NDx+/FjQZm9vDwcHh1zN8Wum7LzOzXvn+fPnao2hLktLS7Rs2RLTpk3DyZMncebMGfTv31+0jG5gYCAOHz6s8Tj5SfG9/OrVq69uOVRl7OzsRG0BAQF5Mpa1tbWoklxuzuuXL1+KQlfZndfKltNVDNyoKzfBqC+dsvuev79/Acwkd/Lz3FdkY2MjalP2GUNdL168yM10Ctz169cF25UqVZIcngSUf1kjP5UoUUKw/eHDB41Dnc+ePVNZ6VmVonQfMzQ0RP369TFq1Ch4eHjg6tWrmDZtmiicnJCQgJUrVxbQLImIqDBjgJKIiIiIiIiIiIiI8k21atUE2+/fv8enT5806svPz08UlqlevbqkPtLS0jQOSCgLD0od/0tSv359Udvdu3cl9/PkyRPR8qLK+qb/o+y88vX11bg/xQCrqjE0Vb58efz2229YvHix6LF///1Xa+PkpZo1awq2k5KS4OPjU0CzyT+1a9cWtd27dy9PxjIxMRFVAXv69KmgSrEUys5rV1dXlfsrq6opZYncTKmpqaIwf1FSq1YtUduVK1cKYCa5Y2trCycnJ0HbvXv3NDonpFJ2nmp6jQ8LC0NYWFhup1SgFN9P9erV06ifBw8eaGE2mlO8jwCaz+nhw4e5Hr+o3MeAz+H5kSNH4sCBA6Jr/cWLF7/aICkREWmOAUoiIiIiIiIiIiIiyjd16tQRtZ09e1ajvs6cOSNqq1u3ruR+/vvvP43GP3funKhNWfjoa5G5TGJWmoThlL1uyvqm/2NnZ4fSpUsL2nx8fDSqepeSkgJvb29Bm6mpqajCqDZ06dIFVatWFbTlFFhWrFqpaZgut5o0aSJqO3HiRAHMJH/Vr18f+vr6grZTp07l2eugeE9ISEjQOHyn7Nqi7J6TyczMTHS+aVKx7tGjR0hKSpJ8XEFTfO6AZu83JycnlC1bVtD26NGjXFVQLCiK7/vU1FT873//y/Nxq1atCiMjI0Gbpp9NCiqkrnjdADS/five2xSrl6sjICAgVxVttUHZ9efUqVMa9XXy5EnJxxT0fUxb15jcqFChAnr16iVoS0xMxJs3b/J1HkREVPgxQElERERERERERERE+UZZUO7AgQOiSpI5iY2NFf0R2sDAAA0bNpQ8p+PHj0uuRBMYGIj79+8L2ipVqgRHR0fJ438pGjZsCHt7e0Hbw4cP8fTpU7X7SElJwdGjRwVthoaGaNu2rVbm+DX75ptvBNspKSnw9PSU3I+Xl5conNKoUSOlQQdtqFChgmA7NjY22/0VK0UlJCRofU7q+Oabb0SBptOnT3/xS+PmxMzMDI0aNRK0hYSE5FmITPG8BoD9+/dL7uft27ei4KW1tbWo6nFWOjo6KFeunKDt0aNHksc+ePCg5GMKA2UVODV9v7Vu3VqwnZGRgbVr12rUV0FSfB4AsGHDhjyvVmdgYCB63z18+FByhWyZTIbDhw9rc2pq0+b5ZGJiItiOjIyU3MeOHTs0GlubqlSpIroHnj17VnJQ+86dO6LPnOoo6PuYNs+J3FB8DYCcP4sQEVHRwwAlEREREREREREREeWbmjVripaqDAgIwL59+yT1888//4hCYB06dICtra3kOb1//x6bN2+WdMz8+fNFbf369ZM89pdET09PVMUHAJYtW6Z2Hzt27EBERISgrXPnzrCwsMj1/L52AwYMELWtW7cOHz9+VLuPuLg4LF26VNQ+aNCgXM0tO4pLydrY2GS7v+K5oElFQG2wsbFBnz59BG3p6emYNm3aF1ltUIqRI0eK2ubPny/pXFNX27Zt4eDgIGi7cOECLl26JKmf+fPnIy0tTdDWt29fGBgYZHuc4tL1vr6+kion+vr64vTp0+pPtBCxtLQUtWn6fhs6dKgoqHXy5El4eXlp1F9BadmypahqbnBwMP766688H1vZZwhlnzWyc/jwYTx58kRbU5LEzMxMVIVS0/NJ8csa169fl/RFm+vXr4u+rFFQFF/X5ORk/Pbbb2pXYoyPj8dvv/2m0dgFfR/T5jUmN5QtaZ/TZxEiIip6GKAkIiIiIiIiIiIionw1dOhQUduSJUtw69YttY4/fPgw9u7dK2jT0dHBkCFDNJ7T+vXr1Q7s/PPPP7h586agzdLSEl27dtV4/C/F4MGDRRWFrly5gj179uR4rK+vL1avXi1o09fXVxrWIrFKlSqJqvXFxsZi3LhxiIuLy/H4lJQUTJgwQRQkqFy5stJlPjMtWrQIz58/12jOfn5+uHPnjqCtSpUq2R7j4uIi2A4MDMS7d+80Gj+3Ro8eDVNTU0Gbn58ffvrpJ0RHR2vUZ0hICP788088e/ZMG1PME40aNUL9+vUFbZGRkRg+fDjev38vub/g4GCVjxkYGGDgwIGi9pkzZ6p93q1cuRIXL14UtBkZGeH777/P8djmzZuL2hYvXqzWuKGhoZg0aRJSU1PV2r+wUXyvAZAcXM3k4OCgNOQ9Z84cnD17VqM+09PT4eXlhX/++Uej4zWho6ODiRMnitr379+PZcuWSa6Wnen+/fuYOnVqtvu0bNlStBT6rVu31P6Swv3797FgwQKN5qcNurq6cHZ2FrRdvXpVo5+Z4vXn7du3an/Rxs/PD1OmTIFMJpM8bl7o2bMnSpQoIWi7evUqZs6cmWNl05iYGPz4448IDAzUePyCvI9p6xqzY8cOXLt2TfJxwOcvjiiGaYsVK/ZVV4wnIiLNMEBJRERERERERERERPmqc+fOaNGihaAtKSkJo0ePxu7du1X+sT05ORnLli3DvHnzRH8Y/+GHH0SVLdWRWTErNTUV48ePx44dO1SOHxsbi3nz5mHDhg2ix2bPno1ixYpJHv9LY2NjgwkTJoja//zzT6xbt05UAS7T+fPnMXjwYFFYYPDgwUqXViTlfv31V1GA9eHDhxg4cCD8/PxUHhcUFITBgweLAggGBgY5VlY7fPgwOnXqhKFDh+LgwYMIDw9Xa64XLlzAyJEjRe+n7777Ltvj6tatK9jOyMjAxIkT8fjxY7XG1SZ7e3ssWrQIOjo6gvarV6+iR48eOH78uMpzPquEhAR4eXlh3LhxaNeuHXbv3o3k5OS8mrZWLF68GFZWVoK2Z8+eoWfPnjhw4ECOzzslJQUXLlzAjz/+iB9++CHbfYcOHSqq+hcZGYlBgwZlW90xJiYGc+fOxbp160SPTZs2DcWLF892XABo166d6HleuHABP//8MxITE1Ue9++//6JPnz7yamqK1Re/BJUqVYK5ubmgbdOmTfD09NSoOt2kSZNQs2ZNQVtiYiImTJiAuXPn4s2bN2r18+zZM6xcuRLt27fH5MmT4e/vL3kuudGqVSulVXk3bdqEwYMH4/bt22r18/HjR3h4eKBfv37o168fvL29s91fV1cXf/zxh+h6s2nTJsyePVtl2E0mk+HQoUMYMWKEfHlkY2NjteaobXXq1BFsv3z5EnPnzkVISIikfjp27ChqW7BgAfbs2aMyGJmeno49e/Zg8ODB8iW/Fc/vgmBubo4//vhD1H7y5El07twZx44dEy0nHRYWht27d6Njx47yLxeVKlUKdnZ2kscvyPuYtq4xt27dwrBhw9C5c2ds2LABQUFBah0XGBiIIUOGiM6/b7/9FoaGhmqPT0RERYOOrLB8/YKIiIiIiIiIiIiIvjg+Pj4YPHiwoM3NzQ0eHh7ZHhceHo6uXbsqXVavZMmSaNu2LZydnVGsWDFERkbC398f586dk/9RPKvq1atj//79av0xdNCgQYJKl25ubjAxMRFUxClZsiTatWuHChUqoFixYoiIiMDjx49x/vx50R+5AcDd3R3r16/PcWxt2bdvH/bv36/y8U+fPuHTp0+CNkdHR6VLKWbq168f+vfvr9b4MpkMo0aNwuXLl0WPlShRAl26dEHZsmVhaGiI4OBgnD9/Xmm4T8rrpg2rV6/GmjVrBG0BAQGS+1F2DuV0vitTuXJlwfa4ceMwfvz4HI87duwYZs6cKWrX1dVF3bp10axZM5QoUQJ6enr48OEDbty4gZs3byoNSMyYMQPDhw/Pdrz69esLzntdXV1UrFgR1apVg7OzM6ytrVGsWDFkZGQgKioKL168wLVr1/DixQulfXl4eEBXV3V9j+TkZDRv3hxRUVGix8zMzODg4KA0rHb8+PFsn0durFu3DitXrlT6mJ2dHdzc3ODq6gobGxuYmJggLi4OsbGxeP36NXx9fREQECAKDx8+fBg1atRQOeasWbMEVbOcnJxyDGApo+wavWvXLjRs2DDHYy9fvoyxY8cqrbBoY2ODJk2awNXVFdbW1jAyMkJsbCzevXuHJ0+e4O7du/LzRp25BwUFoVevXvIAWFYVKlRAmzZtUKZMGZiZmSE8PBwPHz6Et7c34uPjRfu3bNkSGzZsEAWGVNm5c6fSyn329vbo0KEDqlSpAjMzM8TExODFixe4dOmSYJnvTp06ISwsTPJ1ITevjSJ3d3dBSKh79+5YtGhRjsf9/vvvoorOAKCnp4cSJUrAzMxM9H6dMGECWrdurbS/Dx8+oG/fvkqrxurp6cHV1RUNGjSAk5MTrKyskJ6ejpiYGERERODp06fw9fXFhw8fBMe1bNkSGzduVPkcgoODRfNZuHAhevToofKYnKSnp2PUqFG4evWq0sfLly8PNzc3VKpUCZaWltDX10dsbCyio6MRGBgIPz8/vHz5UhAgNzU1xf3793Mce/78+UrPHTMzM7i7u6NWrVqwtbVFfHw8Xr58iXPnzgnCqVWrVkXFihVx8uRJeZum1w+pHj16hN69eyt9zMbGBjY2NqJlvl1dXZUG+QcOHKg0rFquXDm0bdsWFStWhJGRESIiIhAYGIjz58/j48eP8v3s7OwwdOhQ/P3334Ljz58/j1KlSmX7PDR9P2Xnn3/+UfoFHODze8PW1hYWFhaIjIxERESEIChqYGCAHTt2YMaMGYJ59ezZU+2qowVxHwO0c40ZO3Yszp8/L9jHyckJ1apVQ5UqVeQ/Oz09PcTFxeHNmze4c+cO7t27JwrcWllZ4dSpU6Jl4omIiPRz3oWIiIiIiIiIiIiISLtsbW2xb98+jBgxAq9evRI8Fhoaip07d6rVT7169bB+/fpchfCWLFmCfv36yQMxoaGh2LFjh1rHNm7cOF+XFwU+BySlVuR69+5dtssgKwYus6Ojo4MVK1ZgxIgRuHfvnuCx9+/fY/PmzTn24ezsjM2bN7MCkAa6deuGtLQ0/Prrr4JQZEZGBu7cuSNaMlsZHR0dTJkyJcfwpDIZGRl49uyZ5CWoXVxcsHz58mzDk8DnSn6zZ89WGhLNDAzlt7Fjx8LBwQF//PGHqOLWp0+f4OXlBS8vr3yfV15r3rw5tm7digkTJogCrRERETh16hROnTqllbGcnZ2xa9cujB49WlTl9MWLF9i0aZNa/bRr1w5Lly5VOzwJfA5FX7x4EdevXxe0h4WF5RiCbNCgARYsWICRI0eqPV5hMnbsWJw7d070ZYb09HSVVQOzW/a3ePHiOHToECZPniwKv6Wnp+Phw4d4+PBh7ieex/T09LBhwwYsWrQIu3fvFj3+8uXLPLsWzZkzB1FRUYIAJPD5+nfy5ElRe1Z2dnZYvXo11q5dmydzy0nNmjXRo0cPeHp6ih6LiIhARESEqN3CwkJpX0uWLEHv3r1Fn09evXqV4+cMc3NzbNy4UfJ9Ki9NnjwZOjo6Sr9wk56ejo8fPwoCoJkMDQ2xdOlS1K9fX/RFCCkVNgvqPqbta0ymkJAQhISE4Ny5c2rPpVixYlizZg3Dk0REpBSX8CYiIiIiIiIiIiKiAlG6dGns27cPHTt2lBR2AT5X4xk0aBC2b9+ebWVFdVhZWWHPnj2ipSdz0rNnT2zYsKHAlsosSGZmZtixYwf69u0r+bVr3749Dhw4AFtb2zya3devV69e2Lx5M8qVKyf5WEdHR6xatQqjRo1Sa39NlgzNSkdHB927d8fevXvVWlIZ+BwSnT9/vmi58oLUq1cvHDhwAI0aNcpVP0ZGRujUqRNKliyppZnlrYYNG+LQoUNo1aqVxn2o+16vUaMGDhw4gCZNmkgew9TUFOPHj8fKlSslL6etq6uL9evXS36OXbp0wdatW7/oe4C9vT127tyJ6tWra7XPHTt2YNKkSaLl0aVydnZWupxzfjAwMMC8efOwcuVKja61Wdna2qpd5VlXVxeLFy/GqFGjRNUas1OxYkXs27cPpUuX1nSaWvH7779j8ODBOYblc1KyZEns3LkT5cuXl3Rc+fLlsX//fri6uuZq/LwwadIkbNu2Te3zqWrVqti7dy/at28PAIiJiRE8XqxYMUnjF8R9TBvXmNx+DgE+f+Fq//79aNCgQa77IiKirxMrUBIRERERERERERFRgbGxscGKFSvw+PFjbNu2DdeuXcu28oy9vT1atWqFkSNHokyZMlqbh62tLfbu3YvDhw9jx44dCAoKUrqfvr4+GjVqhFGjRmm0zOrXxMjICH/88Qd69eqFLVu24MKFC6LlHTNl/tyGDRuGpk2b5vNMv05NmjTB6dOnceTIERw7dgwPHz5Eenq60n11dHRQrVo1dOnSBd9//72kgNmZM2fg5+eHS5cu4c6dO3j48CHi4uJyPM7W1hbt27dHnz59ULVqVbXHy9S7d2907NgR//77L27evInAwEB8+PAB8fHxSEpKktyfNlStWhU7d+7Ew4cPsXfvXty8eRPv37/P8Th7e3s0btwYTZs2RevWrSWHXgpamTJlsGHDBjx8+BAeHh64du2a0kpyWdna2qJJkybo1KkTWrRoofZYpUuXxvbt23Ht2jV4eHjAx8dH6bLeWfdv3bo1RowYkauqYsbGxtiwYQO8vLywYcMGBAQEKN1PR0cHdevWxejRoyU9r8LM2dkZR44cwZ07d3Du3Dn4+/vj9evXiIuLQ2JiosrrSnb09fUxZswYDB48GAcPHsS5c+fw6NEjpcvBKx5Xo0YNNGnSBC1btkTNmjU1fVpa06FDB7Rr1w5nzpzBiRMncOfOHfny9NlxdnZGkyZN0KxZMzRt2lRSGFJPTw9Tp05Fp06dsHbtWly6dElUNTCTk5MTBgwYgEGDBhWKqs6GhoaYO3cuhg0bhtOnT+Phw4cIDAxEZGQk4uPjczwHsqpYsSKOHDkCDw8P7N69W1TFMCtnZ2f0798fffv2LRQ/B1WaNm2KU6dO4dq1azh79ix8fX0RFhaGmJgYmJqawsnJCbVq1UK7du3QtGlT+ZdUMt+PWWnyBaKCuI/l9hrzxx9/YPTo0bh48SJ8fHzw4MEDfPjwIcdxjY2N0aJFC3Tr1g3u7u5qz5eIiIomHZlMJivoSRARERERERERERERAZ+X9PP19UVISAgiIiIQFxeHYsWKwdbWFuXKlUOVKlVy1f+gQYNw69Yt+babm5vSJVpfv34NPz8/vH//HsnJybC2tkbx4sVRu3ZtWFtb52oOX6vExEQ8fPgQL1++lIdgixUrhjJlyqBWrVoql+kk7YiJicGDBw8QHh6OiIgIpKenw8bGBnZ2dqhRo4bWKn5mZGQgJCQEb968QWhoqDwAYWhoCHNzc9jb26Ny5cooVaqUVsYr7F6/fo3nz58jKioKUVFRSE1NhampKYoVK4ZSpUqhQoUKX121VZlMBn9/f7x58wYRERGIjo6Gnp4ezMzM4OjoCGdnZ5QuXVpydVplUlJS8OjRI7x79w4RERFITEyElZUVbGxsUKlSJcnV6dT17t073L9/HxEREYiJiYGJiQlKlSqFWrVqwcHBIU/G/NolJibC19cXHz9+RFRUFGJiYmBoaAgzMzPY2tqifPnyKFOmTKEOvwGfP6f4+/sjODhY/r7X0dGBmZkZLC0tUbZsWVSoUEGrFXTj4uJw7949fPjwAeHh4dDX14eDgwOqVq2KSpUqaW2cwkwmkyEgIABPnz5FZGQkkpKSYGZmBicnJ1SpUuWrv+dcu3YNw4YNE7Tt2LEDjRs3znXfX+J97OPHj3jz5g2Cg4MRHR2NxMRE6OrqwszMDNbW1qhYsSIqVKggKbhMRERFGwOURERERERERERERFRkqBugJCIiIiIqDP766y/s2rVLvq2rq4vbt2/D3Ny8AGdFRET09dAt6AkQERERERERERERERERERERkVBUVBQOHz4saKtSpQrDk0RERFrEACURERERERERERERERERERFRISKTyTBr1iwkJCQI2vv06VNAMyIiIvo6MUBJRERERERERERERERERERElAeOHTuG69evSzomLi4O48aNw4ULFwTtFhYW+O6777Q5PSIioiJPv6AnQERERERERERERERERERERPQ1unfvHg4cOIBy5cqhbdu2+Oabb1ClShVYWVkJ9ktNTcXTp09x/vx57N+/H1FRUaK+5s2bBzMzs/yZOBERURHBACURERERERERERERERERERFRHnr16hU2b96MzZs3AwCsra1hYWEBQ0NDxMTEIDIyEikpKSqP79WrF6tPEhER5QEGKImIiIiIiIiIiIiIiIiIiIjyUWRkJCIjI9Xad8yYMZg4cWIez4iIiKho0i3oCRARERERERERERERERERERF9jerWrQsnJyeNjm3SpAl2796NSZMmQUdHR8szIyIiIoAVKImIiIiIiIiIiIiIiIiIiIjyRLdu3dCtWzf4+/vj7t27ePToEd68eYN3794hJiYGycnJ0NPTg4WFBaytrVG+fHnUr18fTZo0QcWKFQt6+kRERF89HZlMJivoSRARERERERERERERERERERERERER5Scu4U1ERERERERERERERERERERERERERQ4DlERERERERERERERERERERERERERU5DBASURERERERERERERERERERERERERFDgOURERERERERERERERERERERERERFTkMEBJREREREREREREREREREREREREREUOA5REREREREREREREREREREREREREVOQwQElERERERERERERERERERERERERERQ4DlERERERERERERERERERERERERERU5DBASURERERERERERERERERERERERERFDgOURERERERERERERERERERERERERFTkMEBJREREREREREREREREREREREREREWOfkFPgIiIiIiIiIiIVEtJScGzZ89E7TY2NtDT0yuAGRERERERERERERGRovT0dERERIjaXVxcYGhoWAAzInUwQElEREREREREVIg9e/YMPXv2LOhpEBEREREREREREZEGjhw5AldX14KeBqnAJbyJiIiIiIiIiIiIiIiIiIiIiIiIqMhhgJKIiIiIiIiIiIiIiIiIiIiIiIiIihwGKImIiIiIiIiIiIiIiIiIiIiIiIioyGGAkoiIiIiIiIiIiIiIiIiIiIiIiIiKHP2CngAREREREREREalmY2OjtP3IkSOwt7fP59kQERERERERERERkTJhYWHo2bOnqF3V73ipcGCAkoiIiIiIiIioENPT01Pabm9vj+LFi+fzbIiIiIiIiIiIiIhIClW/46XCgUt4ExEREREREREREREREREREREREVGRwwAlERERERERERERERERERERERERERU5DFASERERERERERERERERERERERERUZHDACURERERERERERERERERERERERERFTkMUBIRERERERERERERERERERERERFRkcMAJREREREREREREREREREREREREREVOfoFPQEiIiIiIiIiIpJu5vJTMDK1LOhpEBERERERERERURFXzMwIS6d1KehpEGmEAUoiIiIiIiIioi9QXEIKUmTJBT0NIiIiIiIiIiIiIqIvFpfwJiIiIiIiIiIiIiIiIiIiIiIiIqIihwFKIiIiIiIiIiIiIiIiIiIiIiIiIipyGKAkIiIiIiIiIiIiIiIiIiIiIiIioiKHAUoiIiIiIiIiIiIiIiIiIiIiIiIiKnIYoCQiIiIiIiIiIiIiIiIiIiIiIiKiIocBSiIiIiIiIiIiIiIiIiIiIiIiIiIqchigJCIiIiIiIiIiIiIiIiIiIiIiIqIihwFKIiIiIiIiIiIiIiIiIiIiIiIiIipyGKAkIiIiIiIiIiIiIiIiIiIiIiIioiJHv6AnQEREREREREREREREREREREREREXHu3fvEBgYiA8fPiAmJgapqamwsLCApaUlKlSoABcXF+jp6RX0NLP1+vVrPH36FO/fv0dCQgJSU1MLekqkAQYoiYiIiIiIiIiIiIiIiIiIiIiIKM8EBQXh6tWruHnzJu7cuYOYmJhs9zc1NYWbmxv69euHFi1aQFe3cCy0nJSUhH379mH//v149epVQU9HICgoCN26dUNKSorosYULF6JHjx656j89PR1BQUHw9fWV/+fv74/k5GTBfuPGjcP48eNzNVZ+YoCSiIiIiIiIiIiIiIiIiIiIiIiItCopKQlbt27FmTNn8OzZM0nHJiQk4OLFi7h48SIqVaqEhQsXokaNGnk0U/XcvXsX06dPR0hIiKTjrl69ip49e+bRrD5LT0/HzJkzlYYnNZWWloZTp07Bz88Pvr6+ePr0KRITE7XWf2HBACURERERERERERERERERERERERFp1adPn7Bq1apc9xMYGIh+/fph9uzZGDhwoBZmJt2///6LKVOmaLRM99y5c5GUlIQBAwbkwcw+27x5Mx4/fqzVPhMSEjBz5kyt9lkYMUBJRERERERERERERERERERERERE+aZs2bJo0KABypYtC1tbW5iYmCA6OhpPnz7F5cuX8e7dO8H+aWlp+PPPP2FgYIC+ffvm61zv3bunNDypq6uLli1bol69enB0dMTr16+xcuVK0fEymQx//vknHBwc0LZtW63P79mzZ1izZo3W+y0qGKAkIiIiIiIiIiIiIiIiIiIiIiKiPFWxYkV0794dXbp0QfHixVXul5aWBk9PTyxcuBAJCQmCx/7880+4ubmhfPnyeT1dAJ+rME6dOlUUnixfvjzWrl0LZ2dneduHDx+UBiiBzyHK2bNno3bt2rC3t9fa/NLS0jBr1izB/GrWrIlHjx5pbQxl7O3t4erqioyMDFy6dClPx8prDFASEdFXIzg4GK1btxa0BQQEFNBsiIhy5uPjg8GDB8u3nZyc4O3tXYAzEvL09MTs2bPl225ubvDw8CjAGZEiX19fHDt2DA8ePEBISAhiY2MF/0Bu3bo11q1bV4AzJMreoEGDcOvWLfn2woUL0aNHjwKcERERERERERERERFpW8OGDTF+/Hg0aNBArf319fXRp08f1KxZE4MGDUJMTIz8sdTUVCxevBgbNmzIq+kKbNy4EaGhoYK2cuXKYf/+/bCyspLUV2xsLJYuXYrFixdrbX4bNmyAn5+ffPu7775DmTJltBqgtLGxQfXq1eHq6gpXV1fUqFFDHoD19PRkgJKIvk6rV69Wq7yvgYEBDAwMYGZmBltbWzg4OKBChQqoVKkS6tWrl2+JfyIiIqKiJD4+Hr/88gtOnTpV0FPJF4ohO1V0dXVhbm6OYsWKwcnJCTVq1EDDhg3RrFkz6Orq5sNMiYiIiIiIiIiIiIgoU7FixeDh4QE3NzeNjq9SpQrmz5+PCRMmCNovX76MiIgI2NjYaGOaKsXExGD37t2CNl1dXfz111+Sw5OZTp48iXHjxqF06dK5np+/v78gSGpra4s5c+aI5qwpMzMzeHt7w8nJSSv9FVYMUBJRrqSmpiI1NRUJCQkICwuDv78/Ll++LH/cyckJHTp0QJ8+fVCuXLmCmygREZEWPX36FP/9959828nJiRXT/j9PT0+EhITIt9u0aYOqVasW4Iy+PjKZDJMnT/7iv82XFzIyMhATE4OYmBiEhITg1q1b2Lp1K5ycnDBixAj0798fOjo6BT1NrYuJicHOnTsFbePHjy+g2RARERERERERERERfWZpaalxeDJT+/btUblyZcHqk+np6bh8+TK6deuWyxlm7+TJk4iLixO0tWjRAvXr19e4z/T0dBw8eBBTp07N1dxSU1Mxc+ZMwcpkv/zyC6ytrXPVb1Z6enpffXgSYICSiPJYSEgItm7diu3bt6NDhw6YMWMGHB0dC3paREREufL06VNBpWY3NzcGKP+/o0ePCioFOjk5MUCpZWfOnBGFJ21tbdG4cWM4ODhAT09P3l6xYsX8nl6hFBISgt9//x3e3t5YsWIFzM3NC3pKWhUTEyOqHs8AJRERERERERERERF9LZo3by4IUAJAcHBwno97+vRpUVv//v0l92NoaIiUlBRBv7kNUK5btw7+/v7y7Xbt2qFDhw656rOoYoCSiNQ2cuRIUVtGRgbi4uLklX6ePXuGsLAwpft5eXnh4sWLmD9/Pjp16pQfUyYiIiL66uzfv1+w3bx5c6xevRrGxsYFNKP85+joiM6dO4vaMytQPn/+HL6+voJvXQLAlStXMHHiRGzcuBH6+vznMBERERERERERERHRl0BZoS5l2RRtio2NxYMHDwRtpqam+OabbyT3Vbt2bUEBkpCQEAQFBcHZ2Vmjufn5+WHTpk3ybSsrK/z6668a9UUMUBKRBNOmTVNrv7dv3+L27dvYu3cvHj9+LHgsISEBU6ZMwYcPHzBs2LC8mCYREdEXo2HDhqJvyxUmPXr0YGXNQiYtLU30j/Xp06cXqfAkAJQuXTrHz6YfP37E6tWrcfDgQUH71atXsWPHDowYMSIvp0hq8vDwKOgpEBEREREREREREVEhl5SUJGrL67+N3L9/H+np6YK2OnXqCFYCU1fNmjUFAUoAuHPnjkYBypSUFMyaNQtpaWnyttmzZ8POzk5yX/SZbkFPgIi+PqVLl0aPHj1w+PBh7NmzB+XKlRPts3jxYpw8eTL/J0dERET0BQsJCRH8ksDU1BQuLi4FOKPCy8HBAX/++SemT58uemzz5s2Ij48vgFkREREREREREREREZFUr1+/FrXZ29vn6Zh+fn6ittq1a2vUl6urq1r9q2Pt2rV49uyZfLtFixbo1q2bRn3RZwxQElGeql+/Po4cOYI2bdqIHvvll18QEhJSALMiIiIi+jJFR0cLti0tLQtoJl+OESNGoGHDhoK2qKgoXL16tYBmRERERERERERERERE6kpLS4O3t7eovUaNGnk67osXL0RtZcqU0agvJycnUdvLly8l9/P48WNs2bJFvm1ubo4//vhDoznR/2GAkojynLm5Of755x/UrFlT0J6QkIDly5cX0KyIiIiIvjyKS1To6vKfdOoYMmSIqO3GjRv5PxEiIiIiIiIiIiIiIpLE29sbYWFhgjYrKyvUq1cvT8dVVhBMWRBSHXZ2dqKlv9++fSupD2VLd0+fPh0lSpTQaE70f/QLegJEVDQYGhpi5cqV6Ny5s2C5RC8vL0yePBmlSpXKVf/Jycl4+PAhXr58iejoaGRkZMDGxgYdO3ZEsWLFcjv9PBEQEIDAwEB8/PgRaWlpsLa2houLC1xdXUU3zqLOz88PQUFB+PjxIzIyMmBnZ4dq1aqhSpUqeTpudHQ0Hj58iE+fPiEiIgK6urqwsbFBqVKlUKtWLRgYGGh1vLS0NPj6+iIkJASRkZGIjY2FiYkJrKys4OzsDBcXFxgZGWl1rOfPnyMyMhJpaWmwsrKCu7s7ihcvnuPxKSkpePToEd69e4fw8HCkpKTA2toaDg4OqFevHszNzbUyz6SkJLx48QIvXrxAREQE4uPjYWxsDEtLSzg6OqJWrVowNTXVylgZGRl49eoVAgICEB4ejri4OOjo6MDY2BjW1tYoVaoUKlSoACsrq1yPlZ6eDl9fXwQHByMiIgIJCQmwsrKCnZ0d6tSpAxsbm9w/IXz+0B0QEIAPHz4gPj4eGRkZ8p9fqVKlUK5cuTwvba/Kp0+f8Pz5c7x9+xaxsbFITk6GhYUFLC0t4eLigkqVKkFHR0fr4yYnJ+PRo0d4//49IiMjER8fD1NTU9jZ2cHZ2RnOzs5af29T0RQeHo6HDx8iPDwckZGRMDIygq2tLcqUKQNXV1eNg48ymUzLMy0a3NzcoKOjI/j5afLNzkzPnz+Hv78/Pn78iKSkJJiZmaFBgwaoVq1ajseGhobCz88P4eHhiI6OhpmZGWxsbFChQoU8/2yTGzKZDP7+/nj16hUiIiIQGxsLCwsL2NnZoWbNmoXqFzQymQx+fn54+vQpIiIioK+vDxsbG7i4uKBatWp5cn8hIiIiIiIiIiIiIu1LTk7GsmXLRO09evSAvn7ext4+ffokatP0d+F6enqwt7fH+/fvs+0/OytXrsTz58/l2w0bNkTfvn01mg8JMUBJRPmmZMmS6NGjBzw8PORtGRkZOHz4MCZNmqTyuNWrV2PNmjXy7e7du2PRokUAgDdv3mDdunX43//+J6rIBHwu2Vy1alX5tru7u+BbArt27RIt6ZiTypUrC7bPnz+vdgA0IyMD+/btw65du/Dq1Sul+9ja2mLAgAEYMWKEPCyXmzG/VOnp6di9ezd2796NN2/eKN3HyckJw4cPR//+/bVWgSs9PR2enp44cuQIHj16hPT0dKX7mZmZoVWrVhg3bhzKly+fqzFv3LiBXbt2wcfHRxAwVmRkZIT69eujY8eO6NSpk8rgoKenJ2bPni3fdnNzk7/vPn36hA0bNuDYsWOIjY0VHWtvb59tgPLmzZvYsWMHfHx8kJCQoHQffX191KtXDz/++COaNGmisi9VAgICcPbsWVy/fh2+vr5ITU1Vua++vj7q1q2LYcOGoWXLlhoFIj58+ICtW7fi9OnTan1ILVeuHBo3boxvv/0Wbm5uksby8/PDli1bcPXqVcTExCjdR1dXF66urhg2bBg6duwoqX8AiImJwfbt23H8+HGl34pSVLJkSTRs2BDt27fX+GeojpSUFFy5cgXe3t7w8fHJ8RtVVlZWaN++PUaOHInSpUvnamyZTIZz585h3759uHv3LpKTk1Xua2ZmhoYNG6JLly5o06YNDA0N5Y8pvreyunXrluharUjZPcfHxweDBw+Wbzs5OSldguDMmTOYOHGifNvQ0BBXrlzRONA7YcIEnD17Vr7dqlUrbNiwQbRfdteTrAYNGoRbt24pHWv27Nkqf26A8Dnv2LEDCxculD9mZ2eHixcvahxq7datG54+fSrfHjx4MObOnatRX+rIvIfs378ffn5+KsOOmYH1sWPH5nh+K54jikJCQlSee1k/MxV15ubmsLCwECyBHhkZKdovODgYrVu3FrQFBAQA+Hwd8/DwwJ49e5ReXwcPHqwyQJmcnAwPDw8cO3YMgYGBKufp4OCA9u3b48cff4SdnV22z0nZXLPK6Zo0btw4jB8/Ptt9AOD169fYtGkTLl68mO190sXFBQMGDECvXr0k/dJK8fqxcOFC9OjRQ+X+2V03U1NTsWfPHmzfvl3wS6is7O3tMWLECHz//feCazwRERERERERERERFT7Lli0TZSssLS0xcuTIPB87698UMpmZmWncn+Lf91NTUxEfH69Wnw8fPsT27dvl2yYmJpg/fz4LBmgJA5RElK8GDx6MPXv2ICMjQ97m7e2dbYBSlaNHj+LXX3/NNghTmHz8+BE//fQTHj16lO1+4eHhWLVqFU6fPo2NGzfmOjj0JXr37h3GjRsHX1/fbPcLCQnBH3/8AS8vL0HIVlN37tzBvHnz8OLFixz3jY+Px6lTp3DmzBmMHDkSEydOlPzh5M2bN5g7d67K0JGi5ORkXLt2DdeuXcOlS5ckP+fLly9j6tSpKoN72Xn//j3mzp2Lq1ev5rhvWloafHx84OPjg1atWmHp0qVqV6QcP348/v33X7XnlZaWhlu3buHWrVto3LgxVqxYISlQduzYMfz+++8qw6DKvHr1Cq9evcK5c+dw7do1tY6JiYnB77//jtOnT+dYPS4jIwOPHj3CpEmTsHPnTqxatQoODg5qjXP16lVMnz4dERERau0PfK6EdvToURw9ehSPHj3SWpVTxTG6du0q6dyLiorCgQMHcPjwYUybNg3Dhg3TaOzHjx9j3rx5ghBdduLj4+Ht7Q1vb28MGTIk2+BffnJ3d4eVlRWioqIAfA5ynT59GgMGDJDcV1RUlCik2b17d21MM9e6d++Of/75R/6liE+fPsHb2xvt27eX3Nfjx49Fr3ufPn20Mk9l/P39MW3atGzDcZmioqLg6emJkydPYvjw4Zg0aRL/gZsPFK9vUj5Dvn37FmPGjFHr9VV048YNzJkzB6GhoTnu+/HjR3h4eODIkSOYOnUqBg4cKHk8bUlJScGSJUuwb98+wXIgqjx79gy//vordu7ciTVr1sDZ2TkfZvl/3r17h59++gl+fn7Z7hcWFoaFCxfi7Nmz2LRpU6GtVk9ERERERERERERU1J09exY7d+4Utc+YMUNrK/plR9nfkHPzt1RjY2NRW+YqV9lJTk7GzJkzBcWfJk2ahDJlymg8FxLSTrkuIiI1lSlTBi4uLoK2gIAApcn97Hh6emLWrFlfTHgyLCwMgwcPzjE8mVVQUBB++OEHhIeH5+HMCp8PHz7ghx9+yDE8mdWdO3cwYsSIXJ0PJ06cwJAhQ9QKT2aVlpaG9evXY9q0aYJgcE5u3ryJ3r17qx2eVCRlLAC4du0axo4dq1F48unTp+jTp49a4UlFFy5cwIABA9QuP/7hwwfJY2S6ceMG+vTpo/b15NSpU5g1a5ak8KQmQkJC0L9/f5w6dUry0rv3799H37591Vpm9vbt2xgzZoyk8GR+SUxM1OjcAz5X9Fu8eLFGVfS8vLwwcOBAtcOTiqS+z/KSoaEhOnXqJGg7evSoRn2dPn1aUNnVysoKrVq1ytX8tMXS0lJUefXgwYMa9XXo0CHBdp06dVCpUiWN55admzdvYsCAAZLDdampqdiwYQOmTJmClJSUPJkb/R/F+4O6gfv3799j4MCBGoUnT58+jZEjR6oVnswqISEBf/75JxYtWlQgy7ZHRUVh6NCh8PDwUCs8mdWLFy/Qv39/3L9/P49mJ/bhwwcMGDAgx/BkVvfu3cNPP/1UID9fIiIiIiIiIiIiIsqen58fZs2aJWpv3749evXqlS9zUPb78dwEKJUdm91qjJn++ecfwd+L69Spk+3qZSQdK1ASUb6rVasW/P39BW1PnjxB48aN1Tr+5cuX8PLykm/XrVsXPXr0QN26dWFnZ4ekpCQEBwfj3LlzMDEx0ercNSGTyTBp0iRRAMrGxgYDBw5Ey5Yt4ejoCOBzlbaLFy9iz549iIiIQEhICH7++eeCmHaBSE9Px08//YTXr18L2u3t7eU/qxIlSiAlJQWvX7/GmTNncODAAaSmpsLX1xdLly7VaNxz585h+vTpgjY9PT20adMGbdu2haurK6ytrQF8DlHcvHkTHh4eCA4Olu9/6tQplC9fHuPGjctxPD8/P4waNUoU+LSxsUGPHj3wzTffoHTp0rCyskJSUhI+ffqEJ0+e4Pbt2zh//rzkwHFkZCSmTZsm//Dl4uKCPn36wM3NDfb29pDJZAgNDcWFCxdEYZK3b99i8ODBovBb7dq10bVrV9SpUwcODg4wMjJCeHg47t27h0OHDuHu3bvyfTOrsm3btk3tpdZtbW3RtGlT1K1bF87OzihZsiTMzc1hYGCA+Ph4BAcH4+HDhzh+/LggHPf69WvMnj0b69aty7b/6Oho/Pnnn4LQhIGBATp16oTWrVujYsWKsLGxgaGhIeLj4xEZGYnnz5/j8ePHuHz5Mp4/f67W84iJicGgQYNES71WqlQJPXv2RL169VCiRAmYmpoiKioKjx49wokTJ3DhwgX5vqGhoRg/fjwOHz6s9FtJwOcP73PnzhUEsHR1ddG6dWu0b98eVapUgb29PQwNDZGYmIioqCi8ePECT548waVLl/DkyZN8CZDo6OigcuXKaNq0KapVqwZnZ2fY2NjAzMwM6enpiImJQVBQEK5evYoTJ04IzvXt27ejXr16aNu2rVpjXbx4EVOmTBE9LycnJ3Tr1g1NmjRByZIlYWFhgYSEBHz8+BF+fn64ceMGLl68iMTERFGfLi4u8uUAnj17hkuXLskfc3R0ROfOnbOdU8mSJdWauyo9evTAnj175NuPHz9GUFCQ5CpvisHLLl265HoZ286dO6NWrVoAPl8P3717J3+sRYsWoi9PZGVhYSHY7tevn2CO169fR0hICJycnNSeT0JCAk6dOiVo69u3r9rHS/HmzRuMGTNGFMZ2dnZG//790bhxYzg4OCAhIQEvX77EqVOncPToUcG3BL28vGBra6v0nl+yZEnBMhTv3r0TPDdzc3P0799f6dyqV6+e26f31QgKChLdd21tbdU6dvr06fLloG1sbNC/f380a9YMTk5OMDIywocPH3D37l3o6ekJjrt37x6mT58ueK2Bz5+Fe/fujfr168POzg4xMTF49uwZjh07hjNnzgj23b59O4oXL46hQ4eK5lWsWDH5uREbG4v9+/cLHs9p+ZJ69eopbU9JScGIESPw+PFjQbuTkxN69eoFNzc3lC5dGmZmZoiNjcXTp0/h5eWF06dPy4Pn0dHRGD9+PI4fP672z1lTaWlpGD9+vPxeW7ZsWcF7T09PT/5vg507dwreqz4+Pjh8+DB69+6dp3MkIiIiIiIiIiIiIvW9ffsWo0ePFv3tpUKFCliwYEEBzeqz3KwopuzYnP5Ge+/ePUEVTkNDQ/z1119q/92d1MMAJRHlu5o1a+LAgQOCttevX6sdoHzw4AGAzwG33377TbQcp6WlJYoXL67yj8L5be/evbhz546grWnTpli+fLkorGZjYwNXV1cMGDAAU6ZMwfXr10XLrH7Ndu7cKfpjffPmzbFs2TJRwMbBwQENGjRAv379MHr0aISEhGj0swoODsacOXMEbS4uLli2bJnSwI+VlRWqVKmC77//HvPnzxecy+vWrUPLli3h6uqqcrzMQIFiiGPgwIGYPHmyaKlrc3Nz2NnZoUqVKujRowdSU1Nx+vRpSZUys1bMGj9+PMaMGSMKedja2qJGjRqCttTUVEyePFkQnrSyssL8+fOVhtjMzc1RtmxZdO/eHQcPHsQff/whD23euHEDHh4e+OGHH7Kda/PmzTF+/Hh88803Kj98mpmZwcHBAXXr1sWQIUNw+PBh/P777/Kxzp8/j1u3bsHNzU3lOGfPnpUvhZw59x07doh+BgBgamoKe3t7uLi44Ntvv8XMmTPh7+8vCmcpM3v2bEF40tjYGLNmzVIadjI3N0epUqXw7bffwtvbG9OmTUN8fDyAz6/h8uXLRedqJh8fH0HwWF9fH+vWrUOLFi2UPh9bW1s4Ozujbdu2mDhxIt6+fYvdu3fn2RLCJiYmGDlyJPr27YvSpUur3M/S0hKlS5dGy5YtMW7cOMybN0+wpPvixYvRunXrHP9B8PbtW8yYMUPwDw4dHR1MmDABI0aMEIUFzc3N4eDgAFdXV/Tt2xeJiYk4fPiwKPTk6uoqf397enoKApSlS5fGtGnTcv5h5IKrqytcXFzw7NkzeZunp6coAJ6dzCBwVtpYvjtrOPHhw4eCAGWHDh3Qo0cPtfuqXbs2qlatKg9HZ2Rk4NChQ5g0aZLafZw+fVr+/gE+B80UK1tqQ3p6OqZPny76B/zgwYMxffp0wblmYWGBEiVKoHHjxujfvz9+/PFHhIWFyR/fvXs3WrRogWbNmgn6Ujy3fHx8BNcfS0vLPD/3vgaKwUTg87mmjsxq0e7u7liyZIloyWdLS0vRZ4b4+HjMmDFDdB2ZNm0aRowYIbjeFitWDE5OTmjVqhWuXLmCCRMmCM6p5cuXo3HjxqhSpYpo3MzXPjg4WBSg1PS8+PvvvwXXCV1dXfz0009KPz+Ym5vD0dER7u7uGDhwIMaNGyc/r8PCwvDLL79g7dq1Gs1DXR8+fJBXsB4+fDgmT54MAwMDwT6WlpaoXr06OnfujMGDBwsqvO/cuZMBSiIiIiIiIiIiIqJC4sOHDxgyZIjgbygAUKJECWzZskX09/S8pK+vL1pBTJ0lt1VRtqKm4u+zFceaPXu2YNW8cePGSS6uQjljHJWI8p2Dg4OoTZNle5WFJwubzOWds6patSrWrl2b7bKR1tbWWLduHapWrZrHMyw8kpKSRD+rmjVrYvXq1aLwZFaVKlXCtm3bNP6gtGTJEkFAsGLFiti9e3e21dKAz9/s+OOPPwRL6qanp2PTpk3ZHrd582ZRNcIJEyZg3rx5aj0HAwMDdOvWDVOmTMlxX0U//vgjxo0bJwo/qHLw4EFBgMLU1BRbt25VqwJgnz59RJXUtmzZkmMJ8nHjxqFZs2ZqB/l0dHTQu3dvzJs3T9C+a9eubI/LWiET+By4UBaeVKVKlSo5BlMuXryI//77T76tr6+PVatWqawUl5W7uzv++ecfQVDwwIEDKpfnVnw+3bp1UxqeVKV06dKYPXt2rqsQqlKyZElMmzYt2/CkIisrK6xcuRJ169aVt719+1ZQnVOV5cuXiyq1Llq0CGPHjlXrOZqYmGDQoEEYMmSI2vPNL4phxxMnTogCWtlRrD7p4uJSKKsU9uvXT7Dt6ekp6XkqLvv93Xffqazgmhvnz5+Xf7EjU+/evTF37txszzVXV1ds27ZNUClbJpNh+fLlWp8jfa4erey+0LRpU7X7cHNzw+rVq0XhSVUOHjyIt2/fCtomTZqEkSNHZnuPa9asGdatWye4/qekpGDNmjVqzzU3nj17Bg8PD0Hbb7/9ptbnh9q1a2Pz5s2C99p///2n0dLnmhg2bBhmzJiR7S+bKlasiLlz5wraAgMDRdXxiYiIiIiIiIiIiCj/hYeHY8iQIYKVIAHAzs4OO3bskLRamTYoW/FUWQhSXUlJSWqNkWnp0qV49eqVfLt69eoYPny4xuOTagxQElG+UxaGi42NldSHm5tboQ9PAoC3t7fomxF//PGHWkuLm5iY4LfffsujmRU+Xl5egiCjrq4u/vjjD7UCL+XKlcP48eMlj/nmzRucO3dOMOaSJUtgaWmpdh/z5s2DqampfPu///5TGQiOjY3Fvn37BG1NmzbF2LFjJc5cunLlyuGnn35Se//09HRs375d0DZp0qRsq2sq6tevn6C618ePHwXVBLWpd+/egnD21atXsw1bffr0SbAtJTypri1btgi2BwwYICnU2KJFC0HFvKSkJBw+fFjpvvnxfAqCrq6u6P2RteqjMq9fv8bZs2cFbX369EG3bt20Pb0C8d1330Ff//+KyH/8+BHXrl1T69j09HScOHFC0NazZ0+tzk9bunTpIvj23ocPH3J87TP5+/vj0aNHgra8+sygGDQrXrw4Zs+erdaxLi4uovP7yZMnoqrVlDuhoaEYNWqUoOow8PmzpLrhYX19fcyfP1/w3stORkYG9u7dK2irVq0aRo0apdbxjRs3Fp2z3t7eol8Y5YWtW7cKqve2adNGUGE2J1WrVsXgwYMFbYrvk7xQpkwZtb9c0rFjR9EXuh4+fJgX0yIiIiIiIiIiIiIiNUVGRmLIkCGilRitra2xY8cOlC9fPt/npKwoVtYV0KRSXNHMwMBAZTXLO3fuYPfu3YJ9FyxYoPbfKkgaBiiJKN8pC1AqS9pnR/EPs4WVYlisTp06qFmzptrH165dW+3lJb90p0+fFmw3bdpUUgXO/v37S65CeejQIUG56+bNm0uuxGZtbY0OHTrIt9PT03Hz5k2l+549exZxcXGCtqlTp+bZsslZ9e/fX1J1wevXrwsqZ1laWqpVOVGRYhW569evS+5DHbq6uoLQYGJiIgICAlTur1idSjGAmFsvXrzA7du35dt6enpqB2eyUvfnp/jaavv5FKRatWoJthWr/Sk6duyYIDxrYGCACRMm5MXUCoSdnZ1oiedjx46pdey1a9fw8eNH+ba+vj66dOmizelpjZmZmWhuilUlVTl06JBgu1atWqKlj7UhPDxcvrRzpoEDB0patmHw4MGie5eXl5dW5ldUZWRkICoqCnfu3MHixYvRuXNn0f3AwMAA06dPV7vP5s2bo2zZsmrv7+vrizdv3gjaRo4cqXYFaOBz1eisVSjT09NF4XBti4uLE30e+/HHHyX3o3jvunHjRq7mpY6BAwdmW3kyK11dXTRu3FjQxgqURERERERERERERAUnOjoaw4YNw7NnzwTtVlZW2LFjBypVqlQg87K1tRW1abK6KvD59/yKxbfs7OxU7v/LL78ICh6MHDkyT/7eRZ8xlkpE+S7rRT6TlACZgYGBpCpuBUmxAlbWoJ26OnTokGNg6Esnk8kES0UDECyNrQ4jIyO0adNG7SARAPj4+Ai227VrJ2nMTHXr1oWnp6d8++7du+jatWuO47m6uubb0rmtW7eWtL/iXFu1aqXR8s716tUTbCsuNa2O0NBQBAQEIDQ0FPHx8YiPj1daXVJxqdSgoCBUq1ZNaZ8VKlQQLAW9adMmtGjRAjY2NpLnp4ziz69u3brZfgBWpXbt2tDT05M/34cPHyItLU30zSLFb1zt3bsXXbt2lbRkdn5LSUnBixcvEBAQgKioKMTFxSEpKUnpPSIrxW+dKVL82bu7u8Pe3j7X8y1MevToITh///vvP8TGxua4tLDi8t3NmzdX+g+/wqJ///7Yv3+/fPvy5cv48OEDihcvrvKYpKQkUZXNvKo+ef/+fVGb1ECqsbEx2rVrJ7iHKOuXxG7duoXKlStrdOz8+fMlfaGlTZs2kvq/d++eYNvU1FTyfdjR0RH169cXhHTz+ty4d+8eUlNT5dslS5bUqKKxk5MTSpQogffv3wP4XPE7LCwsT6/FisHynDg7Owu2IyMjtTkdIiIiIiIiIiIiIlJTbGwshg4diidPngjaLSwssHXr1gINDZYqVUr0O/+QkBDUr19fcl+fPn1CWlqaqH9VshZFAT4X7/L29pY0nqJVq1Zh586dgjZ3d3dMnDhR7X6/VgxQElG+y7pMcyYjIyO1j69UqZJGQa78FhcXh9evXwvapCx/nCm/AnYF6fXr14iOjha0SQk2ZD1G3QBlYmKi6EOYlIqXWSkuA6kY5MukGB50c3PTaDypLC0tJQfpFJeQ1fRnoxiWUHf50Tdv3mD//v04ffq0PIAhlbJrTaZ27dph69at8u0XL16gc+fOGDRoEDp37pzr4KHiz0/TD/aGhoawtLREREQEgM9l3cPDw0UBMnd3dyxcuFAefAkPD0fXrl3x/fffo2vXrgX2rSxlLl68iCNHjuDixYtISUmRfHxqaioSExNhYmIieiwlJUUUXM+v91l+atWqFaytreWBn+TkZHh5eWW7zG5sbCzOnz8vaCusy3dnqlKlCurUqSMPjaWnp+Pw4cP46aefVB5z5swZwXvf3Nwc3377bZ7MT/FcK1GiBBwdHSX3U7t2bUGAMiAgAMnJyZI+G5F67O3tsWDBAjRv3lzScVI/iyl+KaRq1aoavZ516tQRBCgVzzltU/yckptfStnb2wvu32/evMmzAKWhoSEqVKgg6RjFwHlsbKw2p0REREREREREREREaoiLi8OwYcPg5+cnaDc3N8fWrVs1yldok7JlwxVXoFJXaGioqE3K77afP3+u0bhZvXv3Du/evRO0aZoD+NowQElE+U5ZqEnZst6qZFd5qjDJDDxlJWX5x9wco4lNmzZlGzhT1LdvX61Vt1Msc62vr6/0w0hOpITE3r17J6iyBADdu3eXPKYyimHQTIrfEsmvDyOavGcUg44LFy7EwoULcz2X1NRUxMXFqVxuXSaTYe3atdi4caNG4bqssgtD1K5dGx07dsT//vc/eVt4eDhWrFiBFStWoFy5cmjQoAHq1KmDunXrSj4fFX9+Hh4e8PDwkPYEVIiKihK9po6Ojvjhhx+wZcsWeVt8fDw2b96MzZs3o2TJkqhfvz7q1q2LOnXqoHLlyvmydHxWoaGhmDt3rlaWcY+JiVEaoIyMjBS9r7/GD/0GBgbo3Lmz4Jw6evRotgHK06dPIzk5Wb5tbW39RVRz7tevn6Dq3pEjRzBmzBjB0sZZKS7z3blzZ5iamubJ3BSXWdA0qOzi4iLYTk9PR0REhEZhzLzw9u1bHDhwQO39LSwsMGrUqDyckXSVKlVC79690aNHjxwrtSoj9T6qeL/X1rnx6dMnyGSyPLt+K34BxNvbW+Mqn4pUfTbSBktLS8nHGBsbC7Zz+5mDiIiIiIiIiIiIiKSJi4vD8OHDRcUDzMzMsHXrVo0KLmmbsgILmq4e6uvrK2pTtZoi5T8GKIko3yn+URn4XLVJXaqCV4WNsj8UazJ3Tf7Qr4n9+/cjJCRE7f2bNWumtQClYtDN3NxcZTgmO1KCuFFRUZL7V5eyIGpcXJwo2GVlZZVnc8hKk/MuL38+sbGxSuckk8kwb948HDp0SCvjKP68FS1cuBApKSmiqnwA8OrVK7x69Uo+FwcHBzRr1gydO3dG48aNcwyv5PXPT5kpU6YgLi5OsORxptDQUJw4cUK+tLGVlRWaNGmCTp06oUWLFjAwMMiz+WaOP2jQILUrkOZE1WurbAnW/Hqf5bcePXoIApT379/Hy5cvVYZ9FavzdunSJc9fd23o2LEjFi5cKH9PhYSE4Nq1a0qX6w0KChJV0MsuVJpbitd6TUJcqo6Ljo4uNAHK0NBQbN68We39nZyc8iVA6ejoiM6dO4va9fT0YGZmBnNzczg5OaFGjRqwsbHJ1VhSP4spXqe1dW6kp6cjPj4+zz4L5/dnI235EirTExEREREREREREdH/iY+Px4gRI0RhRFNTU2zevBm1a9cukHkpqlu3LvT09JCeni5vu3//PtLT06GnpyepL2WrTDVo0CDXcyTtYICSiPKdshuDlCqL+vpfxqVLWSUbTcIqReGPwvHx8YJtxapA6lJWkU6VvFyqMSMjQ9Sm+BwB5FlVNEVS3zOJiYk5hg9zI+sHzKyOHTsmCk/q6emhefPmaNKkCapWrYoSJUrAysoKRkZGovfGrFmzcPToUbXnYWJignXr1uHs2bPYtGmT0m/9ZPr48SOOHDmCI0eOwMXFBTNmzFAa4MqUl0ERVT8/PT09/P777+jQoQPWr1+PW7duQSaTKd03KioKXl5e8PLygpOTEyZNmoTvvvsuz+Y8a9YsUXjS2toa3377LerVq4eyZcuiePHiMDU1hbGxsegfHOpWQFP2PjMzM9N84oVYtWrVUKVKFfj7+8vbjh07hsmTJ4v2ffnypaCKI/A5gPklMDIyQvfu3bF9+3Z526FDh5S+/xSvH66urnn6zT3F803KPSgrZfcCZecyCZUuXRrTpk3Ll7Gk3ke1dW4oOy4vA5R5ee9S9tmIiIiIiIiIiIiIiIqehIQEjBo1SvS3q8zwZL169QpoZmLFihVDrVq1cO/ePXlbfHw8rl27hubNm0vqS/H5lixZEs7Ozir3v3PnjrTJKli9ejXWrFkjaFu4cOEX8zfC/PZlpJCI6Kui+C0CHR2dr3KJVWXViuLj4yVXIYqLi9PWlAotxYBTUlKSRv0kJiaqva+RkZGobcSIEVpZFlNZJUxlIa6EhIRcj5UXjIyMoKurKwg7dOrUCSVLltRK/8reG+np6Vi+fLmgrVy5cli3bl22HxyzkvL6Z9W+fXu0b98eQUFBuHLlCm7duoV79+4prWYIAM+ePcPIkSMxceJEjBkzRuk+iiHg5s2ba20Z1Jxeh8aNG6Nx48YICQnBpUuXcPv2bdy5c0dp9V/gc0W/6dOn4/bt2/jzzz+1MsesLl++DB8fH0Fb3759MXfuXKXvQ0VSXldloaKvOYjWvXt3LFy4UL59/PhxTJw4UVTBV7H6ZNWqVb+o+27fvn2xY8cOeSDY29sbnz59gp2dnXyflJQU0fPMy+qTgPi6ruk1SNm94GsN/hYV2jo3lB2Xl+eG4r2rTp06qF+/vlb6VlyOnIiIiIiIiIiIiIiKnsTERIwePVoUDjQxMcHGjRu19jtpberUqZMgQAl8Xt1TaoBSsQBXp06dcj030h4GKIkoX71+/RqBgYGCtqpVq0paerkgKasqqYqy5xQeHi45QBkeHi5pf015e3vnyzjKKAbq4uLikJGRIXkZbymVk6ytrUVtgwYNkrScvBTm5uYwMDAQVHbMy6Uyc0NXVxcWFhaC+bVo0QJdu3bNszHv378vCPjp6+tLCk8Cua+c5ezsDGdnZwwZMgTA5+WA7927hytXruDKlSuCkJNMJsOKFStQuXJluLu7i/qytrZGaGiofLtOnToYO3ZsruYnlZOTE77//nt8//33AIDg4GDcvXsXV69exaVLlxAdHS3Y/+DBg3BxccGgQYO0Oo+zZ88KtuvXr4/ff/9d7bCylNdV2XLdhfV9pg3fffcdli5dKr+uvHv3Djdv3kSTJk3k+2RkZOD48eOC47p3756v88yt8uXLo2HDhrh58yaAz0u4e3p6CpaJPnfunCD0bGpqmuf/8FS8zyu+p9Sl7DhNl3zOCw0bNkRAQEBBT+OLovi5RlvnRuby5HlF8bORs7NzvlX5JCIiIiIiIiIiIqKvW3JyMsaOHYtbt24J2o2NjbF+/Xq4ubkV0Myy991332H58uWCoi0XLlzAvXv3ULduXY361NPTQ58+fbQ1RdICackUIqJc2rVrl2hJ2datW+fb+IpLaEsJRAJQWZFOGXt7e9GynJoEEIpCaKF48eKC7bS0NLx8+VJyP4rh3Ow4ODiI2oKCgiSPKYXi83z69Gmejpcbij+fFy9e5Ol4it/aadSokaTwJKD918/Z2Rm9e/fGqlWrcOXKFYwfP160tLRi2fNMij+/vD631FGqVCl07doVf//9N65cuYJffvlFtDzs+vXrtb7MquJr279/f0mVXqX87GxsbERLuxfm91lu2djYoEWLFoI2xWXsb968iXfv3sm3DQwM0KVLl3yZnzb169dPsH348GHB54mDBw8KHu/cuXOeV3G0t7cXbEu5B2X17Nkzwbaenh5sbGw0nhcVPMV7gLbODTs7O61UylalMN67iIiIiIiIiIiIiOjLl5KSgnHjxuH69euCdmNjY2zYsAGNGzfO0/F9fHxQuXJlwX/KiuQoY2FhgQEDBgjaMjIyMHv2bI0LKHTq1AllypTR6FjKGwxQElG+CQkJgaenp6BNT08PPXv2zLc5KC7vKrVinZQwo56eHqpXry5oy6yeJYXi0rdfo7Jly4oqeT169EhyP48fP1Z7X2tra1FA78qVK5LHlEKx5Ljit2sKk3r16gm28/pn8+nTJ8F2pUqVJB0fHByMDx8+aHNKAubm5hg3bhwmTZokaPfz80NERIRof8Wf37Vr17QeTMwNIyMjDBgwAAsWLBC0h4eHw8/PT6tj5fa1vXv3rtr7GhgYoFatWoK2vHqf5WWISQrFapLnzp1DXFycfFvxvtuyZcsvMpzXpk0bQWDx9evX8vvjmzdvRPfK/PjWXs2aNQXb79+/1+g69ODBA8F25cqV1VrengqvGjVqCLafPn0q+Us7wOfqzFkpnnNZaeOapHjvevz4sca//CEiIiIiIiIiIiIiAj4XT5o0aRIuX74saDcyMsLatWvzPDypDT/++KNoJctXr16hX79+kosRmJubc/WnQohLeBNRvkhJScGkSZMES+ACQJcuXeDo6Jhv81BcmlDqzezq1auS9q9fvz5u374t3z5z5gzmzJmjdjAiOTkZZ86ckTTml0hHRwc1a9YU/Hz/97//SVpmNjk5Gf/995+kcZs0aSI4B06dOoVJkybB2NhYUj/qcnNzw7Fjx+Tbvr6+ePLkCapVq5Yn4+VGkyZNsG/fPvm2n58fnj59iqpVq+bJeImJiYJtfX1pH1GOHDmizemo1KNHDyxbtkzQFhoaKgqkZV1CGfhcvdbb2xtt2rTJ8zlK0b59e5iamgquzaGhoaLwT27k5rXNyMgQVVTMiZubm+C66+3tjU+fPsHOzk5SPzlRrHSZuYx2fmvZsiVsbW0RHh4O4PPP+8yZM+jVqxfi4uJE18X8WL47L342BgYG6NmzJzZs2CBvO3jwIBo1aoSDBw8KqlFWq1ZNq+ewKnXq1BG1nTx5EiNGjFC7j6SkJJw7dy7HfunLorhkR0JCAs6fP4+OHTuq3cf79+9x584dQVt254bi+w74/PlbWbsqjRo1go6Ojvz9lJaWhmPHjuGHH35Quw8iIiIiIiIiIiIioqy8vLxw/vx5UbuRkRH+/vtv/P333xr37erqir/++is301OLmZkZli1bhh9++AFpaWny9hcvXqBz585o1aoV6tevj+LFi+P169fZ9vXXX3+JVq4s7M6fP49Vq1apfFxZMYb9+/dnm99wd3fHxIkTtTI/bWAFSiLKc3FxcZgyZYqooqC5uTmmTJmSr3OpUqWKYFuxRHR2oqOjJYe0evbsKagIFBUVhU2bNql9/MaNGxEVFSVpzC9Vp06dBNtXr16Fv7+/2scfOHAAsbGxksbs0aOHYDssLAzbt2+X1IcU7du3R7FixQRty5YtEy1rXxg0b95ctDzt33//nWdztbS0FGxLWcL906dP2Lt3r7anpJRiFVtVqlWrJgqbrlixQqMKZHlJT08vzwLDmXLz2h45cgQhISGSxuvevbtgqfXU1FSsXLlSUh/qUDwXIiMjtT6GOvT19UVLcmeGTv/3v/8JAqy2traiJb/zQl79bPr27Qtd3f/758u5c+cQFhYmCtnmR/VJ4PPPs2HDhoI2Dw8P0ZdFsrN7927Rvevbb7/Vyvyo4Li6uoqW3ti8ebOkSsQbN24U7K+np4cOHTqo3F/Z/Unqe8/Gxka0ZElR+ixKRERERERERERERNqXNXCYVUxMDPz9/XP135s3b/LtedSvXx9Lly4VFYvJyMjA+fPnsXjxYkyZMkXl3yV1dHQwd+7cbH/XX1hFR0dn+zq8e/dOdMynT58kH1OQGKAkojx1584d9OzZU1RdSUdHp0CS9bVr1xZs379/Hw8fPszxOJlMhnnz5gmWRVVH6dKlRWGVjRs34tKlSzkee+nSJUlhyy/dt99+K1jGOz09Hb/++qtagbM3b95k+40HVapVqyYKCqxevVqt10eVzCpwypibm+P7778XtF29ehXr16/XeLy8YmxsLKqidu3aNfzzzz8a95mQkCCqRpipYsWKgu2rV6+qtRRuamoqZs+eLTnc8fbtW0n7Z8pa2TCTsiq6Ojo6+OmnnwRtgYGBmDNnjsZLeaekpCAmJkbpY5o+nxcvXoiWINd2VWBnZ2fBtrpB9KCgICxatEjyeKVLlxZVeTt48CCOHz8uua/slCxZUrD99u1bla9PXlMMg9+9exdv374VVLwFgO+++05ydVdNKP5stLUsfMmSJdG8eXP5dkpKCqZMmSJYJt7U1FQUKM1LgwYNEmy/f/8eixcvVuvY58+fY+3atYK2atWqoX79+lqbHxUMXV1dDBgwQNDm5+eHLVu2qHX8zZs3sX//fkGbu7s7nJycVB5jYmIiqrSuyXtv3Lhxgu3w8HBMmDBB4y8AZGRkiO4zRERERERERERERET5SdnvqStVqiS5n44dO2Lnzp2iv4WpY/78+Rg8eLDk4yh/MEBJRFoXHByMo0ePonfv3hgwYABevXol2qegkvXNmzeHlZWVoG3GjBn4+PGjymMSExMxbdo0nD17VqMx58yZI6jwlpqainHjxmHDhg1ITk4W7Z+UlIT169dj3LhxSE1NFc33a2VsbIwxY8YI2h48eIDx48dnW1kyKCgIQ4YMkVx9MtPMmTMFVSHT09MxduxYbN68We1lZ2UyGe7du4dp06aha9eu2e47YsQIlCpVStC2cuVKzJ8/H/Hx8TmOlZqaiuPHj+cqyKiu/v37o3r16oK2jRs3YurUqZKqWr169QpLly5Fy5YtVQb9mjRpIqgamJSUhEmTJmX7ukZGRmL8+PG4fPmy2nPJ1LNnT/z444+4fPmy2q/z27dv8fvvvwvaatasCVtbW6X7t2nTBi1bthS0ZS7vK+UbNe/fv8eGDRvg7u6Ou3fvKt1n/PjxGDhwIM6ePYukpCS1+o2IiMCMGTMEbfb29qLXPLeaNWsm2Pb29sa2bduyPebOnTsYOHCg5NB6pilTpogqX86cORPr169XKwSUmJiIPXv2YMeOHSr3qVChAkxMTOTb6enpWLVqVYFUlK1cuTKqVasm35bJZFi1apXofMmP5buBz9X3srpw4QLu3bunlb779esn2L5165Zgu2PHjmpXitUGd3d30Zcz9u/fj8WLF2d7bXny5AmGDh0qqlY5efLkvJgmFYDevXujdOnSgrbly5djx44d2V4nrl+/jrFjxwrC9oaGhqJgozKK1+9NmzZJvo5Wq1ZN9GUPHx8f9OvXD8+fP1e7n4iICOzevRsdOnSAl5eXpDkQEREREREREREREWmTj4+PqE2xGI666tevDy8vL8yYMQNly5ZV+zjFv5lS4ZL3JWiI6KuxdOlSUVtGRgbi4uIQGxuLmJgYBAQEICwsTGUf5ubmWLBgAdq3b5+XU1XJ0NAQ33//PdatWydve/XqFbp27YoRI0agRYsWKF68OFJSUhASEoKrV69i79698ufUvn17yUHKsmXLYtasWfjtt9/kbSkpKfjnn3+wceNGNGrUCCVLloRMJkNoaCh8fHwEgYq5c+di+vTpuXviX4gffvgBXl5eePz4sbzt4sWL+PbbbzFo0CA0b94cjo6OSElJwevXr3HmzBkcOHBAHohyd3eHt7e3pDHLlSuHZcuW4ccff5SHFdLS0rB06VLs2rUL3bt3R4MGDVC+fHlYWlpCJpMhJiYGYWFh8Pf3h6+vLy5duiQ/R3IKvFpYWGDVqlXo16+fIMjl4eEBLy8vdO/eHd988w3KlCkDS0tLJCcnIzw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\n", 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" + "
" ] }, "metadata": {}, @@ -6655,14 +1541,14 @@ }, { "cell_type": "code", - "execution_count": 48, + "execution_count": 39, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" + "
" ] }, "metadata": {}, @@ -6680,14 +1566,14 @@ }, { "cell_type": "code", - "execution_count": 49, + "execution_count": 40, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" ] }, "metadata": {}, @@ -6718,7 +1604,7 @@ }, { "cell_type": "code", - "execution_count": 50, + "execution_count": 41, "metadata": {}, "outputs": [], "source": [ @@ -6728,7 +1614,7 @@ }, { "cell_type": "code", - "execution_count": 51, + "execution_count": 42, "metadata": {}, "outputs": [], "source": [ @@ -6742,7 +1628,7 @@ }, { "cell_type": "code", - "execution_count": 52, + "execution_count": 43, "metadata": {}, "outputs": [ { @@ -6764,7 +1650,7 @@ }, { "cell_type": "code", - "execution_count": 53, + "execution_count": 44, "metadata": {}, "outputs": [ { @@ -6773,7 +1659,7 @@ "0.00042267689755647633" ] }, - "execution_count": 53, + "execution_count": 44, "metadata": {}, "output_type": "execute_result" } @@ -6784,7 +1670,7 @@ }, { "cell_type": "code", - "execution_count": 54, + "execution_count": 45, "metadata": {}, "outputs": [], "source": [ @@ -6793,7 +1679,7 @@ }, { "cell_type": "code", - "execution_count": 55, + "execution_count": 46, "metadata": {}, "outputs": [ { @@ -6802,7 +1688,7 @@ "20" ] }, - "execution_count": 55, + "execution_count": 46, "metadata": {}, "output_type": "execute_result" } @@ -6814,7 +1700,7 @@ }, { "cell_type": "code", - "execution_count": 56, + "execution_count": 47, "metadata": {}, "outputs": [], "source": [ @@ -6823,7 +1709,7 @@ }, { "cell_type": "code", - "execution_count": 57, + "execution_count": 48, "metadata": {}, "outputs": [], "source": [ @@ -6832,7 +1718,7 @@ }, { "cell_type": "code", - "execution_count": 58, + "execution_count": 49, "metadata": {}, "outputs": [ { @@ -6841,7 +1727,7 @@ "25" ] }, - "execution_count": 58, + "execution_count": 49, "metadata": {}, "output_type": "execute_result" } @@ -6852,7 +1738,7 @@ }, { "cell_type": "code", - "execution_count": 59, + "execution_count": 50, "metadata": {}, "outputs": [], "source": [ @@ -6863,7 +1749,7 @@ }, { "cell_type": "code", - "execution_count": 60, + "execution_count": 51, "metadata": {}, "outputs": [], "source": [ @@ -6873,14 +1759,14 @@ }, { "cell_type": "code", - "execution_count": 61, + "execution_count": 52, "metadata": {}, "outputs": [ { "data": { - "image/png": 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psl1ERNzLrWHRvHlzrFYrHh4eDBgwgD179gDnjxjy8/ON9RwOBzabrVJ7fn4+NpvNnSWLiAhuDouCggLj86ZNmwgKCgIgPDwcu91OcXExOTk5ZGdnExwcjM1mo1GjRuzevRun00laWhoRERHuLFlERABPV3U8fvx4du7cyfHjxwkLC2PMmDHs3LmTffv2ARAQEEBKSgoAQUFBREZG0qdPH6xWK1OnTsVqtQLn74ZKTk7m7NmzhIWFERYW5qqSRUSkCi4LizfffLNS24ABA6pcPyEhgYSEhErt7dq1Y82aNdVam4iIXBk9wS0iIqYUFiIiYkphISIiphQWIiJiSmEhIiKmFBYiImJKYSEiIqYUFiIiYkphISIiphQWIiJiSmEhIiKmFBYiImJKYSEiIqYUFiIiYkphISIiphQWIiJiSmEhIiKmFBYiImLKNCwOHTpEcXExADt27GDx4sX8+uuvLi9MRERqD9OwGDNmDB4eHhw8eJDJkydz+PBhJkyY4I7aRESkljANCw8PDzw9Pdm4cSODBw9m0qRJHDlyxLTj5ORkQkND6du3r9H2+uuv07t3b6Kjoxk1apRxhHL48GGCg4OJiYkhJiaGqVOnGtvs3buX6OhoevbsyfTp03E6nVeznyIicg1Mw8LT05M1a9aQlpbGgw8+CEBpaalpx3FxcSxYsKBCW5cuXVizZg2rV6/m1ltvZf78+cayW265hfT0dNLT00lJSTHap02bRkpKChs2bCA7O5vMzMzL3TcREakmpmExY8YMdu/ezciRIwkMDCQnJ4d+/fqZdtyxY0caN25coa1r1654enoCcO+995Kfn3/JPgoKCigqKiIkJASLxUJsbCwZGRmmY4uISPUyDYu2bdvy/PPPc9dddwEQGBjI8OHDr3ng5cuXExYWZnw/fPgwsbGxPP3003zzzTcAOBwO/P39jXX8/f1xOBzXPLaIiFwZ07D44osviImJ4dlnnwXgxx9/ZOTIkdc06Lx587BarcYRis1mY/PmzaSlpZGUlMSECRMoKiq66PUJi8VyTWOLiMiVMw2LuXPnsmzZMv7whz8A8B//8R/k5uZe9YArV65ky5YtvPHGG8Yffi8vL5o2bQrAPffcwy233MKBAwfw9/evcKoqPz8fm8121WOLiMjVMQ0Lq9XKTTfdVC2DZWZm8v777zNv3jy8vb2N9sLCQsrKygDIyckhOzubwMBAbDYbjRo1Yvfu3TidTtLS0oiIiKiWWkRE5PJ5mq0QFBTE6tWrKSsrIzs7myVLlhASEmLa8fjx49m5cyfHjx8nLCyMMWPGkJqaSnFxMfHx8QC0b9+elJQUdu3axd/+9jesVitWq5WXX36ZJk2aAOfvhkpOTubs2bOEhYVVuM4hIiLuYXGaPLhw5swZ3nvvPf7xj3/gdDrp1q0bf/rTn7jhhhvcVeNViYuLY8WKFW4Z6+cjRUxauadS+2v929GmhY9bahARqQ5V/e00PbLw9vZm3LhxjBs3ziWFiYhI7VdlWJjd8fTee+9VezEiIlI7VRkWQ4cOBWDDhg0cPXrUuM3VbrcTEBDgnupERKRWqDIsOnXqBMDs2bP5+OOPjfbw8HCeeuop11cmIiK1huk1i8LCQnJycggMDATO39paWFjo8sJqo2NF5zh5pqRSe2m5JjcUkbrNNCySk5MZNGiQERa5ubkVJvqrT06eKbnoXU9T+95VA9WIiLiPaViEhYWxYcMGfv75ZwDatGmDl5eXywsTEZHawzQsSkpK+K//+i9jcr9OnTrx+OOP06BBA5cXJyIitYPpdB/Tpk3jhx9+YODAgQwcOJAffviBadOmuaE0ERGpLUyPLPbs2cOqVauM76GhoZf1PgsREak7LmsiwUOHDhnfc3JysFqtLi1KRERqF9MjixdeeIFnnnmGwMBAnE4neXl5vPbaa+6oTUREagnTsAgNDdXdUCIi9ZxpWADs3buX3NxcysrK2LdvHwCxsbGurEtERGoR07CYOHEiOTk53Hnnnca1CovForAQEalHTMNi7969rF27Vu++FhGpx0zvhgoKCuLIkSPuqEVERGop0yOL48ePExUVRXBwcIWntvU+CxGR+sM0LMaMGeOOOkREpBYzDYsL77UQEZH6y/SaxdVKTk4mNDSUvn37Gm0nTpwgPj6ehx9+mPj4eE6ePGksmz9/Pj179qRXr15s3brVaN+7dy/R0dH07NmT6dOn43Tq3REiIu7msrCIi4tjwYIFFdpSU1ONh/xCQ0NJTU0FYP/+/djtdux2OwsWLODll1+mrKwMOD+RYUpKChs2bCA7O5vMzExXlSwiIlWoMiwGDx4MwKxZs66q444dO9K4ceMKbRkZGcbzGbGxsWzatMloj4qKwsvLi8DAQFq3bk1WVhYFBQUUFRUREhJiPNuRkZFxVfWIiMjVq/KaxZEjR9i5cydffPEFUVFRlU7/3H333Vc82LFjx7DZbADYbDbj9awOh4P27dsb6/n5+eFwOPD09MTf399o9/f3x+FwXPG4IiJybaoMi8TERFJTU8nPz2fGjBkVllksFhYvXlxtRVzsOoTFYqmyXURE3KvKsOjduze9e/fmnXfeYdSoUdUymK+vLwUFBdhsNgoKCmjWrBlw/oghPz/fWM/hcGCz2Sq15+fnG0cmIiLiPqYXuEeNGkVGRgavv/46r7/+Ops3b77qwcLDw0lLSwMgLS2NiIgIo91ut1NcXExOTg7Z2dkEBwdjs9lo1KgRu3fvxul0VthGRETcx/Q5i7/+9a9kZWURHR0NwOLFi/nuu++YMGHCJbcbP348O3fu5Pjx44SFhTFmzBiGDx/O2LFjWbZsGS1btmT27NnA+SlFIiMj6dOnD1arlalTpxqTFk6bNo3k5GTOnj1LWFgYYWFh17rPIiJyhUzDYsuWLaSnp+Phcf4gpH///sTGxpqGxZtvvnnR9kWLFl20PSEhgYSEhErt7dq1Y82aNWZlioiIC13Wcxa//vqr8fnUqVMuK0ZERGon0yOLESNG0L9/fzp37ozT6WTXrl2mRxUiIlK3mIZF37596dSpE3v27MHpdPL888/TokULd9QmIiK1xGW9VtVms+kuJBGResxlc0OJiEjdobAQERFTlwyL8vLyClOMi4hI/XTJsPDw8OCOO+4gLy/PXfWIiEgtZHqB+8iRI8Y7uL29vY12vYNbRKT+MA2L0aNHu6MOERGpxS7rHdy5ubkcPHiQBx54gDNnzhhvsRMRkfrB9G6ozz77jMTERKZOnQqcnz68uqYsFxGR64NpWHz88ccsXboUHx8fAG699VbjDXciIlI/mIaFl5cXXl5exvfS0lKXFiQiIrWP6TWLjh078t5773H27Fm2bdvGJ598Qnh4uDtqExGRWsL0yOL555+nWbNm3H777Xz66ad0796dsWPHuqE0ERGpLUyPLDw8PIiNjSU4OBiLxcJtt92GxWJxR20iIlJLXNab8l566SVuueUWnE4nhw8f5uWXX6Z79+7uqE9ERGoB07CYOXMmixcvpnXr1gAcOnSI4cOHKyxEROoR02sWvr6+RlAABAYG4uvr69KiRESkdqnyyGLDhg0AtG3blueee47IyEgsFgvr16+nXbt2Vz3gzz//zLhx44zvOTk5JCYmcurUKT777DOaNWsGwPjx442jl/nz57Ns2TI8PDyYMmUK3bp1u+rxRUTkylUZFps3bzY+N2/enF27dgHQrFkzTp48edUDtmnThvT0dADKysoICwujZ8+erFixgiFDhjBs2LAK6+/fvx+73Y7dbsfhcBAfH8/nn3+O1Wq96hpEROTKVBkWM2bMcPngX331FYGBgQQEBFS5TkZGBlFRUXh5eREYGEjr1q3JysoiJCTE5fWJiMh5phe4c3Jy+Oijj8jNza3w9HZ1TFFut9srvFzp448/Ji0tjXvuuYekpCQaN26Mw+Ggffv2xjp+fn44HI5rHltERC6faViMGjWKRx99lIceeggPj+p7C2txcTFffPEFEyZMAGDgwIH86U9/wmKxMHv2bGbOnMmMGTNwOp2VttVzHiIi7mUaFjfccAPPPPNMtQ+cmZnJ3XffTfPmzQGM/wcYMGAAI0eOBMDf35/8/HxjmcPhwGazVXs9IiJSNdNDhWeeeYa5c+fy/fff88MPPxj/u1Z2u52oqCjje0FBgfF506ZNBAUFARAeHo7dbqe4uJicnByys7MJDg6+5vFFROTymR5Z/PTTT6Snp/P1118bp38sFguLFy++6kHPnDnD9u3bSUlJMdpmzZrFvn37AAgICDCWBQUFERkZSZ8+fbBarUydOlV3QomIuJlpWGzcuJFNmzZVmKb8Wnl7e7Njx44KbbNmzapy/YSEBBISEqptfBERuTKmp6HuvPNOTp065Y5aRESkljI9sjh27BiRkZG0a9eOBg0aGO3VceusiIhcH0zDYsyYMe6oQ0REajHTsOjUqZM76hARkVrMNCxCQkKMu6BKSkooLS3F29ub7777zuXFiYhI7WAaFt9//32F75s2bSIrK8tlBYmISO1zxfN39OjRg6+//toVtYiISC1lemRx4b0WAOXl5ezdu1dzM4mI1DOmYfH791pYrVYCAgJ49913XVqUiIjULqZh4Y73WoiISO1WZVjMnTu3yo0sFgujRo1ySUEiIlL7VBkWDRs2rNR2+vRpli9fzokTJxQWIiL1SJVhMXToUONzUVERixcvZsWKFfTp06fCMhERqfsuec3ixIkTLFy4kNWrV9O/f39WrlxJ48aN3VWbiIjUElWGxeuvv87GjRt57LHHWL16NY0aNXJnXSIiUotUGRYLFy7Ey8uLefPmVZhh1ul0YrFYNN2HiEg9UmVYXHhrnYiIyBVP9yEiIvWPwkJEREwpLERExJTpdB+uEB4eTqNGjfDw8MBqtbJixQpOnDjBuHHjyM3NJSAggLffftu4TXf+/PksW7YMDw8PpkyZQrdu3WqibBGReqtGwgJg0aJFNGvWzPiemppKaGgow4cPJzU1ldTUVCZOnMj+/fux2+3Y7XYcDgfx8fF8/vnnWK3Wmir9slk9LPx8pKhSe2PvBvj63FADFYmIXJ0aC4t/l5GRwZIlSwCIjY1l0KBBTJw4kYyMDKKiovDy8iIwMJDWrVuTlZVFSEhIDVds7rdzpaSs+X+V2l/r305hISLXlRq7ZjFs2DDi4uL49NNPATh27Bg2mw0Am81GYWEhAA6HA39/f2M7Pz8/HA6H+wsWEanHauTIYunSpfj5+XHs2DHi4+Np06ZNles6nc5KbXr5koiIe9XIkYWfnx8Avr6+9OzZk6ysLHx9fSkoKACgoKDAuJ7h7+9Pfn6+sa3D4TCOQERExD3cHhanT5+mqKjI+Lxt2zaCgoIIDw8nLS0NgLS0NCIiIoDzd07Z7XaKi4vJyckhOzub4OBgd5ctIlKvuf001LFjx4x3YZSVldG3b1/CwsJo164dY8eOZdmyZbRs2ZLZs2cDEBQURGRkJH369MFqtTJ16tTr4k4oEZG6xO1hERgYyKpVqyq1N23alEWLFl10m4SEBBISElxdmoiIVEFPcIuIiCmFhYiImKo1D+XVJ3qyW0SuNwqLGqAnu0XkeqPTUCIiYkphISIiphQWIiJiSmEhIiKmFBYiImJKYSEiIqYUFiIiYkphISIiphQWIiJiSmEhIiKmFBYiImJKYSEiIqYUFiIiYkphISIiphQWIiJiSmEhIiKm3B4Wv/zyC4MGDSIyMpKoqCgWLVoEwJw5c+jWrRsxMTHExMTw5ZdfGtvMnz+fnj170qtXL7Zu3erukkVE6j23vynParWSlJTE3XffTVFREY888ghdunQBYMiQIQwbNqzC+vv378dut2O323E4HMTHx/P5559jtVrdXbqISL3l9iMLm83G3XffDYCPjw9t2rTB4XBUuX5GRgZRUVF4eXkRGBhI69atycrKcle5IiJCDV+zOHz4MD/++CPt27cH4OOPPyY6Oprk5GROnjwJgMPhwN/f39jGz8/vkuEiIiLVr8bC4rfffiMxMZFJkybh4+PDwIED2bhxI+np6dhsNmbOnAmA0+mstK3FYnF3uSIi9Zrbr1kAlJSUkJiYSHR0NA8//DAAzZs3N5YPGDCAkSNHAuDv709+fr6xzOFwYLPZ3Fuwm1g9LPx8pKhSe2PvBvj63FADFYmInOf2sHA6nUyePJk2bdoQHx9vtBcUFBghsGnTJoKCggAIDw9nwoQJxMfH43A4yM7OJjg42N1lu8Vv50pJWfP/KrW/1r+dwkJEapTbw+Lbb78lPT2d22+/nZiYGADGjx/PmjVr2LdvHwABAQGkpKQAEBQURGRkJH369MFqtTJ16lTdCSUi4mZuD4sOHTrwz3/+s1J79+7dq9wmISGBhIQEV5YlIiKXoCe4RUTElMJCRERM1cjdUHJlqrpLCnSnlIi4h8LiOlDVXVKgO6VExD10GkpEREwpLERExJTCQkRETCksRETElMJCRERM6W6o65wmHxQRd1BYXOc0+aCIuINOQ4mIiCmFhYiImNJpqDpK1zJEpDopLOooXcsQkeqk01AiImJKRxYCwLGic5w8U1KpXaetRAQUFvVOVdcySsudTE3fW6ldp61EBBQW9U5V1zKm9r3rouvrQrmIgMJCTFQVLq8/EnzR01Y3NrBytqTsstsVOiLXh+smLDIzM3n11VcpLy9nwIABDB8+vKZLqtcudYRyJe1VhY5CRKR2uS7CoqysjJSUFBYuXIifnx+PPvoo4eHhtG3btqZLk2t0pUcuVYVIVRfor2YbBZVIZddFWGRlZdG6dWsCAwMBiIqKIiMjQ2FRh11piFR1gf5qtnH1KbaqQsrV/V/NGK5uV5BfPyxOp9NZ00WYWb9+PVu3buXVV18FIC0tjaysLKZOnVrlNp07dyYgIMBdJYqI1Am5ubns2LGjUvt1cWRxsTyzWCyX3OZiOysiIlfnuniC29/fn/z8fOO7w+HAZrPVYEUiIvXLdREW7dq1Izs7m5ycHIqLi7Hb7YSHh9d0WSIi9cZ1cRrK09OTqVOn8uyzz1JWVsYjjzxCUFBQTZclIlJvXBcXuEVEpGZdF6ehRESkZiksRETE1HVxzcJd6suUIsnJyWzZsgVfX1/WrFkDwIkTJxg3bhy5ubkEBATw9ttv07hx4xqutHr88ssvvPDCCxw9ehQPDw8ee+wxBg8eXKf3+dy5czz11FMUFxdTVlZGr169SExMrNP7DBjXNP38/Jg/f36d31+A8PBwGjVqhIeHB1arlRUrVrhkv3Vk8S8XphRZsGABdrudNWvWsH///pouyyXi4uJYsGBBhbbU1FRCQ0PZsGEDoaGhpKam1lB11c9qtZKUlMS6dev49NNP+eSTT9i/f3+d3mcvLy8WLVrEqlWrSEtLY+vWrezevbtO7zPA4sWL+eMf/2h8r+v7e8GiRYtIT09nxYoVgGv2W2HxL7+fUsTLy8uYUqQu6tixY6V/ZWRkZBAbGwtAbGwsmzZtqoHKXMNms3H33XcD4OPjQ5s2bXA4HHV6ny0WC40aNQKgtLSU0tJSLBZLnd7n/Px8tmzZwqOPPmq01eX9vRRX7LfC4l8cDgf+/v7Gdz8/PxwORw1W5F7Hjh0zHnS02WwUFhbWcEWucfjwYX788Ufat29f5/e5rKyMmJgYHnjgAR544IE6v8+vvfYaEydOxMPj//6s1eX9/b1hw4YRFxfHp59+Crhmv3XN4l+uZkoRub789ttvJCYmMmnSJHx8fGq6HJezWq2kp6fz66+/MmrUKH766aeaLsllNm/eTLNmzbjnnnvq3VQ/S5cuxc/Pj2PHjhEfH0+bNm1cMo7C4l/q+5Qivr6+FBQUYLPZKCgooFmzZjVdUrUqKSkhMTGR6OhoHn74YaDu7/MFf/jDH+jcuTNbt26ts/v83Xff8cUXX5CZmcm5c+coKiri+eefr7P7+3t+fn7A+f+ee/bsSVZWlkv2W6eh/qW+TykSHh5OWloacH5W34iIiJotqBo5nU4mT55MmzZtiI+PN9rr8j4XFhby66+/AnD27Fm2b99OmzZt6uw+T5gwgczMTL744gvefPNN7r//ft544406u78XnD59mqKiIuPztm3bCAoKcsl+6wnu3/nyyy957bXXjNvvEhISaroklxg/fjw7d+7k+PHj+Pr6MmbMGHr06MHYsWP55ZdfaNmyJbNnz6ZJkyY1XWq1+Oabb3jqqae4/fbbjfPZ48ePJzg4uM7u8759+0hKSqKsrAyn00nv3r0ZPXo0x48fr7P7fMGOHTv48MMPmT9/fp3f35ycHEaNGgWcv0bVt29fEhISXLLfCgsRETGl01AiImJKYSEiIqYUFiIiYkphISIiphQWIiJiSmEh9dIdd9zBzJkzje8ffPABc+bMuaI+QkJCrnr8FStWkJKSctXbi7ibwkLqJS8vLzZs2HDdzxXkdDopLy+v6TKkHtB0H1IveXp68vjjj7No0SLGjRtXYVlubi6TJk2isLCQZs2aMWPGDFq1akVOTg7PP/88paWldOvWrcI2CxYsYN26dRQXF9OzZ08SExMrjbl8+XJSU1Np0aIFt956K15eXsD5p61feukl8vLyAJg0aRL33XcfhYWFTJgwgRMnTtCuXTu2bt3K8uXLOX36NM899xydO3dm9+7dvPPOO6xbt+6i46enp7NkyRJKSkpo3749L730Elar1RU/UqnjdGQh9dZTTz3F6tWrOXXqVIX2V155hdjYWFavXk10dDTTp08H4NVXX2XgwIEsX76cFi1aGOv/4x//4ODBgyxbtoz09HR++OEHdu3aVaHPgoIC5syZw9KlS/nwww8rvCvl1VdfZfDgwSxfvpw5c+YwZcoUAObOncv999/PypUr6dGjhxEmAAcOHCA2Npa0tDQOHDhw0fH/93//l3Xr1rF06VLS09Px8PBg9erV1f5zlPpBRxZSb/n4+BATE8PixYu58cYbjfbvv//euH4RExPDrFmzLtr+xhtvALBt2za2bdtmvD/g9OnTZGdn07FjR6PPrKwsOnXqZEzo1qdPH7KzswHYvn17hfAoKiqiqKiIb7/9lrlz5wIQFhZW4R0krVq14t57773k+P/85z/Zu3ev8X6Hs2fP4uvre80/N6mfFBZSrw0ePJi4uDji4uKqXOf3U9VfbNp6p9PJ8OHDeeKJJy45VlVT3peXl/Ppp59WCKwL/ValYcOGpuMvWbKE/v37M2HChEvWJXI5dBpK6rUmTZrQu3dvli1bZrSFhIRgt9sBWL16Nffdd1+l9lWrVhnrd+3aleXLl/Pbb78B56e3P3bsWIVxgoODjckbS0pKWL9+fYXtP/roI+P7jz/+CMB9993HunXrgPOnuk6ePHnRfahq/NDQUD7//HOjlhMnTpCbm3ulPyIRQGEhwtChQzl+/LjxfcqUKaxYsYLo6GjS09OZPHkyAJMnT+aTTz7hkUceMaaFhvN/rPv27csTTzxBdHQ0iYmJxh/uC2w2G6NHj+aJJ54gPj6eu+66y1g2efJk9u7dS3R0NH369GHp0qUAjB49mm3bttG/f38yMzNp0aLFRV/aVNX4bdu2ZezYsQwdOpTo6GiGDh3KkSNHqvVnJ/WHZp0VqaWKi4vx8PDA09OT77//nmnTppGenl7TZUk9pWsWIrVUXl4eY8eOpby8nAYNGvDKK6/UdElSj+nIQkRETOmahYiImFJYiIiIKYWFiIiYUliIiIgphYWIiJj6/9jC28zcSoqMAAAAAElFTkSuQmCC\n", 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" + "
" ] }, "metadata": {}, @@ -6896,14 +1782,14 @@ }, { "cell_type": "code", - "execution_count": 62, + "execution_count": 53, "metadata": {}, "outputs": [ { "data": { - "image/png": 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\n", 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" ] }, "metadata": {}, From 9fae57fc49308f983b0a3ec6f55f561cf40ef777 Mon Sep 17 00:00:00 2001 From: Carolina Gonzalez-Cavazos <69015275+Carolina1396@users.noreply.github.com> Date: Thu, 20 Apr 2023 15:52:09 -0700 Subject: [PATCH 3/5] Create Manuscript Files to recreate figures of DMDB manuscript --- Manuscript | 1 + 1 file changed, 1 insertion(+) create mode 100644 Manuscript diff --git a/Manuscript b/Manuscript new file mode 100644 index 0000000..8b13789 --- /dev/null +++ b/Manuscript @@ -0,0 +1 @@ + From e771de5d516ecb372a4a35a377346790f38bbffa Mon Sep 17 00:00:00 2001 From: Carolina Gonzalez-Cavazos <69015275+Carolina1396@users.noreply.github.com> Date: Thu, 20 Apr 2023 15:52:21 -0700 Subject: [PATCH 4/5] Delete Manuscript --- Manuscript | 1 - 1 file changed, 1 deletion(-) delete mode 100644 Manuscript diff --git a/Manuscript b/Manuscript deleted file mode 100644 index 8b13789..0000000 --- a/Manuscript +++ /dev/null @@ -1 +0,0 @@ - From 085527fd978c2fbd0458314f5dad4af4aed03b38 Mon Sep 17 00:00:00 2001 From: Carolina Gonzalez-Cavazos <69015275+Carolina1396@users.noreply.github.com> Date: Thu, 20 Apr 2023 15:54:06 -0700 Subject: [PATCH 5/5] Add files via upload Files to recreate figures in DMDB manuscript --- Figures_DMDB_manuscript.ipynb | 1716 +++++++++++++++++ data_tools/README.md | 69 + data_tools/data_tools/__init__.py | 2 + .../__pycache__/__init__.cpython-39.pyc | Bin 0 -> 243 bytes .../__pycache__/df_processing.cpython-39.pyc | Bin 0 -> 13122 bytes .../__pycache__/wiki.cpython-39.pyc | Bin 0 -> 3787 bytes data_tools/data_tools/df_processing.py | 345 ++++ data_tools/data_tools/files/__init__.py | 16 + .../files/__pycache__/__init__.cpython-39.pyc | Bin 0 -> 407 bytes .../__pycache__/_analysis.cpython-39.pyc | Bin 0 -> 4480 bytes .../files/__pycache__/_pathing.cpython-39.pyc | Bin 0 -> 489 bytes .../__pycache__/_processing.cpython-39.pyc | Bin 0 -> 1102 bytes .../__pycache__/_retrieval.cpython-39.pyc | Bin 0 -> 5170 bytes 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data_tools/data_tools/graphs/__pycache__/_metapaths.cpython-39.pyc create mode 100644 data_tools/data_tools/graphs/_edge_processing.py create mode 100644 data_tools/data_tools/graphs/_graphs.py create mode 100644 data_tools/data_tools/graphs/_metapaths.py create mode 100644 data_tools/data_tools/ml.py create mode 100644 data_tools/data_tools/obo_processing.py create mode 100644 data_tools/data_tools/plotting/__init__.py create mode 100644 data_tools/data_tools/plotting/__pycache__/__init__.cpython-39.pyc create mode 100644 data_tools/data_tools/plotting/__pycache__/_graphs.cpython-39.pyc create mode 100644 data_tools/data_tools/plotting/__pycache__/_ml.cpython-39.pyc create mode 100644 data_tools/data_tools/plotting/__pycache__/_std.cpython-39.pyc create mode 100644 data_tools/data_tools/plotting/__pycache__/_venn.cpython-39.pyc create mode 100644 data_tools/data_tools/plotting/_graphs.py create mode 100644 data_tools/data_tools/plotting/_ml.py create mode 100644 data_tools/data_tools/plotting/_std.py create mode 100644 data_tools/data_tools/plotting/_venn.py create mode 100644 data_tools/data_tools/wiki.py create mode 100644 data_tools/demo/Graph_Drawing_Demo.ipynb create mode 100644 data_tools/setup.py diff --git a/Figures_DMDB_manuscript.ipynb b/Figures_DMDB_manuscript.ipynb new file mode 100644 index 0000000..6ca81dd --- /dev/null +++ b/Figures_DMDB_manuscript.ipynb @@ -0,0 +1,1716 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "900e24b9", + "metadata": {}, + "source": [ + "### DrugMechDB: A Comprehensive Curated Database of Drug Mechanisms" + ] + }, + { + "cell_type": "markdown", + "id": "1fc1830d", + "metadata": {}, + "source": [ + "Notebook to recreate figures of DrugMechDB manuscript" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "91725bdb", + "metadata": {}, + "outputs": [], + "source": [ + "#import libraries \n", + "import pandas as pd\n", + "import networkx as nx\n", + "import re\n", + "import yaml\n", + "from itertools import chain\n", + "from pathlib import Path\n", + "from operator import itemgetter\n", + "from collections import defaultdict\n", + "\n", + "import seaborn as sns\n", + "import matplotlib.pyplot as plt\n", + "import numpy as np\n", + "\n", + "from data_tools.data_tools.files._retrieval import download\n", + "from data_tools.data_tools.plotting import count_plot_h, venn2_pretty, venn3_pretty\n", + "from data_tools.data_tools.files._analysis import *\n", + "\n", + "from pySankey.sankey import sankey\n", + "from tqdm import tqdm\n", + "\n", + "from wordcloud import WordCloud, STOPWORDS\n", + "\n", + "import warnings\n", + "warnings.filterwarnings(\"ignore\")" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "da294d5c", + "metadata": {}, + "outputs": [], + "source": [ + "# Make the output folders\n", + "this_name = '1_basic_dmdb_analysis'\n", + "out_dir = Path('../2_pipeline').joinpath(this_name, 'out').resolve()\n", + "out_dir.mkdir(parents=True, exist_ok=True)\n", + "\n", + "data_dir = Path('../0_data/external').resolve()\n", + "data_dir.mkdir(parents=True, exist_ok=True)" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "3d85027d", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "File indication_paths.yaml exits. Skipping...\n" + ] + } + ], + "source": [ + "DMDB_URL = 'https://raw.githubusercontent.com/SuLab/DrugMechDB/main/indication_paths.yaml'\n", + "download(DMDB_URL, data_dir.joinpath('indication_paths.yaml'), redownload=False)" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "c65c6cec", + "metadata": {}, + "outputs": [], + "source": [ + "with open(data_dir.joinpath('indication_paths.yaml'), 'r') as fh:\n", + " ind = yaml.safe_load(fh)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "a37aec0a", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "c9b01032", + "metadata": {}, + "outputs": [], + "source": [ + "all_metapath_nodes = get_metapath_node(ind)\n", + "all_metapath_edges = get_metapath_edges(ind)" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "c6de50ae", + "metadata": {}, + "outputs": [], + "source": [ + "basic_stats = defaultdict(list)\n", + "all_metaedges = []\n", + "all_parings = []\n", + "all_targets = []\n", + "unique_metaedges = []\n", + "first_edge_type = []\n", + "all_nodes = []\n", + "\n", + "id_to_name = {}\n", + "id_to_label = {}\n", + "\n", + "for i, p in enumerate(ind):\n", + " _id = (p[\"graph\"][\"_id\"])\n", + " drug_id, dis_id = path_to_tup(p)\n", + " paths = get_all_paths(p)\n", + " G = path_to_G(p)\n", + " \n", + " G = add_metaedges(G)\n", + " G = add_meanode_pairs(G)\n", + " \n", + " basic_stats['idx'].append(i) #index\n", + " basic_stats['id'].append(p['graph']['_id']) #DrugMechDB id\n", + " basic_stats['drug'].append(drug_id) #Drug id\n", + " basic_stats['disease'].append(dis_id)#Disease id\n", + " basic_stats['nodes'].append((G.nodes)) #nodes in metapath\n", + " basic_stats['n_nodes'].append(len(G.nodes)) # number of nodes in metapath\n", + " basic_stats['n_edges'].append(len(G.edges)) #number of edges in metapath\n", + " basic_stats['n_paths'].append(len(all_metapath_nodes[_id])) #number of paths\n", + " basic_stats['metapath'].append(all_metapath_nodes[_id])\n", + " basic_stats['metapath_with_edges'].append(all_metapath_edges[_id])\n", + "\n", + " \n", + " this_metaedges = [G.edges[e]['metaedge'] for e in G.edges]\n", + " \n", + " all_metaedges += this_metaedges\n", + " unique_metaedges += list(set(this_metaedges))\n", + " \n", + " all_parings += [G.edges[e]['mn_pair'] for e in G.edges]\n", + " all_targets += get_targets(G)\n", + " first_edge_type += get_target_metaedges(G)\n", + " all_nodes += list(G.nodes)\n", + " \n", + " id_to_label = {**id_to_label, **get_id_to_type(G)}\n", + " id_to_name = {**id_to_name, **get_id_to_name(G)}\n", + " \n", + "basic_stats = pd.DataFrame(basic_stats)" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "id": "2b813c38", + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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idxiddrugdiseasenodesn_nodesn_edgesn_pathsmetapathmetapath_with_edges
00DB00619_MESH_D015464_1DB:DB00619MESH:D015464(MESH:D000068877, UniProt:P00519, MESH:D015464)321[Drug - Protein - Disease][Drug - decreases activity of - Protein - caus...
11DB00619_MESH_D034721_1DB:DB00619MESH:D034721(MESH:D000068877, UniProt:P10721, UniProt:P162...551[Drug - Protein - BiologicalProcess - Disease][Drug - decreases activity of - Protein - posi...
22DB00316_MESH_D010146_1DB:DB00316MESH:D010146(MESH:D000082, UniProt:P23219, UniProt:P35354,...781[Drug - Protein - BiologicalProcess - Chemical...[Drug - decreases activity of - Protein - posi...
33DB00316_MESH_D005334_1DB:DB00316MESH:D005334(MESH:D000082, REACT:R-HSA-2162123, UBERON:000...541[Drug - Pathway - GrossAnatomicalStructure - B...[Drug - negatively regulates - Pathway - occur...
44DB00945_MESH_D010146_1DB:DB00945MESH:D010146(MESH:D001241, UniProt:P23219, UniProt:P35354,...771[Drug - Protein - BiologicalProcess - Disease][Drug - decreases activity of - Protein - posi...
\n", + "
" + ], + "text/plain": [ + " idx id drug disease \\\n", + "0 0 DB00619_MESH_D015464_1 DB:DB00619 MESH:D015464 \n", + "1 1 DB00619_MESH_D034721_1 DB:DB00619 MESH:D034721 \n", + "2 2 DB00316_MESH_D010146_1 DB:DB00316 MESH:D010146 \n", + "3 3 DB00316_MESH_D005334_1 DB:DB00316 MESH:D005334 \n", + "4 4 DB00945_MESH_D010146_1 DB:DB00945 MESH:D010146 \n", + "\n", + " nodes n_nodes n_edges \\\n", + "0 (MESH:D000068877, UniProt:P00519, MESH:D015464) 3 2 \n", + "1 (MESH:D000068877, UniProt:P10721, UniProt:P162... 5 5 \n", + "2 (MESH:D000082, UniProt:P23219, UniProt:P35354,... 7 8 \n", + "3 (MESH:D000082, REACT:R-HSA-2162123, UBERON:000... 5 4 \n", + "4 (MESH:D001241, UniProt:P23219, UniProt:P35354,... 7 7 \n", + "\n", + " n_paths metapath \\\n", + "0 1 [Drug - Protein - Disease] \n", + "1 1 [Drug - Protein - BiologicalProcess - Disease] \n", + "2 1 [Drug - Protein - BiologicalProcess - Chemical... \n", + "3 1 [Drug - Pathway - GrossAnatomicalStructure - B... \n", + "4 1 [Drug - Protein - BiologicalProcess - Disease] \n", + "\n", + " metapath_with_edges \n", + "0 [Drug - decreases activity of - Protein - caus... \n", + "1 [Drug - decreases activity of - Protein - posi... \n", + "2 [Drug - decreases activity of - Protein - posi... \n", + "3 [Drug - negatively regulates - Pathway - occur... \n", + "4 [Drug - decreases activity of - Protein - posi... " + ] + }, + "execution_count": 7, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "basic_stats.head()" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "a1306e72", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "b34f10a4", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "c54b226c", + "metadata": {}, + "source": [ + "Graph overview" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "id": "87b8d509", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "#Count number of unique nodes\n", + "count_nodes_unique = set()\n", + "count_nodes = []\n", + "for indication in basic_stats[\"id\"]: \n", + " nodes = list(basic_stats[basic_stats[\"id\"] == indication]['nodes'].iloc[0])\n", + " \n", + " for n in nodes: \n", + " count_nodes_unique.add(n)\n", + " count_nodes.append(n)" + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "id": "3c88185b", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Number of nodes: 32588\n", + "Number of unique nodes: 5125\n" + ] + } + ], + "source": [ + "print(\"Number of nodes: \", len(count_nodes))\n", + "print(\"Number of unique nodes: \", len(count_nodes_unique))" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "id": "11dbe1ad", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Total edges: 32249\n" + ] + } + ], + "source": [ + "print(\"Total edges: \" , sum(basic_stats['n_edges'].to_list()) )" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "id": "e3d8b24e", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Number of paths: 5566\n" + ] + } + ], + "source": [ + "print(\"Number of paths: \" + str(sum(basic_stats['n_paths'])))" + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "id": "f03e3050", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Number of unique drugs: 1580\n", + "Number of unique diseases: 744\n", + "Number of unique drug-disease combinations: 4583\n" + ] + } + ], + "source": [ + "print(\"Number of unique drugs: \" + str(len(set(basic_stats['drug']))))\n", + "print(\"Number of unique diseases: \" + str(len(set(basic_stats['disease']))))\n", + "print(\"Number of unique drug-disease combinations: \" + str(len(basic_stats.groupby(['drug','disease']).size())))\n" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "f748ca52", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "d05fef7d", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "b1efcfdf", + "metadata": {}, + "source": [ + "## Figure 2: DrugMechDB concept types" + ] + }, + { + "cell_type": "markdown", + "id": "1c62d2cb", + "metadata": {}, + "source": [ + "A) Top encountered node types" + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "id": "906389a3", + "metadata": {}, + "outputs": [], + "source": [ + "node_counts = pd.Series(all_nodes, name='id')\n", + "node_counts = node_counts.to_frame().reset_index()\n", + "node_counts['label'] = node_counts['id'].map(id_to_label)" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "id": "159f004e", + "metadata": { + "scrolled": false + }, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "import matplotlib.pyplot as plt\n", + "\n", + "plt.figure( dpi=100)\n", + "count_plot_h(node_counts['label'].value_counts())\n", + "plt.xlim(0,8800)\n", + "plt.grid(linewidth=0.1)\n", + "plt.title('Concept types in DrugMechDB')\n", + "plt.xlabel('Number of times concept type encountered')\n", + "plt.ylabel('Concept types')\n", + "\n", + "#plt.savefig('Concept types in DrugMechDB.pdf')\n", + "\n", + "#Change font style\n", + "font = {'family' : 'sans'}\n", + "plt.rc('font', **font)" + ] + }, + { + "cell_type": "code", + "execution_count": 16, + "id": "5c15abd7", + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "24.551982324782127" + ] + }, + "execution_count": 16, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "#Calcualte % of most common label \n", + "total_label = len((node_counts[\"label\"]))#Average of nodes per indication \n", + "sum(list(basic_stats['n_nodes']))/len((basic_stats['n_nodes']))\n", + "biological_label = len(node_counts[node_counts[\"label\"]==\"BiologicalProcess\"])\n", + "(biological_label*100)/total_label" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "id": "1a130e15", + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "21.532465938382227" + ] + }, + "execution_count": 18, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "#Calcualte % of second most common label \n", + "total_label = len((node_counts[\"label\"]))#Average of nodes per indication \n", + "sum(list(basic_stats['n_nodes']))/len((basic_stats['n_nodes']))\n", + "biological_label = len(node_counts[node_counts[\"label\"]==\"Protein\"])\n", + "(biological_label*100)/total_label" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "1338bac6", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "b5dd35cc", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "7f0c0b7c", + "metadata": {}, + "source": [ + "B) Distribution of nodes per indication" + ] + }, + { + "cell_type": "code", + "execution_count": 20, + "id": "7b5dd1e6", + "metadata": { + "scrolled": false + }, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "(markers, stemlines, baseline) = plt.stem([str(i) for i in range(2,21)],\n", + " heads, \n", + " basefmt = \" \",\n", + " orientation = \"horizontal\", )\n", + "\n", + "plt.setp(stemlines, linestyle=\"-\", color= '#5179DB', linewidth= 2 )\n", + "plt.setp(markers, color='#5179DB')\n", + "plt.xlim([0,1300])\n", + "\n", + "plt.grid(linewidth=0.2)\n", + "plt.gca().invert_yaxis()\n", + "plt.title('Distribution of nodes per indications')\n", + "plt.ylabel('Number of Nodes')\n", + "plt.xlabel('Number of indications');\n", + "\n", + "#plt.savefig('Distribution of nodes per indications.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "6e519afe", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "51374761", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "f3680bbb", + "metadata": {}, + "source": [ + "C) Node popularity " + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "id": "1c73204b", + "metadata": {}, + "outputs": [], + "source": [ + "metanode_node = defaultdict(list)\n", + "for i in range(len(ind)): \n", + " for id_ in ind[i][\"nodes\"]:\n", + " \n", + " metanode_node[id_[\"label\"]].append(id_[\"name\"])" + ] + }, + { + "cell_type": "code", + "execution_count": 23, + "id": "4f2e4e24", + "metadata": {}, + "outputs": [], + "source": [ + "#Join concept \n", + "list_concept = []\n", + "for i in metanode_node[\"BiologicalProcess\"]:\n", + " split_concept = i.split(\" \")\n", + " join_concept = \"_\".join(i for i in split_concept)\n", + " list_concept.append(join_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "id": "f16bc422", + "metadata": {}, + "outputs": [], + "source": [ + "text_bp = \" \".join(cat for cat in list_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 25, + "id": "6003c6d6", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "word_cloud = WordCloud(\n", + "width = 3000,\n", + "height= 2000, \n", + "random_state= 1,\n", + "background_color= \"white\",\n", + "max_words=50,\n", + "collocations= False,\n", + "stopwords= STOPWORDS).generate(text_bp)\n", + "plt.imshow(word_cloud)\n", + "\n", + "\n", + "wordcloud_svg = word_cloud.to_svg(embed_font=True)\n", + "# f = open(\"BP_WC.svg\",\"w+\")\n", + "# f.write(wordcloud_svg )\n", + "# f.close()" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "id": "e07153e8", + "metadata": {}, + "outputs": [], + "source": [ + "#Join concept \n", + "list_concept = []\n", + "for i in metanode_node[\"Protein\"]:\n", + " split_concept = i.split(\" \")\n", + " join_concept = \"_\".join(i for i in split_concept)\n", + " list_concept.append(join_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 27, + "id": "d657b7fa", + "metadata": {}, + "outputs": [], + "source": [ + "text_protein = \" \".join(cat for cat in list_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "id": "30ca974e", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "word_cloud = WordCloud(\n", + "width = 3000,\n", + "height= 2000, \n", + "random_state= 1,\n", + "background_color= \"white\",\n", + "max_words=50,\n", + "collocations= False,\n", + "stopwords= STOPWORDS).generate(text_protein)\n", + "plt.imshow(word_cloud)\n", + "\n", + "\n", + "wordcloud_svg = word_cloud.to_svg(embed_font=True)\n", + "# f = open(\"Protein.svg\",\"w+\")\n", + "# f.write(wordcloud_svg )\n", + "# f.close()" + ] + }, + { + "cell_type": "code", + "execution_count": 29, + "id": "9f03f2fe", + "metadata": {}, + "outputs": [], + "source": [ + "#Join concept \n", + "list_concept = []\n", + "for i in metanode_node[\"Disease\"]:\n", + " split_concept = i.split(\" \")\n", + " join_concept = \"_\".join(i for i in split_concept)\n", + " list_concept.append(join_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 30, + "id": "8a0ae624", + "metadata": {}, + "outputs": [], + "source": [ + "text_dis = \" \".join(cat for cat in list_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 31, + "id": "73225993", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "word_cloud = WordCloud(\n", + "width = 3000,\n", + "height= 2000, \n", + "random_state= 1,\n", + "background_color= \"white\",\n", + "max_words=50,\n", + "collocations= False,\n", + "stopwords= STOPWORDS).generate(text_dis)\n", + "plt.imshow(word_cloud)\n", + "\n", + "\n", + "wordcloud_svg = word_cloud.to_svg(embed_font=True)\n", + "# f = open(\"Disease_WC.svg\",\"w+\")\n", + "# f.write(wordcloud_svg )\n", + "# f.close()" + ] + }, + { + "cell_type": "code", + "execution_count": 32, + "id": "3460e275", + "metadata": {}, + "outputs": [], + "source": [ + "#Join concept \n", + "list_concept = []\n", + "for i in metanode_node[\"Drug\"]:\n", + " split_concept = i.split(\" \")\n", + " join_concept = \"_\".join(i for i in split_concept)\n", + " list_concept.append(join_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "id": "2b8467b6", + "metadata": {}, + "outputs": [], + "source": [ + "text_drug = \" \".join(cat for cat in list_concept)" + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "id": "b7180be7", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "word_cloud = WordCloud(\n", + "width = 3000,\n", + "height= 2000, \n", + "random_state= 1,\n", + "background_color= \"white\",\n", + "max_words=50,\n", + "collocations= False,\n", + "stopwords= STOPWORDS).generate(text_drug)\n", + "plt.imshow(word_cloud)\n", + "\n", + "\n", + "wordcloud_svg = word_cloud.to_svg(embed_font=True)\n", + "# f = open(\"Drug_WC.svg\",\"w+\")\n", + "# f.write(wordcloud_svg )\n", + "# f.close()" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "5a5bdba5", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "d95505e1", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "58cf7736", + "metadata": {}, + "source": [ + "## Figure 3: DrugMechDB edge types" + ] + }, + { + "cell_type": "markdown", + "id": "65e6e035", + "metadata": {}, + "source": [ + "A) Concept type associations" + ] + }, + { + "cell_type": "code", + "execution_count": 35, + "id": "0811fa06", + "metadata": {}, + "outputs": [], + "source": [ + "pairs = set()\n", + "\n", + "for val in all_parings:\n", + " val = val.split(\" - \")\n", + " pairs.add(val[0])" + ] + }, + { + "cell_type": "code", + "execution_count": 36, + "id": "a79ce6a0", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Total combination of concept type pairs: 129\n" + ] + } + ], + "source": [ + "#all combination of concept type pairs DMDB \n", + "print(\"Total combination of concept type pairs: \", len(set(all_parings)))" + ] + }, + { + "cell_type": "code", + "execution_count": 40, + "id": "9cd3b1f4", + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "#Sankey diagram \n", + "colorDict = {'BiologicalProcess': \"#96CAC1\",\n", + " 'Cell': \"#99DDFE\" ,\n", + " 'CellularComponent': \"#CEE5CA\",\n", + " 'ChemicalSubstance': \"#8AAFC8\",\n", + " 'Disease': \"#C0BED6\",\n", + " 'Drug': \"#EA8D82\",\n", + " 'GeneFamily': \"#F0D0E1\",\n", + " 'GrossAnatomicalStructure': \"#D9D9D9\",\n", + " 'MacromolecularComplex': \"#F8DF9D\",\n", + " 'MolecularActivity': \"#B588B5\",\n", + " 'OrganismTaxon': \"#AECF78\",\n", + " 'Pathway': \"#E5D986\",\n", + " 'PhenotypicFeature': \"#E9B375\",\n", + " 'Protein': \"#FDE391\"}\n", + "\n", + "plt.figure(dpi=100)\n", + "source =[]\n", + "target =[]\n", + "\n", + "for val in all_parings:\n", + " val = val.split(\" - \")\n", + " source.append(val[0])\n", + " target.append(val[1])\n", + "sankey(source,\n", + " target, \n", + " aspect=15, \n", + " fontsize=11, \n", + " colorDict=colorDict)\n", + "# Get current figure\n", + "fig = plt.gcf()\n", + "\n", + "\n", + "# Set size in inches\n", + "fig.set_size_inches(7, 7)\n", + "\n", + "# Set the color of the background to white\n", + "fig.set_facecolor(\"w\")\n", + "\n", + "# Save the figure\n", + "#fig.savefig(\"DMDB_relations_sankey.pdf\", bbox_inches=\"tight\", dpi=1000)" + ] + }, + { + "cell_type": "code", + "execution_count": 41, + "id": "cd25f3be", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Total concept type pairs: 32249\n", + "Most frequent pair: ('Protein - BiologicalProcess') 4695\n", + "% most frequent pair ('Protein - BiologicalProcess'): 14.558590964060901\n" + ] + } + ], + "source": [ + "#Count % of most frequent metapair\n", + "total_pairs = (all_parings)\n", + "print(\"Total concept type pairs: \", len(total_pairs))\n", + "\n", + "\n", + "most_frequent_pair = len([i for i in all_parings if i == 'Protein - BiologicalProcess'])\n", + "print(\"Most frequent pair: ('Protein - BiologicalProcess') \", most_frequent_pair)\n", + "\n", + "print(\"% most frequent pair ('Protein - BiologicalProcess'): \", (most_frequent_pair*100)/len(total_pairs))" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "bc76821a", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "f40d19c0", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "b7e562a7", + "metadata": {}, + "source": [ + "B) Most common meta-edges" + ] + }, + { + "cell_type": "code", + "execution_count": 42, + "id": "cdf2ed73", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "me_counts = pd.Series(all_metaedges).value_counts()\n", + "count_plot_h(me_counts.head(10))\n", + "font = {'family' : 'sans'}\n", + "plt.rc('font', **font)\n", + "\n", + "plt.grid(linewidth=0.1)\n", + "plt.ylabel('Metaedges')\n", + "plt.xlim(0,4000)\n", + "\n", + "font = {'family' : 'sans'}\n", + "plt.rc('font', **font)\n", + "\n", + "plt.title('Most common metaedges in DrugMechDB')\n", + "plt.xlabel('Number of times metaedge appears');\n", + "#plt.savefig('Most common metaedges in DrugMechDB.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": 43, + "id": "c8a6489e", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Number of unique meta-edges: 725\n" + ] + } + ], + "source": [ + "#Meta-edges (Source-relation-Target)\n", + "print(\"Number of unique meta-edges: \", len(set(all_metaedges)))" + ] + }, + { + "cell_type": "code", + "execution_count": 47, + "id": "a2f0a0a2", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Most common meta-edge('Protein - positively regulates - BiologicalProcess'): 3644 (11.299575180625755%)\n", + "11.299575180625755\n" + ] + } + ], + "source": [ + "#Calculate percentage of most common metaedge \n", + "total_metaedges = (all_metaedges)\n", + "most_common_me = len([i for i in total_metaedges if i =='Protein - positively regulates - BiologicalProcess'])\n", + "\n", + "print(\"Most common meta-edge('Protein - positively regulates - BiologicalProcess'): \", \n", + " most_common_me, \n", + " f\"({(most_common_me*100)/len(all_metaedges)}%)\")" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "906abd6f", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "e703c708", + "metadata": {}, + "source": [ + "C) Distribution of edges per indication " + ] + }, + { + "cell_type": "code", + "execution_count": 48, + "id": "1b69b6ec", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "heads, locs = np.histogram(basic_stats['n_edges'], bins= 31)\n", + "plt.figure( dpi=100)\n", + "(markers, stemlines, baseline) = plt.stem([str(i) for i in range(1,32)],\n", + " heads, \n", + " basefmt = \" \",\n", + " orientation = \"horizontal\", )\n", + "\n", + "plt.setp(stemlines, linestyle=\"-\", color= '#5179DB', linewidth= 2 )\n", + "plt.setp(markers, color='#5179DB')\n", + "plt.xlim([0,1000])\n", + "plt.ylim([-1,20.5])\n", + "\n", + "plt.grid(linewidth=0.2)\n", + "plt.gca().invert_yaxis()\n", + "plt.title('Distribution of edges per indications')\n", + "plt.ylabel('Number of edges')\n", + "plt.xlabel('Number of indications');\n", + "\n", + "# plt.savefig('Distribution of edges per indication.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "fae16f49", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "b3459c21", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "e02affc4", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "764ee3e9", + "metadata": {}, + "source": [ + "## Figure 4: DrugMechDB mechanistic paths" + ] + }, + { + "cell_type": "markdown", + "id": "8a3b5389", + "metadata": {}, + "source": [ + "A) Most common mechanistic paths (excluding edges)" + ] + }, + { + "cell_type": "code", + "execution_count": 54, + "id": "d5d3ecee", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Nmber of unique mechanistic paths (excluding edges): 297\n" + ] + } + ], + "source": [ + "metapaths_df = pd.DataFrame( columns= [\"DMDB_ID\", \"Metapath\"])\n", + "\n", + "for id_ in all_metapath_nodes:\n", + " for p in all_metapath_nodes[id_]:\n", + " metapaths_df = metapaths_df.append({\"DMDB_ID\": id_, \n", + " \"Metapath\": p}, ignore_index= True)\n", + "\n", + "print(\"Nmber of unique mechanistic paths (excluding edges): \", len(set(metapaths_df[\"Metapath\"].to_list())))" + ] + }, + { + "cell_type": "code", + "execution_count": 50, + "id": "79ce2899", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "me_counts = pd.Series(metapaths_df[\"Metapath\"]).value_counts()\n", + "count_plot_h(me_counts.head(10))\n", + "\n", + "plt.grid(linewidth=0.1)\n", + "plt.ylabel('');\n", + "plt.title('Most common Metapaths in DrugMechDB')\n", + "plt.xlabel('Count');\n", + "\n", + "# plt.savefig('Most common Metapaths in DrugMechDB.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": 58, + "id": "22c4fb55", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Most common meta-path(Drug - Protein - BiologicalProcess - Disease): 683 (12.270930650377291%)\n" + ] + } + ], + "source": [ + "#Number of metapaths\n", + "mp_nodes = []\n", + "for id_ in all_metapath_nodes:\n", + " for p in all_metapath_nodes[id_]:\n", + " mp_nodes.append(p)\n", + "\n", + "\n", + "total_mp_nodes = len(((mp_nodes)))\n", + "most_common_mp = len([i for i in mp_nodes if i == \"Drug - Protein - BiologicalProcess - Disease\"])\n", + "\n", + "\n", + "print(\"Most common meta-path(Drug - Protein - BiologicalProcess - Disease): \", most_common_mp, \n", + " f\"({(most_common_mp*100)/total_mp_nodes}%)\")" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "18ceb585", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "b67517b1", + "metadata": {}, + "source": [ + "B) Most common mechanistic paths (including edges)\n" + ] + }, + { + "cell_type": "code", + "execution_count": 59, + "id": "e7f11f5f", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Number of mechanistic paths (including edges): 1457\n" + ] + } + ], + "source": [ + "mp_edges = []\n", + "for id_ in all_metapath_edges:\n", + " for p in all_metapath_edges[id_]:\n", + " mp_edges.append(p)\n", + "\n", + "print(\"Number of mechanistic paths (including edges): \",(len(set(mp_edges))))" + ] + }, + { + "cell_type": "code", + "execution_count": 60, + "id": "fbbbda63", + "metadata": {}, + "outputs": [], + "source": [ + "metapaths_edge_df = pd.DataFrame( columns= [\"DMDB_ID\", \"Metapath_edge\"])\n", + "\n", + "for id_ in all_metapath_edges:\n", + " for p in all_metapath_edges[id_]:\n", + " metapaths_edge_df = metapaths_edge_df.append({\"DMDB_ID\": id_, \n", + " \"Metapath_edge\": p}, ignore_index= True)" + ] + }, + { + "cell_type": "code", + "execution_count": 61, + "id": "1f14dea3", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "plt.figure( dpi=100)\n", + "me_counts = pd.Series(metapaths_edge_df[\"Metapath_edge\"]).value_counts()\n", + "count_plot_h(me_counts.head(5))\n", + "\n", + "plt.grid(linewidth=0.1)\n", + "plt.ylabel('');\n", + "plt.title('Most common Metapaths in DrugMechDB')\n", + "plt.xlabel('Count');\n", + "\n", + "# plt.savefig('Most common Metapaths in DrugMechDB_B.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": 64, + "id": "7f85f3bc", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Most common meta-path(Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease): 193 (3.467481135465325%)\n" + ] + } + ], + "source": [ + "#number of meta_paths (with edges)\n", + "total_mp_edges = len((mp_edges))\n", + "most_common_mp_edge = len([i for i in mp_edges if i == \"Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease\"])\n", + "\n", + "print(\"Most common meta-path(Drug - decreases activity of - Protein - positively regulates - BiologicalProcess - occurs in - OrganismTaxon - causes - Disease): \", most_common_mp_edge, \n", + " f\"({(most_common_mp_edge*100)/total_mp_edges}%)\")\n", + "\n" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "0ed93f98", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "1186bd6d", + "metadata": {}, + "source": [ + "C) Distribution of paths per indication" + ] + }, + { + "cell_type": "code", + "execution_count": 65, + "id": "e899ee15", + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "Text(0.5, 0, 'Number of indications')" + ] + }, + "execution_count": 65, + "metadata": {}, + "output_type": "execute_result" + }, + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "heads, locs = np.histogram(basic_stats['n_paths'], bins= 21)\n", + "plt.figure( dpi=100)\n", + "(markers, stemlines, baseline) = plt.stem([str(i) for i in range(1,22)],\n", + " heads, \n", + " basefmt = \" \",\n", + " orientation = \"horizontal\", )\n", + "\n", + "plt.setp(stemlines, linestyle=\"-\", color= '#5179DB', linewidth= 2 )\n", + "plt.setp(markers, color='#5179DB')\n", + "plt.xscale(\"log\")\n", + "\n", + "plt.ylim([-1,7])\n", + "plt.xlim([0,20000])\n", + "\n", + "plt.grid(linewidth=0.2)\n", + "plt.gca().invert_yaxis()\n", + "plt.title('Distribution of paths per indication')\n", + "plt.ylabel('Number of Paths')\n", + "plt.xlabel('Number of indications')\n", + "\n", + "\n", + "#plt.savefig('Distribution of paths per indication.pdf')" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "e5cdf646", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "5bd117d3", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "2edfd9b9", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "6c8881e3", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "markdown", + "id": "1b127387", + "metadata": {}, + "source": [ + "### Table 1" + ] + }, + { + "cell_type": "code", + "execution_count": 66, + "id": "b67b689c", + "metadata": {}, + "outputs": [], + "source": [ + "#outgoing edges\n", + "\n", + "node_me = defaultdict(list)\n", + "node_me_unique = defaultdict(set)\n", + "\n", + "for mp in all_metaedges:\n", + " mp = mp.split(\" - \")\n", + " node_me[mp[0]].append(mp[1])\n", + " node_me_unique[mp[0]].add(mp[1])" + ] + }, + { + "cell_type": "code", + "execution_count": 67, + "id": "9e85be49", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Drug 6886\n", + "Protein 8704\n", + "BiologicalProcess 8235\n", + "ChemicalSubstance 2474\n", + "Pathway 348\n", + "GrossAnatomicalStructure 534\n", + "MolecularActivity 474\n", + "OrganismTaxon 1343\n", + "GeneFamily 958\n", + "CellularComponent 456\n", + "PhenotypicFeature 1499\n", + "Cell 186\n", + "Disease 147\n", + "MacromolecularComplex 5\n", + "32249\n" + ] + } + ], + "source": [ + "#Edge count by concept type\n", + "sum_node_me = 0\n", + "for k,v in node_me.items():\n", + " sum_node_me += len(v)\n", + " print(k, len(v))\n", + "\n", + "print(sum_node_me)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "57c3c4ff", + "metadata": {}, + "outputs": [], + "source": [] + }, + { + "cell_type": "code", + "execution_count": 68, + "id": "5413e4e6", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Drug 38\n", + "Protein 33\n", + "BiologicalProcess 38\n", + "ChemicalSubstance 35\n", + "Pathway 20\n", + "GrossAnatomicalStructure 24\n", + "MolecularActivity 21\n", + "OrganismTaxon 5\n", + "GeneFamily 21\n", + "CellularComponent 15\n", + "PhenotypicFeature 17\n", + "Cell 19\n", + "Disease 12\n", + "MacromolecularComplex 1\n", + "299\n" + ] + } + ], + "source": [ + "#Unique Edge-types by concept type\n", + "sum_node_me = 0\n", + "for k,v in node_me_unique.items():\n", + " sum_node_me += len(v)\n", + " print(k, len(v))\n", + "\n", + "print(sum_node_me)" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "5b989a8c", + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3 (ipykernel)", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.9.12" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/data_tools/README.md b/data_tools/README.md new file mode 100644 index 0000000..2bcf05d --- /dev/null +++ b/data_tools/README.md @@ -0,0 +1,69 @@ +# Data Tools + +A collection of random tools for manipulating data, +with the primary goal of producing hetnets. + +## Description + +### Overview + +This is a collection of functions and tools for manipulating data. + +### Motivation + +This project was built from common operations I run in python and pandas. As I started to notice I was reusing blocks of +code throughout my various projects I decided to abstract them into functions, and packge them in a way they could be +easily integrated into future projects. For a project that uses this +toolset see [metapaths](https://github.com/mmayers12/metapaths/). + +### Features + +This repo contains tools for: + +- Downloading data +- Reshaping Series and DataFrames +- Managing Graphs as DataFrames (separate Nodes and Edges objects) +- Some prebaked Seaborn plots with a particular style +- Processing and plotting Machine Learning results + +### Re-use and contributions statement + +Feel free to reuse code as you see fit. If you would like to make changes to the code, feel free to +build your own forked version. + + +## Getting Started + +To install the latest version with pip use the following command: + + pip install git+https://github.com/mmayers12/data_tools + +### Requirements + +See setup.py for a list of requirements. + +## Usage + +### How to use + +To use functions in this library import them into your script. + +### Code examples + + from data_tools.graphs import combine_nodes_and_edges + combo = combine_nodes_and_edges(nodes, edges) + +## Project Status + +### Current status / build / version + +Project is currently under heavy development. Methods and features are subject to change greatly on subsequent versions. + +Current version is 0.0.8. + +## Credits + +### Contact info + +For bug reports please email mmayers[at]scripps.edu or raise an issue on Github. + diff --git a/data_tools/data_tools/__init__.py b/data_tools/data_tools/__init__.py new file mode 100644 index 0000000..2ecc9fe --- /dev/null +++ b/data_tools/data_tools/__init__.py @@ -0,0 +1,2 @@ +__all__ = ['graphs', 'files', 'df_processing', 'wiki', 'plotting', 'obo_processing', 'ml'] + diff --git a/data_tools/data_tools/__pycache__/__init__.cpython-39.pyc b/data_tools/data_tools/__pycache__/__init__.cpython-39.pyc new file mode 100644 index 0000000000000000000000000000000000000000..3aaf025c90cf5d41c0afa6e32b63dbefd77ced1c GIT binary patch literal 243 zcmYj~Jqp4=5QR6ve~iZv(zw`*e~6tnb|MUGc8!aZOvtW?9>>n>SZ?bP?5td^^5DIh zkAXKLiaN~e*`LUrpRXTO6?&L@o34+PNp=smOa>bkhjG(2(oz&hE%D6}#peQL( z#^^kCwTnJ!*D8>#{c(@>RK158uH(Qp0R$qzgOzRnslok1jq#0B`Ys7Ip@Br?kSZ;qj^gQv zno$$#7@o$}q&kjLN7XB8N}WK;ggU97LCP^Tt4^uYNSRb;)LEn)SFfsb>RF^rsmtm) z^#wegQ0LY2$UCV#^+nvDQ5Vz;xSvulsxRSwT3uArxSvs%R1NpD%D!jS=6;S5SxYrL zDK^&qW(N;$^iZ|8OW*tc`}GfAZrIFE|M=|Uw}4+bj!R_i+RBctJqJxWO9?K?HgvxpV*iSKeJp3SoZ*?UuqwH#=)jEnPv?&#u3^-fai3`fJ_Jw%-c2UsZnO z*Q0K?73LmS>pk6V1YwA}v%Rh42%G8E(OVsku_F#HmaRF1pV{%W^aFYF;M+ptJ(0QAoPM(&<;9LIO9d@ zLC0%!+bhiu(*2Iti~{Yiv;wc&@qCXR^BYL=qAp(9ZDg6Td)qj*=aa+wWf@Fdy zaUXP>9Z09Eqd+06lC_t(Y%6h@lN3-@1ZOTBd2*cj^|UK>Ry&I1kOQ`yaa*6n{eDAU znS?(oGJlj&_&P3eL0^omU26|B`LVT%*;LL)l|6gMjVKrQN08M$D{@ppxgS}v^}t;e z>D{wb5mGAoZ=$KHhrfkxXEV?dB;wr*bQ7X6(A^Ln;TMMUf{zSRI8n1z zX)TytoAu@}k_&V5SFT>W9?xB#zj@{A1A0Na__ym9p{GEAv;c&5vYWW#;_l zxtmw7T`-?Pg6FLSn6)6hHEf&Za^FqcigT53^`KmBXkY7=cYi&|#0E*Hi^LOwHbbxN zcLFWVXLX<}rqWOns3-F>12tAgv2{S<4FnCHHnL7zp)TI?-oz>m{LYNmT=nkjejtk? zRc=fxCTayLFA9yP)vgY_bV^2hB%jVVcGqu(Xib{vbR*L{b`0af!pR!zcbX5It6MU~ z=(y=K-ez<1d`CCizHYX*ynYy9cwIEo(19NYnY7qI*b9*Ph>N-zd63*jr~8N+5}?;U ze%pcW4z(xu1r7?8vGUrXk$l=wGu5|r5cPHE7FYj_%vUFPgzlu(3>Zj*2Vj;9^aK|v zVT}v)6N|9))LwcDs20fqQf>Xz*2hs|1QaT_TYh^*`LE9){Xg)tw!f6aiBMMO?Cn;! 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Defaults to a `|` character. + :param sort: bool, whether or not to sort the output before joining the string + :param split: Boolean, if False, will not split the input before uniqifying and rejoining. + Primarily used to increase processing speed when it is known there are zero character + joined items in the input. (this may be important on very large datasets) + :param prog: Boolean, if True will display tqdm progress bars. False for cleaner output with no bars + + :return: Dataframe with 1 row per group, and information of different rows joined by given character. + + """ + + col_order = df.columns + + if type(group_on) in (str, int, float): + group_on = [group_on] + + # Save computation time by only perfoming the grouping and + # Joining when group size > 1 + df = df.reset_index(drop=True) # ensure unique indices + dup_idx = df[group_on].duplicated(keep=False) + not_duped = df.loc[dup_idx[~dup_idx].index] + duped = df.loc[dup_idx[dup_idx].index] + + # do the grouping + grouped = duped.groupby(group_on) + + if combine_cols is None: + combine_cols = find_cols_with_multi_values(grouped) + + out_df = grouped.first() + + # Splitting before doing the groupby is much much faster + if split: + split_df = duped[combine_cols].applymap(lambda x: str(x).split('|')) + grouped = pd.concat([duped[group_on], split_df], axis=1).groupby(group_on) + + # Apply the uniqify and comine to each col in the target groups. + # Allow an optinal progress bar + if prog: + for col in tqdm(combine_cols, desc='total_progress'): + tqdm.pandas(desc=col) + + # The split result needs an extra chain + if split: + out_df[col] = grouped[col].progress_apply(lambda s: char_combine_iter([v for v in chain(*s.values) + if v != 'nan'], + char=char, sort=sort)) + else: + out_df[col] = grouped[col].progress_apply(char_combine_series, char=char, sort=sort, split=split) + else: + for col in combine_cols: + # The split result needs an extra chain + if split: + out_df[col] = grouped[col].apply(lambda s: char_combine_iter([v for v in chain(*s.values) if v != 'nan'], + char=char, sort=sort)) + else: + out_df[col] = grouped[col].apply(char_combine_series, char=char, sort=sort, split=split) + + # Pasted the fixed lines to the previous lines + return pd.concat([not_duped, out_df.reset_index()], sort=False, ignore_index=True)[col_order] + + +def add_curi(data_frame, curi_map): + """ + Adds CUIs to each item in a DataFrame. Only 1 item per cell. Will skip if elemnts aready start with `CURI:`. + + :param data_frame: The DataFrame to add curis to. + :param curi_map: dict, with key == column name and value == CURI. + + :return: DataFrame, the DataFrame with CURIs added to each element in columns + """ + + out = data_frame.copy() + for col_name, curi in curi_map.items(): + + # Skip empty columns and those that already have CURIs in their identifier + col_items = out[col_name].dropna() + if len(col_items) == 0 or (col_items.str.startswith(curi).sum() == len(col_items) and \ + col_items.str.contains(':').sum() == len(col_items)): + continue + + out[col_name] = curi+':'+out[col_name] + return out + + +def split_col(col, char, dropna=False): + """Splits a Series by a characters, into a new series of equal length with each element as a list""" + if dropna: + return col.dropna().apply(lambda s: s.split(char)) + return pd.Series([s.split(char) if type(s) == str else [s] for s in col.tolist()], name=col.name, index=col.index) + + +def expand_split_col(col_split): + """ + Takes a Pandas.Series that contains an iterable, and expands to a 2-col DataFrame with 1 item per row. + The original index will be contained in the second column. + """ + col_name = col_split.name + + old_idx = list(chain(*[[x]*len(v) for x, v in col_split.to_dict().items()])) + new_col = list(chain(*col_split.values)) + + return pd.DataFrame({'old_idx': old_idx, col_name: new_col}) + + +def expand_df_on_col(df, col_name, skip_list_check=False): + """ + Take a DataFrame with a column that contains list values and expand the frame's length + So that each row now only contains one Element, duplicating values in all other columns. + """ + + # Copy df and get column order + col_order = df.columns + out = dict() + + split_col = df[col_name] + + # Allow us to skip itrating throught the list if we KNOW all elements are already non-string iterables + if not skip_list_check: + split_col = [[i] if type(i) != list else i for i in split_col] + + # expand the rows + out[col_name] = list(chain(*split_col)) + + # Now fix the other cols + other_cols = [c for c in col_order if c != col_name] + lens = [len(s) for s in split_col] + for col in other_cols: + col_vals = list(chain(*[[v]*l for v, l in zip(df[col].tolist(), lens)])) + out[col] = col_vals + + return pd.DataFrame(out)[col_order] + + + +def expand_col_on_char(df, col_name, char, dropna=False): + """ + Expands rows in a dataframe due to a column where elements contain multiple values separated by a character, + resulting in only one element per row in the new column + + For example, a column of pipe separated Pubmed IDs (in .csv format): + letter, pmid + a, 12805067|17698565|18279049|21329777 + b, 10072544|12721113 + + Would become: + letter, pmid + a, 12805067 + a, 17698565 + a, 18279049 + a, 21329777 + b, 10072544 + b, 12721113 + + :param df: The DataFrame to expand. + :param col_name: str, the name of the column to expand + :param char: the char to expand the column on + :param dropna: If True, rows with NAN values in the epanded column will be dropped in the final result. + While this loses data, it can greatly speed up the algorithm on large datasets, when NAN rows are not + needed. + :return: DataFrame, with the extra rows + """ + + if dropna: + df = df.dropna(subset=[col_name]) + # Split the desired column on the desired character + split_col = [s.split(char) for s in df[col_name].tolist()] + else: + # Split the desired column on the desired character + split_col = [s.split(char) if type(s) == str else [s] for s in df[col_name].tolist()] + + out = df.copy() + out[col_name] = split_col + + return expand_df_on_col(out, col_name, skip_list_check=True) + + +def cammel_to_underscore(name): + """Converts CammelCaseNames to underscore_separated_names""" + # Get the indicies of capital letters + idx_to_change = [] + for i, letter in enumerate(name): + if letter != letter.lower(): + idx_to_change.append(i) + + # Ensure first section is grabbed when starting with lower case e.g. cammelCaseExamples + idx_to_change = [0] + idx_to_change if 0 not in idx_to_change else idx_to_change + + # If strings of caplital letters in a row (e.g. OrchidIDs) + # Start with only the first of the string and remove the rest... + prev_idx = 0 + to_remove = [] + for idx in idx_to_change: + if idx - prev_idx == 1: + to_remove.append(idx) + prev_idx = idx + idx_to_change = [x for x in idx_to_change if x not in to_remove] + + # Build the new name + out_name = '' + for i, start_idx in enumerate(idx_to_change): + if i+1 < len(idx_to_change): + end_idx = idx_to_change[i+1] + out_name += name[start_idx:end_idx].lower() + '_' + else: + out_name += name[start_idx:].lower() + if not out_name: + return name + return out_name + + +def remove_lead_chars(name): + """Strips whitespace and special characters from the start of a string""" + start = 0 + while not name[start].isalpha(): + start+=1 + return name[start:] + + +def remove_end_chars(name): + """Strips whitespace and special characters from the end of a string""" + end = len(name) + while not name[end-1].isalnum(): + end-=1 + return name[:end] + + +def strip_special_chars(name): + """Removes most special characters from a string, keeps [' ', '-', or '_']""" + return ''.join([c for c in name if c.isalnum() or c in [' ', '-', '_']]) + + +def regularize_colname(name): + """Regularize a string to a Pandas queryable name, with underscore separation""" + out_name = remove_lead_chars(name) + out_name = remove_end_chars(out_name) + out_name = strip_special_chars(out_name) + if out_name.isidentifier(): + out_name = cammel_to_underscore(out_name) + out_name = out_name.replace(' ', '_').replace('-', '_') + return out_name.lower() + + +def regularize_colnames(col_names): + """Regularize a list of column names. See regularize_colname""" + return [regularize_colname(c) for c in col_names] + diff --git a/data_tools/data_tools/files/__init__.py b/data_tools/data_tools/files/__init__.py new file mode 100644 index 0000000..621bc61 --- /dev/null +++ b/data_tools/data_tools/files/__init__.py @@ -0,0 +1,16 @@ +__all__ = [] + +from ._pathing import * +from . import _pathing +from ._retrieval import * +from . import _retrieval +from ._processing import * +from . import _processing +from ._analysis import * +from . import _analysis + +__all__ += _pathing.__all__ +__all__ += _retrieval.__all__ +__all__ += _processing.__all__ +__all__ += _analysis.__all__ + diff --git a/data_tools/data_tools/files/__pycache__/__init__.cpython-39.pyc b/data_tools/data_tools/files/__pycache__/__init__.cpython-39.pyc new file mode 100644 index 0000000000000000000000000000000000000000..d340098e9efafaeba62b24169532b62f28306161 GIT binary patch literal 407 zcmYk1zfQw25XSEkr%eOhd4)0%AtA9K{;4B$fhhwgt2Swn6IXUXYA0TYSIWx7D=_uk 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given type from an edge dataframe. + Generally used in the context of machine learning for holdout edges from a gold standard. + """ + + # Separate the edge type to filter + keep_edges = edges.query('type != @target_type') + to_filter_edges = edges.query('type == @target_type') + + # Create a set of edges for set operations + remove_pairs = set([(tup.start_id, tup.end_id) for tup in to_remove.itertuples()]) + target_pairs = set([(tup.start_id, tup.end_id) for tup in to_filter_edges.itertuples()]) + + remaining_edges = target_pairs - remove_pairs + + # Make the filtered results into a dataframe + out = pd.DataFrame({'start_id': [tup[0] for tup in remaining_edges], + 'end_id': [tup[1] for tup in remaining_edges], + 'type': target_type}) + + # Return the results + return pd.concat([keep_edges, out], sort=False, ignore_index=True) + + +def add_abbrevs(nodes, edges, kind_to_abbrev=None, type_to_dir=None): + """ + Generates and adds abbrevations to a DataFrame of edges. + + :param nodes: DataFrame of node information (standard format) + :param edges: DataFrane of edges (standard format) + :param kind_to_abbrev: dict, map from `label` (for nodes) or `type` (for edges) to abbrevation + if None is passed, unique abbreviations will be generated, but the simple generation algorithm will + potentailly generate un-necessarily long abbrevations. It is best practives to select your own + abbrevations and pass them as a value here. + :param type_to_dir: dict, map from edge `type` to boolean, True if the edge is directed, False if the edge is not. + Will only add directed syntax to edges that pass to the same metanode (e.g. Reaction preceeds Reaction) + + :return: DataFrame, edges with an added abbrev column containing the abbreviation for the edge. + """ + + # Get all the types and labels to ensure that all are mapped + all_kinds = nodes['label'].unique().tolist() + edges['type'].unique().tolist() + + # Make sure all edge types are classifiable as directed or not. If missing, throw an error + # before doing any expenive mappings + if type_to_dir is not None: + assert len(set(edges['type']) - set(type_to_dir.keys())) == 0 + + # Do simple abbreviation generation if not passed + if kind_to_abbrev is None: + kind_to_abbrev = _find_abbrevs(all_kinds) + + # Ensure all the kinds are mappable to an abbrevation + elif len(set(all_kinds) - set(kind_to_abbrev.keys())) != 0: + # Keep original abbrevs, adding in new missing ones + # find_abbrevs() guarntees unique abbrevations (though some may be unnessarily long) + kind_to_abbrev = {**_find_abbrevs(all_kinds), **kind_to_abbrev} + + # Generate a map for all nodes + id_to_abbrev = nodes.set_index('id')['label'].map(kind_to_abbrev).to_dict() + + # map the nodes + edges['start_abbv'] = edges['start_id'].map(id_to_abbrev) + edges['end_abbv'] = edges['end_id'].map(id_to_abbrev) + + # Build the full edge abbrevation from the node abbrevs and the edge type + edges['abbrev'] = edges['start_abbv'] + edges['type'].map(kind_to_abbrev) + edges['end_abbv'] + + # Account for directed edges + if type_to_dir is not None: + # Find where directed and start type == end type + directed_idx = (edges['start_abbv'] == edges['end_abbv']) & edges['type'].map(type_to_dir) + directed_idx = directed_idx[directed_idx].index + + edges.loc[directed_idx, 'abbrev'] = edges['start_abbv'] + edges['type'].map(kind_to_abbrev) + '>' + edges['end_abbv'] + + return edges.drop(['start_abbv', 'end_abbv'], axis=1) + + +def change_edge_type(edges, idx, new_type, swap=False): + """ + In-place change of an edge type in a hetnet file. + """ + edges.loc[idx, 'type'] = new_type + if swap: + tmp = edges.loc[idx, 'start_id'] + edges.loc[idx, 'start_id'] = edges.loc[idx, 'end_id'] + edges.loc[idx, 'end_id'] = tmp + + +def map_edge_types_from_file(edges, map_df, orig_type='type', new_type='new_type', + swap_label='reverse_node_labels', nodes=None, + start_label='start_label', end_label='end_label', + prog=True): + """ + In-place updater of Edge Types from a mapping dataframe + """ + + # Option to strictly enforce node typing + if nodes is not None: + combo = combine_nodes_and_edges(nodes, edges) + + def inner_func(): + + # Strict type encforment if all variables there (allows for sloppy edge abbreviations) + if nodes is not None: + sl = getattr(row, start_label) + el = getattr(row, end_label) + from_type = getattr(row, orig_type) + + to_change = combo.query('start_label == @sl and end_label == @el and type == @from_type').index + else: + from_type = getattr(row, orig_type) + to_change = edges.query('type == @from_type').index + + to_type = getattr(row, new_type) + swap = getattr(row, swap_label) + if _pd.isnull(swap): + swap = False + + change_edge_type(edges, to_change, to_type, swap) + + if prog: + for row in _tqdm(map_df.itertuples(), total=len(map_df)): + inner_func() + else: + for row in map_df.itertuples(): + inner_func() + + edges.dropna(subset=['type'], inplace=True) + edges.reset_index(drop=True, inplace=True) + diff --git a/data_tools/data_tools/graphs/_graphs.py b/data_tools/data_tools/graphs/_graphs.py new file mode 100644 index 0000000..3102b1e --- /dev/null +++ b/data_tools/data_tools/graphs/_graphs.py @@ -0,0 +1,534 @@ +import random as _random +import pandas as _pd +from collections import OrderedDict as _oDict +from ..df_processing import combine_group_cols_on_char + +__all__ = ['get_direction_from_abbrev', 'get_edge_name', 'map_id_to_value', + 'parse_edge_abbrev', 'get_abbrev_dict_and_edge_tuples', 'combine_nodes_and_edges', + 'get_node_degrees', 'add_colons', 'remove_colons', 'determine_split_string', + 'order_cols', 're_id_nodes', 're_id_edges', 'prune_leaf_nodes', 'get_core_network', + 'permute_edges', 'permute_graph'] + + +def get_direction_from_abbrev(abbrev): + """Finds the direction of a metaedge from its abbreviaton""" + if '>' in abbrev: + return 'forward' + elif '<' in abbrev: + return 'backward' + else: + return 'both' + + +def get_edge_name(edge): + """Separates the edge name from its abbreviation""" + # the true edge name is everything before the final '_' character + # so if we have PROCESS_OF_PpoP, we still want to keep 'PROCESS_OF' with the underscores intact. + return '_'.join(edge.split('_')[:-1]) + + +def map_id_to_value(nodes, value): + """Maps Node id to another value""" + return remove_colons(nodes).set_index('id')[value].to_dict() + + +def parse_edge_abbrev(edge_abbrev): + """ + Splits an edge abbrevation into subject abbrev, predicate abbrev, object abbrev. + e.g. 'CbG' returns ('C', 'b', 'G') or 'CDreg>CD' returns ('CD', 'reg', 'CD') + + param: edge_abbrev, string, the abbreviation for the edge type + + return: tuple of strings, each of the type abbrevatinos in the subeject predicate object triple. + """ + ## TODO Compare to regex impolementation. see: https://github.com/hetio/hetnetpy/blob/master/hetnetpy/abbreviation.py#L164 + + e_type_abbrev = '' + start_abbrev = '' + end_abbrev = '' + + start = True + for char in edge_abbrev: + # Direction is not in abbreviations, skip to next character + if char == '>' or char == '<': + continue + + # When the abbreviation is in uppercase, abbreviating for node type + if char == char.upper(): + if start: + start_abbrev += char + else: + end_abbrev += char + + # When abbreviation is lowercase, you have the abbreviation for the edge + if char == char.lower(): + # now no longer on the start nodetype, so set to false + start = False + e_type_abbrev += char + + return (start_abbrev, e_type_abbrev, end_abbrev) + + +def get_abbrev_dict_and_edge_tuples(nodes, edges): + """ + Returns an abbreviation dictionary generated from class variables. + Required input for metagraph functions in the hetnetpy package. + + Edge types are formatted as such: + edge-name_{START_NODE_ABBREV}{edge_abbrev}{END_NODE_ABBREV} + e.g. Compound-binds-Gene is: binds_CbG + + Therefore, abbreviations for edge and node types can be extracted from the full edge name. + """ + nodes = remove_colons(nodes) + edges = remove_colons(edges) + + id_to_kind = nodes.set_index('id')['label'].to_dict() + + node_kinds = nodes['label'].unique() + edge_kinds = edges['type'].unique() + + # If we have a lot of edges, lets reduce to one of each type for faster queries later. + edge_kinds_df = edges.drop_duplicates(subset=['type']) + + # Extract just the abbreviation portion + edge_abbrevs = [e.split('_')[-1] for e in edge_kinds] + + # Initialize the abbreviation dict (key = fullname, value = abbreviation) + node_abbrev_dict = dict() + edge_abbrev_dict = dict() + metaedge_tuples = [] + + for i, kind in enumerate(edge_kinds): + edge_name = get_edge_name(kind) + start_abbrev, edge_abbrev, end_abbrev = parse_edge_abbrev(edge_abbrevs[i]) + + # Have proper edge abbreviation + edge_abbrev_dict[edge_name] = edge_abbrev + + # Have abbreviations, but need to get corresponding types for start and end nodes + edge = edge_kinds_df.query('type == @kind').iloc[0] + start_kind = id_to_kind[edge['start_id']] + end_kind = id_to_kind[edge['end_id']] + + node_abbrev_dict[start_kind] = start_abbrev + node_abbrev_dict[end_kind] = end_abbrev + + direction = get_direction_from_abbrev(kind) + edge_tuple = (start_kind, end_kind, edge_name, direction) + metaedge_tuples.append(edge_tuple) + + return {**node_abbrev_dict, **edge_abbrev_dict}, metaedge_tuples + + +def combine_nodes_and_edges(nodes, edges): + """Combines data from nodes and edges frames into a single dataframe""" + + nodes = remove_colons(nodes) + edges = remove_colons(edges) + + id_to_name = map_id_to_value(nodes, 'name') + id_to_label = map_id_to_value(nodes, 'label') + + out_df = edges.copy() + + out_df['start_name'] = out_df['start_id'].apply(lambda i: id_to_name[i]) + out_df['end_name'] = out_df['end_id'].apply(lambda i: id_to_name[i]) + + out_df['start_label'] = out_df['start_id'].apply(lambda i: id_to_label[i]) + out_df['end_label'] = out_df['end_id'].apply(lambda i: id_to_label[i]) + + return out_df + + +def get_node_degrees(edges): + """Determines the degrees for all nodes""" + return _pd.concat([remove_colons(edges)['start_id'], remove_colons(edges)['end_id']]).value_counts() + + +def add_colons(df, id_name='', col_types={}): + """ + Adds the colons to column names before neo4j import (presumably removed by `remove_colons` to make queryable). + User can also specify a name for the ':ID' column and data types for property columns. + + :param df: DataFrame, the neo4j import data without colons in it (e.g. to make it queryable). + :param id_name: String, name for the id property. If importing a CSV into neo4j without this property, + Neo4j mayuse its own internal id's losing this property. + :param col_types: dict, data types for other columns in the form of column_name:data_type + :return: DataFrame, with neo4j compatible column headings + """ + reserved_cols = ['id', 'label', 'start_id', 'end_id', 'type'] + + # Get the reserved column names that need to be changed + to_change = [c for c in df.columns if c.lower() in reserved_cols] + if not to_change: + raise ValueError("Neo4j Reserved columns (['id', 'label' 'start_id', 'end_id', 'type'] not " + + "found in DataFrame") + + # Add any column names that need to be types + to_change += [c for c in df.columns if c in col_types.keys()] + + change_dict = {} + for name in to_change: + # Reserved column names go after the colon + if name.lower() in reserved_cols: + if name.lower() == 'id': + new_name = id_name + ':' + name.upper() + else: + new_name = ':' + name.upper() + else: + # Data types go after the colon, while names go before. + new_name = name + ':' + col_types[name].upper() + change_dict.update({name: new_name}) + + return df.rename(columns=change_dict) + + +def remove_colons(df): + """ + Removes colons from column headers formatted for neo4j import to make them queryable + + :param df: DataFrame, formatted for neo4j import (column lables ':ID', ':LABEL, 'name:STRING' etc). + :return: DataFrame, with column names that are queryable (e.g. 'id', 'label', 'name'). + """ + # Figure out which columns have : in them + to_change = [c for c in df.columns if ':' in str(c)] + new_labels = [c.lower().split(':') for c in to_change] + + # keep the reserved types, or names + reserved_cols = ['id', 'label', 'start_id', 'end_id', 'type'] + new_labels = [l[1] if l[1] in reserved_cols else l[0] for l in new_labels] + + # return the DataFrame with the new column headers + change_dict = {k: v for k, v in zip(to_change, new_labels)} + return df.rename(columns=change_dict) + + +def determine_split_string(edge): + """ + Determines the correct character to split a string representation of an edge into [node1, edge, node2]. + + e.g. 'Node1 - links_to - Node2' will return ' - ' + 'Node3 > part_of > Node2' will return ' > ' + """ + if '-' in edge: + return ' - ' + elif '>' in edge: + return ' > ' + elif '<' in edge: + return ' < ' + + +def order_cols(df): + """ + Given a DataFrame representation of Nodes or Edges (or a combo) will standardize column order with IDs first. + """ + order = ['id', 'name', 'label', 'start_id', 'end_id', + 'start_name', 'type', 'end_name', 'start_label', + 'end_label'] + order = [o for o in order if o in df.columns] + return df[order + [c for c in df.columns if c not in order]] + + +def re_id_edges(edges, id_map_df, old_id_col=0, new_id_col=1): + """ + Changes identifiers in an edge DataFrame. Uses merge so 1 to many and many to many mappings are preserved. + + :param edges: DataFrame, edges to be modified + :param id_map_df: DataFrame, the mappings from old to new ID. By default column 0 is the old ID and column 1 + is the new ID. + :param old_id_col: int or string, name or index of column of original identifiers. + :param new_id_col: int or string, name or index of column of new identifier. + + :return: DataFrame with the new identifiers + """ + + # If integers passed for columns, reindex to integers + if old_id_col in [0, 1] and new_id_col in [0,1]: + id_map_df.columns = [0, 1] + + old_ids = id_map_df[old_id_col].values + + # Query for the edges that will not be altered + untouched_edges = edges.query('start_id not in @old_ids and end_id not in @old_ids') + + # Change the start edge Identifiers + start_edges = edges.query('start_id in @old_ids') + start_edges_out = start_edges.merge(id_map_df, left_on='start_id', right_on=old_id_col, how='left') + start_edges_out = start_edges_out.drop(['start_id', old_id_col], axis=1).rename(columns={new_id_col: 'start_id'}) + + # Edges with both ids needing changes + both_edges = start_edges_out.query('end_id in @old_ids') + start_edges_out = start_edges_out.query('end_id not in @old_ids') + + # Change the end edge Identifiers + end_edges = edges.query('end_id in @old_ids and start_id not in @old_ids') + end_edges = _pd.concat([end_edges, both_edges], sort=False) + end_edges_out = end_edges.merge(id_map_df, left_on='end_id', right_on=old_id_col, how='left') + end_edges_out = end_edges_out.drop(['end_id', old_id_col], axis=1).rename(columns={new_id_col: 'end_id'}) + + # Concat and return + return _pd.concat([untouched_edges, start_edges_out, end_edges_out], sort=False, ignore_index=True) + + +def re_id_nodes(nodes, id_map_df, old_id_col, new_id_col, new_first=True): + """ + Changes identifiers of a Node DataFrame. + + :param nodes: The nodes with the old identifier map + :param id_map_df: DataFrame, the mappings from old to new ID. + :param old_id_col, str, the name of the column containing the original identifiers. + :param new_id_col, str, the name of the column containing the new identifiers. + :para new_first: bool, only important if 'id_map_df' contains additional column information like 'name' + or 'label.' If True, will use the values in `id_map_df` and fill in missing values with those from `nodes`, + if False, will use values from `nodes` before `id_map_df` + + :return: DataFrame of nodes with the updated identifiers + """ + old_ids = id_map_df[old_id_col].values + + untouched_nodes = nodes.query('id not in @old_ids') + + change_nodes = nodes.query('id in @old_ids') + change_nodes = change_nodes.merge(id_map_df[[old_id_col, new_id_col]], how='left', left_on='id', right_on=old_id_col) + change_nodes = change_nodes.drop(['id', old_id_col], axis=1).rename(columns={new_id_col: 'id'}) + + # if new node info is passed (besides the ID), hang on to it. + new_node_info = id_map_df[[new_id_col] + [c for c in ['name', 'label', 'xrefs'] if c in id_map_df.columns]] + new_node_info = new_node_info.rename(columns={new_id_col: 'id'}) + + # Xref Accounting: any mappings performed should be saved into the 'xrefs' column + xref_accounting = id_map_df[[new_id_col, old_id_col]].rename(columns={new_id_col: 'id', old_id_col: 'xrefs'}) + + if new_first: + out_nodes = [new_node_info, change_nodes, xref_accounting] + else: + out_nodes = [change_nodes, new_node_info, xref_accounting] + + out_nodes = _pd.concat(out_nodes, ignore_index=True, sort=False) + out_nodes = combine_group_cols_on_char(out_nodes, ['id'], ['xrefs'], sort=True, prog=False) + + return _pd.concat([untouched_nodes, out_nodes], sort=False).sort_values(['label', 'id']).reset_index(drop=True) + + +def prune_leaf_nodes(nodes, edges, allow_types=None, allow_ids=None): + """ + Remove leaf nodes from a network. allow_types lists node types ignore pruning, allow_ids ignores individal nodes. + """ + + if allow_types is None: + allow_types = [] + if allow_ids is None: + allow_ids = [] + + to_prune = edges[['start_id', 'end_id']].stack().value_counts() == 1 + to_prune = to_prune[to_prune].index + + to_prune = set(nodes.query('id in @to_prune and label not in @allow_types')['id']) + to_prune = to_prune - set(allow_ids) + + new_nodes = nodes.query('id not in @to_prune').copy() + new_edges = edges.query('start_id not in @to_prune and end_id not in @to_prune').copy() + + return new_nodes, new_edges + + +def get_core_network(nodes, edges, allow_types=None, allow_ids=None): + """ + Returns a 'core network' where all nodes are doubly connected (degree >= 2) through successive leaf pruning. + + :param nodes: DataFrame, the nodes for the network + :param edges: DataFrame, the edges for the network + :param allow_types: list of str, Node types (`label` column) to allow leaves (degree 1). + :param allow_ids: list of str, node identifiers for nodes to not remove even if they have degree 1 + + :returns: core_nodes, core_edges, DataFrames with all nodes degree >= 2 (excpet for allow arugments) + """ + + if allow_types is None: + allow_types = [] + if allow_ids is None: + allow_ids = set() + elif type(allow_ids) != set: + allow_ids = set(allow_ids) + + nodes_out = nodes.copy() + edges_out = edges.copy() + + new_nodes_out, new_edges_out = prune_leaf_nodes(nodes_out, edges_out, allow_types, allow_ids) + + while(len(new_nodes_out) != len(nodes_out)): + nodes_out = new_nodes_out.copy() + edges_out = new_edges_out.copy() + new_nodes_out, new_edges_out = prune_leaf_nodes(nodes_out, edges_out, allow_types, allow_ids) + + return nodes_out.reset_index(drop=True), edges_out.reset_index(drop=True) + + +def permute_edges(edges, directed=False, multiplier=10, excluded_edges=None, seed=0): + """ + Permutes the edges of one metaedge in a graph while preserving the degree of each node. + + :param edges: DataFrame, edges information + :param directed: bool, whether or not the edge is directed + :param multiplier: int, governs the number of permutations, multiplied by number of edges + :param excluded_edges: DataFrame, edges to exclude from final permuted edges + :param seed: int, random state for analysis + + :return permuted_edges, stats: DataFrame, DataFrame - the permuted start and end ids, the permutation stats. + """ + _random.seed(seed) + + orig_columns = edges.columns + edges = remove_colons(edges) + col_name_mapper = {k: v for k, v in zip(edges.columns, orig_columns)} + + # There shouldn't be any duplicate edges in the grpah, but throw error just in case + assert len(edges) == len(edges.drop_duplicates(subset=['start_id', 'end_id'])) + + # Ensure only 1 edge type was passed + assert edges['type'].nunique() == 1 + e_type = edges['type'].unique()[0] + + edge_list = [(e.start_id, e.end_id) for e in edges.itertuples(index=False)] + edge_set = set(edge_list) + orig_edge_set = edge_set.copy() + + if excluded_edges is not None: + excluded_edge_set = set([(e.start_id, e.end_id) for e in excluded_edges.itertuples(index=False)]) + else: + excluded_edge_set = set() + + edge_number = len(edges) + n_perm = int(edge_number * multiplier) + + # Initialize some perumtation stats + count_self_loop = 0 + count_duplicate = 0 + count_undir_dup = 0 + count_excluded = 0 + + step = max(1, n_perm // 10) + print_at = list(range(step, n_perm, step)) + [n_perm - 1] + + stats = list() + + for i in range(n_perm): + + # Same two random edges without replacement + i_0 = _random.randrange(edge_number) + i_1 = i_0 + while i_0 == i_1: + i_1 = _random.randrange(edge_number) + + edge_0 = edge_list[i_0] + edge_1 = edge_list[i_1] + + unaltered_edges = [edge_0, edge_1] + swapped_edges = [(edge_0[0], edge_1[1]), (edge_1[0], edge_0[1])] + + # Validate the new paring + valid = False + for edge in swapped_edges: + # Self Loops + if edge[0] == edge[1]: + count_self_loop += 1 + break + # Duplicate Edges + if edge in edge_set: + count_duplicate += 1 + break + # Duplicate Undirected Edges + if not directed and (edge[1], edge[0]) in edge_set: + count_undir_dup += 1 + break + # Edge is excluded + if edge in excluded_edge_set: + count_excluded += 1 + break + # If we made it here, we have a valid edge + else: + valid = True + + # If BOTH new edges are valid + if valid: + + # Change the edge list + edge_list[i_0] = swapped_edges[0] + edge_list[i_1] = swapped_edges[1] + + # Fix the sets for quick hashing + for edge in unaltered_edges: + edge_set.remove(edge) + for edge in swapped_edges: + edge_set.add(edge) + + if i in print_at: + stat = _oDict() + stat['cumulative_attempts'] = i + index = print_at.index(i) + stat['attempts'] = print_at[index] + 1 if index == 0 else print_at[index] - print_at[index - 1] + stat['complete'] = (i + 1) / n_perm + stat['unchanged'] = len(orig_edge_set & edge_set) / len(edges) + stat['self_loop'] = count_self_loop / stat['attempts'] + stat['duplicate'] = count_duplicate / stat['attempts'] + stat['undirected_duplicate'] = count_undir_dup / stat['attempts'] + stat['excluded'] = count_excluded / stat['attempts'] + stats.append(stat) + + count_self_loop = 0 + count_duplicate = 0 + count_undir_dup = 0 + count_excluded = 0 + + assert len(edge_list) == edge_number + out_edges = _pd.DataFrame({'start_id': [edge[0] for edge in edge_list], + 'end_id': [edge[1] for edge in edge_list], + 'type': [e_type] * edge_number}) + + out_edges = out_edges.rename(columns=col_name_mapper) + + return out_edges, _pd.DataFrame(stats) + + +def permute_graph(edges, multiplier=10, excluded_edges=None, seed=0): + """ + Permutes the all of the metaedges types for those given in a graph file. + + :param edges: DataFrame, the edges to be permuted + :param multiplier: int, governs the number of permutations to be performed + :param excluded_edges: DataFrame, edges to be disallowed from final permutations + :param seed: int, random state for analysis for reproduciability + + :return permuted_graph, stats: DataFrame, DataFrame - the edges of the graph permuted, + stats on the permutations. + """ + # Change columns names to pandas standard + orig_columns = edges.columns + edges = remove_colons(edges) + col_name_mapper = {k: v for k, v in zip(edges.columns, orig_columns)} + + edge_types = edges['type'].unique() + + edge_stats = [] + permuted_edges = [] + for i, etype in enumerate(edge_types): + to_permute = edges.query('type == @etype').copy() + + directed = '>' in etype or '<' in etype + pedge, stats = permute_edges(to_permute, directed=directed, multiplier=multiplier, + excluded_edges=excluded_edges, seed=seed + len(to_permute)) + + permuted_edges.append(pedge) + + stats['etype'] = etype + edge_stats.append(stats) + + stats = _pd.concat(edge_stats) + permuted_graph = _pd.concat(permuted_edges) + + # Return column names to neo4j standards if applicable + permuted_graph = permuted_graph.rename(columns=col_name_mapper) + + return permuted_graph, stats + diff --git a/data_tools/data_tools/graphs/_metapaths.py b/data_tools/data_tools/graphs/_metapaths.py new file mode 100644 index 0000000..87dccca --- /dev/null +++ b/data_tools/data_tools/graphs/_metapaths.py @@ -0,0 +1,356 @@ +import re as _re +from collections import Counter as _Counter +from collections import defaultdict as _defaultdict +from hetnetpy.hetnet import MetaGraph as _MetaGraph, MetaEdge as _MetaEdge, MetaPath as _MetaPath +from ._graphs import get_abbrev_dict_and_edge_tuples + + +__all__ = ['dataframes_to_metagraph', 'metapaths_to_json', 'get_mn_abbrevs', 'get_e_type_abbrev', + 'extract_mp_edges', 'extract_mp_nodes', 'nodes_and_edges_to_path', 'metapath_to_list', + 'print_path_list', 'print_metapath', 'is_directed', 'find_inverted_edges', 'find_directed_inversion', + 'get_direction', 'find_node_index', 'inv_target', 'is_similarity', 'subset_mps_by_node_count'] + + +def dataframes_to_metagraph(nodes, edges): + """Converts Nodes and Edges DataFrame to a hetnetpy.hetnet.MetaGraph""" + abbrev_dict, edge_tuples = get_abbrev_dict_and_edge_tuples(nodes, edges) + return _MetaGraph.from_edge_tuples(edge_tuples, abbrev_dict) + + +def metapaths_to_json(metapaths): + """ + Takes a list of objects of hetnetpy.hetnet.MetaPath, and extracts relevant info to a json (dict) structure + """ + metapaths_out = dict() + + for mp in metapaths: + if len(mp) == 1: + continue + mp_info = dict() + mp_info['length'] = len(mp) + mp_info['edges'] = [str(x) for x in mp.edges] + mp_info['edge_abbreviations'] = [x.get_abbrev() for x in mp.edges] + mp_info['standard_edge_abbreviations'] = [x.get_standard_abbrev() for x in mp.edges] + + metapaths_out[str(mp)] = mp_info + return metapaths_out + + +def get_mn_abbrevs(me_abbrev): + return _re.split('[a-z<>]', _re.sub("[<>]", "", me_abbrev)) + + +def get_e_type_abbrev(me_abbrev): + return _re.search("[a-z]+", _re.sub("[<>]", "", me_abbrev)).group() + + +def extract_mp_edges(mp, rev_map=None, abbrevs=False): + """ + For a metapath, extracts the edge names and returns as a list. + + :param mp: hetnetpy.hetnet.MetaPath or json represntation (see `metapaths_to_json`), the MetaPath to extract. + :param rev_map: dict, mapping from forward to reverse edge semmantics. + :param abbrevs: bool, if True, will only return the abberevations for the edges rather than full names: + + :return: list of strings, the edge names in the metapath, in order of appearance + """ + # Allow for hetnetpy.hetnet.MetaPath + if type(mp) == _MetaPath: + + if abbrevs: + edges = [_re.sub("[<>]", "", e.kind_abbrev) for e in mp.edges] + return edges + + else: + edges = [e.kind for e in mp.edges] + + # Also allow dict representation + elif type(mp) == dict: + if abbrevs and 'edge_abbreviations' in mp: + edges = [get_e_type_abbrev(e) for e in mp['edge_abbreviations']] + return edges + + # Getting the full names is a bit trickier + elif 'edges' in mp: + edges = mp['edges'] + # Extract the edge names only + edges = [e.replace('>', '-').replace('<', '-').split(' - ')[1] for e in edges] + + else: + raise TypeError + + # Get proper reversed edges in there if applicable + if rev_map is not None: + rev = find_inverted_edges(mp) + edges = [rev_map[e] if r else e for r, e in zip(rev, edges)] + + return edges + + +def extract_mp_nodes(mp, abbrevs=False): + """ + For a metapath, extracts the node names and returns as a list. + + :param mp: hetnetpy.hetnet.MetaPath or json represntation (see `metapaths_to_json`), the MetaPath to extract. + :param abbrevs: bool, if True, will only return the abberevations for the nodes rather than full names: + + :return: list of strings, the node names in the metapath, in order of appearance + """ + + # Allow for hetnetpy.hetnet.MetaPath + if type(mp) == _MetaPath: + nodes = [e.source for e in mp.edges] + [mp.edges[-1].target] + if not abbrevs: + return [str(n) for n in nodes] + else: + return [n.abbrev for n in nodes] + + # Also allow dict representation + elif type(mp) == dict: + if not abbrevs and 'edges' in mp: + edges = mp['edges'] + + nodes = [e.replace('>', '-').replace('<', '-').split(' - ')[0] for e in edges] + \ + [edges[-1].replace('>', '-').replace('<', '-').split(' - ')[-1]] + return nodes + elif abbrevs and 'edge_abbreviations' in mp: + edges = mp['edge_abbreviations'] + nodes = [get_mn_abbrevs(abbrev)[0] for abbrev in edges] + [get_mn_abbrevs(edges[-1])[-1]] + return nodes + + else: + raise TypeError + + +def nodes_and_edges_to_path(nodes, edges): + """Combine a list of nodes and edges into a single list for a path""" + out = [] + for i in range(len(nodes)-1): + out.append(nodes[i]) + out.append(edges[i]) + else: + out.append(nodes[-1]) + return out + + +def metapath_to_list(mp, rev_map=None, n_abbv=False, e_abbv=False): + """ + For a metapath, extracts the node and edge names and returns as a list. + + :param mp: hetnetpy.hetnet.MetaPath or json represntation (see `metapaths_to_json`), the MetaPath to extract. + :param rev_map: dict, mapping from forward to reverse edge semmantics. + :param n_abbv: bool, if True, will only return the abberevations for the nodes rather than full names: + :param n_abbv: bool, if True, will only return the abberevations for the edges rather than full names: + + :return: list of strings, the node and edge names in the metapath, in order of appearance + """ + + edges = extract_mp_edges(mp, rev_map, e_abbv) + nodes = extract_mp_nodes(mp, n_abbv) + + return nodes_and_edges_to_path(nodes, edges) + + +def print_path_list(path, lines='multi'): + """Prints the items in a path, `lines` must be either 'multi' or 'one'""" + + assert lines in ['one', 'multi'] + + if lines == 'multi': + for i, item in enumerate(path[:-1:2]): + print('({}) - [{}] - ({})'.format(path[i*2], path[(i*2)+1].upper(), path[(i*2)+2])) + + else: + for i, item in enumerate(path[:-1:2]): + if i == 0: + print('({})'.format(path[i*2]), end='') + print(' - [{}] - ({})'.format(path[(i*2)+1].upper(), path[(i*2)+2]), end='') + print('') + + +def print_metapath(mp, rev_map, n_abbv=False, e_abbv=False, lines='multi'): + """ + For a metapath, prints the path to screen. + + :param mp: hetnetpy.hetnet.MetaPath or json represntation (see `metapaths_to_json`), the MetaPath to extract. + :param rev_map: dict, mapping from forward to reverse edge semmantics. + :param n_abbv: bool, if True, will only return the abberevations for the nodes rather than full names: + :param n_abbv: bool, if True, will only return the abberevations for the edges rather than full names: + :param lines: string, must be in 'one', 'multi'. Whether to print the path to 1 line, or multiple. + """ + path_list = metapath_to_list(mp, rev_map, n_abbv, e_abbv) + print_path_list(path_list, lines) + + +def is_directed(mp, directed_map): + """For a metapath, returns which edges are directed""" + edges = extract_mp_edges(mp) + return [directed_map[e] for e in edges] + + +def find_inverted_edges(mp): + """Find the edges that are inveted within a metapath. Returns as a boolean list""" + if type(mp) == _MetaPath: + return [e.inverted for e in mp.edges] + elif type(mp) == dict and 'edges' in mp: + return [(abv != sabv) and ('>' not in abv) for abv, sabv in + zip(mp['edge_abbreviations'], mp['standard_edge_abbreviations'])] + else: + raise TypeError + + +def find_directed_inversion(mp, directed_map): + """For a metapah, find which edges are both directed and inverted""" + directed = is_directed(mp, directed_map) + inverted = find_inverted_edges(mp) + + return [d and i for d, i in zip(directed, inverted)] + + +def get_direction(mp, dir_map, direction_map, strict=False): + """ + Gets the direction of influence for a metapath. If Positive, then results + in an increase in the final node on the path. If negative, a decrease, and + if 0, then no change can be determined. + """ + + dir_edges = sum(gt.is_directed(mp, dir_map)) + if ((strict and dir_edges == len(mp)) or (not strict and dir_edges > 0)) and \ + (sum(gt.find_directed_inversion(mp, dir_map)) == 0): + directions = np.array(gt.is_directed(mp, direction_map)) + return np.product(directions[np.where(directions != 0)]) + else: + return 0 + + +def find_node_index(mp, node_names): + """Retruns the indicies of the nodes in a metapath of a given metanode(s).""" + if type(node_names) == str: + test_names = [node_names] + else: + test_names = node_names + + metanodes = extract_mp_nodes(mp) + return [i for i, m_node in enumerate(metanodes) if m_node in test_names] + + +def inv_target(mp, directed_map, target_edges=None): + """ + Method to reveal metapaths that contain inverted target edges + + Target edges can contain a lot of information in a mode. Inverted target edges can potentitall be + an indicator of a similarity edge: + E.G. compound-reduces-Gene-upregulated_in-Phenotype-Treated_by-Gene-down_regulated_in-Disease + The treated by edge contains a lot of information potnetially making this a Phenotype-Disease + Similarity edge + """ + if target_edges is None: + target_edges = ['treats', 'therapeutic', 'marker_or_mechanism', 'diagnoses', 'palliates', 'prevents'] + + dir_inv = find_directed_inversion(mp, directed_map) + for i, di in enumerate(dir_inv): + if di and mp.edges[i].kind in target_edges: + return True + return False + + +def is_similarity(mp, node_names, directed_map, max_repeats=2, check_dir='fwd', blacklist_edges=None): + """ + Check to see if this path expresses similarity between two concepts. Designed and tested + on concepts that either start or end the path, but may work on mid-path concepts. + + Similarity Examples: + Compound-BINDS-Gene-BOUND_BY-Compound-TREATS-Disease is a similarity path + Compound-ACTIVATES-Gene-PRODUCES-Compound-TREATS-Disease is not a similarity path. + + A more through explanation of similarity paths will be provided elsewhere. + + :param mp: hetnetpy.hetnet.MetaPath or json representation of the metapath + :param node_names: str or list of str, the metanode(s) to be checked repeats/similarity + :param directed_map: a dictionary of metaedge to directed (as opposed to a membership), + so 'produces', 'inhibits', and 'treats' should be True, 'part_of', 'capable_of', or + 'associated_with' should be False + :param max_repeats: int, the maximum number of times metanodes in `node_names` can be repeated + :param check_dir: str, in 'fwd', 'rev', or 'both'. Some of the similarity checks are directional, + This tells the algorithm which direction to check + :param blacklist_edges: list of str. Blacklisted edges don't count for the directed-non-inveted edge requirment. + target edges for machine learning may express too much information with regard to similarity, therefore may + not be ideal as the only directed edge linking two concepts. + + :return: bool, True if the path is a similarity path (or is over the max-repeats mark). + """ + + assert check_dir in ['fwd', 'rev', 'both'] + if blacklist_edges is None: + blacklist_edges = ['treats', 'therapeutic', 'marker_or_mechanism', 'diagnoses', 'palliates', 'prevents'] + + # Get the directed edges + dir_edges = is_directed(mp, directed_map) + # Get the directed inversions + dir_inv = find_directed_inversion(mp, directed_map) + + # Compute the edges that are directed but not inverted + dir_non_inv = [d and not di for d, di in zip(dir_edges, dir_inv)] + + test_idx = find_node_index(mp, node_names) + + # Only one if the test metanode(s) so not similarity (of that metanode) by definition + if len(test_idx) <= 1: + return False + # Too many repeats (may not be similairty, but doesn't pass our treshold) + elif len(test_idx) > max_repeats: + return True + + for idx in range(len(test_idx)-1): + first_idx = test_idx[idx] + second_idx = test_idx[idx + 1] + + # Make sure there's a non-inveretd directed edge between the two items of interest + if sum(dir_non_inv[first_idx: second_idx]) == 0: + return True + + # make sure the second instance of the test object is not preceeded by a Directed Inversion + if check_dir in ['fwd', 'both'] and dir_inv[second_idx-1]: + return True + + # make sure the first instance of the test object is not followed by a Directed Inversion + if check_dir in ['rev', 'both'] and dir_inv[first_idx]: + return True + + # ensure that there is a non-invertred directed edge is not a TREATS edge: + is_sim = True + for i, bool_val in enumerate(dir_non_inv): + if i < first_idx: + continue + elif i >= second_idx: + break + if bool_val: + # at least one needs to not be a blacklisted edge + if mp.edges[idx].kind not in blacklist_edges: + is_sim = False + return is_sim + + +def subset_mps_by_node_count(metapaths, max_counts=None, subset=None, default_max=1): + """Subsets lists of metapaths by number of repeats of a metanode""" + if max_counts is None: + max_counts = _defaultdict(lambda:default_max) + else: + max_counts = _defaultdict(lambda:default_max, max_counts) + + out = [] + if subset is None: + subset = metapaths.keys() + + for m in subset: + # Un-direct the edges... + no_dir_edges = [e.replace('>', '-').replace('<', '-') for e in metapaths[m]['edges']] + path_nodes = [no_dir_edges[0].split(' - ')[0]] + [e.split(' - ')[-1] for e in no_dir_edges] + c = _Counter(path_nodes) + + if all([v <= max_counts[k] for k,v in c.items()]): + out.append(m) + + return out + + diff --git a/data_tools/data_tools/ml.py b/data_tools/data_tools/ml.py new file mode 100644 index 0000000..74ef060 --- /dev/null +++ b/data_tools/data_tools/ml.py @@ -0,0 +1,111 @@ +import numpy as np +import pandas as pd +from copy import deepcopy +from tqdm.auto import tqdm +from sklearn.base import TransformerMixin +from scipy.sparse import csc_matrix, csr_matrix, issparse + +def add_percentile_for_grp(in_df, group_col, new_col, sort_col='prediction'): + + grpd = in_df.groupby(group_col) + out_dfs = [] + + for grp, df1 in grpd: + df = df1.copy() + + total = df.shape[0] + + df.sort_values(sort_col, inplace=True) + order = df.reset_index(drop=True).index.values + + percentile = (order+1) / total + df[new_col] = percentile + + out_dfs.append(df) + + return pd.concat(out_dfs, sort=False, ignore_index=True) + + +def get_model_coefs(model, X, f_names): + """Helper Function to quickly return the model coefs and correspoding fetaure names""" + + # Ensure we have a numpy array for the features + if type(X) == pd.DataFrame: + X = X.values + + # Grab the coeffiencts + coef = model.coef_ + # Some models return a double dimension array, others only a single + if len(coef) != len(f_names): + coef = coef[0] + + # insert the intercept + coef = np.insert(coef, 0, model.intercept_) + names = np.insert(f_names, 0, 'intercept') + + # Calculate z-score scaled coefficients based on the features + if issparse(X): + if type(X) != csc_matrix: + X = X.tocoo().tocsc() + z_intercept = coef[0] + sum(coef[1:] * X.mean(axis=0).A[0]) + z_coef = coef[1:] * sparse_std(X, axis=1) + z_coef = np.insert(z_coef, 0, z_intercept) + else: + z_intercept = coef[0] + sum(coef[1:] * X.mean(axis=0)) + z_coef = coef[1:] * X.std(axis=0) + z_coef = np.insert(z_coef, 0, z_intercept) + + # Return + return pd.DataFrame([names, coef, z_coef]).T.rename(columns={0:'feature', 1:'coef', 2:'zcoef'}) + + +def sparse_std(data, axis=1): + """Take the standard deviation of a sparse matrix. axis=0 is Rows, axis=1 is columns.""" + + def get_vec_std(vec): + return vec.A.std(ddof=1) + + stds = [] + + # ensure the correct matrix type for easy row or column subsetting + if axis==1 and type(data) != csc_matrix: + data = data.tocoo().tocsc() + if axis==0 and type(data) != csr_matrix: + data = data.tocoo().tocsr() + + # Get the std for each vector along the given axis individually + for i in range(data.shape[axis]): + if axis==1: + stds.append(get_vec_std(data.getcol(i))) + elif axis==0: + stds.append(get_vec_std(data.getrow(i))) + + return np.array(stds) + + +class MeanScaledArcsinhTransformer(TransformerMixin): + + def fit(self, X, y=None): + if issparse(X): + self.initial_mean_ = X.tocoo().tocsc().mean(axis=0).A[0] + else: + self.initial_mean_ = X.mean(axis=0) + + # If input was DataFrame, Converts resultant series to ndarray + try: + self.initial_mean_ = self.initial_mean_.values + except: + pass + + # If inital mean == 0, likely all values were zero + # this prevents issues later. + self.initial_mean_[np.where(self.initial_mean_ == 0.0)] = 1 + + return self + + def transform(self, X, y=None): + if issparse(X): + return np.arcsinh(X.tocoo().tocsc().multiply(self.initial_mean_**-1)).tocsc() + return np.arcsinh(X / self.initial_mean_) + + diff --git a/data_tools/data_tools/obo_processing.py b/data_tools/data_tools/obo_processing.py new file mode 100644 index 0000000..cc7a989 --- /dev/null +++ b/data_tools/data_tools/obo_processing.py @@ -0,0 +1,568 @@ +import json +import shlex +import pandas as pd +from queue import Queue +from collections import defaultdict + + +def read_lines(filename): + """Generator to read lines of a file""" + with open(filename, 'r') as fin: + for line in fin.readlines(): + yield line + + +def get_term_keys(obo_file): + """ + Returns all the keys in terms in the .obo file. + + :param obo_file: The location of the obo file to be examined. + :return: set, the keys for all terms within the obo file. + """ + term_keys = set() + is_term = False + + for line in read_lines(obo_file): + # Determine if term or a typedef + if '[Term]' in line: + is_term = True + continue + if line == '\n': + is_term = False + + if is_term: + term_keys.add(line.split(':')[0]) + return term_keys + + +def get_prop_types(obo_file): + """Determines all the `property_value` types within a .obo file. + + E.G. for the following line: + property_value: http://purl.obolibrary.org/obo/chebi/inchikey "SBLSYFIUPXRQRY-UHFFFAOYSA-N" xsd:string + The property_value wouls be http://purl.obolibrary.org/obo/chebi/inchikey + + :param obo_file: the locaiton of the obo file to examine. + :return: set, with all the property_value predicates. + """ + props = set() + for line in read_lines(obo_file): + if line.startswith('property_value'): + props.add(parse_prop_val(line)[0]) + return props + + +def parse_single_value(line, key): + """When the key is already known, returns the value as parsed from the line""" + # Remove key from the line + val = line.lstrip(key+':').strip() + # Convert boolean text to values + if val == 'true': + val = True + elif val == 'false': + val = False + return val + + +def parse_prop_val(line): + """ + Parses a property_value line in an ontology. Returns property type and the value + + Examples of lines parsed: + property_value: http://purl.obolibrary.org/obo/chebi/inchikey "SBLSYFIUPXRQRY-UHFFFAOYSA-N" xsd:string + property_value: IAO:0000589 "cell part (CARO)" xsd:string + property_value: IAO:0000412 http://purl.obolibrary.org/obo/caro.owl + """ + + # Shlex is too slow to run on every property_value, so only do as last resort... + spl = line.split(' ') + if len(spl) != 4: + # splits on spaces if not in "quotes like this" + spl = shlex.split(line) + + prop_type = spl[1] + + # Most property values encapsulated in quotes, but not all: + try: + # Removes quotes + prop_val = eval(spl[2]) + except: + # Keeps as-is + prop_val = spl[2] + return prop_type, prop_val + + +def get_ontology_nodes(obo_file, prefix=None, props=None): + """ + Converts an ontology's .obo file into a DataFrame of nodes. + + :param obo_file: Location of the obofile to be read. + :param prefix: if not none, the prefix for terms to extract as nodes. Terms with a prefix + not matching this value will be skipped. + :param props: List, the `property_value` properties to extract for the nodes. See `get_prop_types` to + get a list of avaliable properties to extract. + + :return: DataFrame with ids, names xrefs, and other relevatent data for terms in an ontology. + """ + nodes = list() + is_term = False + single_value = ['id','def','name', 'is_obsolete', 'creation_date'] + multi_value = ['replaced_by', 'alt_id', 'xref', 'subset'] + + + for line in read_lines(obo_file): + # Terms start with specific Flag... + if '[Term]' in line: + is_term = True + term = dict() + mv_items = defaultdict(list) + continue + # Empty lines indicate new terms + if line == '\n': + if is_term: + nodes.append({**{k: '|'.join(v) for k, v in mv_items.items()}, **term}) + is_term = False + continue + + # Get single values + key = line.split(':')[0] + + if key in single_value: + # If we only want one Ontology's worth of terms, + # ensure that the correct Prefex is on the identifier + if prefix and key == 'id': + _id = parse_single_value(line, key) + if not _id.startswith(prefix): + is_term = False + continue + else: + term[key] = _id + else: + term[key] = parse_single_value(line, key) + + if key in multi_value: + mv_items[key].append(parse_single_value(line, key)) + if props is not None and key == 'property_value': + prop_type, prop_val = parse_prop_val(line) + if prop_type in props: + term[prop_type] = prop_val + + out = pd.DataFrame(nodes) + if 'is_obsolete' in out: + out['is_obsolete'] = out['is_obsolete'].fillna(False) + + if prefix is None: + out['id_src'] = out['id'].str.split(':', expand=True)[0] + + return out + + +def parse_edge_line(line): + """ + Parses lines thats represent an edge in an .obo file. Returns object ID, name(if available) and predicate. + Currently only supports edges starting with 'is_a:' and 'relationship:' + + Examples of edge test-cases parsed: + is_a: HP:0001392 ! Abnormality of the liver + relationship: has_component CHEBI:16412 {cardinality="2"} ! lipopolysaccharide + relationship: has_part MOD:00160 ! N4-glycosyl-L-asparagine + relationship: is_conjugate_base_of CHEBI:17883 + """ + line_spl = line.split(' ') + + # Get the targets name + if '!' in line: + name = line[line.index('!')+1:].strip() + else: + name = float('nan') + + # is_a relationship: 'is_a: tgt_id ! tgt_name' + if line_spl[0] == 'is_a:': + target = line_spl[1].strip() + rel_type = 'is_a' + else: + # relationship: 'relationship: rel_type tgt_id {possible_other_junk} ! tgt_name' + target = line_spl[2].strip() + rel_type = line_spl[1].strip() + + return {'tgt_id': target, 'rel_type': rel_type, 'tgt_name': name} + + +def get_ontology_edges(obo_file, prefix=None): + """ + Produces a DataFrame of s, p, o triples for edges in a .obo file. (Names are also returned) + + :param obo_file", file name of the obofile to be read + :param prefix: str, ontology prefix. Will only return edges where the subject's prefix matches. + E.G. prefix='CHEBI:' will not return any edges for Terms starting with 'BFO:' + :return: DataFrame, cols=['src_id', 'src_name', 'rel_type', 'tgt_id', 'tgt_name'] + """ + edges = list() + source_info = ['id', 'name'] + edge_lines = ['relationship', 'is_a'] + is_term = False + # Just get the names for Relationship ontology terms + is_ro_term = False + ro_map = dict() + + for line in read_lines(obo_file): + # Terms start with specific Flag... + if '[Term]' in line: + is_term = True + term_info = dict() + continue + # Empty lines indicate new terms + if line == '\n': + is_term = False + is_ro_term = False + continue + + # Get single values + key = line.split(':')[0] + + if key in source_info: + # If we only want one Ontology's worth of terms, + # ensure that the correct Prefex is on the identifier + if key == 'id': + _id = parse_single_value(line, key) + if _id.startswith('RO:'): + is_ro_term = True + elif prefix and not _id.startswith(prefix): + is_term = False + continue + else: + term_info['src_'+key] = _id + elif is_ro_term and key == 'name': + ro_map[_id] = parse_single_value(line, key).replace(' ', '_') + else: + term_info['src_'+key] = parse_single_value(line, key) + + if key in edge_lines and is_term: + edge_info = parse_edge_line(line) + edges.append({**term_info, **edge_info}) + + + out = pd.DataFrame(edges)[['src_id', 'src_name', 'rel_type', 'tgt_id', 'tgt_name']] + ro_edges = out['rel_type'].str.startswith('RO:') + ro_edges = ro_edges[ro_edges].index + + out.loc[ro_edges, 'rel_type'] = out.loc[ro_edges, 'rel_type'].map(ro_map) + + # Get the ontology prefix for sources and targets + out['src_src'] = out['src_id'].str.split(':', expand=True)[0] + out['tgt_src'] = out['tgt_id'].str.split(':', expand=True)[0] + + return out + + +def parse_meta(meta): + if pd.isnull(meta): + return meta + + out = dict() + + for k, v in meta.items(): + if k in ['subsets', 'comments']: + out[k] = '|'.join(values.split('#')[-1] for values in v) + + elif k == 'basicPropertyValues': + for prop_val in v: + prop = prop_val['pred'].split('#')[-1].split('/')[-1].replace('_', ':') + val = prop_val['val'] + out[prop] = val + + elif type(v) == dict: + out[k] = v['val'] + + elif type(v) == bool: + out[k] = v + + else: + out[k] = '|'.join([values['val'] for values in v]) + + return out + + +def parse_uri(uri): + return uri.split('/')[-1].replace('_', ':') + + + +def parse_json_nodes(json_nodes): + + json_nodes = pd.DataFrame(json_nodes) + + json_nodes['short_id'] = json_nodes['id'].apply(lambda i: i.split('/')[-1].replace('_', ':')) + json_nodes['id_src'] = json_nodes['short_id'].str.split(':', expand=True)[0] + json_nodes['id_src'].unique() + + col_order = [c for c in json_nodes.columns.tolist() if c != 'meta'] + + if 'meta' in json_nodes.columns: + parsed = json_nodes['meta'].apply(parse_meta).dropna() + meta = pd.DataFrame(parsed.tolist(), parsed.index) + # put the more inmportant columns first + col_order += [c for c in ['xrefs', 'deprecated', 'date', 'definition', 'subsets', 'synonyms'] if c in meta.columns] + col_order += [c for c in meta.columns if c not in col_order] + + json_nodes = pd.merge(json_nodes, meta, how='outer', left_index=True, right_index=True).drop('meta', axis=1) + + return json_nodes[col_order] + + +def parse_json_edges(json_edges, json_nodes): + json_edges = pd.DataFrame(json_edges) + rel_types = json_edges['pred'].apply(lambda s: s.split('/')[-1]).apply(lambda s: s.split('_')[0]).unique() + rel_map = json_nodes.query('id_src in @rel_types').set_index('short_id')['lbl'].str.replace(' ', '_').to_dict() + + # some relations contain a # (e.g. doid#shorter_than) + # Get the part after the # + try: + json_edges['rel_type'] = json_edges['pred'].str.split('#', expand=True)[1].dropna() + except: + # Sometimes there is no #, so just fill with placeholder NA + json_edges['rel_type'] = float('nan') + + # Some preds are URIs... We just want the last bit so we can map to a name + try: + rels = json_edges['pred'].str.split('/', expand=True)[4].str.replace('_', ':').map(rel_map) + except: + # Sometimes no URIs so fill with placeholder NA + rels = float('nan') + + json_edges['rel_type'] = json_edges['rel_type'].fillna(rels) + + json_edges['rel_type'] = json_edges['rel_type'].fillna(json_edges['pred']) + id_to_name = json_nodes.set_index('short_id')['lbl'].to_dict() + + json_edges['src_id'] = json_edges['sub'].apply(parse_uri) + json_edges['src_src'] = json_edges['src_id'].str.split(':', expand=True)[0] + json_edges['src_name'] = json_edges['src_id'].map(id_to_name) + json_edges['tgt_id'] = json_edges['obj'].apply(parse_uri) + json_edges['tgt_src'] = json_edges['tgt_id'].str.split(':', expand=True)[0] + json_edges['tgt_name'] = json_edges['tgt_id'].map(id_to_name) + return json_edges + + +def parse_json_graph(json_graph): + """ + Parse an ontology's json "graph" into separate nodes and edges DataFrames. + + Tested on GO.json and DOID.json + """ + json_nodes = json_graph['nodes'] + json_edges = json_graph['edges'] + + json_nodes = parse_json_nodes(json_nodes) + json_edges = parse_json_edges(json_edges, json_nodes) + + json_nodes = json_nodes.drop('id', axis=1).rename(columns={'short_id': 'id', 'lbl': 'name'}) + json_edges = json_edges.drop(['obj', 'pred', 'sub'], axis=1) + + return json_nodes, json_edges + + +def get_go_nodes_and_edges(go_json_file): + go = json.load(open(go_json_file, 'r')) + go = go['graphs'][0] + + go_nodes = go['nodes'] + go_edges = go['edges'] + + go_nodes = pd.DataFrame(go_nodes) + go_edges = pd.DataFrame(go_edges) + + go_nodes['short_id'] = go_nodes['id'].apply(lambda i: i.split('/')[-1].replace('_', ':')) + go_nodes['id_src'] = go_nodes['short_id'].str.split(':', expand=True)[0] + go_nodes['id_src'].unique() + + parsed = go_nodes['meta'].apply(parse_meta).dropna() + meta = pd.DataFrame(parsed.tolist(), parsed.index) + + col_order = go_nodes.columns.tolist() + \ + ['xrefs', 'deprecated', 'date', 'definition', 'subsets', 'synonyms'] + col_order += [c for c in meta.columns if c not in col_order] + + go_nodes = pd.merge(go_nodes, meta, how='outer', left_index=True, right_index=True)[col_order].drop('meta', axis=1) + + rel_types = ['BFO', 'BSPO', 'GOREL', 'RO'] + rel_map = go_nodes.query('id_src == @rel_types').set_index('short_id')['lbl'].str.replace(' ', '_').to_dict() + + go_edges['rel_type'] = go_edges['pred'].str.split('#', expand=True)[1].dropna() + + rels = go_edges['pred'].str.split('/', expand=True)[4].str.replace('_', ':').map(rel_map) + go_edges['rel_type'] = go_edges['rel_type'].fillna(rels) + + go_edges['rel_type'] = go_edges['rel_type'].fillna(go_edges['pred']) + id_to_name = go_nodes.set_index('short_id')['lbl'].to_dict() + + go_edges['src_id'] = go_edges['sub'].apply(parse_uri) + go_edges['src_src'] = go_edges['src_id'].str.split(':', expand=True)[0] + go_edges['src_name'] = go_edges['src_id'].map(id_to_name) + go_edges['tgt_id'] = go_edges['obj'].apply(parse_uri) + go_edges['tgt_src'] = go_edges['tgt_id'].str.split(':', expand=True)[0] + go_edges['tgt_name'] = go_edges['tgt_id'].map(id_to_name) + + go_nodes = go_nodes.drop('id', axis=1).rename(columns={'short_id': 'id', 'lbl': 'name'}) + go_edges = go_edges.drop(['obj', 'pred', 'sub'], axis=1) + + return go_nodes, go_edges + + +def get_lineage(edges, nid, c2p_rel='is_a', rel_col='rel_type', c_col='src_id', p_col='tgt_id'): + """ + Get the ancestors of a node in an ontology. Include the node itself in the result. + + :param edges: DataFrame, edges in the ontology. See `get_ontology_edges` method. + :param nid: str, the identifier for the node to get ancestors of. + :param direct_only: bool, if `True` returns only direct children of the given node. + :param c2p_rel: str, the name for the relation that links a parent to a child. + if only Child to Parent edges, reverse the c_col and p_col variables... + :param rel_col: str, the name of the DataFrame column that contains the relationship types (predicates) + :param c_col: str, the name of the DataFrame column that contains Children in the relationship + :param p_col: str, the name of the DataFrame column that contains PARENTS in the relationship + + :return: set, all parents, and parents of parents up to the root node. + """ + # Set initial Conditions + prev_ancestors = 0 + ancestors = {nid} + + # Reduce the amount of items being queried... + sub_q = edges.query('{} == @c2p_rel'.format(rel_col)) + + # Only when no new elements added kick out of loop + while len(ancestors) != prev_ancestors: + # Store the preious amount for end condition check. + prev_ancestors = len(ancestors) + + # Query for all parents of current ancestors... + ancestors.update(sub_q.query('{} in @ancestors'.format(c_col))[p_col].unique()) + + return ancestors + + +def get_children(edges, nid, only_direct=False, c2p_rel='is_a', rel_col='rel_type', c_col='src_id', p_col='tgt_id'): + """ + Get the decendents of a node in an ontology. + + :param edges: DataFrame, edges in the ontology. See `get_ontology_edges` method. + :param nid: str, the identifier for the node to get children of. + :param direct_only: bool, if `True` returns only direct children of the given node. + :param c2p_rel: str, the name for the relation that links a parent to a child. + if only Child to Parent edges, reverse the c_col and p_col variables... + :param rel_col: str, the name of the DataFrame column that contains the relationship types (predicates) + :param c_col: str, the name of the DataFrame column that contains Children in the relationship + :param p_col: str, the name of the DataFrame column that contains PARENTS in the relationship + + :return: set, all children of the given node, down to leaf nodes. + """ + # Set initial Conditions + prev_children = 0 + children = {nid} + + # Reduce the amount of items being queried... + sub_q = edges.query('{} == @c2p_rel'.format(rel_col)) + + # Only get the direct decendents + if only_direct: + return set(sub_q.query('{} in @children'.format(p_col))[c_col].unique()) + + # Only when no new elements added kick out of loop + while len(children) != prev_children: + # Store the preious amount for end condition check. + prev_children = len(children) + + # Query for all children of current children... + children.update(sub_q.query('{} in @children'.format(p_col))[c_col].unique()) + + # A node is not a child of itself... + children.remove(nid) + return children + + +def get_relation_map(edges, relation, c2p_rel='is_a', rel_col='rel_type', c_col='src_id', p_col='tgt_id'): + """ + Make a dictionary from a given node in ontology to either the root or leaves. + + :param edges: DataFrame, edges in the ontology. See `get_ontology_edges` method. + :param relation: str, either `'descendents'` or `'ancestors'`, determines wheather to look up or down the tree. + :param c2p_rel: str, the name for the relation that links a parent to a child. + if only Child to Parent edges, reverse the c_col and p_col variables... + :param rel_col: str, the name of the DataFrame column that contains the relationship types (predicates) + :param c_col: str, the name of the DataFrame column that contains Children in the relationship + :param p_col: str, the name of the DataFrame column that contains PARENTS in the relationship + + :return: dict, map from a node to either the root or leaf nodes depending on `relation`. + """ + # Make sure we're mapping to either ancestors or descendents + assert relation in ['descendents', 'ancestors'] + + if relation == 'descendents': + # Descendents map from parent to child + from_col = p_col + to_col = c_col + else: + # Ancestors map from child to parent + from_col = c_col + to_col = p_col + + # Initialize variables and reduce search space + adj_map = defaultdict(set) + q = Queue() + sub_q = edges.query('{} == @c2p_rel'.format(rel_col)) + + # Build the adjecny list + for row in sub_q.itertuples(): + start = getattr(row, from_col) + end = getattr(row, to_col) + + adj_map[start].add(end) + + # Perfrom a BFS on the adjcency list to generate the map + out = defaultdict(set) + for start, ends in adj_map.items(): + out[start] = ends + for end in ends: + q.put(end) + + while not q.empty(): + relative = q.get() + new = adj_map.get(relative, set()) - out[start] + for n in new: + q.put(n) + out[start].add(n) + + return out + + +def get_lineage_map(edges, c2p_rel='is_a', rel_col='rel_type', c_col='src_id', p_col='tgt_id'): + """ + Make a dictionary from a given node in ontology to all parents up to the root node. + + :param edges: DataFrame, edges in the ontology. See `get_ontology_edges` method. + :param c2p_rel: str, the name for the relation that links a parent to a child. + if only Child to Parent edges, reverse the c_col and p_col variables... + :param rel_col: str, the name of the DataFrame column that contains the relationship types (predicates) + :param c_col: str, the name of the DataFrame column that contains Children in the relationship + :param p_col: str, the name of the DataFrame column that contains PARENTS in the relationship + + :return: dict, map from a node to all parents all the way up to the root node. + """ + return get_relation_map(edges, 'ancestors', c2p_rel, rel_col, c_col, p_col) + + +def get_children_map(edges, c2p_rel='is_a', rel_col='rel_type', c_col='src_id', p_col='tgt_id'): + """ + Make a dictionary from a given node in ontology to all childern and descendets to a leaf nodes. + + :param edges: DataFrame, edges in the ontology. See `get_ontology_edges` method. + :param c2p_rel: str, the name for the relation that links a parent to a child. + if only Child to Parent edges, reverse the c_col and p_col variables... + :param rel_col: str, the name of the DataFrame column that contains the relationship types (predicates) + :param c_col: str, the name of the DataFrame column that contains Children in the relationship + :param p_col: str, the name of the DataFrame column that contains PARENTS in the relationship + + :return: dict, map from a node to all children of that node, continuing to leaf nodes. + """ + return get_relation_map(edges, 'descendents', c2p_rel, rel_col, c_col, p_col) diff --git a/data_tools/data_tools/plotting/__init__.py b/data_tools/data_tools/plotting/__init__.py new file mode 100644 index 0000000..5daf1dc --- /dev/null +++ b/data_tools/data_tools/plotting/__init__.py @@ -0,0 +1,16 @@ +__all__ = [] + +from . import _ml +from ._ml import * +from . import _venn +from ._venn import * +from . 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zH|UCN`?4~KcvR^^rdE6&$u^fAD2-sh(hs;FL0Rdb33L}K2umfB`vJdD@q4U-&z8s+ zwV%%NgXDV-T=5ZH{H@0lE2vvVvWDa;l8=$BBf-ZJpCG{&a16UhgNQ&!SQaF6V2UiP z0y~PLHzrs_|2Ke3{{?{9Nd&&SxQXN~6f&Uu0_GtK)ttb8Gl6L+Fl7Y(*$GS>QAC3O zfT9d!YwO;>Iv?#woNwXY9ACPt4S6kg&CyIFC2PO47+95UUgTX(V+8+w0ws4FbM_ cNfW&X#D*$$=^3bC+awfze>zKttCOsM1B=&$6#xJL literal 0 HcmV?d00001 diff --git a/data_tools/data_tools/plotting/_graphs.py b/data_tools/data_tools/plotting/_graphs.py new file mode 100644 index 0000000..bfd00f3 --- /dev/null +++ b/data_tools/data_tools/plotting/_graphs.py @@ -0,0 +1,552 @@ +import numpy as np +import pandas as pd +import seaborn as sns +import networkx as nx +import matplotlib.pyplot as plt +import matplotlib.patheffects as pe +from collections import defaultdict +from scipy.spatial import distance + + +__all__ = ['shift_centers_to_min_distance', 'darken_hex_color', 'determine_text_color', + 'prep_node_labels', 'determine_node_position', 'parse_metapath_to_edge_names', + 'get_edge_weights_from_path_weights', 'build_subgraph_from_paths', 'highlight_path_of_interest', + 'build_explanitory_graph', 'draw_explanitory_graph'] + + +def shift_centers_to_min_distance(center_data, min_distance=1.2): + """ + Given x,y positions, changes the positions until `min_distance` apart. + Two elements that are closer than `min_distance` apart, will be pushed in opposite directions + a distance of 2*(`min_distance` - their current distance). This will be iteratively + performed on all elements until all are at minimum `min_distance` apart. + + :param center_data: DataFrame, with columns ['x', 'y'], float values + corresponding to x and y positions. + :param min_distance: float, the minimum distance all rows will be in x,y space after shifting + their positions. + + :return: DataFrame, with same data as `center_data` but ['x', 'y'] columns updated. + """ + + + shifts_made = True + + while shifts_made: + shifts_made = False + d = distance.cdist(center_data.loc[:, ['x', 'y']].values, center_data.loc[:, ['x', 'y']].values) + + # Determine nodes that are too close + c1_ix, c2_ix = np.where(d < min_distance) + + done = [] + + for i1, i2 in zip(c1_ix, c2_ix): + + if i1 == i2 or (i1, i2) in done: + continue + c1, c2 = center_data.loc[[i1, i2], ['x', 'y']].values + done.append((i1, i2)) + done.append((i2, i1)) + + # Calculate how far and what direction to shift circle centers + dx, dy = np.abs(c2 - c1) + dist = np.sqrt(dx**2 + dy**2) + + # Sin opp / hypo + if dist == 0: + sin_theta = 1 + else: + sin_theta = np.abs(dy / dist) + + # cos = sqrt (1 - sin^2) + cos_theta = np.sqrt(1 - sin_theta**2) + + shift_dist = min_distance - dist + + shift_x = cos_theta*shift_dist + shift_y = sin_theta*shift_dist + + # Make the shifts + if c1[0] >= c2[0]: + center_data.loc[i1, 'x'] += shift_x + center_data.loc[i2, 'x'] -= shift_x + else: + center_data.loc[i1, 'x'] -= shift_x + center_data.loc[i2, 'x'] += shift_x + + if c1[1] >= c2[1]: + center_data.loc[i1, 'y'] += shift_y + center_data.loc[i2, 'y'] -= shift_y + else: + center_data.loc[i1, 'y'] -= shift_y + center_data.loc[i2, 'y'] += shift_y + + shifts_made = True + + return center_data + + +def darken_hex_color(hex_color, strength=.3): + """ + Given a color in hex, decrease the luminance by a factor of strength. + The closer to 0 strength is, the darker the result. + """ + rgb_color = sns.color_palette([hex_color])[0] + darkened_rgb = np.array(rgb_color) * strength + darkened_hex = sns.color_palette([darkened_rgb]).as_hex()[0] + return darkened_hex + + +def determine_text_color(hex_color, max_luminance=.5): + """ + Given a color in hex, if the color's luminance is greater than max_luminance, + return 'k' for black, else 'w' for white. + """ + + # RGB, Huyman eye favors green color... + color_wt = [0.299, 0.587, 0.114] + + rgb_color = np.array(sns.color_palette([hex_color])[0]) + luminance = (color_wt * rgb_color).sum() + + if luminance > max_luminance: + return 'k' + else: + return 'w' + + +def prep_node_labels(label, max_line_len, spl_chars=None): + """ + Adds new-line characters to node labels approximately every `max_line_len` characters. Only + adds new-lines after characters contained in spl_chars. + + :param label: str, the string to add newline characters to + :param max_line_len: int, the approximate number of characters before adding a newline + :param spl_chars: list, the characters to add newlines after. + + :return: str, the label with newline characteres added + """ + + spl_chars = [' ', '-', ']', ')', '\n'] + out = '' + start = 0 + + # Add an absolute maximum for the labels. + for i in range(len(label)): + end = start + max_line_len + + # Youve got a subset that longer than the line length, so break + if end > len(label): + break + + # Look for split characters in the current substring, if not, + # Extend the substring 1 character at a time until a split character is found + spl_idxs = [] + while len(spl_idxs) == 0 and end != len(label): + for char in spl_chars: + try: + spl_idxs.append(label[start:end][::-1].index(char)) + except: + pass + if len(spl_idxs) == 0: + end += 1 + + # if multiple split characters found, split on the one that makes the current line longest. + if len(spl_idxs) > 0: + spl_idx = min(spl_idxs) + out += label[start: end-spl_idx].rstrip(' ').rstrip('\n') + '\n' + start = end-spl_idx + end = start + max_line_len + + # Add back in the last section of the string + out += label[start:] + return out + + +def determine_node_position(list_of_paths, node_id_to_label=None, xscale=10, min_dist=1.2): + """ + Determines the positions for nodes in an explanitory graph + + :param list_of_paths: list of list, inner list contains node ids within a single path, + outer list is a list of these paths + :param node_id_to_label: dict, Optional. Maps node identifers to node types. This only becomes important + if the same identifier is used with different labels. + e.g. Using names as identifiers, Alzheimer's could be both a Disease and a Phenotype, and must be + treated as distinct entities. + :param xscale: int, the scaling factor for x positions. The scaling factor for y is the number of paths passed. + :param min_dist: float, the minimum distance node centers must be from each other in xscale,yscale space. + + :return: dict, node_id as key, tuple of (x_pos, y_pos) as values. + """ + + node_positions = defaultdict(list) + num_paths = len(list_of_paths) + yscale = num_paths * min_dist + + # Keep track of nodes that appear first for better positioning + node_num = 0 + dof = max(num_paths-1, 1) # Prevent divide by zero errors + for n, path in enumerate(list_of_paths): + for i, node in enumerate(path): + node_positions['node'].append(node) + if node_id_to_label is not None: + node_positions['label'].append(node_id_to_label[node]) + else: + node_positions['label'].append('NA') + node_positions['x'].append((i / (len(path) - 1)) * xscale) + node_positions['y'].append((1 - (n / dof)) * yscale) + node_positions['node_num'].append(node_num) + node_num += 1 + + node_positions = pd.DataFrame(node_positions) + + # Nodes to appear first will retain their positions, helps keep compound and disease of interest grounded + node_nums = node_positions.groupby(['node', 'label'])['node_num'].min().reset_index() + node_positions = pd.merge(node_positions.drop('node_num', axis=1), node_nums, on=['node', 'label']) + + # For nodes that appear more than once, take their average position + node_positions = node_positions.groupby(['node', 'label']).mean().reset_index() + node_positions = node_positions.sort_values('node_num').reset_index(drop=True) + + # Shift nodes to minimize overlaps + node_positions = shift_centers_to_min_distance(node_positions, min_dist) + return node_positions.set_index('node')[['x', 'y']].apply(tuple, axis=1).to_dict() + + +def parse_metapath_to_edge_names(mp_abbrev, mp_info, inv_map=None): + """ + Turns a metapath abbrevation into a list of names + + :param mp_abbrev: str, the abbreviation of the metapath + :param mp_info: dict, key: metapath abbrevation, value: hetnetpy.hetnet.MetaPath. allows the metapath + to be parsed + :param inv_map: dict, a map for edge semmantic changes if the edge is inverted. + e.g. inv_map['inhibits'] = 'inhibited_by' + + :return: list, the names of each edge in the metapath in order of appearance + """ + + + edge_names = [] + + this_mp = mp_info[mp_abbrev] + + for edge in this_mp.edges: + if inv_map is not None and edge.inverted: + edge_names.append(inv_map[edge.kind]) + else: + edge_names.append(edge.kind) + + return edge_names + + +def get_edge_weights_from_path_weights(list_of_paths, path_weights, list_of_edges=None): + """ + Determines weights for each edge in a list of paths from weights for the total path + + :param list_of_paths: list of lists, inner list contains node ids within a single path, + outer list is a list of these paths + :param path_weights: list of float, requred to be same length as list_of_paths. Weights should be between 0 and 1. + :param list_of_edges: list of lists, Optional. Inner list is the semmantic type for each edge in a path, + outer list is a list of these paths. Requred to be same length as list_of_paths. + + :return: dict, key: tuple, (source_id, target_id, [edge_semmantics]), value: float, edge_weight + """ + + edge_weights = defaultdict(list) + grouper = ['source', 'target'] + if list_of_edges is not None: + grouper.append('label') + + for n, (nodes, weight) in enumerate(zip(list_of_paths, path_weights)): + for i, node in enumerate(nodes): + + try: + edge_weights['target'].append(nodes[i+1]) + edge_weights['source'].append(node) + edge_weights['weight'].append((1+weight)**2) + if list_of_edges is not None: + edge_weights['label'].append(list_of_edges[n][i]) + except: + pass + edge_weights = pd.DataFrame(edge_weights) + return edge_weights.groupby(grouper).sum().to_dict()['weight'] + + +def build_subgraph_from_paths(list_of_paths, list_of_edges=None, path_weights=None): + """ + Determines weights for each edge in a list of paths from weights for the total path + + :param list_of_paths: list of lists, inner list contains node ids within a single path, + outer list is a list of these paths + :param list_of_edges: list of lists, Optional. Inner list is the semmantic type for each edge in a path, + outer list is a list of these paths. Requred to be same length as list_of_paths. + :param path_weights: Optional, list of float, requred to be same length as list_of_paths. + Weights should be between 0 and 1. + + :return: dict, key: tuple, (u_for_edge_id, v_for_edge_id, [edge_semmantics]), value: float, edge_weight + """ + + subgraph = defaultdict(list) + grouper = ['u_for_edge', 'v_for_edge'] + if list_of_edges is not None: + grouper.append('key') + + for n, nodes in enumerate(list_of_paths): + for i, node in enumerate(nodes): + try: + subgraph['v_for_edge'].append(nodes[i+1]) + subgraph['u_for_edge'].append(node) + if path_weights is not None: + subgraph['weight'].append((1+path_weights[n])**2) + if list_of_edges is not None: + subgraph['key'].append(list_of_edges[n][i]) + except: + pass + subgraph = pd.DataFrame(subgraph) + return subgraph.groupby(grouper).sum().reset_index() + + +def highlight_path_of_interest(list_of_paths, path_of_interest): + """ + Selects a highlight color for edges in a path of interest. + + :param list_of_paths: list of lists, inner list contains node ids within a single path, + outer list is a list of these paths + :param path_of_interest: list, the node identifiers for nodes in a path to highlight. + + :return: dict, key: tuple (source_id, target_id) for edges, value: hex color for edges. + """ + highlight_ec = sns.color_palette().as_hex()[1] + default_ec = sns.color_palette().as_hex()[2] + + subgraph = build_subgraph_from_paths(list_of_paths) + node_ids = subgraph[['u_for_edge', 'v_for_edge']].stack().unique() + + if all([p in node_ids for p in path_of_interest]): + + poi_tups = [(path_of_interest[i], path_of_interest[i+1]) for i in range(len(path_of_interest)-1)] + subgraph['color'] = subgraph[['u_for_edge', 'v_for_edge']].apply(tuple, axis=1) + # Use a highlight color for paths of interest, otherwise use no color + subgraph['color'] = subgraph['color'].apply(lambda et: highlight_ec if et in poi_tups else default_ec) + else: + subgraph['color'] = default_ec + + return subgraph.set_index([c for c in subgraph.columns if c != 'color'])['color'].to_dict() + + +def build_explanitory_graph(list_of_paths, list_of_edges=None, path_weights=None, edge_weights=None, + node_id_to_color=None, node_id_to_label=None, edge_id_to_color=None, + min_dist=1.2, xscale=10): + """ + Builds an explantory graph from minimally a list of paths. More parameters can be passed to build a more + complete and expressive graph. + + :param list_of_paths: list of lists, inner list contains node ids within a single path, + outer list is a list of these paths + :param list_of_edges: list of lists, Optional. Inner list is the semmantic type for each edge in a path, + outer list is a list of these paths. Requred to be same length as list_of_paths. + :param path_weights: list of float, Optional. requred to be same length as list_of_paths. + Weights should be between 0 and 1. Should not be used with `edge_weights`, or values + will be overriden. + :param edge_weights: dict, Optional. Key is edge tuple, value is weight, ideally between 0 and 1. + If no values passed for `list_of_edges`, key must be (start_id, end_id) for an edge, or weights. + will be igorned. If `list_of_edges` is passed, then key should be (start_id, end_id, edge_type), + but if edge_type missing, the same wight will be applied to all edges between start_id, end_id. + `edge_weights` will override `path_weights` if both paramaters are provided. + :param node_id_to_color: dict, Optional. Provides color for a node. Key: node identifier, + value: hex color for node, e.g. '#1f77b4'. + :param node_id_to_label: dict, Optinal. Provides types or labels for nodes. Will be used to + to color nodes by label if `node_id_to_color` is None. Colors determined by current + seaborn.color_palette(). If palette has fewer colors than number of node labels, then + a seaborn.hls_palette() with the numer of node labels will be utilized. + :param edge_id_to_color: dict, Optional. Key is edge tuple, value is hex color for edge. + If no values passed for `list_of_edges`, key must be (start_id, end_id) for an edge, or colors + will be igorned. If `list_of_edges` is passed, then key should be (start_id, end_id, edge_type). + Ideally, use `highlight_path_of_interest` to generate this mapping dictionay. + :param min_dist: float, the minmum distance each node will be from each other in the final graph. + :param xscale: a scaling factor for the width of the network. X position for paths will start at, + 0 and end at xscale. Y position is path number. `min_dist` will be is built on this scale. + + :return: networkx Graph (DiGraph or MultiDiGraph depending on whether or not `list_of_edges` was passed). + Graph can be used on it's on as input for `draw_explanitory_graph`. + """ + + # Build node and edge data + node_positions = determine_node_position(list_of_paths, node_id_to_label, xscale, min_dist) + node_info = pd.DataFrame(node_positions).T.reset_index() + node_info.columns = ['node_for_adding', 'x', 'y'] + + subgraph = build_subgraph_from_paths(list_of_paths, list_of_edges, path_weights) + + # Add edge weights if passed + if edge_weights is not None: + first_key = list(edge_weights.keys())[0] + # Fill weights with mapping tuple for edge + if len(first_key) == 3 and 'key' in subgraph: + subgraph['weight'] = subgraph[['u_for_edge', 'v_for_edge', 'key']].apply(tuple, axis=1) + elif len(first_key) == 3: + print('Provided edge weights with edge types, but no edge types in graph. Ignoring weights.') + else: + subgraph['weight'] = subgraph[['u_for_edge', 'v_for_edge']].apply(tuple, axis=1) + # Map the edge key to the weight + if 'weight' in subgraph: + subgraph['weight'] = subgraph['weight'].map(edge_weights) + + # Set default edge weight if none passed + if 'weight' not in subgraph: + subgraph['weight'] = 1 + + # Set node colors + if node_id_to_color is None: + # If we can map nodes to types, color by type + if node_id_to_label is not None: + node_labels = sorted(list(set(node_id_to_label.values()))) + n_labels = len(node_labels) + colors = sns.color_palette().as_hex() + + # Make sure there's enough unique colors + if len(colors) < n_labels: + colors = sns.hls_palette(n_labels, l=.6).as_hex() + node_label_to_color = {l: c for l, c in zip(node_labels, colors)} + + # Create a color map for the nodes + node_id_to_color = {n: node_label_to_color[node_id_to_label[n]] for n in node_info['node_for_adding']} + + # if no node typing select default color + else: + color = sns.color_palette().as_hex()[-1] + node_id_to_color = {n: color for n in node_info['node_for_adding']} + + # Apply the colors + node_info['color'] = node_info['node_for_adding'].map(node_id_to_color) + + # Set edge colors + if edge_id_to_color is not None: + first_key = list(edge_id_to_color.keys())[0] + # Fill colors with mapping tuple for edge + if len(first_key) == 3 and 'key' in subgraph: + subgraph['color'] = subgraph[['u_for_edge', 'v_for_edge', 'key']].apply(tuple, axis=1) + else: + subgraph['color'] = subgraph[['u_for_edge', 'v_for_edge']].apply(tuple, axis=1) + # Map the edge key to the color + if 'color' in subgraph: + subgraph['color'] = subgraph['color'].map(edge_id_to_color) + else: + subgraph['color'] = sns.color_palette().as_hex()[2] + + # Build the graph + if 'key' in subgraph: + G = nx.MultiDiGraph() + else: + subgraph = subgraph.rename(columns={'u_for_edge': 'u_of_edge', 'v_for_edge': 'v_of_edge'}) + G = nx.DiGraph() + + for n in node_info.T.to_dict().values(): + G.add_node(**n) + for e in subgraph.T.to_dict().values(): + G.add_edge(**e) + return G + + +def draw_explanitory_graph(G, node_id_to_name=None, proba=None, n_paths=None, xscale=10, max_line_len=15, title=True, + node_size=6000): + """ + Funciton to draw an explanatory graph. Ideally the graph should be genrated from the fucntion + `build_explanitory_graph`. All required values for plotting will be added by using that function. + :param G: networkx Graph, MultiGraph, DiGraph, or MultiDigraph. Specific values are required in the + nodes and edges for proper drawing: + Nodes: 'x': x position for drawing, 'y': y position for drawing, 'color': hex color for the node + Edges: 'weight': weight for determining edge thickness, 'color': hex color for the edge + For best results, use `build_explanitory_graph` function for producing G. + :param node_id_to_name: dict, identifer of nodes in G to name, for printing node labels in graph + :param proba: float, a value to be printed next to the name of the start node... primarily used for + probability of treatment in a machine learning context. Requires title=True to appear + :param n_paths: int, y scaling factor. Total height of the figure. If None, will use values pre-determined when + building G. + :param xscale: int, The scaling facor for the x axis + :param max_line_len: int, the Maximum length of the line for node text labels + :param title: bool, if true, will pull out the first node in the paths as a title + :param node_size: int, allow for larger nodes to be drawn + :return: matplotlib figure + """ + + width = 12 * xscale/10 + + max_y = max([G.nodes[n]['y'] for n in G.nodes]) + + if n_paths is not None: + height = n_paths + else: + height= max_y + + if height / width > 1.3: + width = height / 1.3 + + fig = plt.figure(figsize=(width, height)) + + # Build Node Position map + node_pos_dict = {} + for n in G.nodes: + x = G.nodes[n]['x'] + y = G.nodes[n]['y'] + node_pos_dict[n] = (x, y) + + # Extract other node properties + node_colors = [G.nodes[n]['color'] for n in G.nodes] + + # Build the edge labels if needed + edge_label_dict = {} + for e in G.edges: + if len(e) == 2: + edge_label_dict = None + break + edge_label_dict[(e[0], e[1])] = e[2] + + # Extract other edge properties + edge_width = [3*G.edges[e]['weight'] for e in G.edges] + edge_color = [G.edges[e]['color'] for e in G.edges] + + nx.draw(G, pos=node_pos_dict, node_color=node_colors, node_size=node_size, + edge_color=edge_color, width=edge_width) + + if edge_label_dict is not None: + nx.draw_networkx_edge_labels(G, pos=node_pos_dict, edge_labels=edge_label_dict) + + # Default to node id if no names passed + if node_id_to_name is None: + node_id_to_name = {n: n for n in G.nodes} + + wt_lbls = {} + bk_lbls = {} + for i, node in enumerate(G.nodes): + node_color = G.nodes[node]['color'] + if determine_text_color(node_color) == 'w': + wt_lbls[node] = prep_node_labels(node_id_to_name[node], max_line_len) + else: + bk_lbls[node] = prep_node_labels(node_id_to_name[node], max_line_len) + + wt_labels = nx.draw_networkx_labels(G, pos=node_pos_dict, labels=wt_lbls, font_color='w') + bk_labels = nx.draw_networkx_labels(G, pos=node_pos_dict, labels=bk_lbls, font_color='k') + + for v in wt_labels.values(): + v.set_path_effects([pe.withStroke(linewidth=2, foreground='k')]) + + if title: + # Add probabilities + first_node = list(G.nodes)[0] + first_text = node_id_to_name[first_node] + + if proba is not None: + first_text += ': {:1.3f}'.format(proba) + + # Color the same as the Node + first_color = G.nodes[first_node]['color'] + text = plt.text(0, max_y, first_text, c=first_color, size=16, fontweight='bold') + # If a light color, Add a dark outline for readability + if determine_text_color(first_color, .6) == 'k': + text.set_path_effects([pe.withStroke(linewidth=2, foreground=darken_hex_color(first_color))]) + + fig.set_tight_layout(True) + return fig diff --git a/data_tools/data_tools/plotting/_ml.py b/data_tools/data_tools/plotting/_ml.py new file mode 100644 index 0000000..1c8f88a --- /dev/null +++ b/data_tools/data_tools/plotting/_ml.py @@ -0,0 +1,164 @@ +import numpy as np +from scipy import interp +import matplotlib.pyplot as plt +from sklearn.metrics import precision_recall_curve, roc_curve, auc + + +__all__ = ['graph_single_roc', 'graph_single_prc', 'graph_mean_roc', 'graph_mean_prc', + 'graph_roc_boilerplate', 'graph_prc_boilerplate'] + + +def graph_single_roc(y, y_pred, label="", lw=4, alpha=1): + fpr, tpr, thresh = roc_curve(y, y_pred, drop_intermediate=False) + if label: + plt.plot(fpr, tpr, lw=lw, alpha=alpha, label=label+" (AUC = {:0.2f})".format(auc(fpr, tpr))) + else: + plt.plot(fpr, tpr, lw=lw, alpha=alpha) + + +def calc_mean_roc_auc(ys, y_preds): + tprs = [] + aucs = [] + + mean_fpr = np.linspace(0, 1, 100) + + for y, y_pred in zip(ys, y_preds): + # Compute ROC curve and area the curve + fpr, tpr, thresholds = roc_curve(y, y_pred, drop_intermediate=False) + + tprs.append(interp(mean_fpr, fpr, tpr)) + tprs[-1][0] = 0.0 + roc_auc = auc(fpr, tpr) + aucs.append(roc_auc) + + # Get mean and std_dev for metrics + mean_tpr = np.mean(tprs, axis=0) + mean_tpr[-1] = 1.0 + mean_auc = auc(mean_fpr, mean_tpr) + std_auc = np.std(aucs) + std_tpr = np.std(tprs, axis=0) + + return mean_tpr, mean_fpr, mean_auc, std_auc, std_tpr + + +def graph_mean_roc(ys, y_preds, label="", lw=6, alpha=.8, fill_between=True, fill_alpha=.4): + + result = calc_mean_roc_auc(ys, y_preds) + graph_mean_roc_from_metrics(*result, label, lw, alpha, fill_between, fill_alpha) + + +def graph_mean_roc_from_metrics(mean_tpr, mean_fpr, mean_auc, std_auc, std_tpr, label="", lw=6, alpha=.8, + fill_between=True, fill_alpha=.4): + if label: + fig = plt.plot(mean_fpr, mean_tpr, + label=label + ' (AUC = %0.2f)' % mean_auc, + lw=lw, alpha=alpha) + else: + fig = plt.plot(mean_fpr, mean_tpr, color='b', + label=r'Mean ROC (AUC = %0.2f $\pm$ %0.2f)' % (mean_auc, std_auc), + lw=lw, alpha=alpha) + + if fill_between: + tprs_upper = np.minimum(mean_tpr + std_tpr, 1) + tprs_lower = np.maximum(mean_tpr - std_tpr, 0) + plt.fill_between(mean_fpr, tprs_lower, tprs_upper, color='grey', alpha=fill_alpha, + label=r'$\pm$ 1 std. dev.') + return fig + + +def graph_roc_boilerplate(title, size=24, w=8, h=7, loc='best'): + """Run this after each single ROC curve plot""" + x = [i for i in np.arange(0.0, 1.01, .01)] + + plt.plot(x, x, 'r--', lw=1, label='Luck') + + fig = plt.gcf() + fig.set_size_inches(w, h) + fig.set_tight_layout(False) + plt.xlim([-0.01, 1.01]) + plt.ylim([-0.01, 1.01]) + plt.xticks(size=size * .666667) + plt.yticks(size=size * .666667) + plt.xlabel('False Positive Rate', size=size * .8333) + plt.ylabel('True Positive Rate', size=size * .8333) + plt.title(title, size=size) + plt.legend(loc=loc, frameon=True, shadow=True, prop={'size': size * .666667}) + return fig + + +def graph_single_prc(y, y_pred, label="", lw=4, alpha=1): + pre, rec, thresh = precision_recall_curve(y, y_pred) + if label: + plt.plot(rec, pre, lw=lw, alpha=alpha, label=label+" (AUC = {:0.2f})".format(auc(rec, pre))) + else: + plt.plot(rec, pre, lw=lw, alpha=alpha) + + +def calc_mean_prc_auc(ys, y_preds): + pres = [] + aucs = [] + + mean_rec = np.linspace(0, 1, 100) + + for y, y_pred in zip(ys, y_preds): + + # Compute PR curve and area the curve + pre, rec, thresholds = precision_recall_curve(y, y_pred) + prc_auc = auc(rec, pre) + aucs.append(prc_auc) + + pre = pre[::-1] + rec = rec[::-1] + + pres.append(interp(mean_rec, rec, pre)) + + mean_pre = np.mean(pres, axis=0) + mean_pre[-1] = 0 + mean_auc = auc(mean_rec, mean_pre) + std_auc = np.std(aucs) + std_pre = np.std(pres, axis=0) + + return mean_pre, mean_rec, mean_auc, std_auc, std_pre + + +def graph_mean_prc(ys, y_preds, label="", lw=6, alpha=.8, fill_between=True, fill_alpha=.4): + + results = calc_mean_prc_auc(ys, y_preds) + graph_mean_prc_from_metrics(*results, label, lw, alpha, fill_between, fill_alpha) + + +def graph_mean_prc_from_metrics(mean_pre, mean_rec, mean_auc, std_auc, std_pre, + label="", lw=6, alpha=.8, fill_between=True, fill_alpha=.4): + if label: + fig = plt.plot(mean_rec, mean_pre, + label=label+r' (AUC = %0.2f)' % mean_auc, + lw=lw, alpha=alpha) + else: + fig = plt.plot(mean_rec, mean_pre, color='b', + label=r'Mean PRC (AUC = %0.2f $\pm$ %0.2f)' % (mean_auc, std_auc), + lw=lw, alpha=alpha) + + if fill_between: + pres_upper = np.minimum(mean_pre + std_pre, 1) + pres_lower = np.maximum(mean_pre - std_pre, 0) + plt.fill_between(mean_rec, pres_upper, pres_lower, color='grey', alpha=fill_alpha, + label=r'$\pm$ 1 std. dev.') + return fig + + +def graph_prc_boilerplate(title, size=24, w=8, h=7, loc='best'): + """Run this after each single PRC plot""" + + fig = plt.gcf() + fig.set_size_inches(w, h) + fig.set_tight_layout(False) + plt.xlim([-0.01, 1.01]) + plt.ylim([-0.01, 1.01]) + plt.xticks(size=size*.666667) + plt.yticks(size=size*.666667) + plt.xlabel('Recall', size=size*.8333) + plt.ylabel('Precision', size=size*.8333) + plt.title(title, size=size) + plt.legend(loc=loc, frameon=True, shadow=True, prop={'size':size*.666667}) + return fig + diff --git a/data_tools/data_tools/plotting/_std.py b/data_tools/data_tools/plotting/_std.py new file mode 100644 index 0000000..0fcd98a --- /dev/null +++ b/data_tools/data_tools/plotting/_std.py @@ -0,0 +1,91 @@ +import pandas as pd +import seaborn as sns +import matplotlib.pyplot as plt + + +__all__ = ['count_plot_h'] + +def count_plot_h(data, annotate=True, order=None, annot_params=None, **params): + + + + """ + Wrapper for seaborn's Barpolot with horizontal result. Functions like sns.countplot(), but also allows for + the result of Series.value_counts() to be passed as an argument. + + :param data: Pandas Series, either the data to be counted, or the result of value_counts() output + (Or value counts with further data manipulation, (i.e. convert to percentages)) + :param annotate: Boolean, dict, or Series. If `True` will plot the counts at the end of the bars. If `False`, + no annotations will be plotted. If a Series or dict, annotations other than the values can be passed + and plotted at the end of the bars. (e.g. plot percentages, but annotate with counts). + :param order: list, override the most-to-least (top to bottom) order with a user supplied order. + :**params: Other arguments to be passed to Seaborn's Barplot function. + """ + # TODO: Better checks (does't work if obj type and/or nan values) + # Do the value counts if not already done.... + if data.dtype not in [int, float]: + data = data.value_counts() + + # Ensure the data is properly sorted + data = data.sort_values(ascending=False) + + # Allow for numeric indices (sometimes we want counts of counts) + if data.index.dtype in [int, float]: + data.index = data.index.astype(str) + y = pd.Categorical(data.index) + else: + y = data.index + + # Allow for a user supplied order + if order is None: + order = y + + # Plot the data orderred from most to least frequent + + splot = sns.barplot(x=data, + y=y, + order=order, + **params, + palette = "Set3") + + + + + # Allow a series to be passed, to annotate with different values + if type(annotate) == pd.Series: + # Ensure numeric keys are converted to strings + if annotate.index.dtype in [int, float]: + annotate.index = annotate.index.astype(str) + annotate = annotate.to_dict() + + # Optionally Print the counts at the end of the data + if annotate: + if annot_params is None or type(annot_params) != dict: + annot_params = dict() + + # Allow for user-passed annotation map, or simply annotate the values + if type(annotate) == bool: + annotate = data.to_dict() + + # Esnure proper formmating for printing integers... + if pd.Series(annotate).dtype == int: + f = lambda v: int(v) + fs = '{:,}' + elif pd.Series(annotate).dtype == float: + f = lambda v: v + fs = '{:,.2}' + else: + f = lambda v: v + fs = '{}' + + for (p, n) in zip(splot.patches, splot.get_yticklabels()): + annotation = annotate[n.get_text()] + splot.annotate(fs.format(f(annotation)), + (p.get_width(), p.get_y() + p.get_height()), + ha = 'left', + va = 'center_baseline', + xytext = (0, 10), + textcoords = 'offset points', + **annot_params) + return splot + diff --git a/data_tools/data_tools/plotting/_venn.py b/data_tools/data_tools/plotting/_venn.py new file mode 100644 index 0000000..d5dec59 --- /dev/null +++ b/data_tools/data_tools/plotting/_venn.py @@ -0,0 +1,80 @@ +import numpy as np +import matplotlib.pyplot as plt +import matplotlib.patheffects as pe +from matplotlib_venn import venn2, venn2_circles, venn3, venn3_circles + + +__all__ = ['venn2_pretty', 'venn3_pretty'] +PREF_COLORS = ["#38b5fc", "#fa8f52", "#917ad8", "#3ff44c", "#00904f", "#faff49", "#d4e7db"] + + +def _venn_pretty(subsets, num_circles, set_labels=('A', 'B'), title='', + alpha=0.9, norm=10, lw=1.5, num_size=12, lbl_size=14, t_size=16, + colors=None, ax=None, border=True): + # Ensure either a 2 or 3 circle diagram + assert num_circles in [2, 3] + + # Get the right venn diagarm functions... + if num_circles == 2: + venn = venn2 + venn_circles = venn2_circles + else: + venn = venn3 + venn_circles = venn3_circles + # Use preferred colors if none passed. + if colors is None: + colors = PREF_COLORS + + # Draw the venn diagrams + v = venn(subsets, set_labels=set_labels, alpha=alpha, normalize_to=norm, + ax=ax, subset_label_formatter=lambda s: '{:,}'.format(s)) + #c = venn_circles(subsets, linewidth=lw, normalize_to=norm, ax=ax) + + # Set the label sizes + for text in v.set_labels: + text.set_fontsize(lbl_size) + for i, text in enumerate(v.subset_labels): + if text is None: + continue + text.set_fontsize(num_size) + if border: + text.set_path_effects([pe.withStroke(linewidth=3, foreground='w')]) + + # 2 of the default colors are darker, and require white text + if not border and i in [2, 4]: + text.set_color('w') + # White looks narrower, so bold, and shift slightly + text.set_fontweight('bold') + text.set_position(text.get_position() + np.array([0.01, 0])) + + # change the colors of the venn diagram regions + for i, p in enumerate(v.patches): + if p is None: + continue + p.set_facecolor(colors[i]) + p.set_edgecolor(p.get_facecolor() * np.array([0.5])) + p.set_linewidth(2) + # Give the plot a title + plt.title(title, size=t_size); + return v + + +def venn2_pretty(subsets, set_labels=('A', 'B'), title='', + alpha=0.9, norm=10, lw=1.5, num_size=12, lbl_size=12, t_size=14, + colors=None, ax=None, border=True): + """ + Wrapper function for matplotlib_venn.venn2 that uses more aesthetically pleasing + colors, text style, and line style. + """ + return _venn_pretty(subsets, 2, set_labels, title, alpha, norm, lw, num_size, lbl_size, t_size, colors, ax, border) + + +def venn3_pretty(subsets, set_labels=('A', 'B', 'C'), title='', + alpha=0.9, norm=1, lw=1.5, num_size=12, lbl_size=12, t_size=14, + colors=None, ax=None, border=True): + """ + Wrapper function for matplotlib_venn.venn3 that uses more aesthetically pleasing + colors, text style, and line style. + """ + return _venn_pretty(subsets, 3, set_labels, title, alpha, norm, lw, num_size, lbl_size, t_size, colors, ax, border) + diff --git a/data_tools/data_tools/wiki.py b/data_tools/data_tools/wiki.py new file mode 100644 index 0000000..6c02e76 --- /dev/null +++ b/data_tools/data_tools/wiki.py @@ -0,0 +1,109 @@ +import functools +from itertools import chain +from wikidataintegrator.wdi_core import WDItemEngine +from data_tools.df_processing import char_combine_iter, expand_col_on_char, add_curi + + +def parse_result_uris(result): + """Parse the result URI to get just the WikiData identifier""" + for c in result: + if 'Label' not in c: + idx = result[c].fillna('').str.startswith('http://www.wikidata.org/entity') + if idx.sum() != 0: + idx = idx[idx].index + result.loc[idx, c] = result.loc[idx, c].apply(lambda u: u.split('/')[-1]) + return result.drop_duplicates() + + +def execute_sparql_query(query_text, endpoint='https://query.wikidata.org/sparql'): + """Wrapper for wikidataintegrator.wdi_core.WDItemEngine.execute_sparql_query to get useful output formatting""" + + query_func = functools.partial(WDItemEngine.execute_sparql_query, endpoint=endpoint, as_dataframe=True) + + # Enforce the proper column order + col_order = query_text.lstrip('\n').split('\n')[0].strip().split(' ?')[1:] + qres = query_func(query_text) + if len(qres) == 0: + return None + + # if there are zero results for a query term, the column is removed... we still want the column.... + for c in col_order: + if c not in qres.columns: + qres[c] = float('nan') + + return parse_result_uris(qres)[col_order] + + +def standardize_nodes(result, item_name): + """Standardizes DataFrame format for nodes queried from wikidata""" + # Get the columns that are not the item id or name + xrefs = [c for c in result.columns if c not in [item_name, item_name+'Label']] + + # Make a map from id to name + id_to_name = result.set_index(item_name)[item_name+'Label'].to_dict() + + # Group all the xrefs for a given ID and pipe separate them all + out = (result.groupby(item_name)[xrefs] + .apply(lambda f: char_combine_iter([v for v in chain(*f.values) if str(v) != 'nan'], sort=True)) + .rename('xrefs')) + + # Standardize the colnames + out = out.to_frame().reset_index().rename(columns={item_name: 'id'}) + out['name'] = out['id'].map(id_to_name) + out['label'] = item_name.replace('_', ' ').title() + + return out[['id', 'name', 'label', 'xrefs']] + + +def standardize_edges(q_res, start_id, end_id, sem_type, d_source_type='crowd_sourced'): + """Standardizes DataFrame format for edges queried from wikidata""" + # Create the map for column renaming + col_rename_map = {start_id: 'start_id', end_id: 'end_id'} + + # rename the column containing the semantics + if sem_type in q_res.columns: + col_rename_map[sem_type] = 'type' + # Some results are uniform semanitcs, therefore contain no semantics column + else: + q_res['type'] = sem_type + + # rename the columns and return with proper order + out = q_res.rename(columns=col_rename_map).copy() + out['dsrc_type'] = d_source_type + + return out[['start_id', 'end_id', 'type', 'dsrc_type']] + + +def node_query_pipeline(query_text, curi_map, item_name): + """Run the entire pipeline for querying WikiData for nodes""" + # Execute the Query + result = execute_sparql_query(query_text) + if result is None: + return result + # Add CURIs + result = add_curi(result, curi_map) + # Format the DataFrame to nodes + result = standardize_nodes(result, item_name) + + return result + + +def get_xrefs(nodes): + return expand_col_on_char(nodes[['id', 'xrefs']], 'xrefs', '|', dropna=True) + + +def get_curi_xrefs(nodes, curi): + out = get_xrefs(nodes) + return out[out['xrefs'].str.startswith(curi+':')].copy() + + +def xref_to_wd_item(nodes, xref_id, always_list=False): + out = get_xrefs(nodes) + out = out.query('xrefs == @xref_id')['id'].tolist() + if always_list or len(out) > 1: + return out + elif len(out) == 1: + return out[0] + else: + return None + diff --git a/data_tools/demo/Graph_Drawing_Demo.ipynb b/data_tools/demo/Graph_Drawing_Demo.ipynb new file mode 100644 index 0000000..16c7224 --- /dev/null +++ b/data_tools/demo/Graph_Drawing_Demo.ipynb @@ -0,0 +1,1158 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Demo for plotting subgraphs" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [], + "source": [ + "import numpy as np\n", + "import pandas as pd\n", + "from pathlib import Path" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Load in information about the full network so we can demonstrate advanced features\n" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [], + "source": [ + "load_dir = Path('../../metapaths/2_pipeline').resolve()\n", + "\n", + "nw_dir = load_dir.joinpath('10_Semmantic_Compression', 'out')\n", + "hyp_dir = load_dir.joinpath('11c_Model_Prep_Hyperparam_tuning', 'out')" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": {}, + "outputs": [], + "source": [ + "nodes = pd.read_csv(nw_dir.joinpath('nodes_biolink.csv'), dtype=str)\n", + "edges = pd.read_csv(nw_dir.joinpath('edges_biolink.csv'), dtype=str)" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [], + "source": [ + "id_to_label = nodes.set_index('id')['label'].to_dict()" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": {}, + "outputs": [], + "source": [ + "edge_info = pd.read_csv(load_dir.parent.joinpath('0_data/manual/edge_semtypes.csv'))\n", + "inv_map = edge_info.set_index('fwd_edge')['rev_edge'].to_dict()" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "/home/mmayers/software/miniconda3/envs/ml/lib/python3.7/site-packages/data_tools/df_processing.py:4: TqdmExperimentalWarning: Using `tqdm.autonotebook.tqdm` in notebook mode. Use `tqdm.tqdm` instead to force console mode (e.g. in jupyter console)\n", + " from tqdm.autonotebook import tqdm\n" + ] + } + ], + "source": [ + "from data_tools.graphs import dataframes_to_metagraph\n", + "metagraph = dataframes_to_metagraph(nodes, edges)\n", + "\n", + "metapaths = pd.read_csv(hyp_dir.joinpath('kept_features.txt'), header=None)[0].tolist()\n", + "\n", + "all_metapaths = metagraph.extract_metapaths('ChemicalSubstance', 'Disease', 4)\n", + "mp_info = {mp.abbrev: mp for mp in all_metapaths if mp.abbrev in metapaths}" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Load information on the paths we wish to plot" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": {}, + "outputs": [ + { + "data": { + "text/html": [ + "
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metapathmetricnode_idsnodesmodel_metricstd_metricnode_id_tup
0CafGpoPWpoCtD0.000017[CHEBI:135990, NCBIGene:1813, WP:WP4222, CHEBI...[gepirone, DRD2, Phosphodiesterases in neurona...0.6402240.052316(CHEBI:135990, NCBIGene:1813, WP:WP4222, CHEBI...
1CafGmPmGawD0.000026[CHEBI:135990, NCBIGene:1813, HP:0007018, NCBI...[gepirone, DRD2, Attention deficit hyperactivi...0.2152410.013212(CHEBI:135990, NCBIGene:1813, HP:0007018, NCBI...
2CafGrBPrGawD0.000029[CHEBI:135990, NCBIGene:1813, GO:0006813, NCBI...[gepirone, DRD2, potassium ion transport, ANK3...0.1755500.009606(CHEBI:135990, NCBIGene:1813, GO:0006813, NCBI...
3CaGpoPWpoCtD0.000002[CHEBI:135990, NCBIGene:3350, WP:WP706, CHEBI:...[gepirone, HTR1A, Sudden Infant Death Syndrome...0.1450410.009782(CHEBI:135990, NCBIGene:3350, WP:WP706, CHEBI:...
4CaGpoPWawD0.000038[CHEBI:135990, NCBIGene:3350, REACT:R-HSA-3906...[gepirone, HTR1A, Serotonin receptors, major d...0.1429780.009798(CHEBI:135990, NCBIGene:3350, REACT:R-HSA-3906...
\n", + "
" + ], + "text/plain": [ + " metapath metric node_ids \\\n", + "0 CafGpoPWpoCtD 0.000017 [CHEBI:135990, NCBIGene:1813, WP:WP4222, CHEBI... \n", + "1 CafGmPmGawD 0.000026 [CHEBI:135990, NCBIGene:1813, HP:0007018, NCBI... \n", + "2 CafGrBPrGawD 0.000029 [CHEBI:135990, NCBIGene:1813, GO:0006813, NCBI... \n", + "3 CaGpoPWpoCtD 0.000002 [CHEBI:135990, NCBIGene:3350, WP:WP706, CHEBI:... \n", + "4 CaGpoPWawD 0.000038 [CHEBI:135990, NCBIGene:3350, REACT:R-HSA-3906... \n", + "\n", + " nodes model_metric \\\n", + "0 [gepirone, DRD2, Phosphodiesterases in neurona... 0.640224 \n", + "1 [gepirone, DRD2, Attention deficit hyperactivi... 0.215241 \n", + "2 [gepirone, DRD2, potassium ion transport, ANK3... 0.175550 \n", + "3 [gepirone, HTR1A, Sudden Infant Death Syndrome... 0.145041 \n", + "4 [gepirone, HTR1A, Serotonin receptors, major d... 0.142978 \n", + "\n", + " std_metric node_id_tup \n", + "0 0.052316 (CHEBI:135990, NCBIGene:1813, WP:WP4222, CHEBI... \n", + "1 0.013212 (CHEBI:135990, NCBIGene:1813, HP:0007018, NCBI... \n", + "2 0.009606 (CHEBI:135990, NCBIGene:1813, GO:0006813, NCBI... \n", + "3 0.009782 (CHEBI:135990, NCBIGene:3350, WP:WP706, CHEBI:... \n", + "4 0.009798 (CHEBI:135990, NCBIGene:3350, REACT:R-HSA-3906... " + ] + }, + "execution_count": 7, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "test_path = pd.read_csv('paths_CHEBI:135990_DOID:1470.csv', \n", + " converters={'nodes': eval, 'node_ids': eval, 'node_id_tup': eval})\n", + "test_path.head()" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "metadata": {}, + "outputs": [], + "source": [ + "top_10_rows = test_path.head(10)" + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "metadata": {}, + "outputs": [], + "source": [ + "%matplotlib inline\n", + "from data_tools import plotting as dtp" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Simple list of paths" + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "metadata": {}, + "outputs": [], + "source": [ + "paths = [['CML', 'BCR', 'imatinib'],\n", + " ['CML', 'ABL1', 'imatinib'],\n", + " ['CML', 'KIT', 'imatinib'],\n", + " ['CML', 'C1704799', 'imatinib'],\n", + " ['CML', 'MTTP', 'imatinib'],\n", + " ['CML', 'C1704928', 'imatinib'],\n", + " ['CML', 'AKT1', 'imatinib'],\n", + " ['CML', 'TP53', 'imatinib'],\n", + " ['CML', 'C1705526', 'imatinib'],\n", + " ['CML', 'ABCB1', 'imatinib']]" + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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GVeu8sdXeDm+ZlJRu1pLJRQoWcFMWAEBucYYBAOTUD6eM0Vmjh6vYi+Etk5KZaVX5zh/qin+cr82tm+2uCADgUQQ3AEBWNcWa9ODbD2r+f8/X7Ptm64cv/lDXTR2rcz228lZkGKoJ+jS68f/Kl25RQ7RBX3vsa4Q3AEBOGJZlWXYXAQBwv+e2Paf71t2nFTtXKGNluo4HzIBWnbNKkvS77Y360XvbFcu4+9QTNg0dVV6s386crPWNq3TxUxcrmopKkkaER+ieBfdoYsVEe4sEAHgKK24AgCHb3LpZFz91sZbvWN4ttEnSmNIxXf9+7thq/fHIKSrzma6d8xY2DX15zHD9efYhKvf7NG/UPN12ym0K+ztHALDyBgDIBYIbAGDIAr6AfEbPUewbM7/R7evjKkv1j2MO05HlxSp2UTOPIkMq85m6+bBaXTt1XLcB24Q3AECuueeMCQBwrFHFozRj+IwDjvtNvz5W+7EDjo8PFemROVN17dQxKvGZCjj81rewaejU6gq9fNx0fXpkVY/PIbwBAHKJ4AYAGJJ0Jq2rX7haaxrXHPDYCWNOUHlReY+vMwxDZ4+p1ovHHq4Tq8oc2bgkZBoaHvDp7iMm6TdHTNLwIv9Bn094AwDkCsENADBoe0Pbso3Luo4dPfJo+Q2/TMPUV6Z/pc/3GBkM6A9HTtEdMybqsJKQwqZh+/1vJT5TpT5TXx87QsuPm65ThvccPntCeAMA5AJdJQEAg9JTaPvctM/p6uOuVn2kXpZlaXTp6AG/79r2iO7c2qBlDS0yJEXz1IHSZ3S2+J8UDuqSCSP1yREVQxqovWLnCrpNAgCyhuAGABiwg4U208jOZo7WZEoP7mzSr7Y2qC2VVjSdUabvlw1YsWkoI+mMEZW6sLZGM0rDWXtvwhsAIFsIbgCAAclHaNufZVl6oWWPntrdpueb92h9R0wB01DGsga8Guc3pLBpKpqxVFPk1zEVJTqpqkyfqqlUuT83GzQJbwCAbCC4AQD6Ld+hrccaLEvrO2Ja1RbR8pY9qoslVJ9IancipT37rcqZkopMQ5V+v2qK/BodCmhWabHmVZRodnlxzoJaTwhvAIChIrgBAPrFCaHtYJIZSy2plJIZSxnLUsDsbDBSkseAdjCENwDAUBDcAAB9clJo251IaVVbh15t7dDLrR16P55UczKlSDqjgGl0a5ectCwZMlQV8Kk64NeM0rCOryrV3PISHVIclGnkdwQB4Q0AMFgENwDAQdkd2qLpjB5uaNHfGlq0sjWillRaIdNQJJ1RehDvV2yaMiSlZenwkrA+OqxMXxw9TBPCwWyX3iPCGwBgMAhuAIBe2RnaNkfjuntrg5bubJIkdaRz0VNSChiSaRg6qqxYF9fW6F+Hl8uX45U4whsAYKAIbgCAHtkR2tKWpad2t+nWunq93h5RxrKUzONZqsRnKmQaumBcjc4eM1zVRf6cfRbhDQAwEAQ3AMAB8h3a0pal325r1I1bdiqesXK2utZfIdOQJWn+8ApdO3WsRgUDOfkcwhsAoL8IbgCAbvId2tZ3xHTRm5u1JRpXZIBz2XLNb0hB09Q1U8boy2OGy8jBFkrCGwCgPwhuAIAu+QxtiUxGP9+8S3dsrVc8Y8nJJ6Ni09S0kqB+NX2iJhVnv4kJ4Q0A0BeCGwBAUn5D2xvtEX31jU1qTKQUddgqW2/2DvS+YuIoXVxbk/XVN8IbAOBgCG4AgLyGtod2NevSt+tcE9g+rNg0ddKwMt0+fYKKfdn92RDeAAC9IbgBQIHLV2jLWJau2/i+7tnW6NrQtlfINDQuVKQ/HTlFY0JFWX1vwhsAoCcENwAoYPkKbWnL0jff3Kwnd7crkrG3Y2S2+Ayp3O/TsjlTNaU4lNX3JrwBAD6M4AYABSqfoe3rb2zWs01trl9p+zBD+8Lb1BLCGwAgd3IzQRUA4Gj53B75zXVbPBnaJMmS1JZK64xV72pLNJ7V9543ap5uO+U2hf1hSVJDtEFfe+xr2ty6OaufAwBwB4IbABSYfDYiuX7TTj3Z2OrJ0LaXJak1ldaZq99Teyqd1fcmvAEA9iK4AUAByWdoe6ShRXdsrXfcUO1cyEhqSKZ03tpNSmf5DgTCGwBAIrgBQMHIZ2h7a09Ul6zbolgBhLa94hlLq9o6dO2G97P+3oQ3AADBDQAKQD5DWzJj6WtvbCqo0LZXNGPpt9sbtaK1I+vvTXgDgMJGcAMAj8tnaJOk2+p2aVc8qcKLbZ1iGUsXvblZ8RyMPSC8AUDhIrgBgIflO7RtjMR185ZdBXFf28E0JVNasmlnTt6b8AYAhYngBgAele/Q1tn6f7MSBR7apM4tk3dta9Bbe6I5eX/CGwAUHoIbAHhQvkObJP1xR5Pe7Ygr+xsE3Sme6ZxhZ2W5y+RehDcAKCwENwDwGDtCm2VZWrJ5pyI5uK/LrSxJdbFEThqV7EV4A4DCQXADAA+xI7RJ0oste9Sa5eHTXhBNZ3T71vqcfgbhDQAKA8ENADzCrtAmSbfX1SuSZrXtwyxJTze1qyGRzOnnEN4AwPsIbgDgAXaGtp3xpJ5v3lOw7f/7Ykh64P3dOf8cwhsAeBvBDQBczs7QJkn3bW/sTCfoUeyDDpPpHDUp2R/hDQC8i+AGAC5md2hLZizds71RcUYAHFQiY+nJ3W15+SzCGwB4E8ENAFzK7tAmSU/tblMqDytJbrcnndHtdbltUrI/whsAeA/BDQBcyAmhTZKe3N2qPTQl6ZdVbRGl8rgySXgDAG8huAGAyzgltEnSSy25m1HmNUHT0Nsd0bx+JuENALyD4AYALuKk0BZLZ7QlFs/rZ7pZ2rK0qi2S988lvAGANxDcAMAlnBTaJOmNPVGFTU4j/RXNWHq+ud2Wzya8AYD7ccYFABdwWmiTpJVtHUrQTXJAVtiw4rYX4Q0A3I3gBgAO58TQJkmvtHYoTkfJAalPJBW1sZkL4Q0A3IvgBgAO5tTQJknboom8fVbTovNVf8ZJshL7PrP1Zz/UrvnzVL/weNV/8gTtvvBLSrz+atfj0UcfUtO3v9rj+8WeeVxNl5yrXaf9i5oWnZ/z+vcKGqbqE8m8fV5PCG8A4E4ENwBwKCeHNkmqT6by8jnpne8ruXa1ZBiKv/hst8dKvnCeav72okYse17hMz6rlh9dISud7vM9jbJyFX/2bJWcdV6Oqu6Z35B2xu0NbhLhDQDcyP4zPwDgAE4PbZLUnKfgFn38YQUOn6nwgtMVffzhHp9jGIbCp5wmq61Vmebdfb5ncO5xCn10vszhI7Jd7kFlJO1K5Ofn1hfCGwC4izPO/gCALm4IbZZlKZanxiSxxx9R6OMLFfr4QiVWvKR004HBzEqnFX18mXyjx8qsGp6XugYjbVlqyVPg7Q/CGwC4hzOuAAAAktwR2iQpaVl5OYEk1q5WetcOhT56qgLTpss3ZpxiT/296/GOP92n+tNPVP0nT1D7bUtU8tVvyfD58lDZ4GQkpRzW0IXwBgDu4JyrAAAocG4JbZKUr+gRe+xhFR19nMyKKklS6JRPKLbfdsmSz39FNQ//UzV/f0nD7/i99tx5k+LLn89TdYNjX0/J3hHeAMD5nHUlAAAFyk2hTZIChpHz8GbFY4o9+4SSr69Uw5kfV8OZH1fkv3+v1IZ3lNywvttzDcOQf9IhCsyYrfjLzg1uhjp/dk5EeAMAZ3Pe1QAAFBi3hTZJMg1D/hwHkNjzT0umqeH3/j8Nu+uPGnbXHzX8t39RYOZRij2+7IDnp+o2KfnGa/JPnLzvoGXJSsS7/SN13hNnJeJSOi1lMp2PpXLf7dFvGCr1OfPPVCK8AYCTGZblsM32AFBA3Bja9pr5whtqyGGHxObvXiz/xMkq++bl3Y7Hnnlc7bdcr6K5xyr2zOMy/AFZsmSWVyr08YUq/drFMkxT0UcfUtv1PzrgfWueWKHYE3874LHQgtNV8d3FOft+JKnMZ+remZP0kaqynH7OUK3YuUIXP3WxoqmoJGlEeITuWXCPJlZMtLcwAChgBDcAsImbQ5skfeyVt/VWR8zuMlylxGfq0bnTNLUkZHcpfSK8AYCzOP/KAAA8yO2hTZLGBAN2l+A68UxGI13yc2PbJAA4izuuDgDAQ7wQ2iRpdlmx/HYX4TKlPp/K/c4dV/BhhDcAcA73XCEAgAd4JbRJ0rzKEoUd3GjDiY4sK7a7hAEjvAGAM3DGBYA88VJok6SjyooVy3CbdH8VGYZOriq1u4xBIbwBgP3cd6UAAC7ktdAmSRUBv4YH2CzZX0HT0JyKErvLGDTCGwDYy51XCwDgIl4MbXvNq3Df1j+7RDMZzXLhVsn9Ed4AwD7uvmIAAIfzcmiTpI8NK1exmdtB3F4xMRxUsQfuCSS8AYA93H8GAQCH8npok6TTayqVsbsIFyg2TV0wboTdZWQN4Q0A8s8bVw4A4DCFENokqczv02dqquRn0e2gLFk6c2SV3WVkFeENAPLLO1cPAOAQhRLa9rpw/Aj5DZJbb/ySPjuySiUumt/WX4Q3AMgf711BAICNCi20SdLhpWFNKQ7aXYZj+U1D3xhfY3cZOUN4A4D88OZVBADYoBBD217/UTtSpR5ovJELh5WENK0kZHcZOUV4A4Dc4ywLAFlQyKFNkhaOqBCbJQ9U4jN1Se1Iu8vIC8IbAOSW968mACDHCj20SVKRaeqrY6sVZjRAN0HT0ILqCrvLyBvCGwDkTmFcUQBAjhDa9vnOxFEq82ADjsEKm4ZuPqxWgQILs4Q3AMiNwrqqAIAsIrR1V+wzdfv0Cay6SQoY0klVZZpfQKtt+yO8AUD2Fd6VBQBkAaGtZx+pKtNp1RUKFvh4gKBpaslh4+0uw1aENwDIrsK9ugCAQSK0HdxPpo1TqIA7TBYprZ9MHasRRQG7S7Ed4Q0Asqdwz6wAMAiEtr5VBvy65fDawtwymUnIir2tl9/+iTqSHXZX4wiENwDIDsOyLMvuIgDADQhtvdsd3a21DWu1bNMyDQsN03fnfVfXb67XXVsbFMlk7C4vP6yMzHSTqnb8QKYV1aSKSbr5ozdrcuVkuytzhBU7V+jipy5WNBWVJI0Ij9A9C+7RxIqJ9hYGAC5BcAOAfiC0Hejd5nf1q9d/pTUNa7QrsqvbYxfMvEAXH3WJvrxmo15o3qN4AZxqSnym/s3/lB57956uY8X+Yi0+YbEWTFxgY2XOQXgDgMErzKsNABgAQlvPrnnpGj2x5YkDQpskBXwBmYahu2ZMVG24SAGP75oMmYZ+e8QkLTl+kX7ykZ8o5AtJkiKpiK549gpdv+J6JTNJm6u0H9smAWDwCveKAwD6gdDWuzElY3o8XlZUpq8f8XVJUonfp4fmTNXYoHfDW8g0dOeMiTpxWJkk6fQpp+uBhQ+otqy26zn3r7tf5z92vhoiDXaV6RiENwAYnMK+6gCAgyC09a490a62RFuPj108+2IFfPs6KlYF/Prb0dM0IRRUkcfGBIRMQ7+eMVELPjSv7dBhh2rpp5bqY+M/1nVsVf0qfX7Z57Vy18p8l+k4hDcAGDjucQOAHhDaevdO8zta9PQi1bXXHfDYsNAwPXbmYwr5Qwc81ppM6Zy1m7S2PaJoxt2nHlOdA8d/O3OSPlJV1uvzMlZG97xxj25ZfYsyVmeTFp/h06K5i/SV6V+R4bEgO1Dc8wYA/VfYVx8A0ANCW++WbVymsx85u1tomztybte/f2PmN3oMbZJUEfDrL7MP0RdHD3f1qICgaWhsKKCn5h160NAmSaZh6vyZ5+vOU+9UVbBKkpS20lry6hJd8ewVBT8ygJU3AOg/VtwAYD+Etp4l00ldv+J6/XH9H7uOhf1hLT5hsT4x8RN6fvvziqViOqX2lH6tIi19f7d+8O42JSxLaRedhcKmoX+pLNWvZ0xUqd83oNfu7Nipy5+5XGsa13QdY2RAJ1beAKBvBDcA+AChrWe9BY6bPnqTplROGfT71kXjunhdnd7cE3X8rLciw1DIZ2jJobU6fUTFoLc4JtIJXb/iej24/sGuY4wM6ER4A4CDI7gBgAhtvVm+Y7mufO5KNcWauo7NnzBfi09YrJJAyZDf37Is/Xlnk37w7nbFMxklHXhGCpuG5ldX6KfTxqkq4M/Kez684WEtfpvqprMAACAASURBVGmxYulY17Fzpp+jRXMXKWAGDvJKbyO8AUDvCG4ACh6h7UCWZek3b/wmb001GhJJXbl+m/6xu02WLCUccGYq8Zkq9/l08+G1OnnYwe9lG4z1Tet12TOXdbtfcE7NHC05eYlGFI/I+ue5BeENAHpGcANQ0AhtB2pPtOuq56/S01uf7jpWHa7WDSfdoKNHHZ3Tz66LxnXv9kbd//5uWZI60vndQllkGDIM6ZiKEl1cW6OTqspk5rDzY1uiTVc/f/UBP+slJy/p1vSl0BDeAOBABDcABYvQdqCeWv3bsQoUz2T0SEOrbtmyS5uj8Zw3MSnxmTIlfWVMtb46rlrjQkW5+7APYWRAzwhvANAdwQ1AQSK0HWjZxmX68Ys/dtx9V2+0R/TrrQ16qqld7am0gqahjnRGQ1mLKzZNGYaUsizNKA3rG+NGaOGICgVN+/7sX97xsq589ko1x5u7jmXzfkI3IrwBwD4ENwAFh9DWXV+t/p2kIZHU6raIXmnt0D+b2/VOR0wJy1LQMOU3JEud/0iS8cE/GUmJjKWUZWlMKKBjK0p1QmWpjiov1rSSkHwOWtFiZMCBCG8A0IngBqCgENq6y1Wr/3yKpDOqTyS1M55UUzKllCVlLEsB01CxaWpkMKCRRQFVBXw5vV8tWxgZcCDCGwAQ3AAUEEJbd7lu9Z9LacvSu5GY1rRHtSOWVF0srq2xhHYnUh+MFLDkMwyV+EyNCRZpYrhIo4IBTSsJaXZZ8YCHZ9uBkQHdEd4AFDqCG4CCQGjbJ9+t/rOhJZnSK60dWt7aoeeb2/V2R0z+D+qMpTNK9/F6Q1LQNBQwDEUzGY0qCujYyhKdUFmmeRUlmloSyvn3MBiMDOiO8AagkBHcAHgeoW0fO1v9D8ZrbRH9qq5ej+5uVZEx9KYkH1ZsGrIkjQsV6ZLakTqjplJhn7P+m2BkQHeENwCFiuAGwNMIbfs4pdV/X6LpjP5a36xb6+r1fiypWCa7Ya03JR8Eti+NHqbzx43QhHAwD5/aP4wM6I7wBqAQEdwAeBahbR+ntvrf39ZYQnfU1WvpziYZyv/w7b0ChmQahmaXFes/JozUKcPKHBOMGBmwD+ENQKEhuAHwJEJbJze0+k9blu6oa9CSzTuUsqwPmos4Q7Fp6qjyYv3y8FqNzeNQ7oNhZMA+hDcAhYTgBsBzCG2d3NDqf92eqC56c7O2xZKKZOxZYeuL35CKDFNXTRmtr46tdsRIAUYG7EN4A1AoCG4APIXQ1snprf7jmYx+tnGH7tneqHjGkhtORMWmqcnFQd0xY4IOKXZGF0pGBnQivAEoBAQ3AJ5BaHNHq/9d8aS+8PoGbY7GFcu46xRkqnOswK3TJ+iTIyrtLkcSIwP2IrwB8DqCGwBPILS5o9X/6raIvvT6BrWn00q5+OwTNg1dOL5GV04a5Yitk4wM6ER4A+BlBDcArkdoc0er/783tOhb67Yo6rJVtt6ETUMnVpXpN0dMUsC0P7wxMqAT4Q2AVxHcALgaoc0drf7/uqtZl75d57qtkX0Jm4aOrijRA7MmK2g64783RgYQ3gB4E8ENgGsVemhzQ6t/SVpW36xL3vJeaNsrZBo6rqJU98+a7IiVN4mRARLhDYD3ENwAuFKhhzY3tPqXpJdb9uiLr2/wbGjbK2wa+kR1hW6fPsExWxIZGUB4A+AtvmuuueYau4sAgIEo9NC2fMdyXfjEhdrctrnr2PwJ83XbKbdpZMlI+wr7kK2xhD6z6l1FPB7aJCllSXXRuMKmqaMrnLEd0Wf6dNK4kzS+bLxe2P6CUlZKyUxSj295XHuSe3TM6GPkM3x2l5lTY0vHanbNbD2+5XGlMilFUhE9ueVJnTzuZFWGnNEVFAD6ixU3AK5SyKHNDa3+9+pIp/XxFetVF00obXcxeRQyDd03c7JOGlZmdyndFPrIAFbeAHgBwQ2AaxRyaHNDq//9XbJuix5uaFG8AFbbPqzMZ+ql46arushvdyndFPrIAMIbALcjuAFwhUIObW5o9b+/F5rb9eU1Gz3T9n+gAoZ06vAK3TNzkt2lHKDQRwYQ3gC4GcENgOMVcmhzQ6v//UXTGR338jrtSqTsLsVWYdPQ3UdM0inDy+0upUeFPDKA8AbArQhuABytUEObW1r9f9gP392u+99vLNjVtv0NC/j0ynHTVep3ZgOQQh4ZQHgD4EYENwCOVaihzS2t/j9sbXtEp6961/Ot//sraBr67Mgq3XhYrd2l9KqQRwYQ3gC4DcENgCMVamhbvmO5rnzuSjXFmrqOnTrhVF17wrWO38J25ur39ELLHrvLcJSgaeilYw/XmFCR3aUc1MMbHtbilxa7ZktuthDeALiJd69+ALhWIYY2y7J099q7dcETF3SFNp/h0xVHX6EbT77R8aGtLhrXq60ddpfhPJb02+2NdlfRp9OnnK4HFj6g2rJ9q4P3r7tf5z92vhoiDTZWllvzRs3TbafcprA/LElqiDboa499TZtbN9tbGAD0wJtXQABcqxBDW3uiXZc+fal+seoXXZ3+qsPVunv+3Tp3xrmu6PR37/ZGWWIDx4fFLUu/fb9RSRdsHz102KFa+qml+tj4j3UdW1W/Sp9f9nmt3LXSxspyi/AGwC1811xzzTV2FwEAUmGGtnea39E3Hv+GXm94vevYnJo5umv+XZpaNdXGyvovnsnowje30JCkF37D0OTioA4rCdtdSp+CvqAWTFygoC+oFTtXyJKlSCqihzc8rLA/rCNHHOmKXyQM1NjSsZpdM1uPb3lcqUxKkVRET255UiePO1mVoUq7ywMASay4AXCIQgxtyzYu09mPnN1tPts508/R3QvuduR8tt480tDKWttBdKQzunVLvd1l9JtpmDp/5vm689Q7VRWskiSlrbSWvLpEVzx7hTqS3twSy8obAKejOQkA2xVaaHNrq//efOyVt/VWR6zvJxawkGno0aOnuWLVbX+FODKAhiUAnMp7V0QAXKXQQtvOjp0679HzuoW2SRWTtPSTS10Z2t7cE9XmaNzuMhwvlbF051b3NfkYVTJK937iXn3h0C90HdvUuklnPXKWHtv8mI2V5Q4rbwCcyntXRQBco9BC2/Idy/WFZV/otnpx6oRTtfSTSx09n+1gltW3uKLxht1Skh5paJEbN7kU+Yp09XFX6ycf+YlCvpAkKZKK6Ipnr9D1K65XMpO0ucLsI7wBcCLvXRkBcIVCCm1ub/V/MM81tytldxEukchYej/u3pBTaCMDCG8AnMZbV0cAXKGQQpsXWv33JmNZWrcnancZruE3DK1si9hdxpAU2sgAwhsAJ/HWFRIAxyuk0PZO8zv64rIv6umtT3cdm1MzR3/61J909KijbawsOzZG4zLk3uCZbx3pjJa37rG7jCErLyrXzR+7WZfOubTr72xjtFFff+zr+t2bv3PldtCDIbwBcApvXSUBcLRCCm1eafV/MKvaInLxgmHeWZJeaHZ/cJMKb2QA4Q2AEzAOAEBeFEpo81qr/4O57O06/WFHk91luErAMLTppFnym95JvIU0MoBRAQDs5J2rJQCOVSihzWut/vvyXsS+MQANZy1UfOXLXV/H/vGo6s84SYnXX9Wufz1KVjql5u9drPqFx6t+4fHadeo87Zo/r+vrtpv+y5a6fYbUmPRWO5dCGhnAyhsAO3nnigmAIxVKaPNiq/++1DukQ2L0sYfU9sufqvInv5Rv5Jiu41U/vU01f3tRNX97UaGPn6aSL5zX9XX5oqttqTVgGNqVcMbPLZsKaWQA4Q2AXbxz1QTAcQohtHm51X9fmhywchR5+L/V/qubVPWz21R0xGy7y+mXXQ4JvLlQKCMDCG8A7OCNKycAjlMIoc3Lrf77YlmW2tMZW2uIPvRndfz2V6q68Q4FDp1hay39lbYsNSTsD7y5VCgjAwhvAPLNG1dPABylEEKb11v99yXtgLZWiZXLFTh8pvyTptpdSr9lJCUKoCdYoYwMILwByCdvXEEBcIxCCG2F0Oq/L2lZtk9wK/vOD5TaVqe2JYtdEwQsda66FYJCGRlAeAOQL964igLgCF4Pbcl0Ute9fJ2+/8/vK5aOSeps9X/DyTfoynlXKmAGbK4wf3wyZHf8MKuGqWrJHUquXaX2m39iczX9Y0jye3gLbU+OG32c/nT6nzSrelbXsce3PK6zHjlLG1s22lhZ9hDeAOSD+6+kADiC10NbobX674vPkO0rbpLkq65R1ZI7FV/xotpvW2J3OX0yJRV5aIZbfxXCyADCG4Bcc//VFADbeT20FWKr/74YhqEyv8/uMiRJvpGjNezGXyv23JNqv+uXdpdzUD7DUE1R4azM7q8QRgYQ3gDkkmG55cYAAI7k5dBmWZZ+88ZvdMvqW7q6RvoMnxbNXaSvTP+Kp7tG9sfxL7+ljVH7hnC7UZnP1F+OOkQzy4rtLsVW65vW67JnLut2n+icmjlacvIST9wnumLnCl381MWKpqKSpBHhEbpnwT2aWDHR3sIAuJq7r6oA2MrLoa2QW/3318ig3+4SXCdhWRoVLMwVt/15fWQAK28AcsHdV1YAbOPl0Fborf77a1pxyO4SXMeypOEBAq/k/ZEBhDcA2ebuqysAtvByaKPVf/8dV1mqEp+7/7zz7dCSkExWa7t4fWQA4Q1ANnHGBTAgXg1ttPofuDnlxQUzkywbTEkfqSq1uwxH8vLIAMIbgGxx71UWgLzzamij1f/g1IaK5GP1qN9KfKaOqSixuwzH8vLIAMIbgGxw75UWgLzyamij1f/gGYahWWVhu8twjUTG0pxygtvBeHlkAOENwFC592oLQN54MbRZlqW7196tC564QE2xJkmdrf6vOPoK3XjyjSoJcIHdHydVlSnAolu/lPhNjaSjZL+cPuV0PbDwAdWW1XYdu3/d/Tr/sfPVEGmwsbKhIbwBGAp3XnEByBsvhjZa/WfPGTWVbJfsh4AhnTmyyu4yXMWrIwMIbwAGiwHcAHrlxdD2TvM7WvT0Is8O/rXDJ1e+o5VtEbvLcLSgaei5Yw7ThHDQ7lJcJ2NldM8b9+iW1bd0/aLFZ/i0aO4ifWX6V1z7ixaGdAMYKHdeeQHIOS+GNlr958YltTUqZSzAQR1VVkxoGySvjgxg5Q3AQLHiBuAAXgttyXRS16+4vlvXyLA/rMUnLKZrZBakMpaOeOENtaTSdpfiSCU+U3dMn6BTqyvsLsX1dnbs1OXPXN6tmdCkikm6+aM3a3LlZBsrGzxW3gD0l/uuwADklNdCG63+c89vGvr6uGoFTXduWcu1kGnoX4eX212GJ3hxZAArbwD6ixU3AF28FtqW71iuK5+7sqtrpNTZ6v/aE66la2SW1ceTmvfSOsU5pXRTZEiXTxytSyeOtLsUz3l4w8Na/NJixdKxrmPnTD9Hi+YuUsB0X/dOVt4A9MV9V2IAcsJLoY1W//lXEwzopGFlnFQ+JJFJ6L3Nt2hb+za7S/Ecr40MYOUNQF9YcQPgqdDWnmjXVc9fpae3Pt11rDpcrRtOukFHjzraxsrcz7IsLd+5XOub1iuaiiqajOq91vfUGm/VormLVFk2Q6esWK9YhtOKJCkTV7j9CZW2PqiAGdDZh5+t82eer4og97plU1uiTVc/f/UBf+eXnLxEc0fOtbGywWHlDUBvCG5AgfNSaKPVf249uulR/edz/9njY6WBUr30pZf08807deuWXYoQ3lSsDhXX/YcMJbuOVQQrdNGsi/SFQ7+ggM992/mcymsjAwhvAHrirqsyAFnlpdBGq//ca4m39PrY3u1d/1E7UjVBAknINLT0qCP1wGn3aNaIWV3HW+Ot+tmKn+kzf/2MntzypPjdaXZ4bWQA2yYB9IQVN6BAeSW00eo/P1rjrbp19a3dfs57mYap3y/8vY6oPkKS9FpbRJ9Z/W7BbpkMGob+fVSVbjqs894ry7L02JbHdPPKm7V9z/Zuzz2q5ihdcfQV3cIdhsZLIwNYeQOwP98111xzjd1FAMgvr4S2nR079a0nv6Wntj7VdWxSxSTdNf8uHTPqGBsr845kOqmlby/VZc9eppW7Vvb4nMuPvlzzJ87v+npUMKDGZErr9kSVKsDsVhHw6Q+zpihodv5dMgxDh1Qeos8f+nmVF5VrbeNaJdIJSZ3/Df/l3b9oU+smTR8+XeVBxgYMVWlRqU6fcrpa4616c/ebkjpXix/a8JBqy2t1SOUhNlfYf2NLx2p2zWw9vuVxpTIpRVIRPbnlSZ087mRVhirtLg9AnrHiBhQYr4Q2Wv3nlmVZerLuSd208iZtbd/a7bEiX1FX8Jg7cq7uWXDPAf/tJDIZfWrVu3prT1TJAjrLhExD/3PUVB1VXtzrc1piLbpzzZ364/o/KpVJdR2ngUn2eWVkACtvACSCG1BQvBDaLMvSb974jWeaEDjRmoY1WvLqEq2uX93t+NjSsfrO3O+oOlStb//j2xoeHq47Tr1DY0vH9vg+jYmUPvrK22pMpnp83GvCpqEbDh2vz44a1q/n17XV6eZVN+uJLU90O04Dk+xa37Relz1zmeubFhHeABDcgALhhdBGq//c2ta+Tb9Y9Qs9uvnRbsfLisp04awLddZhZ6nIV9R13LKsPoPym3uiOn3lu4pkMjmp2SmKTVNfHjNci6f2HGIP5rX613TDqzdoTcOabsdry2q1aO4inVJ7Cr+QGCKvjAwgvAGFjeAGFAAvhDZa/edOa7xVd625S394+w9KZva1rvebfp112Fm6cNaFQ9q690Jzu768ZqOiHm1WEjYNLRxRqVsOr5U5yIBFA5Pc88rIAMIbULgIboDHeSG0Ldu4TD9+8ceuv0/FaZLppB5c/6DuWHOHWuOt3R47dcKpWjRnkcaXj8/KZz3X1K5z13ovvBWbhhZUV+jW6RPky8KFfyKd0NK3l+rONXeqPdHe7bFPTPyELp1zqcaVjRvy5xSyl3e8rCufvVLN8eauY/MnzNfiExa75v5YwhtQmAhugIe5PbTR6j83DtZ4ZNaIWfrPo/9Ts2tmZ/1zX2rZ07nyls7ICxsnw6ahz40app9OGzfolbbe0MAkt7wwMoDwBhQeghvgUW4Pbb1dWN300Zs0pXKKjZW5W1+NRxZMWJDTLWMbI3F97rX31JhIKe7i00/INHTNlLE6b1x1Tj+HBia5k0gndP2K6/Xg+ge7jhX7i7X4hMVaMHGBjZX1H+ENKCwEN8CD3B7aaPWffQNtPJJLbam0vrp2k1a3RVzXtMRvSGHT1H2zJutfKkvz9rk0MMkdt48MILwBhYPgBniMm0Mbrf6zL9eNRwYrY1m6d1ujrtu4Qwkr44pB3cWmqeMqS3TTYbUaGcz/BT0NTHLH7SMDCG9AYSC4AR7i5tBGq//symfjkaHYHkvoP96q02sOXn0LmobCpqmfHzZeC0dU2l0ODUxyxO0jAwhvgPcR3ACPSGfSuuqFq/TIxke6jrkltNHqP3vsajwyFJZl6X92Neu772xTyrIc03nSVGdo++SISl03dawqAn67S+qmNd6qO16/gwYmWeT2kQGEN8DbCG6AB7g5tNHqP3vsbjwyVC3JlH7//m7dsa1BkXRGHWl7VuDCpqGMpIXVFfpmbY1mlRXbUkd/0cAk+9w8MoDwBngXwQ1wuZ5C2+enfV5XHXeVo0Mbrf6zx0mNR7IhY1l6tqldt9XVa0VbhyzLUiIPZ6oSn6kSn6lvjq/RF0cPU5XDVtj6QgOT7HLzyADCG+BNBDfAxdwa2mj1nx1ObTySTVtjCd27rVH3v98oS1LKshTL0lZKn6Rin6l4xtJxlSW6uHakTqwqzfpMtnyigUl2uXlkAOEN8B6CG+BSbg1ttPofOrc0HsmmZMbSm3uiWtnWoeeb2/VqW0QtybRCpqG0JcUzGaUP8vqgaajIMJRW54re9NKwTqws1bzKUs0pL9Ywl62u9YUGJtnl1pEBhDfAWwhugAu5MbTR6n/o3Nh4JJd2J1J6Y09UO+IJ7YqnVBeLa2c8qaRlybIkv2mozOfThHCRxoSKNLLIr0OKQzqkOOjqVbWBoIFJ9rh1ZADhDfAOghvgMm4MbbT6Hzq3Nx7JlWg6o12JpHbFk9qZSKo5mVbqg+DmMzq3Qo4sCmhUMKCaooCGBXwF+XOigUl2uHVkAOEN8AaCG+AibgxttPofGq81HhmKtGVpfUdMK9s69ELzHr3S2qFdiaSCpim/pIw674HbewucYUg+GfIbnY8lMpYCpqGZpWGdWFWmeRUlml1erHK/z8bvKr9oYDJ0bh0ZQHgD3I/gBriEG0Mbrf4HrxAaj/RHxrL0TFO7bq+r1yutHQqYhizLUmSIDUr8hhQ2TUUzlkYH/frq2BE6y4WdJAeDBibZ4caRAYQ3wN0IboALuC200ep/8Aqx8UhPmpIp/eH93bozTzPd9s5uO+2D2W1HOnx2WzbQwGTo3DgygPAGuBfBDXA4t4U2Wv0PDo1HOq1ui+hXdfV6bHerTEnRLLX+7y9TnR0ox4WKdEntSJ1RU6mwz3l/z7KJBiZD48aRAYQ3wJ0IboCDuS200ep/cGg8Im2KxPWtdVv0dkdU8Yyl3K6v9U+Jz5Qp6bqpY/W5UcM8/2dAA5OhcdvIAMIb4D4EN8Ch3BTaaPU/ODQekVIZS7fW7dLNW3Yp4ZDA9mHFpqlZZWHdMn2Cxoe8/ech0cBkKNw2MoDwBrgLwQ1wIDeFNlr9DxyNRzqtbY/owje3aEc8kfctkQPlN6SAYeh7k0br/PEj5PN4cKGByeC5bWQA4Q1wD4Ib4DBuCm20+h8YGo90sixLN23epV/W7VLM4YHtw4pNQ1OKQ/rDkZM1osh529+yjQYmg+O2kQGEN8AdCG6Ag7gptNHqv/9oPLJPNJ3RN9dt0bNN7YpmnLgxsm9+Qyr3+/THI6doVgF0n5Q6V4nvXHOnlr69lAYmA+CmkQGEN8D5CG6AQ7gltNHqf2BoPLLPrnhSZ772nrbFEq5baetJ2DT0y8NqdfrIKrtLyRsamAycm0YGEN4AZyO4AQ7gltBGq//+o/FId9tiCX1y5TvanUwp5aGzTsg0dN3UsTp7TLXdpeQVDUwGxk0jAwhvgHMR3ACbuSW00eq/f2g8cqDtsYQ+8eo7akqmlLa7mBwIm4b+qwDDGw1MBs4tIwMIb4AzEdwAG7khtNHqv39oPNKzpmRKp7yyXvXJpNIePtuEPtg2eUYBbZvciwYmA+OWkQGEN8B5CG6ATdwQ2mj13zcaj/QumbF0xqp39caeiJIFcKYJm4b+OmdqwTQs+TAamPSfW0YGEN4AZyG4ATZwQ2ij1X/fDtZ4ZNHcRZo/YX5Br0he/nad/rKr2fEz2rJpWMCnZ485rCBGBfSGBib945aRAYQ3wDkIbkCeuSG00er/4Gg80rcHd+zW997Z7tqW/4Pll3R4aViPHj3N80O6+0IDk/5xw8gAwhvgDAQ3II+cHtpo9X9wNB7pn13xpI5f/pY60oUV2vYqNg19b/JoXTC+xu5SbEcDk/5xw8gAwhtgP4IbkCdOD220+u8djUcG5kuvb9Bzze2eavs/UGHT0HPHHq7xocJeed2LBiZ9c8PIAMIbYC+CG5AHTg9ttPrvGY1HBu5vDS26ZF2dIgW2RfLD/IZ0dHmJ/ueoQ9gOuB8amPTN6SMDCG+AfQhuQI45ObTR6r93NB4ZuNZkSse+/JZaUl6c1jZwxaap6w8dp8+OGmZ3KY5DA5ODc/rIAMIbYA+CG5BDTg5ttPrvGY1HBu+qd7bpgR27FS+gLpJ9KfOZWnvCEQr57F9ZdyIamPTO6SMDCG9A/hHcgBxxcmij1f+BaDwyNJF0Rkc8/0bBb5H8sBKfqZ9OG6fPserWKxqY9M7pIwMIb0B+EdyAHHByaKPVf3c0HsmOP+zYrf/zznZ1ENwOcGhxUM8ee7jdZTjewRqYnDbxNH17zrcLtoGJk0cGEN6A/CG4AVnm1NBGq//uaDySPZZl6YTlb2ljNGF3KY4UNg39dc5UzSortrsUV6CBSc+cPDKA8AbkB8ENyCKnhjZa/XdH45HsWtXWoTNXv6co97b1yCfp0zWVun3GRLtLcZWtbVt106qbaGCyHyePDCC8AblHcAOyxKmhjVb/+9B4JDe+8cZmPdLQIjZJ9i5oGnr9+BmqDPjtLsV1aGByIKeODCC8AblFcAOywImhjVb/+9B4JHeakikd9eKbdJLsQ9g09N1Jo3VRbY3dpbgSDUwO5NSRAYQ3IHcIbsAQOTG00eq/E41Hcu/e7Y1a/N52tkn2w4RQkZb/y3S7y3A1Gph059SRAYQ3IDcIbsAQODG00eqfxiP5dO6ajXpsd5vdZbiC35De+shMlfl9dpfiejQw2cepIwMIb0D2EdyAQXJiaKPVP41H8m3m82+oIZnq+4lQmc/UvTMn6SNVZXaX4hk0MNnHiSMDCG9AdhHcgEFwWmij1T+NR+zQmOi8vy3JaaRfAoZ0xcRRunTiKLtL8RwamHRy4sgAwhuQPQQ3YICcFtoKvdU/jUfs80Rjq761bova0/ST7K/jK0v1l6MOsbsMT6KBSScnjgwgvAHZQXADBsBpoa2QW/3TeMR+1214X7fV1TMGYADKfKbeOXFmQaz+2IUGJp2cNjKA8AYMHcEN6CcnhbZCbvVP4xHn+MJrG/Rsc3vfT0SXgGFo7QnMc8sHGpg4b2QA4Q0YGoIb0A9OCm09tfofHhquJScv8XyrfxqPOMvJy9/W+kis7ydKij71d0X+fL/SdZtlFJfIf8g0lZx9vszSMrX/6udKvvOWrLYWjfxH9z/b+oXHd/vaSsQVPuNzKv/29yRJ8VXL1f6Lnypdv1OBw49QxZU/lm/UmG6vybS1qvHcz8g/fqKG/fLeznqe/Jvaf/5f+97XsqR4TMPu+L0C06Yrs6dd7bder/grL0iSis/4vErPu6jr+Yk3XlP7bUuUrtsk3+ixKrv0+yqaeVSfP4dSQfNuwwAAIABJREFUn6lH5k7ToSWhfv3cMHSF3sDEaSMDCG/A4BHcgD44KbT11ur/hpNvUE2xdwf70njEmWY8v1a7k+k+n9fx5/vVsfRelX/nKgXnHS8F/Eq88qISa1YpvPDflHxjtYyKSrX+n8sOCG77y0Qjajzz46r8v7eo6Mi5yrQ2q/HLZ6j88h8qePxJ2nPP7UquXa1ht93X7XVtSxYrtXWzZFldwe3Doo8+pI7779LwBx6SYRhq/dmPZEUjqvjeYmVamtV8+YUq+fL5Cp/26c4g+JVPd34/J/6rYv94VO23/EzVv18ms6z8oD+Lcp+pu4+YpJOG0Vky3wq5gYnTRgYQ3oDBsadnOeASTgptyzYu09mPnN0ttJ0z/RzdveBuz4a21nirlqxYojP+94xuoc1v+nXO9HP093//u86dcS6hzSatqb5DW2ZPuzru/ZXKv/19hU46RUY4LMMfUPD4k1V20SL5aycqvPDf5J/YdyOd+HNPyqwapsCsOZKk2D//If+EyQp99FQZRUGVnnuRkhveUapuU9drEm+8ptTm9xT+xKcP+t7Rxx9WaP6nui5g4y89p5IvnicjFJZv1BiFF35G0Uf/KklKvvm6zKrhnZ/r8yl86idlVlYp/s+n+vwe0pJ2JZJ9Pg/ZN7tmth447QEtOXmJxpaO7Tpe116nRc8s0rmPnntAqPMK0zB1/szzdeepd6oqWCVJSltpLXl1ia549gp1JDvyWs+8UfN02ym3KewPS5Iaog362mNf0+bWzXmtA3AbghvQC6eEtmQ6qetevk7f/+f3u24yD/vDuuHkG3TlvCs9OZ8tmU7q/nX3a+FfFup3637XrVvkqRNO1UOffkhXzrvS8/enOFnaspTux36N5Lo1shIJBU/82JA/M/rYMoVO3ReuUps3yD9lWtfjRjgs35hxSm3eIEmy0mm1//JnKvv296SDrCikd76v5JpVCs//VPcH9tuQYlmWUpve2//BA56b2rShz+8hbVmK0IXTNoZhaMHEBXroMw/piqOvUFnRvpXP1fWrdfbfztaVz16pbe3bbKwyd44bfZz+dPqfNKt6X3fNx7c8rrMeOUsbWzbmtRbCGzBwBDegB04JbTs7duq8R8/rNp9tUsUkLf3kUk/OZ7MsS09seUKf/uundf2K69WWaOt6bNaIWbr/tPv184/+nG6RDpCyLPVnc1WmrVVmRaUM39CacXSGq5UKLzi965gVjcgoKe32PLOkVFYkIkmK/GWpAocfocC06Qd97+gTyxSYeZR8o/etwgSPOV4dS+9VJtKh1PY6xf7+V1nxzl+cBKbPUqaxQdGn/i4rlVT0sYeUfn9b1+MHY+n/s3ffgW3U5x/H33faklfsOLYz7Oy9IANICmHv1dKyV0vKXgmzvwJllULYGwplz1JKgTASaAk7m+xJppM4XvG2rHX3+8PEiWM7lm2tOz2vfyDSSfoaHOk+urvPg8y9SwB2i52LRlzEZ7/5jAuGX4BV3fP7+dnmzzj1P6fy8MKHWzTWmkGuJ5eXj3+Zs4ac1XTbpqpNnPPJOczaPCuma5HwJkTHSHATYh+JEtrmFc3jrJlnNZvPdkzBMbx90tumnM+2rHQZF31+EdPnTG/WFtkrpRcPTXmIN054Q9oiE0i4V8SoaeloVZXooWD7G++H94tPsI0c2yxcKS43en3zU7z0+joUt5tQWQn1H7xNyiVXt/vcDbNn4jr2lGa3pV59M4rDQfkFp1F52zScRx6PpXtO48+UnkHGvY9S/683KD3jaHzzf8B+4EGo2eGdsiwfvIkj3ZHOzRNu5qPTPuKYgmOabg9oAV5Z+QonfXASb6x6g0DIXKe32i12bjv4Nu771X04LY1FOfXBem78+kZmLJjR7CyHaJPwJkT45PNDiL0kQmjTdZ0Xl7/IpV9c2jSfzaJYuHH8jTw85WHTzWfbVrONm76+ifM+Pa9ZW2SqPZUbx9/IR6d/xHF9jzNtaYBR2RQlrPlttuGjwW7D991X7W+8Hw1fzGx2tA3A2ncAwQ3rmv6se70Ed2zD2ncAgTUr0crLKP/9GZSecTQ1Tz9IYM0KSs84Gj2059o8/4olhMpLcUw5utlzq2nppP/5PrLf/5LuL7+PrmtYh45out8+ZjxZz75Jjw+/Jv3/7iVYuBnb0JHt/hwqYJXf5YTTJ60Pjxz+CK+f8HqzId1VvioeWPAAp394Ol9u+RKz9bmdMuAU3jjxDfJT85tue33V60ydNZXS+tKYrUPCmxDhkeAmxC8SIbTV+Gu47qvreHzx403NX1nOLF489kUuGnGRqcKLFI8Ym6IouNT2fx/VlFRSLr6Cmifup+G7r9AbvOjBAL5531Hz/GPouo7u90Gg8Rt+3e9D9/ubPYd/xRJCZSU4phzT7Hbnr44guHkDDd98ie73Ufv637H1H4Q1vx+OiZPp/vYnZL7wDpkvvEPKxVdgHTiUzBfeQbFYmp6jYdbHOA89CtXd/AuR4PbCX44UhvDN+w7vzH+Tcv4fm+4PrF+DHgyg1dVS++yjWLJzGhsz22FVFDJlhlvCSsYCkyGZQ3j75Lc5os+e61AXlyzmzJlnsqh4UczWIeFNiPbJOAAhSIzQlixV/4FQgHfWvsNzS59rdg0bNJ4KOu3AaXINm0GM+2El233hnVLl/fJT6v/1BsGtm1BdHqyDh+E57xIs3XtQdu5JzbZVc/LIfvvTpj9XP3IvekMD6f93775Pi2/RXGqeeIBQcVHjHLdb7m4xxw0a6/69n37QbByA7vdResbRpN/1EI4DD2q2fcOc2dQ8/SBabS3W3vmkXHpds2BWec+t+H+Z8WafMIm0a25B7ZbZ7n+HVIvK22MGMD7dXEfOzcgf8vP2mrd5ftnz1PibD5o/oe8JXHvgtfRO7R2n1UVeoowMkFEBQrRNgptIeokQ2mZunMldP9zV1BoJjVX/08ZNM01rpK7rfLn1Sx5d9Giza9igsXjkpvE3yTVsBnPCwnX8VFMf72UYiltVmTNxCPkuR7yXIsJU5avi+WXP8/aatwlqe67VtKk2zht2HlNHTTVVw+3cornc/PXNVPgqmm47tuBY7p58d8xO1ZfwJkTrJLiJpBbv0BYIBZixYEaz1kiX1cXdk+82VWvkstJlPLTwoWbXsEFj8ci0cdM4tuBYU50GmiwuXbGZj0or470MQ7EosPGw0ThUuVLBaAqrC3l08aN8seWLZrenO9K5fPTlnDXkLGwWc3zRtrNuJzfMuaFZOVa/9H48dvhj9M/oH5M1SHgToiUJbiJpxTu0tfXB+Ojhj5qmNXJbzTYeX/x4s2vYoLF45LLRl3HO0HPkGjYD+8e2Uu7ZsIMGTT5GwtXHaWfBIfsfTyAS25KSJTy48MEW17rlp+Yzbdw0jso/yhRfRPlDfmYsmMG7a99tus1tdXP35Ls5ru9xMVmDhDchmpPgJpJSvEPbvKJ53PzNzU2tkdB4fdc9k+8xRWtkla+KF5a9wFtr3mpWK21VrZwz9BwuG32ZqU4tSlZLquv57ZKfqZWB0mE7I6cbTw8viPcyRBfpus7sLbN5dNGjbK/d3uy+A3ocwI3jb2zWTmlkH2/4mLt/vDtup/JLeBNiDwluIunEM7Tpus4/Vvwj7hd/R4sUjyQXv6Yx4JvlMlA6TG5V5d7BvTg3LyveSxERkiwFJmt3rWX6nOktyrMemvIQ2e7sqL++hDchGklwE0klnqGtxl/Dn7/7M18V7plnleXM4qEpDzE+d3xUXzvapHgkeU2Zv4a1dQ3tbyjwWFQ+GTeIoR5XvJciIiwZCkyq/dXc9t1tzT7Duru689CUhxiXMy7qry/hTQgJbiKJxDO0mbnqX4pHzG/3x0Rr/x//b902Xt5ehnyQtM+GzspJA0lzpMZ7KSJKzF5gEu+RARLeRLKT4CaSQjxDm1mr/qV4JDksLV3K9V9dT12gjvzUfPqk9sFpdZLnyeOy0ZfxQ5WPqSs3UyfXue2frmFrWEF2+WNM7jWZYwuO5Yg+R5BiT4n3ykQUmL3AJJ4jAyS8iWQmwU2YXrxCm1mr/qV4JLn8bd7feGvNW63eN6r7KN448U3GfL+S0kCw1W3ELzQv6aWPY/etbLrJptokxJmY2QtM4jkyQMKbSFaWO++88854L0KIaIlXaNtZt5Mrv7yS/xb+t+m2fun9eOHYF5iYOzFqrxtNgVCAt9a8xbQ505i/c37TaTLQWDzyxBFPcGL/E3FanXFcpYgUTddYWrqUWZtntdjp3M1ldXHesPPQdJ35VXUE5WvANqVZdMbo31PmLWu6TdM1Nldv5r9b/8trq15jRfkKQlqIXim95Gi1CSiKwsCMgZw55EzS7GksL1uOP+QHGj8j/r3+32yu2sywrGGkOdLivNqOS7GncMqAU6jyVbGyvPELiUpfJR9t+Ij8tHwGZgyM2mv3SunF2B5jmb1lNkEtSH2wni+3fMmU3lPIcGZE7XWFiDc54iZMK16hzWxV/1I8kjw0XWNZ6TJmbZ7F7C2zKakvaXNbt9XNmye+ycBuA9kVCHLADyvxyTy3VrlUhVv753FZnx5srd7K7C2zmb15Nqt3rW51ezkSZ05mLjCJ18gAOfImko0EN2FK8QhtZqz6l+IR8+tIWNstz5PHy8e/TK+UXk23/XHFZj4prUSudGvJoSosmzSCdJu12e0S4pKTWQtM4jUyQMKbSCYS3ITpxCO0ma3qX4pHzC3csJbuSOfo/KNJsaXw6qpXAejp6clLx7/ULLQBLK6u44yffsYrR92asQCn52Tw9PC++91OQlzyMWOBSbxGBkh4E8lCgpswlXiENjNV/UvxiHl1NKwdW3AsE/ImYFNtaLrGkz89SWl9KVeNvYq8lLwWj9N1ncnz1rDR64v2j2IoLlXhwwMHMTrVHfZjJMQlDzMWmMRrZICEN5EMJLgJ04hHaDNL1X8gFOCdte/w3NLnqPZXN7vvmIJjmHbgNPqk9YnT6kRndSWsdcbMkkquXb2Vek1OmASwKHBgqoePxw3q9HNIiEsO/pCft9e8zfPLnqfGX9PsvhP6nsC1B15L79TecVpd58RjZICEN2F2EtyEKcQ6tJml6l+KR8wn1mFtb7quc+bSDfxYUYsMB2g82jZn4lAKXI6IPJ+EOPMzW4FJPEYGSHgTZibBTRherENbWx9Ejx7+KAMyBkT89aJFikfMI55hbV9FPj+T565J+qNublXlhr65XFUQndOlJcSZm5kKTPwhPzMWzODdte823ea2url78t0c1/e4qLymhDdhVhLchKHFOrSZoepfikfMIZHC2r5e3lbKPRt2UJ+kRSUKMMjt4KuJQ7HE4MsPCXHmZaYCk1iPDJDwJsxIgpswrFiGNjNU/UvxiPElclhrvk6d4xetY0WNNynHAzhVhU/HDWZ4iivmry0hznzMVGAS65EBEt6E2UhwE4YUy9Bm9Kp/KR4xNqOEtX1t8fo4asFaakPJFd1cqsL0vrlcU5AT76VIiDMZsxSYxHpkgIQ3YSYS3IThxDK0GbnqX4pHjMuoYW1f31XUcP6yjTQkySmTTlXhmKw0/j6ib8IdhZcQZx5mKDCJ9cgACW/CLCS4CUOJZWgzctW/FI8Yj1nC2r5eLCzlrxuL8Jq8rMQKDPQ4+XzcYJyW6IwfiZRwQpxdtTOp1yQJcQnMDAUmsRwZIOFNmIEEN2EYsQptRq76l+IRYzFrWNubruvc/vN23tyxy7ThzaJAD7uNWeMG08NhnP83ICHODIxeYBLLkQES3oTRSXAThhCr0GbUqn8pHjGOZAhr+9J1nVvWbeO9nRWmC29WBbJsVj4bN5ieTmN/KSIhzrh0XWfWllk8tugxQxaYxHJkgIQ3YWQS3ETCi1VoM2LVfyAU4N217/Lcsueo8lU1u0+KRxJHMoa1fem6zh0/b+cNEx15sysKPexWZo4bTK7BjrS1R0KcMRm9wCRWIwMkvAmjkuAmElosQpsRq/6leCTxSVhr3UvbSrl7ww7DF5a4VIVRqW5eG9WPDJs13suJKglxxmPkApNYjQyQ8CaMSIKbSFixCG1GrPqX4pHEJWEtPN9V1HDx8k3UhzRDznlzqQpn52Vxz8BeWNXk+rsmIc5YjFpgEquRARLehNFIcBMJKRahrbWq/wN6HMBDUx5KyKr/topH0uxpXDb6Ms4eerYUj8SBhLXO2eL1cenKzayv81FvkFMnbQo4VJUHBvfmjNzMeC8n7iTEGYcRC0xiNTJAwpswEgluIuHEIrS1VvV//rDzmT5+esLtUEvxSOKRsBYZmq7z+o5y7vp5B35NI9j+Q+LGpaoc1i2Fh4b2Idsu/x/3JSEu8Rm1wCQWIwMkvAmjkOAmEkq0Q5uRqv4DoQDvrH2H55Y+R7W/utl9UjwSexLWoqfI5+e61VtZUFWHN8GufXMoCm6LyuPD8jm2u3xBEg4JcYnNiAUmsRgZIOFNGIEEN5Ewoh3ajFL1L8UjiUPCWuzous6nZVX8bWMR2xsC+LT4Xv/m+WWI9nl5WdzUL5dUqyWOqzEuCXGJy2gFJrEYGSDhTSQ6CW4iIUQ7tBml6l+KR+JPwlr8/VRdz3OFJXxeVoUKMTsKpwIOVaGP087VBTmckp2ByxK5kSPJTkJcYjJagUm0RwZIeBOJTIKbiLtohjajVP1L8Uh8SVhLTBWBIG8X7eK5whLqQhr1IY1ofGC5VAUNOKl7Opfl92BMqjsKryL2JiEu8RipwCTaIwMkvIlEJcFNxFU0Q5sRqv6leCR+JKwZh6brfFtRyxflVXxfUcvP9T4cqkJQ1zs8D84CuC0qDZpOps3C+HQPU7qlcmqPDNPPY0tUEuISh5EKTKI9MkDCm0hEEtxE3EQztCV61b8Uj8SHhDVzCGg6q+u8LK6uZ15lLVsb/JT4g+wKBKkLNR5ZVwAdsCkKGTYL2TYreQ4bo1PdTEj3cECam24S1BKOhLjEYJQCk2iPDJDwJhKNBDcRF9EMbYlc9S/FI7EnYS15hHSd6mAIn6YR0hsbIT1Wi1ynZlAS4uLPKAUm0RwZIOFNJBIJbiLmohXaEr3qX4pHYkfCmrlVBoL8VF3Pwqo65lbVscPnpzwQojYYwqooqL/8NdJpPDpnVxW62axk26yMTHVxSEYK49I89HPZ5e+cQUiIi6+t1Vt5bPFjCV1gEs2RARLeRKKQ4CZiKlqhLZGr/qV4JDYkrJmXT9P4pLSKT0srWVhVR3kghFNV8IY6N7TbY1HR9cZgNzLFyRGZaZyZl0lvp/w9NAIJcfGT6AUm0RwZIOFNJAIJbiJmohXaErXqX4pHok/Cmrlt9fp4aXsZb+woR4em69ciza4oKApMSPNwVX4PpmSmosqROEOQEBd7RigwidbIAAlvIt4kuImYiEZoS9SqfykeiS4Ja+am6Tpf7arh6a3FLKquR9d1/DH8lPJYVDwWlcv6ZHNuXpYUmBiIhLjY2l+ByfF9j+e6A6+La4FJtEYGSHgT8STBTURdNEJbIlb9S/FI9EhYMz9N13l9RzkPbdpJvaZF7ehauPae7XbnwF70cMjvkpFIiIudRC4widbIAAlvIl4kuImoikZoS8SqfykeiTwJa8ljfV0DV6zawsZ6H/VafAPbvmwK2FWVewb24py8TPl7bEAS4mIjUQtMojUyQMKbiAcJbiJqohHaEq3qX4pHIkvCWnIJaDqPb9nJU1tL8Gs6iRXZmnOrKsNTnDw9vIAClyPeyxGdJCEu+hK1wCQaIwMkvIlYk+AmoiLSoS3Rqv6leCRyJKwlp9W1Xn6/fBMl/mDCHWVriwWwqwq39Mvjsj7ZcvTN4CTERU+iFphEY2SAhDcRSxLcRMRFOrQlUtW/FI9EhoS15PZpaSVXrdqCVzPmx49bVTgyK42nhhXglOHepiAhLjoSscAkGiMDJLyJWJHgJiIq0qEtUar+pXik6ySsCU3XmbFpJ88Xlhg2tO3mVBUKnA7eHTuAXCkuMRUJcZGXiAUmkR4ZIOFNxIIENxExkQxtiVT1L8UjnSdhTewW0nWuXrWFWWVV1Bs8tO1mVSDdamHmgYPp55br3sxIQlxkJVqBSaRHBkh4E9EmwU1ERCRDW6JU/UvxSOdIWBP7Cuk6l63czH/Lqw1/pG1fKpBmtfDJuEEMcDvjvRwRRRLiIieRCkwiPTJAwpuIJgluossiGdoSoepfikc6TsKaaIuu61y5agufl1XjNUgJSUcpQDebhc/HDSZfGieTQkdC3HF9j+Pw3odLiNtHIhWYRHpkgIQ3ES0S3ESXRDK0xbvqX4pHOkbCmgjHg5uKeGar8a9pa48K9HLa+WrCEFKslngvR8SQhLiuSaQCk0iODJDwJqJBgpvotEiFtnhX/UvxSPgkrImO+Ly0istXbabB5KFtN4eicFCGh3fGDECV616TkoS4zkuUApNIjgyQ8CYiTYKb6JRIhbZ4V/1L8Uj7JKyJzlhT5+XEhesNM6MtUlyqwh96def2gb3ivRQRZxLiOicRCkwiOTJAwpuIJAluosMiFdriWfUvxSP7J2FNdEVQ05kyfw0bvT6S8QPGqSq8P3Yg49JjN7JEJDYJcR2XCAUmkRoZIOFNRIoEN9EhkQht8az6l+KRtklYE5Hy5JZiHt1cnHRH2/bWx2nj+4OGYVdlQLdoTkJc+BKhwCRSIwMkvIlIkOAmwhaJ0Bavqv9AKMC7a9/luWXPUeWranZfMhePSFgTkbbZ6+Pw+WuS5rq2trhUhcv69ODW/nnxXopIYBLiwhPvApNIjQyQ8Ca6SoKbCEskQls8qv6leKQlCWsiWnRd56TF61laXU8o3otJAE5V4fPxgxnqccV7KcIAJMS1r8pXxXNLn+Odte/EvMAkUiMDJLyJrpDgJtoVidAWj6p/KR7ZQ8KaiIV3i8r507rtSX2K5N4UYJjHyX8nDEma9xoRGRLi9i+eBSaRGBkg4U10lgQ3sV9dDW1tVv1Pupvj+0Wn6l+KRxpJWBOxpOs6E35cxTZfoP2Nk4hbVfnn2AGMl6IS0UkS4toWrwKTSIwMkPAmOkOCm2hTV0NbrKv+pXhEwpqInx8razlv2UbqQ3K0bW8KcEL3dF4a1S/eSxEmICGupXgVmERiZICEN9FREtxEq7oa2mJZ9b+/4pFjC47l+gOvN3XxiIQ1kQguWLaRL8urk7L+vz0OVWHRISPobrfGeynCRCTENRevApOujgyQ8CY6QoKbaKEroS2WVf/JXDyyd1j7YssXFNcXt7qdhDURCyW+ABN+XIVPPk5a5VQVri/I4fq+ufFeijApCXF7xKPApKsjAyS8iXBJcBPNdCW0xbLqPxmLRySsiUT14KYintpagi/JRwDsT6bNwvLJI7GY7H1JJB4JcY1iXWDS1ZEBEt5EOCS4iSZdCW2xqvpPtuIRCWsi0QU1nZHfr6AyKAMA9sdjUXl2eAHHdjf3dbYisUiIi22BSVdHBkh4E+2R4CaAroW2WFT9J1PxiIQ1YSSzyqq4atUWaqWUpF2HpHv44MBB8V6GSFLJHOJiXWDSlZEBEt7E/khwE50ObbGo+k+W4hEJa8KoblqzldeLdrW/ocCuKGw8bDRWVU6XFPGVrCEulgUmXRkZIOFNtEWCW5LrbGiLdtV/MhSPSFgTZjB53mo21PvivQxDSLGofHjgIEakuOK9FCGaJGOIi1WBSVdGBkh4E62R4JbEOhvaol31b+biEQlrwkwaQhoDv11GUD5FwuJSFe4a2IsLe3WP91KEaFWyhbhYFZh0dmSAhDexLwluSaozoS3aVf9mLR6RsCbMamFVHecs3UCNXN8WttN6ZPD8iL7xXoYQ7UqmEBeLApPOjgyQ8Cb2JsEtCXUmtEWz6t+MxSMS1kQy+HthCX/dWCRjADqgp8PG4kkj4r0MITokGUJcLApMOjsyQMKb2E2CW5LpTGiLVtW/2YpHJKyJZHPJik18UlrV/oaiiUWBnw8djcuy/7ZeIRKV2UNctAtMOjsyQMKbAAluSaUzoS0aVf9mKh6RsCaS2XEL1rK01hu15y8950S08lKy35uNmt6t6fbyS88m+PNa7BMnEVjWeC2sHgiAAoq18e+WmtUdrbys8T5Ng4AfxeFseo4en/7Q+PwVu1BUFcXlwj5xMqnX3orqckftZ3KrKl9NHEKByxG11xAiVswc4iobKnl+2fNRKzDpzMgACW9CgluS6Ghoi1bVvxmKRySsCdHogB9WUuQLtL9hJ5WecyKKzY779LNw/+YcAAIb11N1502Etm2h+1ufYMntCUDVA3dg6Z5DyiVXtXge/5KFVN33Z7L/OavF86fdeAeOcQcTKi2h4pYrcRx8KKmXXhe1nynVovLm6P5MzDDGzqsQ4TJriItmgUlnRgZIeEtuEtySQEdDWzSq/o1ePCJhTYiW+n69lIYoXt9Wes6JuE78Nb4f5pD17JsA1Dz7CEpqGnUvPR3R4AZQ89yjBLduott9T0TtZ0qxqDwyNJ9Te2RE7TWEiDczhrhoFZh0ZmSAhLfkZY33AkR0dTS0Rbrq38jFIxLWhGibrutRDW272YaPouGLTwhu2YildwENX80i84mXqXvp6Yi+TqhkJ7553+E89MiIPm+L19F1KgPB9jcUwsDy0/KZOmoqU0dNbTPE+TU/cwrnMKdwjiFC3NgeY3njhDdaFJhsrdnKtDnTOl1gYrfYue3g2xiTPaZpZEB9sJ4bv76RpaVLWx0ZMCF3Ak8f9XRTeCv1lvKHWX+Q8JYE5IibiXUktEW66t+oxSMS1oQIj1/T6Pv1MqI5CGD3EbHAquXoDV7sY8ZR/97rZNz/FCXHTIjIETe9qhIsFhRPSuNpkldMb3YtXKQ5VIW/DOjJH3q3Xf8thFmZ5UhctApMOjoyQI68JR8Jbh3UENIo9gco9gUo9gepCAQJ6Do6YFUUPBaVHLuNHg4ruXYb6VZLXK7Z6khoi2TV//6KR8Zkj+HG8TcmXPGIhDUhOs6nafSLUXCXdgxUAAAgAElEQVSz9spn1/WXYBsxGsdBh+I86viIBbe9T5WMBYeqcPuAnkyV4CaSnBlCXDQKTDo6MiDRwptP05r2kYt9AXbts5/s3r2fbLeS67CREaf9ZKOSUyX3I6TrrK1rYHF1Pd9X1DC/qo6d/gAORcWqgPbLNrt3XBTAoihYaLzPp+k4VYXRqW4O65bCuHQPY1PdpFgt0V13B0JbJKv+jVQ8ImFNiPbtathFRUMF/dL7tXjvsCkKsfrWz5LbE0teL/zzvif9xjtj9KrRodD4306IZGeG0ykznBncMvEWzhl6TrMCk4AW4JWVr/DBzx90uMAkzZ7GY0c81mxkQJm3jEtmXdLqWVDxPG1S03XW1e/eT65lflUdO3z+/e8no2D55T6/pmNTFUaluDgsM5XxaR7GprlJi/J+spHJEbd9aLrOnF01PLO1hPlVddhUBU3X8XbxWg6bAk5Vxatp9HbauaRXd87Ky4r4L2dHQlukqv6NUjwiYU2I8JV5y/j1h7+m0ldJniePk/ufzKkDTm22I9BnzlICUfwI2fuIWHB7IXptNbYhI9BDQcMecXOrCvcP6smZPeWImxCtMfKRuEgXmHRkZECsjrzpus53FbU8U1jCD5W1WBUFXYd6rWvnX1gVcKkqDZpOrsPGxb2yODcvi242Oca0Nwluv9gVCPLWjnKeLyylXtOoC0XzBKDGX04dnVOyM7g8vwcjUlxdfs5wQ1ukqv6NUDwiYU2IjtN1nVmbZ3HTNze1uK+boxt3HHIHRxcczcjvVlAWxaKNtoKVkYObotWRXvoEeWoJOe4ccj25zf6Z42n89x6uHp2uGBfCLIwY4nRdb1FgsltnCkw6MjIgmuGtKhDk3Z27eLawlOpgKAb7yQoacEL3dC7v04OxadGbr2kkSR/cFlfX8dzWUmaVVaEqdPnIWkdZFLArCn1dDq4pyOGk7HQcauvDsPcn3NAWiar/RC8ekbAmRNt0XafCV8HOup0U1xWzs77xn8X1xY231RdTXFeMX/O3+RyptlR+OPcHjpi/htV1DW1uJ1pSNC8ZO/+CNVi0/+1QyHJlSbgT4hdGC3GRLDDpyMiA1sLbM0c9w5dbv8QX8nH1AVfjsDjC/jlW1NTzbGEJn5RWoRD7/WSVxmuDezntXJ3fg9N6dMNl6fh+slkkbXDbUN/A1au2srbOS4OmR/UC+3B5LCoWRWHG4N6c1iMj7MPp4Ya2rlb9J3LxiIQ1ISITysIxNHMo753yHucu3cD/dtW0/wCxhx6k+7arUPT6Lj9Va+Eux5NDrjtXwp0wNSOFuEgWmHy84eOmkQG7XTD8ghYjA/YNbzbV1nRm1GWjL+PqA65u97W2eH1cu3ory2rq8Ws6obBWGF0ei4oC/HVQL87MzUyY3oRYSrrgFtB0ntpazONbivEnSGDbl1tVGZfu5vGh+fR07v/asHBCWySq/hOxeETCmkgm+4ayvcNYJEPZbinWFOqCdeh7VZBYFAunDzyd/5v4f9itdmZsLOKJLcXIVLLwpVstrJg8lLL6slb/H+7+/1vqLW32376zJNwJszNKiNtavbVZgclu6Y70DhWYhDsyYMHOBVz55ZXNQh5A75TefPqbT9vcZwvpOs8XlvLgpiL8uk4oAVOCW1UZmeriqWH55LvCP3poBkkV3JbV1HPZys0U+wLUx/hQb0dZAbuqcvuAPC7q1R21lb9g4YS2rlb9J1rxiIQ1YUaxDmWptlRyPDmtnoaX62ncoffYPJz7ybksL1sOwNjssdw16a5m11R8VV7NpSs3UxPlax3MZEq3VN4d2/5p6QEtIOFOiA4yQoiLRIFJOCMDdF3nnE/OYWX5yhaPf+fkdxiRNaLF7atrvVy+cguFDb6E30/efanRzf3yuLRPNpYkOfqWFMFN13Ue3lzMU1uLaUjwX8R9uVWFoSkuXh/Vnyz7nmadcEJbV6r+E6l4RMKaMLJEDWXhWLtrLW+ufpOxPcZy+sDTWzTTVgaCjPp+ZVSbJc3Erijc0i+XqwpyIvJ8Eu6EaFsih7hIFJhoutZsZADsOZvqgmEX8OKKF3nypydbfewZg87gzkl3NlvPs4UlzNi0E58WiXeM2HGrCv1cDt4aM4Ach/nff0wf3OpDGpet3Mx3FTUxv6AyUmwKZFitvDt2AMNTXGGFts5W/SdK8YiENWEEu0NZcV0bO84JHMoiZcz3Kyj2y8mS4Ui1qLw2uj+HZMTuG/54hbu9fycl3Il4S9QQF4kCk9ZGBgxIH8CGqg1tPsZldTH/vPkANIQ0rl2zlS/Lqrtc6R8vVgVSLRbeGjOAA0zePmnq4Fbk8/Pbnzaw3ec33JG21rhUhaeH5fPN2gfaDG2drfpPhOIRCWsikUgoC8/UFZuYWVrV/oYCqwJrDx2Fx5JYw2Ul3IlkkoghrqsFJq01hu/mtDiZ0nsK32z/pqmsxG11M++8eZT6A5y5ZAObvD7T7Cc/MqQPv87NjPdSosa0wW2r18fJi9dTHggm5IWVnWUhiKvsBVz1PwDNQ1tnq/7bKh7pndKb68ddH9XiEQlrIh4klEXOmzvKuX39toS/HiIRDHQ7+O6gYfFeRqfsDnetNZVKuBNGlWghrisFJv6Qn7/88BdmbpzZ4r6rxl7FH0b+gY9+/ohvt3/LJaMuITttKCcvWk+xP0DQRG/fTlXhzgG9uLh393gvJSpMGdwKG/wcv3AdFYFgQrZGdpnmI2XXS1zUu3dTaOtM1X+8ikckrIloklAWW9XBEKO/X2GKb2ujya2q3DEgj4t7Z7e/sUHFMtxBY9HWvn/XJNyJzkqkENfZApPpc6a3CH0Adoudb878Bo+98bOo2BfguIXrKAuYK7Tt5lIV/mLS8Ga64FbmD3LUgjWU+YMJMXMiWqwEeWHkAI7vntHhqv94FI9IWBORIKEsMV27agvvl1SY6uyGSHOqCisnj8RjTazTJGNNwp0wgkQIcZ0pMJk6eyrziua1+nznDzufWybeQlUgyNEL11Hk85sytO3m/OW0yd+Y7LRJUwU3v6Zx8uL1rK71EjDNT9U2l6pwWOh9Fhd+0HTb/qr+Y108Em5Yy3BkcFT+URLWktz+QtneO3USyhLPylovJy9aZ9gCqGizAmflZfLw0Px4L8UQJNyJRBLvEBdOgYnD4uCv8/6K3WLHY/Owunw16yrWNfty/vIxl3P5mCs546efWVxdj988u/9tcqoKHxwwyFSFJaYJbrquc+2arcwsqUyenQddQ9GqySz6E6pW22bVfyyLRySsidZIKDO/I+evYVVdQ/sbJiGnqjBr/BCGeJzxXopp7BvuWns/kXAnIi2eIW5/BSY93D2ajsr9ZtBvuGvSXQRCAdZVrOPzzZ+T7khn6qip/HndNt4qKk+e/WSgm9XCnIlDTTMqwDTB7Y0dZdy+fgdeg1aZdpoewOrfzNXdNnLDhJZV/7EoHpGwltxaC2WtfUMuoczc/l1cwc1rC6mVYdwtjE51MXv8kHgvI+kkUrjbXbQi4c484hXi2iow2duTRz7J4X0Ob3bbf4p3MW1NYVKFNmhs8x3sdvLFhCGmGNJtiuBW5PMzee4aw86f6CqHonHvoHwu6LXnIsxoF49IWEsOEspEuHyaxojvVkhw24fHovLo0HxO7ZER76WIVki4E5EQjxC3pGQJMxbMYHnZ8hb3pdpSmfnrmWS6Gq/vKvMHOXjuqqR9f3arKjf0zeWqgh7tb5zgDB/cdF3nzKUb+LGilmQeAeuxqHx/0DBc1EeteETCmrlIKBOR9tcNO3hhW6k0TO6lm83CskkjsanG/6Y3WUm4Ex0RyxD35ZYvmTZnWqv3De42mPdPfR+APyzfxJflVfiT+K3ZpSrMmTiUApcj3kvpEsMHtw9LKpi2ujBpj7btZgX622vQCv8U0eIRCWvGtHco299QXQllIpLqQiEO/nE1pYFk/hptD5eq8uzwAo7PjmxLr0g8Eu5Ea6Id4v659p/cM/eeNp930QWL+G95NVNXbEq6UyT3ZQEOSHPz8YGDojabOBYMHdx2BYIc9OMqapL00G8LWgNp5c/j8C4EOl88ImEtsUkoE4nsm101XLR8Y9LvJNgUmJKZxhuj+8d7KSJBSLhLbtEIcb6QjxeXv8ia8jV4Q15q/bXsqN2BL+Tj/OHn8/tRVzJx7ip2Bcw8ICt8blXlvkG9OLtnVryX0mmGDm43rSnk3Z27kqLSNFxKqJbRVfczfdw1HSoekbCWGCSUCTO4bOVmPiutSur3Zo9FZe7Bw8i2y3ukCJ+Eu+QQiRAX0ALUB+r3e/nL3T9v56XtZXL6+l48FpVlk0fgsRhzpqZhg1tdMMSI71fIL+M+7EqIR4fmc0ZudrvbSliLLQllIllUBIIcNHcV1cHkPBvCrar8dVAvzjHwt7oicUm4M5fOhDhv0MuZM8+k2lfN9PHTOW/YeS0eI4VRrfNYVO4Z2ItzDfr+bNjg9ur2Mu76eTv1EtxaGJXi4osJrVdPS1iLDgllQjT3WWklV67aknSnTNoVhfHpbt4fO9DQ11EIY5NwZ0zhhri8lDy2VG9puu2WCbdw/vDzm233/s5d3LxuG3US3Fro57Lzw0HDDPkebcjgpus6E+euprAhMjvBZuNUFT4fP5ihHhcgYa2r4ta+uPuDT0KZMKh7NmznpW1lSRPeFCDXYWPOhCGk26zxXo4Q+yXhLrGFE+L2dv2B13PJqEua/nzE/DWsrmuI5hINy62q/GvsAA5MN96+lCGD27zKWs5dtlG+RWiDBTgztxsXZVVIWGuHhDIhokfTdc5ZupG5lbX4jPdR02Eei8qs8YMZ6HbGeylCRISEu8QQboi7eMTF3DD+BlbU1HPK4vVJ86VZR6nAidnpvDiyX7yX0mGGDG4XLdvI7PLqCL1NmJOi+8ncdhWq3vLblmQJaxLKhIi/2mCI4xauY2uDj4CJ37RdqsJLI/txRFZavJciRExJuIutGQtm8Pqq11u9L9OZyddnfc01q7bw75IKQiZ+z+0qh6qw+JARZNmNdXaEsVYLlPoDzKmokdDWDl3XaPBMwl37P8B8Ya21UNbah0XUQtm+4UxCmRCtSrFa+OjAQZywaB1FPr8pw5tTVXh6eIGENpGUbKqNvJQ88lLy2twmkuGuvKGc8oZyVpavbHMbM4e7NHvr7zMqKmcPOZvqYIiPSysltLVDAd4qKueagpx4L6VDDHfE7fmtJfxtU5G0SYbBFtzJJZ65hgtrEsqEMJ8yf5BTFq9je4Mfv4nevl2/hLYTszPivRQhDE2O3IWnIdjAKytfocZfQ0FaAflp+eSn5pPjzsGiWnhrRzm3rd8m5X1h6OmwsXjSiHgvo0MMF9zOWbqBr3bVxHsZhmBVYP2ho3FZ1HgvpYmEMiGSV2UgyHnLNrKq1mv4ay9UwGVReXlkPw7LTI33coRIChLu2nfZys18WFIZ72UYgk1RWDZ5BN0MVCZluOA29NvlVAZlAnw4Ui0qb47uz8SMlPY3joCECWV7/VNCmRCJJaDp/GldIe8XVxg2vDkUhe52K++NHUh/tyPeyxFC7CXZw90BP6ykyBeI2esZWapF5fkRfTnSQKe5GydiAjt9AbyaNEmGy6fpLKquj0hw218oa3pTlFAmhGiHTVV4aGg+Y1Ld3PHzdvyajpG+inOrKuPT3bw4sh9pVku8lyOE2IeZr7lbXrqcF5e/yKjsUVw4/ELsFnuz+6sCQUr9wXafRzSqD2ksrKozVHAz1BG3T0sruW71VmpkDEDYjshM5e0xA/a7jYQyIUQ8bPb6uHLVFtbUNlCf4F/K2RVwqCoPDO7Nr3O6GXJwqxAifIl45O7izy9mWdkyAPqn9+euSXcxtsfYpuf4elcNU1dskv3kDhif5mbmuMHxXkbYDBXc7vx5O38vLEV+HcOXYbXww4ReEsqEEAlJ13XeKirnjp934Ne0hGyddKkKR2alMWNwH8NVRwshoifW4a41h/U6jAcOfYAURwoPb9rJo5t3IsfcwudSFTYeNtowX8YZKrj9+qf1/FhZF+9lGIseovu2S1H0rgczCWVCiGgp8QW4YW0h31TUoOl6QgQ4j0XFY1F5bGi+oU6lEUIkjliEu94pvfnsjM+48Jc5x51V9vszSLvuT9jHju/0c4Sj7s1/ECzaRvqNf+nQtqGdOyg79yR6fLEAxRKZL9EcqsLCQ4aTbU+skpm2GOqrw52+2H+H4P3vZ9S/9zqhrZtR3B6sAwfjOW8q/kXzqHvteVKvugn3Gec2bV///lvUPP0gngsvI+Xiy/EvWUjVfX8m+5+zYr52APQAmiUDS7Bkv5tJKBNCxFMPh43XR/dnU72Pf2wr5e2duwCoi/EpPzYFVEXhgFQ3V+X34MisNCwG+SZWCJF4InXNXYm37f24Sl9ji2RXS0m6v/x+lx7fmtb2gz3nXRL24zuybWfYFYViX0CCWzSUB2Ib3Oree526t18m7fo/45gwCWxW/PN/wPf9HBSnC0vvAryzZzYLbt5ZH2PpXRDTde6PQgiHvSd9U9IklAkhEl4/t4N7B/fmzwN68lFJJU9tLWZbgx+fpkf1NHnPL2NTzsvL5JLe2RS4pC1SCBEb4YS7H3f8yKVfXNrsNgWFPE8ed0y6A4ASv7RJdpQC7PQHGRnvhYTJMMFN03VqYzgGQKutoe7lZ0m7+S6chx3VdLtj0hQck6ZQ+8pz2IaOILBuNcFNG7D2G0Bw0wb0gA/b0MQZ5uexpXDnlCc4rUe3eC9FCCHC5rKonJWXyVl5mSypruf5whK+2lWDV9OwKwp1Ia1LQc6lKqiKQkDTGZri5I+9szklOwNnAs29FEKI3YZnDaenpyc76nYwqNsgThtwGif2O5Fsd3bTNl0dl1V6zomk3XgHgeVLCG7egGK34/t+DpbcnqTf+RC+b7+k7l9votjspN34FxwTDgHA+9mH1L37KlppMWpGN9xnX4z7lN+ie71U3Ho1BPyUnDgJgKzX/oN35r8J7Sgk/f/+2nT6Y9otd1H78rPoDQ24f3seKedPBaD2leeatt3N+9mH1L36HOjg/t0FeM66sNM/c1DXKTHQ+ATDBDefpqMoEMXrO5sJrFqG7vfjOPSI/W7nOuYkvF/MJPXS6/DO/hjXMScR3LwxNosMg6bH/lQjIYSIpLFpbp4d0RdoHAuzuLqOuZV1fF9Zw/o6Hxo6DlXFAk1hTqfxm9TdJzkGdB2/ptPDbmNCuptDu6VyYJqboR4XVlVOhRRCJLZ0RzofnPYB9cF6uru6t7qNP4KzMX0/fkPGvY+SdstdVM+4k4pbrsR14q/J/ucsvJ9/TPWj95L91icAqN0yyfjr41h69iawbBEVt16DbcgIbIOH0e3+p8K6ZCiwfAndX/2A4LYt7LryApyHHom1oH/rP+dPC+j+2kcEi7ZRccOlWAcOxjHu4E79nEGdhG813pthgltI14nlR6tWXYWantHuxY/Oo09k13V/IOUPV9Lw1Swyn3iZ2hefjNEq26cDQYMOuRVCiH3lOmycmJ3BidkZQGMrZW1Io9gfYKcvwK5AiJCuo+k6VlXBrarkOGzk2m1k2a1yvZoQwrDcNjdum7vV+3Q9st2V9tEHNF4mBDinHIPv2//hOef3KBYLziOPo+aRe9Bqa1BTUnEcfOiex40Zj2P8wQSW/4Rt8LCwX89z0WUoDie2AUOw9h9McMO6NoNbykWXobhc2PoPwnX8aTT87/NOBzcdnYCB9pMNE9xi/VGrpqWjVVWih4L7DW+WnDwsPftQ++JTWHvlY+mRG8NVhkeVHRUhhMlous5Gr4/lNV52+AJsa/Cx1eunLBAkoDXuwFgUhRSLSm+nnQKXnVyHjUFuJ6NT3bjllEghhGiT2i1rzx8cDpT0DBSLBQDF0XgNsO6th5RUfPO+o+61vxPctgU0Dd3XgLXfwI69Xuae11OcTjRvfZvbWrL37GtbcvIIblrfoddq8doG2k02THCzqgqxDMS24aPBbsP33Vc4pxyz321dx55M9YN3knbznbFZXAcoKFgN9AsphBCtqQmGmF9Vx4KqOr6tqGFlrRcVBVWBBk0juL/Ph6o6FMCpKlgVBa+m0cth5+CMFCZlpDAx3UM/t5SRCCES25dbvmRdxTom9ZzEmOwxzWaPKYqCCjGfdaz7/VTeeRPpt96NY/LhKFYblbdP23NpUxT2QUOlO7Hm92v895KdqFnZ7TyibaqiGOpMDMMEN4eqYlEUtBiNnVNTUkm5+ApqnrgfLFYc4w8GqxX/onn4lyxEcTibtnUecSxqdg/sI8e2+Xy639f8Bps9JsP+ND3Apl1L+cnSjRx3DtnubGyqMSpPhRBiRU09zxWWMrO0EpuiUB/S2HP5ffifBzrg1fSmx2xp8LNl5y5mllYS0nX6uRxcU5DDSdnpOFQ5GieESCwbqzYybc40AJ5d+iwFaQWc0v8UTuh3Avlp+UBjO25NjHsN9GAAAn7UjG5gseKb9x2+hXOx9m084qZ2y0Krrmo6rTIS6l5/gbQbbidUtAPv5x+S/qe/tv+gNtgUhSybYeKQcYIbQDebhRJ/7EYCeM68EDWzO3VvvEDVff+H6vJgHTwMz3mX4F84t2k7xeHc77m1WlkJJcc3vz/r9Q+x9sqP2tp384V8vLr0Ed4KbAEaj8B1d3Un15NLjjun6Z85nj3/LuFOCBFPDSGNmaWVPLm1hK1eH35NJwQ0RKGdand50+q6Bm5aW8jNawu5oGcWf+idTR+nPeKvJ4QQ4dB1nSpfVdNst3lF85rdv6V6C08teYqnljzF8X2P58EpD5Jls1IT8sd0narbQ+rVN1N19y2NpX6HTMEx6bCm+635/XAeeTxl558CoRBZEZgVZxszjrILTgVNx3PmhU3tlp1aP5BjkBluAIqux+gQVgQcOX8Nq+oa4r0MY9F8ZO64AYtWFfZDJNwJIeJhR4Of5wtLeaOoHIhfI65daTztaHyah2sLcpiSGZlviYUQAlqGst0Dt/cevF1cV0xDKLx9XqfFyYLzF3Dq4vXMr6qL8urNxWNRmT1+MAPczvY3TgCGOuLWx2mX4NZBimrjmN4TKakrori+mDJvGe31DunolHpLKfWWspzlrT+vhDshRISEdJ0XC0u5f1MRQV0nEOevE/06oOt8X1nLT9X1TEz38NiwfHId8n4mhNi/SIeycJwx+AwACpx2CW4d5NM0cuWIW3Q8u7WE+zcW4TPOkuOuv8vBDwfvqWMNhAKUekv3vIHUFbd4cwkn3IVDwp0Qoj1r6rxcsXILW7w+6hO0ktmqNF5nfeeAnpzXM0uaeoVIUrEOZR6bh1x3btN+02ebPsMb9DbdP6TbEO791b0MzRwKwOs7yrhj/fZfrucV4cixW1k6eWS8lxE2Qx1xG5fmxq4q+ELyCxmugzM8zf5ss9jomdKTnik923xMpMKdHLkTQrTFr2k8srmY5wpL8GmRnT8UaUEdgiGNv/y8gzeLynlmeF/6SwulEKYS71C29z7Q7n+m2FOaPSakhfhww4c4LA6uHHslFw6/EKu6Z1f+wDTPL18sJfI7amIZn+5pf6MEYqgjbt6QxqBvl+2/9lk08VhUHhjcm9/mZkb8uRPhyF2up/ENT8KdEMZS6g9w9tINbKz3Ge6bYRVwqirPjijguO7p8V6OECIMRghl4QhoAeYVzWNQxiByPDkt7g9qOv2/WYbfOLv2ceVSFf4ysBcX9+oe76WEzVDBDeCQuavY5I1tY45RuVSF/04YGrdvhiXcCSH2taymnrOXbqA6GDL0l3BOVeGa/Bym982JyWgXIUTrzBLKIuXoBWtYUSt9EOFIsaj8+4CBjE51x3spYTPUqZIAh2SksMm7K97LMISQHiLHGgTiE9yMclqmhDshYmN2WRWXrdxsuKNsrWnQdJ7aWszKWi/Pj+iLTZXwJkSkSShrm67rrX5p9KtuqayqbYj5IG4j8mk6wzyueC+jQwx3xG1WWRVXrdpCbZxqog1D17B7l5BT8SyH9j6UYwuO5bDeh+G2Gedbhd32DXfNQp4cuRPCED4uqeCa1VtpMEFo25tLVTgoI4XXRvXDLoO7hQibhLLOWVW+imv/dy01/hry0/LJT83HZXWR48nhj6P+yMKaABct3xS3cSpGcki6hw8OHBTvZXSI4YJbUNMZ9f0KKoKheC8lsWkNpJc+hN23tukmp8Vp+BDXlkQKd7nuXLq7u0u4E+IXn5dWcfmqzaYLbbs5VYXJGSm8Oqo/VjnyJoSEsih6eOHDvLLylVbvG545nHdOfocDf1xFkS8Q24UZjMei8tzwAo4x2LXKhgtuAA9vKuKJLSUyFmA/0tUGhlU+wIbKn1u938whri0S7oSIvfmVtZy1dIMpTo/cH5eqcHJ2Bk8My5dr3oSpSSiLD13XWVG2gmeWPsN3279rdZueKT2ZdcYs/l5Ywt82Fpn+fbcrsmwWlk0eicVg79eGDG4lvgATflwlwa0NblXh9gE9+X3vbDZWbmTWllnM3jybnyXEtUvCnRCRs63Bz5EL1lKdJGdIuFSFP/fvydQ+2fFeihCdIqEssewOa7O3zGb25tnsqNvR5rZOq5NXj3+V4VnDqQoEGf3DSnwS3FrlVBWmFeRyXd+WzZyJzpDBDeDCZRv5orxaJlW0wqkqLJ88klSrpdntEuIio61wt7Ou8YNOwp0QUB/SOGbBWjY3+Eim0ZtOVeGN0f35VbfUeC9FiGYklBlDR8Labj3cPXj5uJfJT8tvuu2qVZv5T3ElyfG1Wcc4VIVFh4ygu91wHY3GDW5zK2s5d+lG6jW5+HJvFgV+l5PJY8Py97udhLjoknAnkt11q7fyYUmFaa9r259Ui8rcg4eTZcCdAmFMEsqMLdywlmpP5cg+R5LhzODVla8CrYc2aBy9ctri9XK65D5U4ITsdP4xsl+8l9Iphg1uuq4zce4qChvk4su9qbqfGQV+zus/OezrLCTExYeEO2FWP1bWcmlOj6IAACAASURBVG4SXNfWFruicGz3NF406I6BSCwSysypo2Ht2L7HckjeIdgsNjRd46mfnmJn3U6uGHsFfVL7tPrYKfNWs7beF80fw3Dcqso/xw5gfLon3kvpFMMGN4B/7dzFzWu3yVG33bQgNv86Mkr+xkF5B3Hj+BsZmjm0Q08hIS6xtBfudtbvpNxbLuFOJIyGkMYhc1dT5E/uL9VcqsI/RvbjyKy0eC9FJDAJZcmlK2GtLUEtSEVDBd6gF2/QS6Wvkmp/NUf2OZIvd9VyuUlmZ0aCCoxMdTFr3GDDlkgZOrjpus5pP/3Mouq6pLqGoi2K5qNb0S1YQuWNf0bhlAGncM0B15Drye3w80mIMwY5cicSyV0/b+fl7WVJeYrkvrJsFuYfPBzPPtcbi+QgoUxAdMLabpuqNjF11lRKvCUt7itILWDmb2Zy7tINfFtRQ0DeknGqCv+dMIQBbme8l9Jphg5uAFu9PqbMX5P03ya4VZVr+6RRW/IG/1r3L0L6nstRnRYnFwy/gEtGXYLH1rlDwxLijE3CnYiFlbVeTlq0TkLbL5yqwu9yMnlwaOunMQnjklAm9ieaYW1vr618jQcXPtjqfQ6Lg4XnL6TEF+CQeauTfiC3W1W4uiCH6X07fiAjkRg+uAE8t7WEGZuKqE/SnQUFGOpx8uWEIVgUhY2VG3l00aPM2Tan2XaZzkyuGnsVvxn0G6xq5y+alxBnThLuRFf9bsnPfFdRK22/e3GoCnMPHkaewx7vpYgwSSgTnRGrsLa3LzZ/wfSvp7d63yWjLuH6A68H4I0dZdyxfkdSX1rU12Xn24nDsKnGPEVyN1MEt5Cuc+SCtayra0jKHQZVD/Dh2HwmZDafRzG/aD4PLXyI1btWN7u9f3p/bhh/A4f2OrTL5/hKiEsuEu5EW7Y1+Jk8b7XMDdqHQ1W4ok8Pbu2fF++lCCSUiciKR1gD2Fm3kyd/epKPN3zc6uftr3r+imeOfqZpH0/XdU5avJ6l1fVJOR7AqSr854BBjE0z/v6nKYIbwIb6Bo5duC75DgVrDXgq/0V/fSmPTHmEUdmjmt+ta3yy8RMeX/w4xfXFze7rbIFJWyTECZBwl6zu+XkHL2wrxW+Oj5SISrdaWDF5pOG/6U10iRDKdr//SCgzr3iFNYC6QB3/WP4PXlv1Gr5Q622R6Y50Pjj1A7Ld2c1uL2zwc+T8NdQk2X6yS1W4Mr8HN/Uzx5dnpgluAF+VV/OHFZuS5no3KyEsdfNILX8WBbCpNm6deCu/G/y7FkfSGoINvLH6DV5c/iJ1gbqm27taYNKWcEPcr3r9iuP6HichLslIuDMXv6Yx4rsVSbdDEC6PReWxofmc0iMj3ksxrEQIZXKkLHnFM6xBY3Pkv9f/m6eXPM2uhl3N7ju8z+H0TevLKytfQUHh/kPvp296X1aVr2Ju0Vzm7piLw+rg1eNfZVsog7OXbkia65CdqsJh3VJ5dVQ/w7ZI7stUwQ3g6S3FPLy52PTn8VqBIR4nf8ot5o7v/0SNv6bpvlMHnMptB9+Gy+pq8bhybznPLn02KgUmbQknxDksDg7tdaiEONFEwp1x/Ke4ghvWFibfGQ8dMCbVxazxQ+K9jITUVihrFswklIkYi3dY272Gb7d/y8MLH2Zj1cZm9w3LHMaN429kYt5EdF3nxx0/sqR0Ca+sfAVv0NviuU7qdxL3H3Y/r20v4y8/bzf9QQ6LAn2dDr6YMAS3RY33ciLGdMFN13VuWlvI+8UV5v2l1ILY9Bo+HTeQUd36UFhTyPQ501mza03TJkO6DeHRwx+lT1rrbWbRLjBpi4Q4EUkS7hLDUQvWsLI2MjvVZuVUFWaPH8Jgj3FrqDtDQpkwkkQIa7utLl/NwwsfZt7Oec1uz/Xkcu0B13JS/5NQleaB5OyZZ7OyfGWrz/fAoQ9wYv8TgcaxLa9sLzPtfrIKdLdbmTV+sOmKoUwX3AA0Xef61Vv5uLTSfL+UWhBVqyJj51/o4/Lw0vEv0SulFw3BBu6dey8fbviwadNUWyr3HXofh/c5vM2ni0WBSVskxIlYaCvc7b0TKeGu81bXejlBRgC0ywqcnZfJQ0Pz472UiJFQJswgkcIatF084rF5mDpqKucPOx+ntfUvgB5f/DgvLn+xxe2Dug3i/VPeb1ZW8uf123m7qNx0+8kWoJvNymfjB9PHaa7QBiYNbtD4S3nz2kLeL640zWmTdkUhwxJC3XoDoWAZAD09PZvCm67r/Gv9v/jbvL8R0AJNj/vjqD9y1dirsKitD4GNZYFJWyTEiXiScNd5MzYW8cSWYoLxXogBpFstrD10VPsbJoBECmW7/11CmYiURAtr0HbxiEWx8NvBv+WKMVeQ5cpq8/FLSpYw/avplDaUtrhvxqEz8Gk+Xlz2IjvqdnBS/5O4e9Ld3L1hh6mOvNkUyLRZ+WTcYHqbMLSBiYMbNP7FfLawhBmbdhr+22CXqjAm1c2ro/qxvGQu1/3vOvyaH2ge3gBWlK1g+pzpFNUVNT3+kLxDeOCwB+jm7Nbma8S6wKQtEuJEIpJw17qTF61jYXV9vJdhCE5V4YeDhtEzzjsUEspEMkrEsAbtF49MGzeN/un923y8ruu8teYtHlrwEEG95VdoHpsHX8hHUNtzn1Wx8tOFPwHwyrYy7tyw3RT7yYM9Tt4aPYAse+Qv9UkUpg5uu83ZVc0lKzbjDWkY8dibS1U4Ny+Luwf1wvLLYe7vtn+33/BW0VDBrd/eyg87fmh6nlxPbqsjA/YVjwKTtkiIE0ZixnDnC/lwWByt3qfrOv2/WWaab2ujLdWi8kiU2yX3DWUtrv2UUCaSSKKGtd1rC6d4ZH/qA/Xc+eOdfLbps6bb0h3pXDnmSp5Z+gxVvqpWH9fT05NZv53V9OcfK2u5cNlG6kOaIee8uVSF03O6MWNwH9OPXUmK4Aawsd7H1BWb2Oz1G+bUSZsCDlXlwcG9+XVuZov72wtvIS3EM0uf4e/L/r7nOfczMmBf8Sow2d96JMQJozNSuHtlxSs8tvgxhmUO4/ZDbmd41vBm92+ob+CYBesM854abwpwSe/u3Duod6ceL6FMiPYlcljbrTPFI/vaVLWJ6XOmN9sfGpE1gkcOf4SeKT3ZVLmJX3/062ZfwO9220G3cdbQs5rdVtjg548rNrGuzmeY93TrL/vJ9wzsxbk92z6N1EySJrhBY2nJP7aV8beNRfh1jWAC/+QuVeHwzFQeHJJP9/0c8m0vvAF8Xfg1f/ou/JEB+2qrwGRA+gCmj58e1QKTtkiIE2aWKOHuvnn3UeGrABqvs7hwxIVcOebKpgvj39u5i1vXbZMxAB0wzOPkq4ktrxmWUCZE5xkhrEHXikf29sWWL7j9+9ubXdby28G/5daJtzadIaHpGpfMuoSFxQubPdaiWPjfmf8j09nygICu67yxo5w7N+zApyX2frJbVZmY7uGxYfnkOuJ/2UCsJFVw221bg5+rV21hWU099Ql2io9DUfBYVR4fms8x3dPDekw44a0zIwP2lggFJm2RECeSUSzD3d48Ng8PHPoAU/pM4YY1W3mzaFf7DxJNrOg8lLeekvrYhrJ9Q7mEMmF0Rglr0PXikd2CWpDHFz/OKytfabrNYXFw28G3cfrA05tu03SNe+fey3vr3mvxHAfnHcwLx76w39fZ6Qtw/eqtzK+qS7ijb3ZFwWVReWRoH07Kjt5p54kqKYMbNP6F/7Ckgvs37qTEH8SraRHevekYzy/DAS/Iy+LGfrmkWFtvgGxLOOGtsyMD9pYoBSZtkRAnxB7RCndp9jS+P+d7Tlu8nnlVde0/APD+9zPq33ud0NbNKG4P1oGD8Zw3FTUllZpnHyGwbjV6dSU5//up2eNKTpzU7M+634fr1N+Rdu2tAPgWz6Pm8fsJlezENmwk6TffhSW3Z7PHaNVVlF10OtY+fcl84uWm2+s/+Tf1b7+CtqsM26gDSLvpL1i69wCg7p1X8c7+GK24CCU9A/epZ+I5+6KmxwZ+XkvNkw8Q3LgexeXGdcoZpFxwafv/ITQ/mTumY9Fav/akPRLKRDIzUliDrheP7K3MW8bN39zMgp0Lmm7rldKLx454rNkX562FttHdR7OyfCUhPcTTRz3NYb0PC+s1Pyut5L6NRWxr8OPT9Lj2RHgsKpquc3ZeFrf0yyXDZt4Ckv1J2uC2m67rLKqu55mtJfy3vBpFIWbNOhbArirkO+1cXZDDKdkZOLsw3T2c8NbZkQH7SqQCk7ZIiBOifW2FuzXla1hUsqjVxwxIH8B/Tv8PB/+4is0N/nZfo+6916l7+2XSrv8zjgmTwGbFP/8H/MsW4zrx1wRW/ISSnkHV7dNbBLe9ad56ys44moy/PYl9zDi0qgrKzj+VtBvuwDHpMGpfeobA8p/IfPq1Zo+rfuhugoWbQdebgpt/yUIq776ZzIdfwNI7n5qnZhDcspHMx/7RuOZ3XsF+4EFYBwwitH0bFTdfQeql1+E88ngAyn7/G5y/OhLPxVcQ2rmDiuv+QOq0P+OcfPh+/1soWj3pxX/DFtjc4j4JZUK0ZLSwBpEpHtnbkpIl3DDnBkq8JU23Hdb7MO771X2kO/acndVaaDu5/8ncO/leiuuLCWgBCtIKOvzzLKmu5/nCEj4tq0KFmBVSqYBTVclxWLkmP4fTc7rh7sJ+shkkfXDbW5k/yJs7yvn7thIaNJ36UHSOwrlUFQ2dk7PTuaxPD0anRi4shBPeoPMjA/aVaAUmbZEQJ0THLCpexMWfX9zstmGZw/hVr19x+ejLsVvtDP5mGdXtXN+m1dZQduZxpN18F87Dj2lzu+D2rZRfcNp+g5t31kfUvfb3/2fvvsOkqu81gL/nTJ/tS+8IuoAUARVBQTG2iD2iRBNjRSVADKiRRCw3GBLuVQwaxFhiN2osCYIFLAQsoAgqICAuSy/b6/Q5v/vHeobZxs7uzsxp7+d58jzh7MzOb1fYM+/+znm/6PTi25AkCb5lbyDw3lLk/+05AIDw+1F82Zno9MQ/Ye97DAAgtPlr1D6+EJ4LLof/3X/HglvNkoUQoSCyb/s9ACBaWozSK89DpxeWwt6r6eXj1Y8uAISI7fQdPn8cOi15Efb+AwEAlfffCUfBYGRcfeNRvx92EcTZjg0YkyUYyohaYMSwpkpG8Yiquap/CRKmj5yOqSOmNvg8Rwttif5SvjUV4QheOViOJXuLURdVUvg+WYIC4NxOOZjWpwtGZXvT3qWgVwxuzYgKgVXlNfigrAqfVtSiyB+CS5YQVgSCbfx22QB4bTICikC+w4YTszMwMT8Ll3TNRU6KtnkTDW8dGRnQmB4LTFrCEEfUunA0jPlfzEdhZSHG9xqPCwdciJ6ZRy5BFEKg56pvWj1pB7/4FJV/uA1d318Lydbyz7xEglv57JvhHDEamdfdCgCo/tv/AuEwsmfdHXtM6Q2TkXndrXCffjZENIryab9E9h33ILLzB/jfeathcAsGkP3bPwAAoiXFKJ1yHnLmLYT7tDMbvK4QAuW3XAXPhZfDe/EV9c9/6lFAUZB5w68RPbAfFXfcgtw/LoRj8NCjfj+8soQHjuttmQY0okQZOawBySseUbVU9b9gwgKc1uu0Bo9NR2hr+HoCaypqsaKsCp9V1OIHXxAuWUJEiDZftSaj/jLIgCKQa7dhdLYXZ+Rn4ZKueaaex9Ze/I40wyZJOKtTNs7qlA0ACCkKttQG8FV1HdZV1mJfIIziUBgV4Sh8igL19x0KAIckIcduQ2enHT1cDpyQ5cWYnAyMyvYiL03X447vNR6LfrIoFt4O1B3ADe/d0CS85bnz8NhZjzUYGXCo7hCufe/ahEcGqMb0GINXLnylSYFJYVUhpn84XfMCk3gDcgdgWu40TDthWoshLhgN4oM9H+CDPR8wxJElOWwO3DfuvhY/Hk3w3KxUV0HOyT1qaEtE9NABhL/9Cjl3HlmT8Psg5zS8QkDOyITw1Q8E9735TziGDIOj4HhEdjb8JY1zzKmomvd7eC6aDHvvvqh74QlAkiACTQtC6p57HFAUeH56SeyYa+wEVP/lXvheewFQosj41c2thjag/jzR1l8AEpmV0cMakLzikXitVf3HS3doAwBZknBGfhbOyM8CAIQVga11fnxV7cO6ylrsDYRwOBhGRSSKuqgCCfXjUBTUV/jn2u3o5Kh/nzwiy4OTczIwKjvjqC3qVI/foQQ4ZRmjsr0Yle3FTb27NPiYEAIRASgQcEgSZJ3sKiUa3myyDTNHzcQJXU7AnDVzUBOqQVgJY97aefim5JuERwYAgCzJuGjgRTin3zlNCkzWHVyHK9++UhcFJvEY4ojaJwoBCWh1x03OzoFSVQkRjXQovPlXLodj2EjYehz5+SV5vBC+huUowlcHyetFtLQYvrf+iU6Pv9zs53OdOBaZ192KqvvvgPDVwXv51ZC8GbB16dbgcb63XoF/xTLkL/oHJKcTQH0YrZwzA1m/uQvus86HUl6GqvvvhC+vE7yXXHnUr0Og/qoOIqsyQ1gDWike6T0Rs05KvHgkXiJV/yotQltzHLKEEVlejMjy4vpenRt8TAiBqKg/Z+jpfbJR8VJJk0v0skmg4yMDGjNCgUlLeDkl0dFFFIE+/239UkmltgYlV56LnLv+CPcZ7b/HrfRXlyDjquvhOf9I5bVv2RsIvP828h99FsCP97j97Cfo9PeXEdmzC1Xz5kDOrP+NsAgFIYIByFk56Pza+5BsDd/URPbuRtktP0eXV9+HnFV/tYX/3X+j9pklyPvr07D3PDI0O7x9CyrunIauS1fHjtW9/hJCG9Yhb/4jR/1+uGUJ9x/bC9c1enNDZGZmCWtA8otHVIlW/av0EtoovRjcLKAt4S0ZIwMaM0qBSUsY4oiaEkKg16pvEqqHrnvtefhefQ5Zs+bCddJYwG5H6Kt1CH29Hpk33waEQ4ge2IeyGyaj63trAUix3S2gvmCk4nfT0OX1DyB7j/yyR6ksR+k1lyD7zvvgGjsBtc8+jvA3XyF/8fMQoRCU2urYY4Mfr4D/w3eR+8DDsOV3hggFEd2/F7b+A6EUH0LVX+6BY+gJyLppJgDA/8E7qF2yEHkLn4C9X8Pfmit1tSj9+fnI+u0f4D7zPCiV5ai6dzYcI0+OPb8lXlnCAwW9cXUP3uNG5mamsKZKZvFIvESr/lUMbdbF4GYRbQlvyRoZ0JiRCkxawhBHdMSgNZtQFYm2/kDUByHf6y8isqcIsicD9oIhyPjFjbB17orSqy9o8Fi5Ww90+ec7sT9XL3wAIhBAzh8eaPJ5g1+tRc0jCxA9fLB+jttdf2wyxw0A/O8tbVBOotTWoOK3NyJyYC9kTwbcP70YmTdMj+3ElVx9AZSSYkiOI28i3edMQvasuQCA0IYvUPPkIkT37YHkdME17nRkzbgTkvvol5Zn2WQsGdofZ/94DzWRmZgxrAHJLx6Jl2jVv4qhzdoY3CykLeENSN7IgHiKUJoUmKj0VGCSCIY4srpxa7eiyB9s/YEUk2WT8eaoYzE8iWNgiLRk1rAGpKZ4RNWWqn8VQxsxuFlMW8NbMkcGxAtEAk0KTID6H1p6KzBJBEMcWdGlG3ZgbVVd6w+kGLcs4Yuxx6OrS/9vWolaYuawBqSueETVlqp/FUMbAQxultTW8BZVog1GBgCAQ3a0eWRAc4xcYNIShjiyiru278VzB8q0XoahOCUJRWeMgE3nl4UTNWb2sAakrngkXluq/lUMbaRicLOotoY3AFi9b3VsZIDq4oEXt2lkQEuMXmDSEoY4MrM3D1fgzu17URdNpKKEAGBYpgcfnDxI62UQJcQKYU2VquKReG2p+lcxtFE8BjcLa094S/bIgMbMUGDSEoY4Mpvd/iAmfrENfoWnkUTIAG7u0wX3H9vyz1girVkprAGpLR5RtbXqX8XQRo0xuFlce8JbKkYGxDNTgUlLGOLIDIQQOHbNJu64JSjLJuORIX1xfpdcrZdC1IDVwhqQ2uKReG2t+lcxtFFzGNyoXeEtVSMD4pmtwKQlDHFkZCwoSZxLkvDFuOPRjcUkpANWDGtA6otH4rW16l/F0EYtYXAjAO0Lb0BqRgY0ZsYCk5YwxJHRLNx1CAt3HUKEZ5JW5dlt2Dqh/W28RB1l1bAG1H/tq/etxsKvFqaseCT+tdpa9a9iaKOjYXCjmPaGt1SNDGjMrAUmLWlLiDu3/7k4o/cZDHGUdj/4Ajj7y+0I8D63o3JIwK96dsafCnprvRSyGCuHNVU6ikdU7an6VzG0UWsY3KiB9oa3VI4MaMzMBSYt4U4c6dn567/Hxhqf1svQNZcsYdXJg3GMt/nmOKJkYlirl47ikXjtqfpXMbRRIhjcqIn2hjcgtSMD4lmhwKQlDHGkN8tLKvGbrXtYUnIUY3IysHT0cVovg0yMYe2IdBWPxGtP1b+KoY0SxeBGzepIeEv1yIB4VikwaQlDHOlBRBEY9ulmVEairT/YgjJtMh47vh/O7dxyGQFRezCsNdRq8ciJszAgNznFI/Gv2Z6qfxVDG7UFgxu1qCPhLdUjAxqzUoFJSxjiSEv/u/MgFu8tRpD3ujWR77Bh02nDYDPZJdykDYa1ptJZPBKvvVX/KoY2aisGNzqqjoS3dIwMaMxqBSYtYYijdDsUDOOUz79DkKeUBtyyhNv6dcOs/ubd+afUY1hrWTqLR+K1t+pfxdBG7cHgRq3qSHgD0jMyoDErFpi0hCGO0uUX3xTi4/Ia8E63I1yyhPXjjkcXp/nfQFNyMawdXbqLR1QdqfpXMbRRezG4UUI6Gt7SNTIgnpULTFrCEEeptKMugHPWczSAyi1LuL5XZ9x3bGI/J4kY1lqnRfGIqiNV/yqGNuoIBjdKWEfDW1SJYsk3S/D3b/8eO5aqkQHxrF5g0hKGOEqFB4sOYvGeEvgV7rv1cDrw+dghcNuSf5kWmQfDWmK0KB6J15GqfxVDG3UUgxu1SUfDG5C+kQGNscCkZQxxlCwhRcGEdduwOxDSeima8sgSXj5hIMblZmq9FNIhhrXEaVU8Eq8jVf8qhjZKBgY3arNkhLd0jgxojAUmR8cQRx21sdqHyzbusOwlky5ZwqVd87BoSF+tl0I6wrDWdloVj6g6WvWvYmijZGFwo3ZJRnhL98iAxtYdXIeH1j/EApOjYIij9vrD9/vw8sEyS4a3PLsN68Ydj2w735BZHcNa+2hVPBKvo1X/KoY2SiYGN2q3ZIQ3LUYGxGOBSeIY4qgtQoqCSV/twLY6PyIWOst4ZAlvjDwWo3Osedk1Max1hJbFI/E6WvWvYmijZGNwow5JRngDtBkZEI8FJm3DEEeJKAmFccYX21Aejrb+YBPwyBL+UtAbU3qk/o0l6QvDWsdoXTyiSkbVv4qhjVKBwY06LFnhTYuRAY2xwKTtGOLoaDbV+HDxhh3wm/ySSY8s4eoenfCngt5aL4XShGGt4/RQPKJKRtW/iqGNUoXBjZIiWeFNq5EBjbHApH0Y4qg5a8prcM2mnaa9380jSzi3cw6WHN8PssXvizU7hrXk0bp4JF4yqv5VDG2USgxulDTJCm+AdiMDGmOBSfsxxFG8j8uqccPmItPtvHlkCed0ysaSof1h488CU2JYSy49FI/ES0bVv4qhjVKNwY2SKpnhTcuRAfFYYNJxDHEEAJ9U1ODaTUXwRRWY4cTjkWVc1i0XDw7qw502k2FYSz69FI+oklX1r2Joo3RgcKOkS2Z403pkQOO1sMCk4xjirO0HXwBXfF2IslAEIQOfftyyhHsH9sQNvbtovRRKEoa11NBL8Ui8ZFX9qxjaKF0Y3CglkhnetB4Z0BgLTJKHIc6aqsIR/GpTEb6t8Rnu0kk7ALdNxrPDj8H4vCytl0MdxLCWOnoqHomXrKp/FUMbpRODG6VMMsMboP3IgMZYYJJcDHHWEhUCT+0twV+KDiIkBKIGOBN5ZAkn52Rg0ZC+6OFyar0caieGtdTTU/GIKplV/yqGNko3BjdKqWSHNz2MDGiMBSbJxxBnHXv8QczYugeba/zwKYrWy2mWU5Lgtkl4aFBfXNglh/+eDYhhLT30VjyiSmbVv4qhjbTA4EYpl+zwppeRAfFYYJI6DHHmJ4TAvw6V4w879iMihG7GBsgAXD9W/f+loDfyHNxBNxKGtfTRW/FIvGRW/asY2kgrDG6UFskOb4B+RgbEY4FJajHEmVt5OIIX9pfh7/uKEVQE6qLa7MC5ZQkCwDmdsvHrvl0xOpv3rBoFw1p66bF4JF4yq/5VDG2kJQY3SptUhDe9jAxojAUmqccQZ15RIfBRWTUW7ynGxhofFCEQTsOZKsMmwyPLuKVPF1zdoxM6ObnDZgQMa+mn1+IRVbKr/lUMbaQ1BjdKq1SENz2NDGiMBSbpwRBnXrv9QTy9rwQvHSyHDCAkBIJJupRSRn1YCyoCJ2Z7Mb1fN5yZn8VB2gbAsKYdPRaPxEt21b+KoY30gMGN0i4V4U1vIwMaY4FJ+jDEmVNQUbC5xo+vquuwpqIWG6rrUBNR4JIlRIWAXxFHHertlCQ4f7wEMqwIDM50Y3xuJk7JzcTobC+6OPmGXu8Y1rSl1+KReMmu+lcxtJFeMLiRJlIR3gD9jQyIxwKT9GOIM7eSUBjf1vhxMBjGoWAIu/0hFIciCAsFigAcsoRMmw193U70djvR1WVHgdeNggw3d9UMgmFNe3ouHlGloupfxdBGesLgRppJVXjT48iAeCww0QZDnDkFFQXFoQiKg2EcCoVREY4iLASEELBLErw2Gd2cDnRzOdDNaUe23cbdbZ1jWNMHvRePqFJR9a9iaCO9YXAjTaUqvOlxZEBjLDDRzs6qnVixawXe3/U+Q5yBKEJghy+IDdV1+LSiFl9U1WF/IASXLMP24z/piBBQuyglADZJgg1AFEBIEfDIEkZkeXF6fhZOzPZiZJYXGXa+AdMaw5p+6L14JF4qqv5VDG2kA1PSFwAAIABJREFURwxupLlUhTdAnyMDGmOBibYY4vRNCIE1FbVYsrcYn1fWwiZJEAIdHtbtkAC3LMOvKOjtduKGXp0xpXs+cjirLW0Y1vSnpeKRbt5uuG30bZoXj8RLRdW/iqGN9IrBjXQhleFNryMDGmOBifYY4vSjKhzBPw+W4/G9JaiJRlM+080jyxAQuLBLLm7t0wXDsvjfNRUY1vTJCMUjqlRV/asY2kjPGNxIN1IZ3vQ8MiAeC0z0gyFOG5tqfHh8bzGWlVRBBuBPUvV/omwAnLKE/h4XZvTtigu75sIl62OHwagY1vTLCMUj8VJV9a9iaCO9Y3AjXUlleNP7yIB4LDDRF4a41NvtD2LGd3uwudaHkCIQbf0pKZdhk2EDsGBQH1zaNZc73m3AsKZvRikeiZeqqn8VQxsZAYMb6U4qwxug75EBjbHARH8Y4pIrKgQe31OCB3cd1E1ga8wryxiV7cUjQ/qil9up9XJ0i2FN/4xUPKJKZdW/iqGNjILBjXQp1eFN7yMDGmOBiT4xxHXMd7V+3LplF/YFwh0uG0k1uwQ4JRl3D+yB63t1hszdNwAMa0ZipOIRVSqr/lUMbWQkDG6kW6kOb0YYGdBYSwUmA3IG4PaTbmeBiYYY4hInhMCje4qxcNchBJX4KgT988oyCjJceHHEQHR2WvOXJQxrxmKk4pF4qaz6VzG0kdEwuJGupTq8AcYYGRCPBSb6xxDXskBUwYytu/FhWXXai0eSxSEBOXY7Xh05EEMz9fczIhUY1ozHaMUj8VJZ9a9iaCMjYnAj3UtHeDPKyIB4LDAxBoa4I4qDYVzxdSF2B4IIGDS0xfPKMh4d0hcXdM3VeikpwbBmTEYsHlGluupfxdBGRsXgRoaQjvBmlJEBjbHAxDisHOIOBEK4YMMOlATDiGi9mCRyyxIWFPTGlB763LloK4Y14zJi8Ui8VFf9qxjayMgY3Mgw0hHejDQyoDEWmBiLlULcoWAY563fjtJwBFETnnE8soS/GDi8CSGwpWwL3t/1PlbuXon9tfubfRzDmn4ZsXgkXqqr/lUMbWR0DG5kKOkIb4CxRgY01lKBycCcgZh90mwWmOiQmUNcRTiCs7/cjsOhMCImPtu4ZQmLh/QzzGWTDGvmYNTiEVU6qv5VDG1kBgxuZDjpCm9GGxkQjwUmxmWmEBdRBC7duAPf1vgQssCZxivLePvE43RbWMKwZh5GLh5RpaPqX8XQRmbB4EaGlK7wZsSRAfFYYGJsRg9xv9u+F/86VG7Y9sj26OSwYdWYweji1EfYYVgzFyMXj8RLR9W/iqGNzITBjQwrXeENMN7IgMZYYGJ8Rgtxrx8qx53b91oqtAH1owKGZnrwzokFmg3pZlgzH6MXj8RLR9W/iqGNzIbBjQwtneHNiCMDGmOBiTnoPcSVhMIYu3Yr6qJK2l5TT7yyjLsH9sCNvbuk7TUZ1szL6MUjqnRV/asY2siMGNzI8NIZ3ow6MqAxFpiYhx5D3DXf7sSq8mqELXx28cgSPjllCHq5nSl7DYY1czN68Ui8dFX9qxjayKwY3MgU0hnejDwyIB4LTMxHDyHu/dIq3LplN/yKNXfbVHYJGJOTiTdGDkzqL0EY1szPDMUj8dJV9a9iaCMzY3Aj00hneAOMPTIgHgtMzEmLEFcdiWLM59+hMhJt/cEW4JVlLBzcB5d269jPA4Y1azBL8YgqnVX/KoY2MjsGNzKVdIc3I48MaIwFJuaVjBAXVsIIRALIcma1+Dr37NiH5/eXIcjTSky2Tcam8cPgktv2JpVhzTrMVDyiSmfVv4qhjayAwY1MJ93hzegjAxpjgYm5tSfEVYeqMWXZFPjCPtw15i5MLpjc5Dn+qIKhn26Gz6KFJC3JsMn434LeuLx7fquPZVizHrMUj8RLZ9W/iqGNrILBjUwp3eENMP7IgMZYYGJ+iYa4Hhk9sKt6V+zYPWPvwZWDrmzwuFcOluHu7/ejzuL3tjVncIYbq8Y0f78ow5o1mal4JF46q/5VDG1kJQxuZFpahDczjAyIxwIT60gkxMW76+S78Mvjfxn78/h1W/GDL3iUZ1iXR5awdPRxGJ5Vf/kpw5p1ma14RJXuqn8VQxtZDYMbmZoW4c0sIwPiscDEWhINcbeOuBXTR03HxmoffrbxB8s3SbbEBuDSbnmY1rWGYc2izFY8Ei/dVf8qhjayIgY3Mj0twptZRgY0xgIT63lg7QN4dfurzX6sq6crPrzyQ9yyZRfeLq4EY1vLJBFG/r4ZkIWvyccY1szLjMUj8dJd9a9iaCOrYnAjS9AivAHmGRnQGAtMrOORDY/gyU1PNjkuQ8aMUTMwecj1GPnZFgQVnkqOSgkgo/Jf8NauAMCwZgVmLB5RaVH1r2JoIytjcCPL0Cq8mWlkQGMsMDE/X9iHZ7Y8g7pwHfpl9UOf7D7ol90P3b3dYZNteHZ/Kf7nh/3wM7i1yh4pwXWe/zKsmZxZi0dUWlT9qxjayOoY3MhStApvZhsZEI8FJtZ23aadeK+0WutlGIJdAraNH45MO99gmpFZi0fiaVH1r2JoI2JwIwvSKrwB5hsZEI8FJtY0/NPNKAlFtF6GIWTZZDwz/BiMz2t5iDkZj5mLR+JpUfWvYmgjqsfgRpakZXgz28iAxlhgYh1loQhGfrYFYZ5GEuKQgDv6d8dt/fkLDDNorXjk9pNuxyk9TtFodcmjVdW/iqGN6AgGN7IsLcObGUcGNMYCE/P7oKwa07bsQk2UfZKJOi03E2+MOlbrZVAHmbl4JJ5WVf8qhjaihhjcyNK0DG9CCLyx4w3MXzffVCMDGmOBiXn9ufAA/ranGNHWH0o/yrLJ+H7CcP6dNyizF4/E06rqX8XQRtQUgxtZnpbhDQC2lG7BrFWzTDcyIB4LTMzp518XYlVFTesPpBiHJGHTaUOR6+Bus5FYoXhEpWXVv4qhjah5DG5E0D68mXlkQDwWmJjLGeu2YbsvkJbXKp91EyKF36PL6x9AcjoBAFUL7oWtczdk3jgdABApKkTFnbfCe8U1qHvu8dhzRTAAOJyQ5Po3nFmz58IxsAA1SxYi/P1WiOpKdPtoY1q+jkybjOUnFmBQhjl2ZczOKsUjKi2r/lUMbUQtY3Aj+pHW4c3MIwMaY4GJOQz7ZDNKw6lvlIweOoDSX14EKSMT2bPmwj3xHAANg1t4xzZU3PVrZP7qFngvndLg+SVXTUL2HffCdeLY2LHInl0Ib94IKScXVffMTltwy7bJeHrYMZiQz2ZJPWuteOSOk+7AmB5jNFpdamhZ9a9iaCM6OuPfOUuUJON7jceinyyCU67/bf6BugO44b0bsL92f1pe3ybbMGPUDCw+azGynPVv6sJKGPPWzsPcT+fCH/GnZR3p0MnTCXPHzsWbF7+Jib0nxo4HogE8uelJTHpzEl7b/hoiCmvm9awykp7/Pv4Vb8MxZDg8510E/4q3m3w8vHUzKu6chswbZzQJbS2x9+0Pz6TLYO8/MNnLPaoogEOhcKuPI+1sLduKqSumYsZHMxqEtm7ebpg/fj5eufAV04W2lbtX4qrlVzUIbZMLJuO5859jaCPSEQY3ojhahzeg/ubvVy98tcE9X0sLl+Kad67B3uq9aVtHOgzIHYBHz3oUT537FIbkD4kdLw+UY97aeZi8dDJW71sNXhigP1EhEE3Tf5bAiuVwnz0J7rMnIfTl54iWl8U+Ft62GRVzpiPr17fDe8HP0rOgDogKAR9bOHXpUN0h3P3J3ZiybEqDtsgMRwZuG30bll22DBcNvMgUbZGqiBLBQ+sfwuxVs2OXr7tsLsw7bR7uG3dfyuezqRjaiBJjnp8+REmih/DWJ6sPXjj/BVwy8JLYse0V2zFl2RSs2rsqbetIl1N6nIJXLnwF88fPRzdvt9jxwqpCTP9wOqaunNpg7h1pLyIE0nHxbmjTRkQPH4R74jlwFBwPW8/eCHx45P6b8NZNkDIy4TolPfffdJQAOPdOZ+rCdXhkwyO48K0LsbRwaawt0ibZMGXQFCy/bDluGn6TadoiVaX+Uty88uYG89l6ZfbCi5NeTMt8NhVDG1HiGNyImqGH8Oa2u2O/9XTIDgBATbgGMz+aiUc2PIKoYq4SdlmScdHAi7DssmW4bfRtDe5xW3dwHa58+0rc/cndOFR3SMNVkipdd1wG3n8bzpPGQs6pb1h1n/VTBOIul/RcciUcBcej4s5pUGqq07SqjuGJVx8iSgSvbX8Nk96chCc3PdmgLXJi74l48+I3MXfsXNO0Rcb7uvhrTHl7SoP5bM1d7ZFqDG1EbcPzB1EL9BDeJEnC5ILJeOH8F9Ajo0fs+JObnsS0D6ahIlCRtrWki9vuxk3Db8Lyy5ZjyqApsEn1J28BgaWFS3HRWxfhkQ2PNGilpPRzSBJSfcGfCAYQ+O9KhL/5CiWXn42Sy8+G7/WXECn8HuHC7QAASbYhZ+582Lp2R8Xvfg2lrjbFq+oYGYDdREVDRiSEwH/3/heXL70c89bOa9AWOSR/CJ4+92k8etajpmqLVAkh8NLWl3D9e9fH5rNJkDBj5Aw8+pNH0zKfTcXQRtR2DG5ER6GH8AYAQzsPxasXvopTe54aO/b5wc9x5bIrsalkU1rXki4sMNE3SZLgkVMbQAKffAzIMjo98wbyn3wF+U++gk7PvgnH8FEIrFh2ZC12B3Lu+z/IObmo/P1MCH/rRT5CCIhQEAjXF4WIUBAiFErZ16KySRLyOcNNM1YsHlH5wj7cteYu/OWLv8Tms+W4crDk7CW45YRb0nrvHkMbUfswuBG1Qi/hLc+dh8fOegy3jLglduxQ3SFc+961eG37a6Yt8FALTJ4+92kWmOhMXooDSGDFMnh+ejFs3XrAlt859j/vZT9H4IN3geiRy4UlhwO5f3wIktOJirtvq5/ddhTK4YMo/ulYlN0wGQBQ/NOxKL029ff1yAC6uRwpfx1qyIrFI/GKqorwi3d+0WA+29BOQ/Haha+lbT6biqGNqP04x40oQVrPeYu3et9qzFkzBzWhmtixiwdejLlj58Jj96R9PemiCAXLdy7Hog2LcNh3uMHHTulxCu446Y603p9hdeev/x4ba3xaL8NQvLKMVWMGoa8nPW19VlcXrsPTm57G89893+AeNptkw+SCyZh2wjRT3sMWb+Xulbjn03saXF4+uWAy5oyZk7bWSBVDG1HHMLgRtYGewtvemr2YvWp2g7bFQXmD8PDEh9Enu0/a15NOgUgAL259EU9teqrBmxEJEi4aeBFmjpqJ7hndNVyhNdy8eReWllRqvQxDsUlA4YQRcNvMubOjFxElgjd3vInFXy9ucA8bUF88MuvEWaa8hy1eRIlg0YZFDVojXTYX5o6dm9bWSBVDG1HHMbgRtZGewlsgEsADax/Afwr/EzuW5cjC/AnzMbHPxLSvJ93K/GVY8s0SvP7964iKI5fNuW1uXHP8Nbhx+I0N2ikpuZ7aV4J5PxxAkKeRhPV2O7B+3FCtl2FaQgis3rcaC79a2OAeNqC+eOSOk+4w7T1s8Ur9pfjd6t81aI3sldkLfz3zr5pclcDQRpQcDG5E7aCn8CaEwBs73sD8dfMRVsKx41OHT8X0kdMtcVLcWbkTD3/1MFbtW9XgeL47H9NHTsfPjvsZ7DILIZJtY7UPV3z9A2o5UDphl3fLxeLj+2u9DFPaWrYVD61/qME9bEB98chto2/DBQMuMO09bPG+Lv4at6+6PdYaCdRX/c8fPz+trZEqhjai5GFwI2onPYU3ANhSugWzVs3CwbqDsWPjeozDgtMXIM+dp8ma0u2Lg1/gwfUPYmv51gbHB+YMxOyTZmNCrwmQWMWeNCFFwcDVmzhQOkFeWcYDx/XC1T3NfU9Vuh2qO4RHNz6Ktwvfjg3PBuqLR24afhN+OeSXphue3RwhBF7e9jIe/PLBWGukBAnTR07H1BFTNQmtDG1EycXgRtQBegtvFYEKzFkzB58d+Cx2rHtGdyw8YyGGdxmuyZrSjQUm6XX6uq343hds/YGEDJuMZaOPw5BM8xYIpROLR47whX24//P7G7RG5rhysGDCgrS3RqoY2oiSj8GNqIP0Ft6iShRLvlmCv3/799gxh+zAnDFzcEXBFZbZcWKBSXrM2b4Xzx0oA08krXNJEnaeMQI2i/wbTBUWjzRUVFWE2atm44fKH2LHhnYaioUTF6JnZk9N1sTQRpQaDG5ESaC38AZYd2RAYywwSa2Pyqoxdcsu1PE+t1adnpeJ10Yeq/UyDIvFI03pqepfxdBGlDoMbkRJosfwZuWRAY2xwCQ1FCEw4tMtKA1HtF6KrmXYZPxj2DE4Iz9L66UYEotHGtJb1b+KoY0otRjciJJIj+HN6iMDGmOBSfI9uvswHtp1CAGFp5OWdHPasfHUoZD5d6tNWDzSlN6q/lUMbUSpx+BGlGR6DG8cGdAQC0ySqywUwejPtyDI4NYsjyzhd8f0wLS+XbVeimGweKR5eqv6VzG0EaUHgxtRCugxvAEcGdAYC0yS58bNRXi3pAq8060plyzhm1OHItfBS3Fbw+KR5umx6l/F0EaUPgxuRCmi1/DGkQFNscCk476qqsMVXxfCpzC6xZMBXNI1F0uG9td6KbrG4pGW6bHqX8XQRpReDG5EKaTX8MaRAc1jgUn7CSFw6rqtKPKHtF6KrnhkCf8efRxOyPJqvRTdYvFIy/RY9a9iaCNKPwY3ohTTa3gDODKgJSwwaZ+lxZX47dY93HX7kQ3AyGwvlp9YoPVSdInFI0enx6p/FUMbkTYY3IjSQM/hjSMDmscCk7YTQmDy14VYV1WLCM8scMsSVo0ZjP4ebd9k6w2LR45Or1X/KoY2Iu0wuBGliZ7DG0cGtIwFJm2zPxDChHXbLL/r5pFlzO7fDTP7ddN6KbrB4pHW6bXqX8XQRqQtBjeiNNJzeOPIgKNjgUnint5Xgj8VHrRseJMADPS6sOrkwbDLvKSWxSOJ0WvVv4qhjUh7DG5Eaabn8AZwZEBrWGDSOkUInLN+O7bWBiw5HsAtS1g2+jgMYyFJi8Uj3TO64zejfmPp4hGVnqv+VQxtRPrA4EakAb2HN44MaB0LTI5ulz+Is77cjrqotaKbV5bxm35d8dv+1r58lsUjidFz1b+KoY1IPxjciDSi9/DGkQGtY4HJ0a0pr8E1m3YioFjjNOOWJfwkPxtPD+tv2X8fLB5JnJ6r/lUMbUT6wuBGpCG9hzeAIwMSwQKTlv19TzH+UnQQfpOHN7sEHONxYcVJg+CxaX9pW7qxeKRt9Fz1r2JoI9IfBjcijRkhvHFkQGJYYNKUEAK/37EPrx4sN214swHo4rTj/ZMGoZvLofVy0orFI22j96p/FUMbkT4xuBHpgBHCG0cGJI4FJg0JIXD79r1463CF6cKbTQLy7Xa8e1IBerudWi8nrVg80jZ6r/pXMbQR6ReDG5FOGCG8CSHw+o7X8ed1f+bIgAS0VGAyIGcAbj/pdksVmJhx580hAZ2dDiwffRx6Wii0sXik7fRe9a9iaCPSNwY3Ih0xQngDgM2lmzF71WyODEgAC0yOEELgyX0lmL/zoOELSzyyhCGZHrw4YgDyHdbYPWXxSNsZoepfxdBGpH8MbkQ6Y5TwxpEBbcMCkyNWl9fg+s1F8EcVQ85588gSLu+Whz8X9IHDAgO2WTzSPkao+lcxtBEZA4MbkQ4ZJbxxZEDbscCkXpEviJu2FKHIF4JPMUZ8s0uAS5Yx/7hemNLD/DtLLB5pv6KqIsz6eBYKqwpjx/RW9a9iaCMyDgY3Ip0ySngDODKgPVhgAihC4Jl9pfjTzoMICQURHZ+NPLKEU3Mz8fDgvuhqgeZIFo+0nxGq/lUMbUTGwuBGpGNGCm8cGdA+LDAB9gdCmLl1D76u9ulu980lS/DIMh4e3Afnd8nVejkpx+KR9jNK1b+KoY3IeBjciHTOSOGNIwPahwUm9ZflLS2pxJ8LD6I4FIFfUaDlySlDliEA/LxHPu46pjtyTF5AwuKRjjFK1b+KoY3ImBjciAzASOGNIwPajwUm9X9/NlT78NjeYnxQVg0JSFsDpQzALUvo7nJgRr9uuLRrHrw2c18OyOKRjjNK1b+KoY3IuBjciAzCSOEN4MiAjmCBSb3SUAQvHyjDE/tK4FcU+KKp2YXzyBIUAOd2ysG0vl0wKstr+stTWTzScUaq+lcxtBEZG4MbkYEYLbxxZEDHsMCkXlQIrCqvwcrSKnxaWYtd/hBcsoSIEG3ejZMBZNhkBBWBbLsNJ2Z7cUZ+Fi7tlmeZeWwsHuk4I1X9qxjaiIyPwY3IYIwW3jgyoONYYNJQUFGwpdaPDdU+rK2sxb5ACMWhCCrCEfgVARmABEABIEtAjt2Gzg4HurvsGJHlxZicDIzOzkBnpzWCmorFI8lhpKp/FUMbkTkwuBEZkNHCG8CRAR3FApPWCSFQHYnCryiICsAty8i0SXDZrP3GlMUjyWOkqn8VQxuReTC4ERmUEcMbRwZ0HAtMgJpIFF9X+/BVdR0+r6zD/mAIZaEIqiNRSBIgQ4IEQACICAG3LCPfYUNXlwPDMz0Ym5uJ0dle9HU7Tb1TyeKR5DFa1b+KoY3IXBjciAzMiOGNIwOSw0oFJiFFwbulVXivpApfVNWhOBSBW5bgV9o+tFtC/T1uUSEgSxJGZHlwZn42JnfLQ0+3MyXrTzcWjySX0ar+VQxtRObD4EZkcEYMbxwZkDxmLjDZHwjhmf2leG5/KRQAddHUDOd2ShIkCRiXk4npfbtifF6mYXfiWDySXEar+lcxtBGZE4MbkQkYMbwBHBmQTGYpMFGEwCcVtVi8pxhrK2shAITSeJrKsMnIttswrU8XTOmeb5jB2yweSS4jVv2rGNqIzIvBjcgkjBreODIgeYxcYCKEwMsHy/B/RYdQE1VStruWKI8sQQC4qEsu7j22J7o4HZqupyUsHkk+I1b9qxjaiMyNwY3IRIwa3jgyILmMVmCy0xfEr7/bhe/rgvAp2ga2xhwS4JJlzD+uF67onq+bv4ssHkkNI1b9qxjaiMyPwY3IZIwa3gCODEg2vReYhBWBxXsO46+7DyOkCOgrsjXklWUMy/Jg8fH90EfDEhMWj6SOEav+VQxtRNbA4EZkQkYObxwZkHx6LDDZXhfA9ZuKcDAYgl8xxmnIJtUXmcwd0BM39O6c9t03Fo+khlGr/lUMbUTWweBGZFJGDm8cGZAaeikwWVFahVu37IZfUWDEE5BHlnFe52wsGtIXLjn1QYnFI6lj1Kp/FUMbkbUwuBGZmJHDG0cGpIaWBSZCCCzcdRh/23PYMLtsLXHLEgZ4XHjlhIHo6kpNcQmLR1LLqFX/KoY2IuthcCMyOSOHN4AjA1Il3QUmihC4bdseLC+u0l0BSXvZJQm5dhuWn3gc+nmSdw8Ui0dSy8hV/yqGNiJrYnAjsgCjhzeODEiddBSYKEJg2ne7saK0yvA7bY3JAHIcNrwzugDHeDsW3oQQWLN/DR5a/xCLR1LEF/bh/s/ux7u7jFf1r2JoI7IuBjciizB6eOPIgNRKVYGJEAK/2bYHy4orTRfaVDKAPIcN7500qN2NkyweST0jV/2rGNqIrI3BjchCjB7eAI4MSLVECkwEBFbsWoF8d36rO0ALiw7hURPc09YaG4Debic+OnkQMuyJv4Fm8Uh6GLnqX8XQRkQMbkQWY4bwxpEBqdVagUnPjJ5464e3AAALJizApAGTmv08K0qrcPOWXQiYPLSpXJKEU/My8dKIAZBb2QFm8Uh6GL3qX8XQRkQAgxuRJZkhvHFkQOq1VGASL8uZhbcufgvdMro1OL6jLoDz1n9vmiKSRHllGVP7dMHvB/Ro9uOtFo+cNAsDclg8kgxGr/pXMbQRkYrBjciizBDeODIgPVoqMFGN7TEWT5zzROw+w6gQOPOLbdjhCxpyTltHuWUJb406DqOyvbFjLB5JL6NX/asY2ogoHoMbkYWZIbwBHBmQLu8XvY87Vt/R7MeuG3odbj/pdgDA4t3FeGjXIcvttsXr53ZizSmD4ZRlFo+kkRmq/lUMbUTUGIMbkcWZJbxxZEDqPbXpKSzasKjZj7ltbnz5yy+x2x/ExC+2mb6MpDUeWcavunsQKXmWxSNpYoaqfxVDGxE1xzi/eiKilBjfazwW/WQRnHJ9jfmBugO44b0bsL92v8Yra5s8dx4eO+sx3DLiltixQ3WHcO171+K17a+Bv6PquLP7no0+Wc2XvwzMHQghBKZ/txshi4c2APArCp7YV4E3d6+PhTabZMOUQVOw/LLluGn4TQxtSVRUVYSrl1/dILQN7TQUr134GkMbEZkGd9yICIB5dt4AjgxIJSEE/BF/7H+1oVoEogGc0OUEvH6oAnd9v8/Sl0g2IKKwh/Yg9/C9OJPFIyljhqp/FUMbER0NgxsRxZgpvHFkQHoJITBm7VbsDYS0XoquyCKEBf0lXDPgZK2XYjpmqfpXMbQRUWt4qSQRxZjlskkA6JPVBy+c/wIuGXhJ7Nj2iu2YsmwKVu1dpd3CTOqLqjqUhSJaL0N/JCdW+TprvQrTKfWX4uaVNzcIbb0ye+HFSS8ytBGRaXHHjYiaMNPOG0cGpMe13+7EirJqS9b/t8YlS9gwbig6Oe1aL8UUzFL1r2JoI6JEcceNiJow086bJEm4ouAKPH/+8+iRcWQo8pObnsS0D6ahIlCh4erMoSQUxqryGoa2FkgAXjpQpvUyDE8IgZe2voTr37s+FtokSJgxcgYe/cmjDG1EZHrccSOiFplp5w3gyIBUWVh0CIt2H0aQp5MWdXbY8c1pQ2H7cUg5tY2Zqv5VDG1E1FbccSOiFplp5w3gyIBUiAqBJ/eVMLS1wq8o+Li8pvUHUhNmqvpXMbQRUXswuBHRUZktvNlkG2aMmoHFZy1GljMLABBWwpi3dh7mfjoX/ohf4xUay4dl1QgztLWqLqrgsT2HtV4RJLY6AAAgAElEQVSG4azcvRJXLb8KhVWFsWOTCybjufOfQ8/MnhqurP0Y2oiovXipJBElxGyXTQIcGZAMv9u+F8/z/q2EOCUJRWeM4OWSCTBb1b+KoY2IOoI7bkSUELPtvAEcGZAMn1XWar0Ew3DIErbXBbRehu6ZrepfxdBGRB3F4EZECTNjeHPb3Zh32jzcO+5eOGQHAKAmXIOZH83EIxseQVSJarxC/QoqCnb7OXA7UYoQ+Kq6Tutl6NrG4o248u0r8eWhL2PHTu99Ol698FUMzh+s4co6hqGNiJKBwY2I2sSM4Y0jA9pnc40fLpmX/SXKrwh8WsEdyuYIIfDidy/ihvduQIm/BIDxq/5VDG1ElCwMbkTUZmYMbwAwrPMwvHrhqzi156mxY58f/BxXLrsSm0o2abgyfdpQ7WMxSRt9WcUdt8Z8YR/uWn0XFny5ABERAVBf9b/k7CW45YRbIEvGfavC0EZEyWTcn4ZEpCmzhjd1ZMDNI26OHePIgOatq6pFUOH3oy0OhcLwRxWtl6EbZqz6VzG0EVGysVWSiDrEjG2TqtX7VmPOmjmoCR2Zv3XxwIsxd+xceOweDVemDz9dvx1f16RufELxpCM7nyIYABxOSHL97xuzZs9FdN8e1L30NCSHA7DZYO83AJnTZsM59ASEvl6PittvhuRyxz5H1m1z4DnvYgBA1fy7EdrwBUTADzm/E7xTroX3gp+l7GtReWUZH48ZhH4eV8pfS+9W7l6Jez69B3XhI7uQkwsmY86YOXDZjP39YWgjolRgcCOiDjNzeOPIgJaN+mwLDgbDaXmtkqsmIfuOe+E6cWzsWO2zjyN6YC9y/vAniEgYtU8vRmDlcnT+1wqEv/kKVfPvRpfX3m/280WKCmHr1QeS04nIniJUzJqK3D8/AkfB8Sn9OrJtMl4cMQBjcjNT+jp6ZtaqfxVDGxGlCi+VJKIOM+tlkwBHBhxNZTii9RJiJLsDnnMvglJeClFd2erj7ccMhOR0qs8GJAnRA/tSu0gACoDDIf1839LNrFX/KoY2IkolBjciSgozhzeODGhKCAG/ju5vE6EQ/O8vhdy1O+ScPACAUlmOksvPQsnVF6Bm8YMQ/oaXdVb/dT4Onz8OZdddBjm/M5ynjE/5OqNCoEJHgTedzFr1r2JoI6JUY3AjoqQxc3jjyICGwkLo4gQSWLUCxRdNQMnPf4rw91uR+8eHAAC2vv3R6YlX0PlfK5H/0BMIf/8dapY81OC52b/9A7ou+wR5i/4B14Sf1N8rl2IKgIjF7lAwc9W/iqGNiNJBD+ddIjIRM4c3gCMDVHqJHu6J56Lr22vQ9c2PkL/widg9arb8zrD3HwhJlmHr0QuZt/wWgdUfNnm+ZLPBOXwUlNLD8C/9V5OPp4KVOiXNXPWvYmgjonQx/k9MItIds4c3jgwA7JKkm/CWCEmSANFyZBLRKCJpuMdNAuCQrDG03MxV/yqGNiJKJwY3IkoJs4c3m2zDzFEzsfisxchyZgEAwkoY89bOw9xP58IfSV1Nvh7YJAk2HQeQ0MYvET10AEIIRIsPoebJR+A6dSIAQKkoR+Cj96D4fRDRKIJffobAR+/BOWpMytdlkyRk2Mx/6l25eyWuWn4VCqsKY8cmF0zGc+c/h56ZPTVcWfIwtBFRupn/7EFEmjF7eAOaL1dYWrgU17xzDfZW79VwZamXa9fvm9PwD9tQPvM6FE86FeUzr4P9mGORNfN39R+UAN/Sf6H0yvNQcskZqH38YWT9+k64T5uY8nXJALq7Un8vnVYiSgQPrX8Is1fNjs1nc9lcmHfaPNw37j7Dz2dTMbQRkRY4x42IUs7Mc95UgUgAD6x9AP8p/E/sWJYjC/MnzMfEPhO1W1gKTfxiG7bVBbRehqFk2mS8c2IBCjLcrT/YYEr9pfjd6t81aI3sldkLfz3zr6ZojVQxtBGRVrjjRkQpZ4WdNyuODOhp4p2jVAkqAt2cdq2XkXRmr/pXMbQRkZYY3IgoLawQ3qw2MuCELC/4VrVtvDYZOQ7zBDcrVP2rGNqISGsMbkSUNlYIb4B1RgacnJMBrwWKNpLphCyP1ktIGitU/asY2ohID8zzU5WIDMEq4c0KIwNGZXsRUIz/daSLUwJOz8vSehlJYYWqfxVDGxHpBYMbEaWdVcKbOjLgbz/5mylHBuQ57Mh38I1rolyyjNHZGVovo8OsUPWvYmgjIj1hqyQRacYKbZOqvTV7MXvVbGwr3xY7NihvEB6e+DD6ZPfRcGUdc+PmIiwvqdJ6GYZgl4DtE4Yjw2bMN/wRJYJFGxbh2S3Pxo65bC7MHTsXlx57qXYLSxGGNiLSG+64EZFmrLLzBgB9svrghfNfwCUDL4kd216xHVOWTcGqvau0W1gHnZmfDY+s30HcetLX7TJsaCv1l2LqiqkNQluvzF54cdKLDG1ERGnC4EZEmrJSeDPjyICLu+aCl220zitLuLl3Z62X0S5q1f/6w+tjx8xY9a9iaCMiveKlkkSkC1a6bBIANpduxuxVs3Gw7mDs2Lge47Dg9AXIc+dpuLK2m/ndbrx5uALGi53p45YlbD5tGDLtxnnjL4TAS1tfwkPrH4q1RkqQMH3kdEwdMdVUrZEqhjYi0jPz/dQlIkOy0s4bYK6RAbf06QInL5dskQ3AZd3yDBXarFT1r2JoIyK9M99PXiIyLKuFN7OMDBiW5UU/j0vrZeiWU5Zwc+8uWi8jYVaq+lcxtBGRETC4EZGuWC28mWVkwIy+XZHBYdzNGuh1Y0imMQZvW6nqX8XQRkRGwXvciEiXrHbPG2DskQGBqIKhn25GXVTReim6kmmT8eCgPri0m77vW7Ra1b+KoY2IjIS/HiUiXbLazhtg7JEBbpuMa3t2gpv3ujVglyRM6pKj9TKOympV/yqGNiIyGu64EZGuWXHnTQiB13e8jj+v+zPCSjh2fOrwqZg+crpu31TWRaIYs/Y7lIXZLwkAHlnC4uP7YVKXXK2X0qKNxRtx+6rbUeIviR07vffpmD9+PnJc+g6cHcHQRkRGxOBGRLpnxfAGGHNkwMdl1bhhcxH8irVPLXYJOD0vCy+fMFDrpTTLilX/KoY2IjIqBjciMgSrhreKQAXmrJmDzw58FjvWPaM7Fp6xEMO7DNdwZS27aXMRVpRWI2Th00uGTcZnpwxBN5dD66U04Qv7cP9n9zdojcxx5WDBhAWmbY1UMbQRkZExuBGRYVg1vEWVKB775jE88e0TsWMO2YE5Y+bgioIrIEn6uq+sPBzBKZ9/hxqLFpV4ZRl/PK4nftmzs9ZLaaKoqgizPp7VoDVyaKehWDhxoWlbI1UMbURkdAxuRGQoVg1vAPDfvf/F7z/5PWpCNbFjFw+8GHPHzoXHrq+6+WXFlZi5dbflLpl0SsCo7Az8e9SxugvUK3evxD2f3oO6cF3s2OSCyZgzZg5cNnPP4WNoIyIzYHAjIsOxcnjbW7MXsz6ehe0V22PH9Doy4P4f9uO5/aWWCW8SgK5OO1aNGYw8h13r5cRYtepfxdBGRGbB4EZEhmTl8BaIBPDA2gfwn8L/xI5lObIwf8J8TOwzUbuFNaIIgSu/LsSX1XUIWiC8eWUZ751UgIIMt9ZLiSn1l+LO/96J9YfXx471yuyFv575VwzOH6zhytKDoY2IzITBjYgMy8rhzSgjA2oiUZzz5XbsC4YQMfHZxi1LeHrYMTirU7bWS4mxatW/iqGNiMyGwY2IDM3K4Q0wxsiAklAY53/1PQ4FwohovZgUcMsSHhncFxd308f328pV/yqGNiIyIwY3IjI8q4c3I4wMKAmFceFXO3AgGELYRGcdtyzh0SF9cVFXfYQ2K1f9qxjaiMisGNyIyBSsHt6MMDKgPBzB1d8UYntdwPCFJRIAjyzj6WH9caZOLo+0ctW/iqGNiMyMwY2ITMPq4Q3Q/8iAsCJw5/a9+E9xhWHDm1OS0Mlpx79GDsSxXn0UkVi56l/F0EZEZsfgRkSmwvBmjJEBz+wrwf8UHkBIETDSmG6vLGNkthfPDOuPHB1U/lu96l/F0EZEVsDgRkSmw/BmjJEBO31BTPtuF3bUBeFT9B3fHBLgkmXMP64Xruier4tLT61e9a9iaCMiq2BwIyJTYngzxsgARQi8cKAM//PDAYQURZetkx5Zxul5mXhwcB90cTq0Xg4AVv2rGNqIyEoY3IjItBje6hlhZMDBYAiztu3F2spaRITQxcy3TJsMlyzh4cF9cW5nfYQhVv0fwdBGRFbD4EZEpsbwVs8IIwMA4AdfAE/tLcGrh8ohSxLqoum9hNIhATZJwrBMD2b07YazO2XDLmt/WSTAqv94DG1EZEUMbkRkegxv9YwwMkBVF43iP4cr8eiewzgcjCCgKCktMcmQZQgAP++Rj5t6d8EAr76aGFn1fwRDGxFZFYMbEVkCw9sReh8ZEE8IgY3VPizZW4JV5dUICwH7jztxHTl5uWUJdklCUBE4zuvC1D5dcEnXPHht+rvUkFX/RzC0EZGVMbgRkWUwvB1hhJEBjQkhsD8YxoZqH9ZV1uLTylr84AtCBuCUJcgAFABCAAKAJAFqDIsIgaAi0Mlpx0nZXkzIy8Lo7Awcn+mGU9ZfWANY9d8YQxsRWR2DGxFZCsPbEYFIAPPWzsPSwqWxY3obGdAaIQQqI1EcDoVxOBhBeTiCsBBQhIBDkpBhs6Gry47uTge6OB1w6OR+tdaw6r8hhjYiIgY3IrIghrcjjDAyoDlCCOwOhPBtjR8HgyHsD4SxOxBEaSiCsFJ/WrNJEjJtMnp7nOjndqKry4ECrxvDMj1w6/CSSBWr/htiaCMiqsfgRkSWxPDWkN5HBtRFolhf7cOXVXVYU1GDzbV+KELAJkkIKQpCrZzJZNTf12aTJPgVBf3cLozLzcC43EyclJOBfh7t7xVj1X9TDG1EREcwuBGRZTG8NaTHkQFba/34+94S/Lu4Ag5Jgj+a3CHdGTYZUSFwnNeNGf264vzOOZrc88aq/6YY2oiIGmJwIyJLY3hrSA8jA0KKgndKqvDonsMo9AXTNpA7wybDJgHX9uyM63t1Rk+3M/UvClb9N4ehjYioKQY3IrI8hremtBgZcCgYxpN7S/D8gVIIALVpHr6tckkSIAFjczIxs19XjM/LStlrseq/KYY2IqLmMbgREYHhrTnpGhmgCIFn9pfiT4UHERECIR2dlryyjHG5GXh4cF90dTmS9nlZ9d88hjYiopYxuBER/YjhralUjwzYURfAtO92Y6cvCJ+izQ5baxwS4JRlzDu2F67qkd/hy0VZ9d88hjYioqNjcCMiisPw1lQqRgaEFYFFuw/hb3uKEVIE9BnZGvLKMoZkuvHY8f3a3ULJqv/mMbQREbWOwY2IqBGGt+a1NDJgzpg5eGTjI/BH/HjgtAfQxdvlqJ+nNBTB1d8WYkddAH7FWKcgGwCXLOOJYf1xdqfshJ/Hqv+WMbQRESWGwY2IqBkMb81rbmSAU3bGvk/n9T8PD57xYIvP31Lrx5SvC1EViSBs4LOPW5Ywq183/KZft1YvnWTVf8sY2oiIEsfgRkTUAoa35jU3MkAlQcLSS5eif07/Jh/7sKwaN20uMtwuW0u8soxzOmVj8fH9YJebD2+s+m8ZQxsRUdtY99oMIqJWjO81Hot+sghOuX6e14G6A7jhvRuwv3a/xivTlk22YeaomZg6fGqTjwmIZgPduyWVpgptAOBTFKwoq8J1m3Yi3MzXtXL3Sly1/KoGoW1ywWQ8d/5zDG0MbUREbcbgRkR0FAxvLfv8wOfNHn9759soqiqK/XlFaRWmfbfbVKFN5VcEPq2sxY2bixD58euLKBE8tP4hzF41OzafzWVzYd5p83DfuPssO59NxdBGRNQ+DG5ERK1geGve4E4tV9c/s/kZAMBXVXW4ZcsuBEwY2lR+RWBNRQ3u2L4Xpf5STF0xtcF8tl6ZvfDipBctPZ9NxdBGRNR+vMeNiChBvOetISEE1h5ci02lm7CldAvWH16P6lA1JEhYcvYSDOh8MiZ+sR1VkajWS00LlySQV/0mohX/jh1j1f8RDG1ERB3D4EZE1AYMb0dX7i+Hw+aA3ZaBc9dvR5E/iIiVzjJKEDklD8IV3M6q/zgMbUREHcfgRkTURgxvrZu1bQ/eOlxh6kskWyIrPvzjOIGf9rV21b+KoY2IKDn4a0AiojbiPW9Ht66y1rKhDQDsNi/eqmaIBxjaiIiSicGNiKgdGN6aF4gqmPbdbsuGNgAICWBFWRX+W16j9VI0xdBGRJRcDG5ERO3E8NbU/+06iPJwROtlaM6vCMz4bjfqotYoZmmMoY2IKPkY3IiIOoDh7YittX48va/U0rtt8WqiUcwrPKD1MtKOoY2IKDUY3IiIOojhrd79PxxAkKEtJqAI/PNgOQ4Hw1ovJW0Y2oiIUofBjYgoCawe3g4EQlhbWQvGtqaeO1Cq9RLSgqGNiCi1GNyIiJLEyuHtmf2lDG3NCCoC/9hXiojJdyIZ2oiIUo/BjYgoiawY3kKKgmf3lyLEsaDNigiB98uqtF5GyjC0ERGlB4MbEVGSWS28vVtaBUXrRehYbVTB33YXa72MlGBoIyJKHwY3IqIUsFJ4+9vuYtRFGd2OZmudHzvqAlovI6kY2oiI0ovBjYgoRawQ3rbV+bHDZ65AkgoRReCpfSVaLyNpGNqIiNKPwY2IKIXMHt7ePlxp+uKNZIgA+HdxpdbLSAqGNiIibTC4ERGlmJnD2+qKGkS0XoRBBBQFBwIhrZfRIQxtRETaYXAjIkoDM4Y3IQQ21/IyyUQ5JQkbqn1aL6PdGNqIiLTF4EZElCZmC29F/hDA6W0Jq40q+KKqTutltAtDGxGR9hjciIjSyEzhbUN1HWRJ0noZhiEAfFJRo/Uy2oyhjYhIHxjciIjSzCzhbV1lLccAtNEOXxBRAw0qZ2gjItIPSQgDnUGIiEzkk/2f4LaPbkNIqS+s6JnRE//46T/QK7OXxitLzCUbdmBdgpf++T98F75/vYDonl2QvBmwH1uAjF/cBDkzCzVLFiL8/VaI6kp0+2hjg+cVTzq1wZ9FKAjPxVcg+zdzAADBDetQs+gviBYfgmPIMOT87n9g694TAFC14F4EPnwXkt0Re36Xt9dAstkQPXQApVdfAMntiX3Me9V1yLzmZgBAzZKFCH62Ckp5GeTOXZHxixvgOfeiI+uIRlH37OPwv/dvCJ8Ptl59kLfwSciZWUf9PrhlCevGHo9uLsdRH6cHDG1ERPpi13oBRERWpe68qeFN3XkzSngrDoUTelzdv15A3T+fQfZv74br5FMBhx2hLz5D8NNV8Ey6DO6J58BzyRWoumd2k+d2feez2P9X/D6UXn423GecU//nqgpU3XcHsm+/F65TT0ftPx5D1bw5yF/8fOw5GVOuQ+aN01tcW5e3V0OyNT0VSh4Pcv+0CLbe/RDZvgUVd02HrWcfOIeNrP+ann0coS3fIP/R5yB364HorkJITmer3wuHJOFwKKz74MbQRkSkP7xUkohIQ0a+bLIs1PogAKW2BnXPLEH2b34P9+lnQfJ4INkdcJ16BrJunQV73/7wTLoM9v4DW/1cwdUfQM7Lh2PEaABAYM1HsPcbAPfEcyA5Xci89laEC79HZE9Rh7+2zOumwd73GEiyDMeQ4XAMH4Xwd9/Wf0011fC98RKyb78Htu49IUkS7MccC8npSuhzHwomFni1wtBGRKRPDG5ERBozYngTQqAmgfvbwt99CxEKwTXhzA6/pv/9ZXCfcyGkHwtRIrsKYR9YEPu45PHA1rM3IrsKY8d8S19D8SVnoOyWqxFY/UGTz1n680koufI8VC24D0pVRbOvK4IBRLZ/FwuXkZ07AJsNwdUfoOTys1H6q0vg+/erCX0NUSFQmkDg1QpDGxGRfjG4ERHpgNHCWzTBu6OV6irIObnNXo7Yptc7dADhb7+C57y4+8z8PkgZmQ0eJ2dkQvjqZ6V5L7sKnZ//D7q8+SEyr5+G6gX3IbT5awCAlJOL/CUvovMr7yD/8Zch/HWo+tPdzb529cN/gn1gAZwn199vFy0thqirRWTfbnR+eRly7vs/1D73OILr17b6dSgAgjq9tZyhjYhI3xjciIh0wkjhLQqBRAYByNk5UKoqIaId22Xyr1wOx7CRsPU4cu+f5PFC+BqWowhfHSSvFwDgKBgSC42usRPgPvt8BNd8WL8ujxeOQUMh2eyw5XdC1m/mILT+cyiNPl/N4w8jUlSInHsXxHb61EsiM6+5GZLLDcfAArjPPA+hdZ+0+nUIQJetkgxtRET6x+BGRKQjRglvNkgJjd52HD8CcDoQ/OTjDr1eYOWyBrttAGDvPxCRwu9jfxZ+PyIH9h3lfjkJaDE0/RhDlSOXf9Y+uwTBLz5F3v8+BjluZ88+4LgfnxIXXROcZycBsOts9h1DGxGRMTC4/X97dx4lV1Xgcfx3X+1Vva9ZOyEhwYRFwmIQUFmiZBA4IpuCC8MiA2ZEPYpH5xw4os4A4owKRhgWUQRR0BHZhgiCTGQR2QwSiAnZIEt30un0Unu9O3+09CEhpLura3lV9f38lfTy3q38c8837757AcBjKiHefGNsD6euXnXnXqyBH16l5PLHZJMJ2WxGqWeWa+DG78taK5tOSZnhDTtsOiWbTu9yjfTLLyq3rVuhf+wm+Zbw0ccqu26Nkk88IptOafD2/1Zg1hz5u/aRJCX/+Hu5ibis6yr17FNKPvKgQkceI0nKrFyh7IZ1sq4rd2efBq6/RoGDDxvZzn/ozluUfPQhNV97g5zGpl3u6586XYEDF2jojltk02ll17+u5GMPK/j+D4z+7yEp6Hgn3Ig2AKgcnOMGAB7l9XPe5v7fCvVnc2P62cQjDyp+z8+V3bBWTiQm/9x5ip1zvnxtHdp29kd3+Vmnc7Laf/HgyN/7//PbssmkGr/x7XdcN/Xc0xr44dXKbd08fI7b164cOcet99LzhjcSsVa+SVMUO/s8hY9bPDyeRx/S4C3Xy+3rlROtU/DQhaq76IvytbRJkrYet0AKBHZ5Ny92zvmKnXO+JCnX063+a7+pzIoX5DS3KPqJcxU9+fRR/x3qfY6Wzp+hD7c1junfrZiINgCoLIQbAHiYl+Pt/U+v1NpEqtzDqCj1Pke/WbCvDqyPlnUcRBsAVB6WSgKAh3l52WRncGI7RdaijLXqDJb38G2iDQAqE+EGAB7n1XibGwuX9f6VyLVSaxmDl2gDgMpFuAFABfBivC1sjKnOxzQyHnNjIfnKtKsk0QYAlY0ZFwAqhNfi7dDGmCfPJPMqR9JRTfVluTfRBgCVj3ADgAripXibEQ7K8diZZF4W8zla2BQr+X2JNgCoDoQbAFQYr8SbMUYH1EVKes9KlrZWhzSUNtyINgCoHoQbAFQgr8TbB5vr5eeh25hEHEeTQqXbUZJoA4DqQrgBQIXyQryd0tEkP8slRxUw0sc7m0t2P6INAKoP4QYAFazc8TYnFtZ7OBZgVD5jdMG09pLci2gDgOpEuAFAhSt3vC3p6lSMYwH26oC6iGZFQ0W/D9EGANWLmRYAqkA54+2EtkaWS+5Fnc/Rkq7Oot+HaAOA6ka4AUCVKFe8BRyjf57appBDvO1JwBgtam0o6j2INgCofoQbAFSRcsXbuVPbinr9ShUyRhdMa5O/iFFLtAFAbSDcAKDKlCPeJoUCOqqpTjxz242RPlPEqCXaAKB2EG4AUIXKEW9X7DuV5ZJvE3GMPjulVe3B4pzdRrQBQG0h3ACgSpU63vaLhfUv0zsUId4kSQ1+n74+a0pRrk20AUDtIdwAoIqVOt6+PLNTbUF/Ua5dSSKO0Y/mz1CkCMckEG0AUJsINwCocqWMt6Dj6Ib5MxWu4aduIcfoxPYmHd1cX/BrE20AULsINwCoAaWMt0MbYzpzUkvNxlvEcfTvc6YW/LpEGwDUNsINAGpEKePtW3OmalYkVHMHc4cdo9sPmqXGQGGXixJtAADCDQBqSKniLeQ4uuu9s1VfhHe8vCriGH1nzlQd3hgr6HWJNgCARLgBQM0pVbx1hAL6xXtn18QukxHH6IxJLTpnSmHPbCPaAABvIdwAoAaVKt4Obojq1gP2qer33SKO0fGtDfqPudMKel2iDQDwdoQbANSoUsXbsa0NuvmAfaryyVvEcXRsS4NumD9TvgK+z0e0AQB2Z6y1ttyDAACUz/I3l+vSP1yqtJuWJE2JTdGti2/V1LrC7oz4RO+Azl2xVgnXVTVMPBHH6KT2Jn1/XhfRBgAoOsINAFCyeHttKKkzXlytvkxW6QqefcKO0TdmTdaF09pliDYAQAkQbgAASaWLtx2ZrD7919f1t8GEEm5lTUF+I4UdR7cesI8+2FLYA7aJNgDA3hBuAIARpYq3rGt1w8ZufW/dFqVdq1xBr14cUcfRwQ0R/XDeDE0LBwt6baINADAawg0AsItSxZskrUukdMkr6/XqYEJxjz59C5rhc+munjtNp3Y2F3RppES0AQDGhnADALxDKePNWqs7N2/X5as3KetapTwyLRkNv8t2XGuDrpk7Xa1Bf8HvQbQBAMaKcAMA7FEp402StqWz+umbPbrpjW3KWKuhnFuU+4wmZIxkpGNb6vX5rk4d3hgryn2INgDAeBBuAIB3Vep4k4bff3tke7+u27BVLw8mlLNW2RLMVDGfo5BjdMG0dn16Sqvag4Gi3YtoAwCMF+EGANircsTbW9bEk7r5jR79cvMO+YyUcq3SBZq2jIZjLeNaHVQf0ZIZnVrU2lDQM9n2hGgDAOSDcAMAjKqc8SZJiZyrlwbiem7nkJ7YMagXB+JKuq6CxihjrZKjbGwS+McGI9Jw/M2JhnRkc52OaKzTYY0xTQoV7+na2xFtAIB8EW4AgDEpd7ztblMyrRWDCW1OZbQlldH6RErd6awy1sq1VgHHqM7nU1c4qGnhoDpDAe0bDWleLKKAU7zoELQAAA9sSURBVNynantCtAEAJoJwAwCMmdfiLetabctktTWd0dZURr2Z4XCzVvIbo6jPUWcooEnBgDpCfsV85Qkkog0AMFGEGwBgXMoVb9ZavZ5I6fn+uJ7sG9TTfYPakEwrYIwC/3gvLWet3prUjCTHGDmScpKSrqt6n08H10f1oZY6HdIQ00H1UUV8TlHHTbQBAAqBcAMAjFup4s1aq6f6hvTjjd1avmNARkbGaMJHBQSNUcgxSriuZkZCumBqm06f1KI6f2FDimgDABQK4QYAyEsx420gm9OvtvRq6YZu9WVziudcFXOyijpGrqRTO5v1uWntmlcXmfA1iTYAQCERbgCAvO0p3pYuWqpl65cp5+Z00UEXKeAb+46NrwwmdOPGHt3bvUOOjOJuaQ/h9kkKOEb7RsNa0tWhE9sbFXTGv5SSaAMAFBrhBgCYkN3jLegER/586SGX6oIDLxj1GhuTaV26cr1e6I8rba1yHpiZYj5HAWN07X7TdVJH05h/j2gDABQD4QYAmLDlby7XFx79gjI2s8vXZzfO1m8/9tt3/b2ctbp5Y4+uWrtFaet6Ith2F3Ucva8xpu/P6xr1vDeiDQBQLMXdSgsAUBOOnHKk9m3e9x1fX7NzjVbvWL3H33l1KKFFz76mq9duVsL1ZrRJUtx1tbxvQEc9s1K3v7lN7rv8fyfRBgAoJsINADBhr2x/RSt7V+7xe/f8/Z5d/m6t1Q0burX4L6v06lBScdejxfY2WTu8k+UVqzfplOf/rt5MdpfvE20AgGIj3AAAEzajYYZmNszc4/fuXX3vyJ9TrquLX1mva9ZuUdK1Rd0pshjirquXBuI65s+vauVgQhLRBgAoDd5xAwAURCKb0BNvPKGH1z2sxzc+row7/L5bLBDT02c/rZ50Rme9uEavJ1JKVsBTtr0xksKOo6Xzp+vZ1dcRbQCAoiPcAAAFF8/Edfequ/XM5md00UEXqbNxvj763CptTWeUraJZx6esIttuUiT+pCSiDQBQPIQbAKCotqYyWvzcKvVUWbSNcFOq671VZ0xqIdoAAEXjL/cAAADVqy+T1Uefr+JokyQnpETbhfrgfrOJNgBA0bA5CQCgKHLW6rMr1qo7la3eaPuHnPy6ZOXGkQ1LAAAoNMINAFAUl//9Tf11IK50jazIT7iuznxxjbans6P/MAAA40S4AQAK7n+29OrOzb1KVPjukePVl83q0ytef9dDugEAyBfhBgAoqJ50Rl9d9YYSrlvuoZRcxkqvDib0s03byz0UAECVIdwAAAX1lVc3KlWD0faWuGt15epN2pxKl3soAIAqQrgBAApm2bademLHgDI1vlIw7br6wsoN4sQdAEChEG4AgIIYyOZ06coNNfde255kJf1l55B+19NX7qEAAKoE4QYAKIjvrt2ieK52l0juLuFaffW1N2p62SgAoHAINwDAhCVyru7YvF0plgbuImetHujZWe5hAACqAOEGAJiw+1gSuEdDOVfXr99a7mEAAKoA4QYAmLDr12/VEMsk92htIqW/DSbKPQwAQIUj3AAAE/LSQFwbk2x9/27S1urGDd3lHgYAoMIRbgCACblxQ7dS7CT5rnJW+l1Pn/qzuXIPBQBQwQg3AEDe+jJZPbBtp1gkuXeOjH61ubfcwwAAVDDCDQCQt9919zGRjEHcdXXzmz3lHgYAoIIx3wIA8vZY7wAHbo/RG8m0hlguCQDIE+EGAMjbc/1D5R5CxYg4jl4ciJd7GACACkW4AQDy0pvJakeGJ0hjlXRdPddPuAEA8kO4AQDy8nx/XGHHlHsYFSNjpSd2DJR7GACACkW4AQDy8uzOQcU5dHtcXuqPy1reCQQAjB/hBgDIy18HEmKh5PgkXaudbFACAMiDv9wDAABUps2pTFGu2/ulC5Rds0rt9zwiEwxKknZefbmSjz4k4w9Ixsg3bYbqL/mygu89bOT3ctt7NHjrj5R+5k+yibictg6Fj/2IYmedKxOJaOtxC6RwWEZGCoYUPHShGr70b3Lq6iVJyceXKX7PHcqsWaXAe/ZXy3/dXPDPFnKMtqazagow/QIAxocnbgCAvGxLZwt+zdyWTcqseEEyRqkn/7jL92JnnauOB59U+/3LFTnldPVd8RXZ3PDTK7d/p3qXfFZKpdRy/U/V8cCf1PzdH8sdHFB208aRa7Te9Et1PPik2u64T3ZwQEO33TDyPVPfoOjp5yj2yXML/rne4kjqLlLwAgCqG+EGAMhLXxGW/CWW3afAvAMVOeFkJZbdt8efMcYocvw/yfbvlLtjuyQpfvfP5URjavjGd+SbNEWS5OuYpIYllykwe+47ruHE6hQ68kPKrn995GuhQ49Q+JiPyGltL/jnektO0tY04QYAGD/CDQAwbjlrlSvCJhvJZQ8ovOhEhRedqPSzTynXu/0dP2NzOSWW3S/f5KlymlslSennn1HoA8fJOGOb1tyBfqWWP6bA/AMLOv7R5KzVEBu6AADywCJ7AMC4Za2VkVTIdEuveEG5rZsVPubDchqb5ZsyTclHH1LsjE9JkoZ+9TPFf3uXbCYjWauGr14h4/NJktz+PjktbaPeo/eisyVjZBNx+aZ2qeGybxbwE4zOSsqwqyQAIA+EGwBg3Ipxelvy4fsUPOwIOY3NkqTw8YuVXHbfSLjFzvyM6s7/vKy1yq1box2XXSynvkGhhUfLaWiS27tt1Hu03Hin/FO7ZLMZJe69Wzu+eJ5af/JrmWCoCJ9oz1jqAgDIB/MHAGDcAsaokAv+bCqp5B9/r8xLz6nntEXqOW2R4vfcoeyaVcqseW2XnzXGyL/Pvgrsf7BSTy+XJAUPWajU8sdk3bGNyvgDipx4qnKb31R27eoCfpK9cyT5DYeWAwDGj3ADAIybMUYRp3ABklz+mOQ4av3Jr9Vy011quekutd72GwUOXKDksvvf8fPZDWuVeflF+WfOkiRFz/iU3KFB9V91uXJbNkmScj3dGlh6rTJrVr3j920up8T/3iuFwvJNnjbyNZtOSbmc5Lqy6ZRstrAbifiMUQtHAQAA8sDsAQDIS3PAr0SBtrZPLrtfkcWnyNc5eZevR0/9hAauu0bBQxdq6Je3Kf7rO2Rl5TQ0Kbz4FEVOPl2S5DQ0quW62zR461L1fv4zssnE8Dluxy2Wf+r0kettv/Cs4XPcHEe+6TPUdOX35DQ0Do/h9w+o/5orRn62e/ERCp9wshq/dmVBPqM0/L+lnaFAwa4HAKgdxlrekgYAjN/iv7ymFwcS5R5GRYk6jh57336aESndO3UAgOrAUkkAQF6mh4PlHkLFSVlXnUGeuAEAxo9wAwDkZWFTnUIFfM+tFkwOBhT2MfUCAMaP2QMAkJdDGqIKsEPiuBzeGCv3EAAAFYpwAwDkZf+6iFIur0mPVdQxOrq5vtzDAABUKMINAJCXkONoZoT33MbKGKNDGqLlHgYAoEIRbgCAvB3VVCcWS45N1rWaGwuXexgAgApFuAEA8raorVFRNtsYk/c1xeTjnUAAQJ6YbQEAeTu2pV5hdpYcVczn6JLpHeUeBgCgghFuAIC8+YzR56Z1EG+jiPkcfaiFjUkAAPkj3AAAE3LOlFaxt+S7izhGF01vl8MySQDABBBuAIAJaQv6dXxLA5uUvAvXSp+c3FruYQAAKhzhBgCYsEu6OhRxmFJ250g6oa1RLQF/uYcCAKhwzLIAgAk7tCGqjiBxsruQ4+jiLjYlAQBMHOEGAJgwY4y+ts8kRXnqNsKR9J5YWAs4dBsAUADMsACAgvhYZ7MOqo/Iz8tukqSgY/Sj+TPKPQwAQJUg3AAABWGM0fXzZyhgmFqijtEXZ3RqVjRU7qEAAKoEsysAoGCmhYP6+iyWTE4KBbWkq7PcwwAAVJHanlkBAAV3/rR2zYwEa3aCCTtGN+4/Q34OJQcAFFCtzqsAgCLxGaObD9hHEV/tTTERx+hfuzp1YD0bkgAACqv2ZlUAQNHNioZ0ywEzFa6hp05hx+gDzfX68kyWSAIACo9wAwAUxTEtDbqsRo4I8BtpWiioG/afKWNqJ1YBAKVT/bMpAKBsLp7eoY93NilSxU/eHEktAb/uXjBb0RpcHgoAKA1mGABA0RhjdM1+03VSe1NVPnnzSWoO+HX/IXM0ORQs93AAAFWs+mZRAICnOMboB/O6dFpndcVbwEhtQb8ePmyuuiKc1wYAKC5jrbXlHgQAoPpZa7V0Q7e+u26Lkm5lTz0Rx2huLKw7D5qt1qC/3MMBANQAwg0AUFJ/2N6vC/+2TvGcq0qcgCKO0Skdzbp2v+kKVPG7ewAAbyHcAAAltyae1Hkvr9PGRErxCnn65pcUdBx9a84UnTOlrdzDAQDUGMINAFAWOWt188YeXbV2s9LWKufh2SjqGB3WGNMP5nWxCQkAoCwINwBAWW1IpLRk5Qa9PJBQ3HXLPZxdBI1R2Gf0vf26dFJ7I2e0AQDKhnADAJSdtVa/2bpDV63dou3prBJued9/izqOXFmdOalFX581Wc0BNiABAJQX4QYA8Axrrf68c0hLN3Tr8R0DkpVSJZqmjKSI46gt6NeSrg6d1tmsmN9XknsDADAawg0A4EndqYxu37RNN7+xTRlrNZgrzjLKsGPkWum41npdMr1DhzfGWBIJAPAcwg0A4GlZ1+rR3n4t27ZTT/UNaUMyrYhjlHbtuJ/GOZJiPkdpaxV1HC1oiOrYlgZ9rLNJ7cFAcT4AAAAFQLgBACpKIufq5cGEnu8f0lN9g9qYTGtbOqsdmZyy1uqto9Wslayker9PrQG/JoUCOqg+ooWNMR3SEFNniFADAFQOwg0AUDVSrqustbJW8hujoGPksOwRAFAFCDcAAAAA8Din3AMAAAAAAOwd4QYAAAAAHke4AQAAAIDHEW4AAAAA4HGEGwAAAAB4HOEGAAAAAB5HuAEAAACAxxFuAAAAAOBxhBsAAAAAeBzhBgAAAAAeR7gBAAAAgMcRbgAAAADgcYQbAAAAAHgc4QYAAAAAHke4AQAAAIDHEW4AAAAA4HGEGwAAAAB4HOEGAAAAAB5HuAEAAACAxxFuAAAAAOBxhBsAAAAAeBzhBgAAAAAeR7gBAAAAgMcRbgAAAADgcYQbAAAAAHgc4QYAAAAAHke4AQAAAIDHEW4AAAAA4HGEGwAAAAB4HOEGAAAAAB5HuAEAAACAxxFuAAAAAOBxhBsAAAAAeBzhBgAAAAAeR7gBAAAAgMcRbgAAAADgcYQbAAAAAHgc4QYAAAAAHke4AQAAAIDHEW4AAAAA4HGEGwAAAAB43P8D6YYG9to6x7oAAAAASUVORK5CYII=\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "### NETWORKX and matplotlib throw a lot of warnings... Suppresing them for now, \n", + "### hopfully future versioning will fix this without having to modify code too much\n", + "import warnings\n", + "warnings.simplefilter('ignore')\n", + "\n", + "G = dtp.build_explanitory_graph(paths)\n", + "dtp.draw_explanitory_graph(G);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### Remove title from path\n", + "\n", + "If you don't want the starting node's name, simply remove it with the `title=False` flag." + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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tpduWMm0SAJAxhBsAoNs6ijbTyMzNHPWJpB7btlP3bKpVQzKlaCqtdOff1m2FpqG0pLP7l+uyqkqNKQ5n7LWJNwBAphBuAIBuyUW07c+yLL26e4+e39GgV3bt0ZqmZgVMQ2nL6vbVOL8hhU1T0bSlygK/ji8r0qkVJfpiZblK/dm5QZN4AwBkAuEGAOiyXEdbu2uwLK1patbyhoiW7N6j6ua4auIJ7YgntWe/q3KmpALTULnfr8oCvwaFAhpXXKhJZUUaX1qYtVBrD/EGAOgtwg0A0CVOiLaOJNKWdieTSqQtpS1LAbNlwEhRDgOtI8QbAKA3CDcAQKecFG074kktb2jSW/VNeqO+SZ/EEtqVSCqSSitgGm3GJScsS4YMVQR86hfwa0xxWCdVFOu40iIdWhiUaeR2CwLiDQDQU4QbAKBDdkdbNJXWE7W79VTtbi2rj2h3MqWQaSiSSivVg9crNE0ZklKydFRRWJ/vU6KvDuqj4eFgppfeLuINANAThBsA4KDsjLYN0Zge2FSrBdt2SpKaUtmYKSkFDMk0DB1bUqgrqir1r31L5cvylTjiDQDQXYQbAKBddkRbyrL0/I4G3Vldo3cbI0pblhI5PEoV+UyFTEOXDq3UhYP7ql+BP2vvRbwBALqDcAMAHCDX0ZayLD28uU63btymWNrK2tW1rgqZhixJU/uW6YbDhmhgMJCV9yHeAABdRbgBANrIdbStaWrW5e9t0MZoTJFu7suWbX5DCpqmrh81WF8f3FdGFm6hJN4AAF1BuAEAWuUy2uLptH69Ybvu3VSjWNqSkw9Ghaapw4uCumf0CI0szPwQE+INANAZwg0AICm30baqMaJvrlqvunhSUYddZTuYvRt6zx4xUFdUVWb86hvxBgDoCOEGAMhptD2+fZeu+qDaNcH2WYWmqVP7lOju0cNV6Mvsz4Z4AwAcDOEGAHkuV9GWtizduO4TPbi5zrXRtlfINDQ0VKC/HjNKg0MFGX1t4g0A0B7CDQDyWK6iLWVZ+u57G/TcjkZF0vZOjMwUnyGV+n1aOOEwjSoMZfS1iTcAwGcRbgCQp3IZbd9etUEv7Wxw/ZW2zzK0L94OKyLeAADZk50dVAEAjpbL2yO/u3qjJ6NNkixJDcmUzl7+kTZGYxl97UkDJ+mu0+5S2B+WJNVGa/WtRd/ShvoNGX0fAIA7EG4AkGdyOYhk3vpteq6u3pPRtpclqT6Z0nlvf6zGZCqjr028AQD2ItwAII/kMtqerN2tezfVOG5T7WxIS6pNJHXJyvVKZfgTCMQbAEAi3AAgb+Qy2t7fE9WVqzeqOQ+iba9Y2tLyhibdsPaTjL828QYAINwAIA/kMtoSaUvfWrU+r6Jtr2ja0sNb6rS0vinjr028AUB+I9wAwONyGW2SdFf1dm2PJZR/2daiOW3p8vc2KJaFbQ+INwDIX4QbAHhYrqNtXSSm2zduz4vPtXVkZyKp+eu3ZeW1iTcAyE+EGwB4VK6jrWX0/wbF8zzapJZbJu/fXKv390Sz8vrEGwDkH8INADwo19EmSX/ZulMfNcWU+RsE3SmWbtnDzsrwlMm9iDcAyC+EGwB4jB3RZlmW5m/YpkgWPtflVpak6uZ4VgaV7EW8AUD+INwAwEPsiDZJem33HtVnePNpL4im0rp7U01W34N4A4D8QLgBgEfYFW2SdHd1jSIprrZ9liXphZ2Nqo0nsvo+xBsAeB/hBgAeYGe0bYsl9MquPXk7/r8zhqRHP9mR9fch3gDA2wg3AHA5O6NNkv64pa6lTtCu5k8nTKayNKRkf8QbAHgX4QYALmZ3tCXSlh7cUqcYWwB0KJ629NyOhpy8F/EGAN5EuAGAS9kdbZL0/I4GJXNwJcnt9qTSurs6u0NK9ke8AYD3EG4A4EJOiDZJem5HvfYwlKRLljdElMzhlUniDQC8hXADAJdxSrRJ0uu7s7dHmdcETUMfNEVz+p7EGwB4B+EGAC7ipGhrTqW1sTmW0/d0s5RlaXlDJOfvS7wBgDcQbgDgEk6KNklatSeqsMlhpKuiaUuv7Gq05b2JNwBwP464AOACTos2SVrW0KQ40yS7ZakNV9z2It4AwN0INwBwOCdGmyS9Wd+kGBMlu6UmnlDUxmEuxBsAuBfhBgAO5tRok6TN0XjO3mvnrJmqOftUWfF971l/88+1feok1Uw/STVnnawdl31N8Xffan0++szj2vmDb7b7es0vLtbOKy/W9jP/RTtnzcz6+vcKGqZq4omcvV97iDcAcCfCDQAcysnRJkk1iWRO3ie17RMlVr4tGYZir73U5rmi8y9R5VOvqf/CVxQ++0va/YvZslKpTl/TKClV4ZcuVNEFl2Rp1e3zG9K2mL3hJhFvAOBG9h/5AQAHcHq0SdKuHIVbdPETChw1VuFpMxRd/ES7X2MYhsKnnSmroV7pXTs6fc3gcScq9PmpMvv2z/RyO5SWtD2em59bZ4g3AHAXZxz9AQCt3BBtlmWpOUeDSZoXP6nQ6dMVOn264ktfV2rngWFmpVKKLl4o36AhMiv65mRdPZGyLO3OUfB2BfEGAO7hjDMAAIAkd0SbJCUsKycHkPjKt5XavlWhz09R4PDR8g0equbnn259vumvf1TNjFNUc9bJarxrvoq++T0ZPl8OVtYzaUlJhw10Id4AwB2ccxYAAHnOLdEmSblKj+ZFT6hg4okyyyokSaHTzlDzfrdLFn3lG6p84p+qfPp19b33T9pz322KLXklR6vrGftmSh4c8QYAzuesMwEAyFNuijZJChhG1uPNijWr+aVnlXh3mWrPO121552uyH//Scm1Hyqxdk2brzUMQ/6RhyowZrxibzg33Ay1/OyciHgDAGdz3tkAAOQZt0WbJJmGIX+WA6T5lRck01Tfh/5Hfe7/i/rc/xf1ffhvCow9Vs2LFx7w9cnq9Uqsekf+EYfse9CyZMVjbf4ntXwmzorHpFRKSqdbnktmf9qj3zBU7HPmn6lEvAGAkxmW5bCb7QEgj7gx2vYa++oq1WZxQuKuH18h/4hDVPLda9o83vziYjXeMU8Fx52g5hcXy/AHZMmSWVqu0OnTVfytK2SYpqLPPK6Geb844HUrn12q5mefOuC50LQZKvvx3Kz9fiSpxGfqobEj9bmKkqy+T28t3bZUVzx/haLJqCSpf7i/Hpz2oEaUjbB3YQCQxwg3ALCJm6NNkr7w5gd6v6nZ7mW4SpHP1DPHHa7DikJ2L6VTxBsAOIvzzwwAwIPcHm2SNDgYsHsJrhNLpzXAJT83bpsEAGdxx9kBAHiIF6JNksaXFMpv9yJcptjnU6nfudsVfBbxBgDO4Z4zBADwAK9EmyRNKi9S2MGDNpzomJJCu5fQbcQbADgDR1wAyBEvRZskHVtSqOY0H5PuqgLD0OSKYruX0SPEGwDYz31nCgDgQl6LNkkqC/jVN8DNkl0VNA1NKCuyexk9RrwBgL3cebYAAC7ixWjba1KZ+279s0s0ndY4F94quT/iDQDs4+4zBgBwOC9HmyR9oU+pCs3sbsTtFSPCQRV64DOBxBsA2MP9RxAAcCivR5skzagsV9ruRbhAoWnq0qH97V5GxhBvAJB73jhzAACHyYdok6QSv0/nVlbIz0W3DlmydN6ACruXkVHEGwDklnfOHgDAIfIl2va6bFh/+Q3K7WD8kr40oEJFLtq/rauINwDIHe+dQQCAjfIt2iTpqOKwRhUG7V6GY/lNQ98ZVmn3MrKGeAOA3PDmWQQA2CAfo22v71cNULEHBm9kw5FFIR1eFLJ7GVlFvAFA9nGUBYAMyOdok6Tp/cvEzZIHKvKZurJqgN3LyAniDQCyy/tnEwCQZfkebZJUYJr65pB+CrM1QBtB09C0fmV2LyNniDcAyJ78OKMAgCwh2vb54YiBKvHgAI6eCpuGbj+ySoE8i1niDQCyI7/OKgAgg4i2tgp9pu4ePZyrbpIChnRqRYmm5tHVtv0RbwCQefl3ZgEAGUC0te9zFSU6s1+Zgnm+PUDQNDX/yGF2L8NWxBsAZFb+nl0AQA8RbR276fChCuXxhMkCpXTTYUPUvyBg91JsR7wBQObk75EVAHqAaOtcecCvO46qys9bJtNxWc0f6I0PblJTosnu1TgC8QYAmWFYlmXZvQgAcAOi7eB2RHdoZe1KLVy/UH1CffTjST/WvA01un9TrSLptN3Lyw0rLTO1UxVbfybTimpk2Ujd/vnbdUj5IXavzBGWbluqK56/QtFkVJLUP9xfD057UCPKRti7MABwCcINALqAaDvQR7s+0j3v3qMVtSu0PbK9zXOXjr1UVxx7pb6+Yp1e3bVHsTw41BT5TP2b/3kt+ujB1scK/YWae/JcTRsxzcaVOQfxBgA9l59nGwDQDURb+65//Xo9u/HZA6JNkgK+gEzD0P1jRqgqXKCAx++aDJmGHj56pOafNEs3fe4mhXwhSVIkGdHsl2Zr3tJ5SqQTNq/Sftw2CQA9l79nHADQBUTbwQ0uGtzu4yUFJfr20d+WJBX5fXp8wmEaEvRuvIVMQ/eNGaFT+pRIkmaMmqFHpz+qqpKq1q95ZPUjmrlopmojtXYt0zGINwDomfw+6wCADhBtB9cYb1RDvKHd564Yf4UCvn0TFSsCfj018XANDwVV4LFtAkKmod+NGaFpn9mv7Yg+R2jBFxfoC8O+0PrY8prl+srCr2jZ9mW5XqbjEG8A0H18xg0A2kG0HdyHuz7UrBdmqbqx+oDn+oT6aNF5ixTyhw54rj6R1EUr12tlY0TRtLsPPaZaNhx/eOxIfa6i5KBfl7bSenDVg7rj7TuUtlqGtPgMn2YdN0vfGP0NGR4L2e7iM28A0HX5ffYBAO0g2g5u4bqFuvDJC9tE23EDjmv9/98Z+512o02SygJ+/W38ofrqoL6u3iogaBoaEgro+UlHdBhtkmQapmaOnan7ptynimCFJCllpTT/rfma/dLsvN8ygCtvANB1XHEDgP0Qbe1LpBKat3Se/rLmL62Phf1hzT15rs4YcYZe2fKKmpPNOq3qtC5dRVrwyQ797KPNiluWUi46CoVNQ/9SXqzfjRmhYr+vW9+7rWmbrnnxGq2oW9H6GFsGtODKGwB0jnADgE8Rbe07WHDc9vnbNKp8VI9ftzoa0xWrq/Xenqjj93orMAyFfIbmH1GlGf3LenyLYzwV17yl8/TYmsdaH2PLgBbEGwB0jHADABFtB7Nk6xLNeXmOdjbvbH1s6vCpmnvyXBUFinr9+pZl6b+27dTPPtqiWDqthAOPSGHT0NR+ZfrV4UNVEfBn5DWfWPuE5r4+V82p5tbHLhp9kWYdN0sBM9DBd3ob8QYAB0e4Ach7RNuBLMvS71f9PmdDNWrjCc1Zs1n/2NEgS5biDjgyFflMlfp8uv2oKk3u0/Fn2Xpizc41uvrFq9t8XnBC5QTNnzxf/Qv7Z/z93IJ4A4D2EW4A8hrRdqDGeKOufeVavbDphdbH+oX76ZZTb9HEgROz+t7V0Zge2lKnRz7ZIUtSUyq3t1AWGIYMQzq+rEhXVFXq1IoSmVmc/NgQb9B1r1x3wM96/uT5bYa+5BviDQAORLgByFtE24HaG/Vvx1WgWDqtJ2vrdcfG7doQjWV9iEmRz5Qp6RuD++mbQ/tpaKgge2/2GWwZ0D7iDQDaItwA5CWi7UAL1y3UL1/7peM+d7WqMaLfbarV8zsb1ZhMKWgaakql1ZtrcYWmKcOQkpalMcVhfWdof03vX6agad+f/Rtb39Ccl+ZoV2xX62OZ/DyhGxFvALAP4QYg7xBtbXU26t9JauMJvd0Q0Zv1TfrnrkZ92NSsuGUpaJjyG5Kllv9JkvHp/9KS4mlLScvS4FBAJ5QV6+TyYh1bWqjDi0LyOeiKFlsGHIh4A4AWhBuAvEK0tZWtUf+5FEmlVRNPaFssoZ2JpJKWlLYsBUxDhaapAcGABhQEVBHwZfXzapnClgEHIt4AgHADkEeItrayPeo/m1KWpY8izVrRGNXW5oSqm2Pa1BzXjnjy0y0FLPkMQ0U+U4ODBRoRLtDAYECHF4U0vqSw25tn24EtA9oi3gDkO8INQF4g2vbJ9aj/TNidSOrN+iYtqW/SK7sa9UFTs/yfrrM5lVaqk+83JAVNQwHDUDSd1sCCgAzD4MMAACAASURBVE4oL9LJ5SWaVFakw4pCWf899ARbBrRFvAHIZ4QbAM8j2vaxc9R/T7zTENE91TV6Zke9CozeDyX5rELTkCVpaKhAV1YN0NmV5Qr7nPV3gi0D2iLeAOQrwg2ApxFt+zhl1H9noqm0/l6zS3dW1+iT5oSa05mNtYMp+jTYvjaoj2YO7a/h4WAO3rVr2DKgLeINQD4i3AB4FtG2j1NH/e9vU3Nc91bXaMG2nTKU+8239woYkmkYGl9SqO8PH6DT+pQ4JozYMmAf4g1AviHcAHgS0dbCDaP+U5ale6trNX/DViUt69PhIs5QaJo6trRQvz2qSkNyuCl3R9gyYB/iDUA+IdwAeA7R1sINo/5X74nq8vc2aHNzQpG0PVfYOuM3pALD1LWjBumbQ/o5YksBtgzYh3gDkC8INwCeQrS1cPqo/1g6rZvXbdWDW+oUS1tyw4Go0DR1SGFQ944ZrkMLnTGFki0DWhBvAPIB4QbAM4g2d4z63x5L6Px312pDNKbmtLsOQaZathW4c/RwndW/3O7lSGLLgL2INwBeR7gB8ASizR2j/t9uiOhr765VYyqlpIuPPmHT0GXDKjVn5EBH3DrJlgEtiDcAXka4AXA9os0do/6frt2t763eqKjLrrIdTNg0dEpFiX5/9EgFTPvjjS0DWhBvALyKcAPgakSbO0b9/337Ll31QbXrbo3sTNg0NLGsSI+OO0RB0xl/39gygHgD4E2EGwDXyvdoc8Oof0laWLNLV77vvWjbK2QaOrGsWI+MO8QRV94ktgyQiDcA3kO4AXClfI82N4z6l6Q3du/RV99d69lo2ytsGjqjX5nuHj3cMbcksmUA8QbAW3zXX3/99XYvAgC6I9+jbcnWJbrs2cu0oWFD62NTh0/VXafdpQFFA+xb2Gdsao7r3OUfKeLxaJOkpCVVR2MKm6YmljnjdkSf6dOpQ0/VsJJhenXLq0paSSXSCS3euFh7Ent0/KDj5TN8di8zq4YUD9H4yvFavHGxkumkIsmIntv4nCYPnazykDOmggJAV3HFDYCr5HO0uWHU/15NqZROX7pG1dG4UnYvJodCpqE/jj1Ep/YpsXspbeT7lgFceQPgBYQbANfI52hzw6j//V25eqOeqN2tWB5cbfusEp+p108crX4FfruX0ka+bxlAvAFwO8INgCvkc7S5YdT//l7d1aivr1jnmbH/3RUwpCl9y/Tg2JF2L+UA+b5lAPEGwM0INwCOl8/R5oZR//uLptI68Y3V2h5P2r0UW4VNQw8cPVKn9S21eyntyuctA4g3AG5FuAFwtHyNNreM+v+sn3+0RY98Upe3V9v21yfg05snjlax35kDQPJ5ywDiDYAbEW4AHCtfo80to/4/a2VjRDOWf+T50f9dFTQNfWlAhW49ssrupRxUPm8ZQLwBcBvCDYAj5Wu0Ldm6RHNenqOdzTtbH5syfIpuOPkGx9/Cdt7bH+vV3XvsXoajBE1Dr59wlAaHCuxeSoeeWPuE5r4+1zW35GYK8QbATbx79gPAtfIx2izL0gMrH9Clz17aGm0+w6fZE2fr1sm3Oj7aqqMxvVXfZPcynMeSHt5SZ/cqOjVj1Aw9Ov1RVZXsuzr4yOpHNHPRTNVGam1cWXZNGjhJd512l8L+sCSpNlqrby36ljbUb7B3YQDQDm+eAQFwrXyMtsZ4o6564Sr9ZvlvWif99Qv30wNTH9DFYy52xaS/h7bUyRI3cHxWzLL08Cd1Srjg9tEj+hyhBV9coC8M+0LrY8trlusrC7+iZduX2biy7CLeALiF7/rrr7/e7kUAgJSf0fbhrg/1ncXf0bu177Y+NqFygu6fer8OqzjMxpV1XSyd1mXvbWQgyUH4DUOHFAZ1ZFHY7qV0KugLatqIaQr6glq6baksWYokI3pi7RMK+8M6pv8xrviHhO4aUjxE4yvHa/HGxUqmk4okI3pu43OaPHSyykPldi8PACRxxQ2AQ+RjtC1ct1AXPnlhm/3ZLhp9kR6Y9oAj92c7mCdr67nW1oGmVFp3bqyxexldZhqmZo6dqfum3KeKYIUkKWWlNP+t+Zr90mw1Jbx5SyxX3gA4HcNJANgu36LNraP+D+YLb36g95uaO//CPBYyDT0z8XBXXHXbXz5uGcDAEgBO5b0zIgCukm/Rtq1pmy555pI20TaybKQWnLXAldH23p6oNkRjdi/D8ZJpS/dtct+Qj4FFA/XQGQ/p/CPOb31sff16XfDkBVq0YZGNK8serrwBcCrvnRUBcI18i7YlW5fo/IXnt7l6MWX4FC04a4Gj92fryMKa3a4YvGG3pKQna3fLjTe5FPgKdN2J1+mmz92kkC8kSYokI5r90mzNWzpPiXTC5hVmHvEGwIm8d2YEwBXyKdrcPuq/Iy/valTS7kW4RDxt6ZOYeyMn37YMIN4AOI23zo4AuEI+RZsXRv0fTNqytHpP1O5luIbfMLSsIWL3Mnol37YMIN4AOIm3zpAAOF4+RduHuz7UVxd+VS9seqH1sQmVE/TXL/5VEwdOtHFlmbEuGpMh94ZnrjWl0lpSv8fuZfRaaUGpbv/C7bpqwlWt/83WRev07UXf1h/e+4MrbwftCPEGwCm8dZYEwNHyKdq8Muq/I8sbInLxBcOcsyS9usv94Sbl35YBxBsAJ2A7AAA5kS/R5rVR/x25+oNq/XnrTruX4SoBw9D6U8fJb3qnePNpywC2CgBgJ++cLQFwrHyJNq+N+u/MxxH7tgGovWC6YsveaP118z+eUc3Zpyr+7lva/q/HykoltesnV6hm+kmqmX6Stk+ZpO1TJ7X+uuG2/7Rl3T5Dqkt4a5xLPm0ZwJU3AHbyzhkTAEfKl2jz4qj/ztQ4ZEJidNHjavjtr1R+02/lGzC49fGKX92lyqdeU+VTryl0+pkqOv+S1l+XzrrOlrUGDEPb4874uWVSPm0ZQLwBsIt3zpoAOE4+RJuXR/13ZqcDrhxFnvhvNd5zmypuvksFR4+3ezldst0hwZsN+bJlAPEGwA7eOHMC4Dj5EG1eHvXfGcuy1JhK27qG6OP/paaH71HFrfcqcMQYW9fSVSnLUm3c/uDNpnzZMoB4A5Br3jh7AuAo+RBtXh/135mUA8ZaxZctUeCosfKPPMzupXRZWlI8D2aC5cuWAcQbgFzyxhkUAMfIh2jLh1H/nUnJsn0Ht5If/kzJzdVqmD/XNSFgqeWqWz7Ily0DiDcAueKNsygAjuD1aEukErrxjRv103/+VM2pZkkto/5vmXyL5kyao4AZsHmFueOTIbvzw6zoo4r59yqxcrkab7/J5tV0jSHJ7+FbaNtz4qAT9dcZf9W4fuNaH1u8cbEuePICrdu9zsaVZQ7xBiAX3H8mBcARvB5t+TbqvzM+Q7ZfcZMkX79KVcy/T7Glr6nxrvl2L6dTpqQCD+3h1lX5sGUA8QYg29x/NgXAdl6Ptnwc9d8ZwzBU4vfZvQxJkm/AIPW59Xdqfvk5Nd7/W7uX0yGfYaiyIH+uzO4vH7YMIN4AZJNhueWDAQAcycvRZlmWfr/q97rj7Ttap0b6DJ9mHTdL3xj9DU9PjeyKk954X+ui9m3C7UYlPlN/O/ZQjS0ptHsptlqzc42ufvHqNp8TnVA5QfMnz/fE50SXbluqK56/QtFkVJLUP9xfD057UCPKRti7MACu5u6zKgC28nK05fOo/64aEPTbvQTXiVuWBgbz84rb/ry+ZQBX3gBkg7vPrADYxsvRlu+j/rvq8MKQ3UtwHcuS+gYIXsn7WwYQbwAyzd1nVwBs4eVoY9R/151YXqwin7v/vHPtiKKQTK7WtvL6lgHEG4BM4ogLoFu8Gm2M+u++CaWFebMnWSaYkj5XUWz3MhzJy1sGEG8AMsW9Z1kAcs6r0cao/56pChXIx9WjLivymTq+rMjuZTiWl7cMIN4AZIJ7z7QA5JRXo41R/z1nGIbGlYTtXoZrxNOWJpQSbh3x8pYBxBuA3nLv2RaAnPFitFmWpQdWPqBLn71UO5t3SmoZ9T974mzdOvlWFQU4we6KUytKFOCiW5cU+U0NYKJkl8wYNUOPTn9UVSVVrY89svoRzVw0U7WRWhtX1jvEG4DecOcZF4Cc8WK0Meo/c86uLOd2yS4IGNJ5AyrsXoareHXLAOINQE+xATeAg/JitH2460PNemGWZzf+tcNZyz7UsoaI3ctwtKBp6OXjj9TwcNDupbhO2krrwVUP6o6372j9hxaf4dOs42bpG6O/4dp/aGGTbgDd5c4zLwBZ58VoY9R/dlxZValitgXo0LElhURbD3l1ywCuvAHoLq64ATiA16ItkUpo3tJ5baZGhv1hzT15LlMjMyCZtnT0q6u0O5myeymOVOQzde/o4ZrSr8zupbjetqZtuubFa9oMExpZNlK3f/52HVJ+iI0r6zmuvAHoKvedgQHIKq9FG6P+s89vGvr20H4Kmu68ZS3bQqahf+1bavcyPMGLWwZw5Q1AV3HFDUArr0Xbkq1LNOflOa1TI6WWUf83nHwDUyMzrCaW0KTXVyvGIaWNAkO6ZsQgXTVigN1L8Zwn1j6hua/PVXOqufWxi0ZfpFnHzVLAdN/0Tq68AeiM+87EAGSFl6KNUf+5VxkM6NQ+JRxUPiOejuvjDXdoc+Nmu5fiOV7bMoArbwA6wxU3AJ6KtsZ4o6595Vq9sOmF1sf6hfvpllNv0cSBE21cmftZlqUl25Zozc41iiajiiai+rj+Y9XH6jXruFkqLxmj05auUXOaw4okKR1TuPFZFdc/poAZ0IVHXaiZY2eqLMhn3TKpId6g61657oD/5udPnq/jBhxn48p6hitvAA6GcAPynJeijVH/2fXM+mf0o5d/1O5zxYFivf611/XrDdt058btihBvKlSTCqu/L0OJ1sfKgmW6fNzlOv+I8xXwue92Pqfy2pYBxBuA9rjrrAxARnkp2hj1n327Y7sP+tze27u+XzVAlUGCJGQaWnDsMXr0zAc1rv+41sfrY/W6eenNOvfv5+q5jc+JfzvNDK9tGcBtkwDawxU3IE95JdoY9Z8b9bF63fn2nW1+znuZhqk/Tf+Tju53tCTpnYaIzn37o7y9ZTJoGPr3gRW67ciWz15ZlqVFGxfp9mW3a8ueLW2+9tjKYzV74uw2cYfe8dKWAVx5A7A/3/XXX3+93YsAkFteibZtTdv0vee+p+c3Pd/62Miykbp/6v06fuDxNq7MOxKphBZ8sEBXv3S1lm1f1u7XXDPxGk0dMbX11wODAdUlklq9J6pkHrZbWcCnP48bpaDZ8t+SYRg6tPxQfeWIr6i0oFQr61YqnopLavk7/LeP/qb19es1uu9olQbZNqC3iguKNWPUDNXH6vXejvcktVwtfnzt46oqrdKh5YfavMKuG1I8ROMrx2vxxsVKppOKJCN6buNzmjx0sspD5XYvD0COccUNyDNeiTZG/WeXZVl6rvo53bbsNm1q3NTmuQJfQWt4HDfgOD047cED/u7E02l9cflHen9PVIk8OsqETEP/e+xhOra08KBfs7t5t+5bcZ/+suYvSqaTrY8zwCTzvLJlAFfeAEiEG5BXvBBtlmXp96t+75khBE60onaF5r81X2/XvN3m8SHFQ/TD436ofqF++sE/fqC+4b66d8q9GlI8pN3XqYsn9fk3P1BdItnu814TNg3dcsQwfWlgny59fXVDtW5ffrue3fhsm8cZYJJZa3au0dUvXu36oUXEGwDCDcgTXog2Rv1n1+bGzfrN8t/omQ3PtHm8pKBEl427TBcceYEKfAWtj1uW1Wkov7cnqhnLPlIknc7Kmp2i0DT19cF9Nfew9iO2I+/UvKNb3rpFK2pXtHm8qqRKs46bpdOqTuMfJHrJK1sGEG9AfiPcgDzghWhj1H/21Mfqdf+K+/XnD/6sRHrf6Hq/6dcFR16gy8Zd1qtb917d1aivr1inqEeHlYRNQ9P7l+uOo6pk9jCwGGCSfV7ZMoB4A/IX4QZ4nBeibeG6hfrla790/edUnCaRSuixNY/p3hX3qj5W3+a5KcOnaNaEWRpWOiwj7/XyzkZdvNJ78VZoGprWr0x3jh4uXwZO/OOpuBZ8sED3rbhPjfHGNs+dMeIMXTXhKg0tGdrr98lnb2x9Q3NemqNdsV2tj00dPlVzT57rms/HEm9AfiLcAA9ze7Qx6j87Oho8Mq7/OP1o4o80vnJ8xt/39d17Wq68pdLywo2TYdPQlwf20a8OH9rjK20HwwCT7PLClgHEG5B/CDfAo9webQc7sbrt87dpVPkoG1fmbp0NHpk2fFpWbxlbF4npy+98rLp4UjEXH35CpqHrRw3RJUP7ZfV9GGCSPfFUXPOWztNjax5rfazQX6i5J8/VtBHTbFxZ1xFvQH4h3AAPcnu0Meo/87o7eCSbGpIpfXPler3dEHHd0BK/IYVNU38cd4j+pbw4Z+/LAJPscfuWAcQbkD8IN8Bj3BxtjPrPvGwPHumptGXpoc11unHdVsWttCs26i40TZ1YXqTbjqzSgGDuT+gZYJI9bt8ygHgD8gPhBniIm6ONUf+ZlcvBI72xpTmu779frXccfPUtaBoKm6Z+feQwTe9fbvdyGGCSJW7fMoB4A7yPcAM8IpVO6dpXr9WT655sfcwt0cao/8yxa/BIb1iWpf/dvks//nCzkpblmMmTplqi7az+5brxsCEqC/jtXlIb9bF63fvuvQwwySC3bxlAvAHeRrgBHuDmaGPUf+bYPXikt3YnkvrTJzt07+ZaRVJpNaXsuQIXNg2lJU3vV6bvVlVqXEmhLevoKgaYZJ6btwwg3gDvItwAl2sv2r5y+Fd07YnXOjraGPWfOU4aPJIJacvSSzsbdVd1jZY2NMmyLMVzcKQq8pkq8pn67rBKfXVQH1U47ApbZxhgkllu3jKAeAO8iXADXMyt0cao/8xw6uCRTNrUHNdDm+v0yCd1siQlLUvNGbqV0iep0GcqlrZ0YnmRrqgaoFMqijO+J1suMcAks9y8ZQDxBngP4Qa4lFujjVH/veeWwSOZlEhbem9PVMsamvTKrka91RDR7kRKIdNQypJi6bRSHXx/0DRUYBhKqeWK3ujisE4pL9ak8mJNKC1UH5ddXesMA0wyy61bBhBvgLcQboALuTHaGPXfe24cPJJNO+JJrdoT1dZYXNtjSVU3x7QtllDCsmRZkt80VOLzaXi4QINDBRpQ4NehhSEdWhh09VW17mCASea4dcsA4g3wDsINcBk3Rhuj/nvP7YNHsiWaSmt7PKHtsYS2xRPalUgp+Wm4+YyWWyEHFAQ0MBhQZUFAfQK+vPw5McAkM9y6ZQDxBngD4Qa4iBujjVH/veO1wSO9kbIsrWlq1rKGJr26a4/erG/S9nhCQdOUX1JaLZ+B2/sROMOQfDLkN1qei6ctBUxDY4vDOqWiRJPKijS+tFClfp+Nv6vcYoBJ77l1ywDiDXA/wg1wCTdGG6P+ey4fBo90Rdqy9OLORt1dXaM365sUMA1ZlqVILweU+A0pbJqKpi0NCvr1zSH9dYELJ0n2BANMMsONWwYQb4C7EW6AC7gt2hj133P5OHikPTsTSf35kx26L0d7uu3du+3MT/duO8bhe7dlAgNMes+NWwYQb4B7EW6Aw7kt2hj13zMMHmnxdkNE91TXaNGOepmSohka/d9VplomUA4NFejKqgE6u7JcYZ/z/jvLJAaY9I4btwwg3gB3ItwAB3NbtDHqv2cYPCKtj8T0vdUb9UFTVLG0pexeX+uaIp8pU9KNhw3Rlwf28fyfAQNMesdtWwYQb4D7EG6AQ7kp2hj13zMMHpGSaUt3Vm/X7Ru3K+6QYPusQtPUuJKw7hg9XMNC3v7zkBhg0htu2zKAeAPchXADHMhN0cao/+5j8EiLlY0RXfbeRm2NxXN+S2R3+Q0pYBj6ychBmjmsv3weDxcGmPSc27YMIN4A9yDcAIdxU7Qx6r97GDzSwrIs3bZhu35bvV3NDg+2zyo0DY0qDOnPxxyi/gXOu/0t0xhg0jNu2zKAeAPcgXADHMRN0cao/65j8Mg+0VRa3129US/tbFQ07cQbIzvnN6RSv09/OWaUxuXB9Emp5SrxfSvu04IPFjDApBvctGUA8QY4H+EGOIRboo1R/93D4JF9tscSOu+dj7W5Oe66K23tCZuGfntklWYMqLB7KTnDAJPuc9OWAcQb4GyEG+AAbok2Rv13HYNH2trcHNdZyz7UjkRSSQ8ddUKmoRsPG6ILB/ezeyk5xQCT7nHTlgHEG+BchBtgM7dEG6P+u4bBIwfa0hzXGW99qJ2JpFJ2LyYLwqah/8zDeGOASfe5ZcsA4g1wJsINsJEboo1R/13D4JH27Uwkddqba1STSCjl4aNN6NPbJs/Oo9sm92KASfe4ZcsA4g1wHsINsIkboo1R/51j8MjBJdKWzl7+kVbtiSiRB0easGno7xMOy5uBJZ/FAJOuc8uWAcQb4CyEG2ADN0Qbo/4719HgkVnHzdLU4VPz+orkNR9U62/bdzl+j7ZM6hPw6aXjj8yLrQIOhgEmXeOWLQOIN8A5CDcgx9wQbYz67xiDRzr32NYd+smHW1w78r+n/JKOKg7rmYmHe36T7s4wwKRr3LBlAPEGOAPhBuSQ06ONUf8dY/BI12yPJXTSkvfVlMqvaNur0DT0k0MG6dJhlXYvxXYMMOkaN2wZQLwB9iPcgBxxerQx6v/gGDzSPV97d61e3tXoqbH/3RU2Db18wlEaFsrvK697McCkc27YMoB4A+xFuAE54PRoY9R/+xg80n1P1e7WlaurFcmzWyQ/y29IE0uL9L/HHsrtgPthgEnnnL5lAPEG2IdwA7LMydHGqP+DY/BI99Unkjrhjfe1O+nF3dq6r9A0Ne+IofrSwD52L8VxGGDSMadvGUC8AfYg3IAscnK0Meq/fQwe6blrP9ysR7fuUCyPpkh2psRnauXJRyvks//KuhMxwOTgnL5lAPEG5B7hBmSJk6ONUf8HYvBI70RSaR39yqq8v0Xys4p8pn51+FB9matuB8UAk4Nz+pYBxBuQW4QbkAVOjjZG/bfF4JHM+PPWHfqPD7eoiXA7wBGFQb10wlF2L8PxOhpgcuaIM/WDCT/I2wEmTt4ygHgDcodwAzLMqdHGqP+2GDySOZZl6eQl72tdNG73UhwpbBr6+4TDNK6k0O6luAIDTNrn5C0DiDcgNwg3IIOcGm2M+m+LwSOZtbyhSee9/bGifLatXT5J51SW6+4xI+xeiqtsatik25bfxgCT/Th5ywDiDcg+wg3IEKdGG6P+92HwSHZ8Z9UGPVm7W9wkeXBB09C7J41RecBv91JchwEmB3LqlgHEG5BdhBuQAU6MNkb978PgkezZmUjq2NfeY5JkJ8KmoR+PHKTLqyrtXoorMcDkQE7dMoB4A7KHcAN6yYnRxqj/Fgweyb6HttRp7sdbuE2yC4aHCrTkX0bbvQxXY4BJW07dMoB4A7KDcAN6wYnRxqh/Bo/k0sUr1mnRjga7l+EKfkN6/3NjVeL32b0U12OAyT5O3TKAeAMyj3ADesiJ0caofwaP5NrYV1apNpHs/AuhEp+ph8aO1OcqSuxeimcwwGQfJ24ZQLwBmUW4AT3gtGhj1D+DR+xQF2/5fFuCw0iXBAxp9oiBumrEQLuX4jkMMGnhxC0DiDcgcwg3oJucFm35PuqfwSP2ebauXt9bvVGNKeZJdtVJ5cX627GH2r0MT2KASQsnbhlAvAGZQbgB3eC0aMvnUf8MHrHfjWs/0V3VNWwD0A0lPlMfnjI2L67+2IUBJi2ctmUA8Qb0HuEGdJGToi2fR/0zeMQ5zn9nrV7a1dj5F6JVwDC08mT2c8sFBpg4b8sA4g3oHcIN6AInRVt7o/77hvpq/uT5nh/1z+ARZ5m85AOtiTR3/oWSos8/rch/PaJU9QYZhUXyH3q4ii6cKbO4RI33/FqJD9+X1bBbA/7R9s+2ZvpJbX5txWMKn/1llf7gJ5Kk2PIlavzNr5Sq2abAUUerbM4v5Rs4uM33pBvqVXfxufIPG6E+v32oZT3PPaXGX//nvte1LCnWrD73/kmBw0crvadRjXfOU+zNVyVJhWd/RcWXXN769fFV76jxrvlKVa+Xb9AQlVz1UxWMPbbTn0Oxz9STxx2uI4pCXfq5offyfYCJ07YMIN6AniPcgE44KdoONur/lsm3qLLQuxv7MnjEmca8slI7EqlOv67pvx5R04KHVPrDaxWcdJIU8Cv+5muKr1iu8PR/U2LV2zLKylX/H1cfEG77S0cjqjvvdJX/vztUcMxxStfvUt3Xz1bpNT9X8KRTtefBu5VY+bb63PXHNt/XMH+ukps2SJbVGm6fFX3mcTU9cr/6Pvq4DMNQ/c2/kBWNqOwnc5XevUu7rrlMRV+fqfCZ57SE4DfOafn9nPKvav7HM2q842b1+9NCmSWlHf4sSn2mHjh6pE7tw2TJXMvnASZO2zKAeAN6xp6Z5YBLOCnaFq5bqAufvLBNtF00+iI9MO0Bz0Zbfaxe85fO19n/d3abaPObfl00+iI9/e9P6+IxFxNtNqlPdh5t6T2NanroHpX+4KcKnXqajHBYhj+g4EmTVXL5LPmrRig8/d/kH9H5IJ3Yy8/JrOijwLgJkqTmf/5D/uGHKPT5KTIKgiq++HIl1n6oZPX61u+Jr3pHyQ0fK3zGOR2+dnTxEwpN/WLrCWzs9ZdV9NVLZITC8g0crPD0cxV95u+SpMR778qs6Nvyvj6fwlPOklleodg/n+/095CStD2e6PTrkHnjK8fr0TMf1fzJ8zWkeEjr49WN1Zr14ixd/MzFB0SdV5iGqZljZ+q+KfepIlghSUpZKc1/a75mvzRbTYmmnK5n0sBJuuu0uxT2hyVJtdFafWvRt7ShfkNO1wG4DeEGHIRToi2RSujGN27UT//509YPmYf9Yd0y+RbNmTTHk/uzJVIJPbL6EU3/23T9YfUfyvueZQAAIABJREFU2kyLnDJ8ih4/53HNmTTH859PcbKUZSnVhfs1EqtXyIrHFTzlC71+z+iihQpN2RdXyQ1r5R91eOvzRjgs3+ChSm5YK0myUik1/vZmlfzgJ1IHVxRS2z5RYsVyhad+se0T+92QYlmWkus/3v/JA742uX5tp7+HlGUpwhRO2xiGoWkjpunxcx/X7ImzVVKw78rn2zVv68KnLtScl+Zoc+NmG1eZPScOOlF/nfFXjeu3b7rm4o2LdcGTF2jd7nU5XQvxBnQf4Qa0wynRtq1pmy555pI2+7ONLBupBWct8OT+bJZl6dmNz+qcv5+jeUvnqSHe0PrcuP7j9MiZj+jXn/810yIdIGlZ6srNVemGepll5TJ8vRvG0RJXyxSeNqP1MSsakVFU3ObrzKJiWZGIJCnytwUKHHW0AoeP7vC1o88uVGDssfIN2ncVJnj8SWpa8JDSkSYlt1Sr+em/y4q1/MNJYPQ4petqFX3+aVnJhKKLHlfqk82tz3fEktj3zgEKfAW6eMzFevrfn9ZFoy+S39z39/PpDU/r7P87W7e+desBE2u9YGDRQD10xkM6/4jzWx9bX79eFzx5gRZtWJTTtRBvQPcQbsBnOCXalmxdovMXnt9mf7Ypw6dowVkLPLk/24raFbr4mYt19YtXt5kWOaR4iOZPnq9Hz3yUaZEO0tVPxJilZUrX75aVSnb+xR2IPvukAkePbxNXRrhQVqTtLV5WpElGYaFSdTWK/O8CFX/7yk5fu3nxQoWnzmjzWMmVc2QEg9px0Tnafd0shf71DPn6DWj5PZWVq/w/b1Pkvx9V7XmnK/bmayqYcILM/l27ZZkDr3OUBcs0Z9IcPX7O45oyfErr44l0Qg+/97DO+t+z9OjqR5VIeev21gJfga478Trd9LmbFPK1DMqJJCOa/dJszVs6r81dDtlGvAFdx/ED2I8Tos2yLD2w8gFd+uylrfuz+QyfZk+crVsn3+q5/dk2N27Wj176kS586sI20yJLCko0e+JsPX7u45o2Yppnhwa4VcAwurR/W2D0OKkgoNgrL3T+xR1ofnZhm6ttkuQfMUrJtR+2/tqKRpX8ZLP8I0Yp8cF7Su+o045vnqfa805X4123KPHBKtWed7qs1L7P5sVXvaPUjloFJ5/e5rXN0jKVXXuT+v/Pc+r30P/IstLyHzmm9fmCYyaq7z1/UuXfX1LZz/5TyU0bFDjy6E5/H6YkP3+XHWdY6TD9+vO/1iNnPtJmk+76WL1uXnqzzv37uXpu43Py2jy3GaNm6NHpj6qqpKr1sUdWP6KZi2aqNlKbs3UQb0DXEG7Ap5wQbY3xRl31wlX6zfLftE7+6hvqqwemPqCLx1zsqXhh8Ii7GYahsPn/2bvvwDbq84/j7zttySt2HNsZzt5kQAaQAGGUvUpp2VB+QAkbEmYHlFXKKnsWyp6llFJmAi0pM5vsPe0kjle8LWvd/f4wduJ4ybbWnZ7XPyHSSfomONJ9dHefp/OfRzUllZSLr6Tmiftp+PYr9AYvejCAb8G31Dz/GLquo/t9EGj8hl/3+9D9/hbP4V+1jFBZCY4Zx7a43XnYUQS3babh6y/R/T5qX/8rtiHDseYPxjF1Or3f/oTMF94h84V3SLn4SqzDRpH5wjsoFkvzczTM+Qjn4cegult+IRLcWfjTkcIQvgXf4v34n6Rc8Jvm+wMb16EHA2h1tdQ++yiW7JzGxsxOWBWFTJnhlrCSscBkZOZI3j7lbY4asPc61KUlSznr47NYUrwkZuuQ8CZE52QcgBAkRmhLlqr/QCjAO+vf4bnlz7W4hg0aTwWdddAsuYbNICZ9v5qdvvBOqfJ++Sn1/3iDYMFWVJcH64jReM6/FEvvPpSdd3KLbdWcPLLf/rT599WP3Ive0ED67+7d/2nxLZlPzRMPECouapzjduvdrea4QWPdv/fTD1qMA9D9PkrP/Bnpdz2M46CDW2zfMG8uNU8/hFZbi7V/PimXX98imFXecxv+n2a82adMI+3aW1F7ZXb695BqUXl7wlAmp5vryLkZ+UN+3l73Ns+veJ4af8tB8ycOOpHrDrqO/qn947S6yEuUkQEyKkCI9klwE0kvEULbx1s+5q7v72pujYTGqv9Zk2aZpjVS13W+LPiSR5c82uIaNmgsHrl58s1yDZvBnLh4Az/W1Md7GYbiVlXmTR1JvssR76WIMFX5qnh+xfO8ve5tgtreazVtqo3zR5/PZeMuM1XD7fyi+dzyv1uo8FU033bcwOO4e/rdMTtVX8KbEG2T4CaSWrxDWyAU4MFFD7ZojXRZXdw9/W5TtUauKF3Bw4sfbnENGzQWj8yaNIvjBh5nqtNAk8Xlq7bx79LKeC/DUCwKbDliPA5VrlQwmsLqQh5d+ihfbP+ixe3pjnSuGH8FZ488G5vFHF+07a7bzY3zbmxRjjU4fTCPHfkYQzKGxGQNEt6EaE2Cm0ha8Q5t7X0wPnrko6ZpjdxRs4PHlz7e4ho2aCwemTl+JueOOleuYTOwv+0o5Z7Nu2jQ5GMkXAOcdhYd2vF4ApHYlpUs46HFD7W61i0/NZ9Zk2ZxTP4xpvgiyh/y8+CiB3l3/bvNt7mtbu6efjfHDzo+JmuQ8CZESxLcRFKKd2hbULSAW76+pbk1Ehqv77pn+j2maI2s8lXxwooXeGvdWy1qpa2qlXNHncvM8TNNdWpRslpWXc8vl22iVgZKh+3MnF48PWZgvJchekjXdeZun8ujSx5lZ+3OFvcd2OdAbpp8U4t2SiP7aPNH3P3D3XE7lV/CmxB7SXATSSeeoU3Xdf626m9xv/g7WqR4JLn4NY2hX6+UgdJhcqsq947ox3l5WfFeioiQZCkwWb9nPbPnzW5VnvXwjIfJdmdH/fUlvAnRSIKbSCrxDG01/hp+/+3v+apw7zyrLGcWD894mMm5k6P62tEmxSPJa8bCdayva+h8Q4HHovLJpOGM8rjivRQRYclQYFLtr+YP3/6hxWdYb1dvHp7xMJNyJkX99SW8CSHBTSSReIY2M1f9S/GI+TV9TLT1//F3G3bw8s4y5IOkczZ0Vk8bRpojNd5LEVFi9gKTeI8MkPAmkp0EN5EU4hnazFr1L8UjyWF56XJu+OoG6gJ15KfmMyB1AE6rkzxPHjPHz+T7Kh+Xrd5GnVzn1jFdw9awiuzyx5jebzrHDTyOowYcRYo9Jd4rE1Fg9gKTeI4MkPAmkpkEN2F68QptZq36l+KR5PLnBX/mrXVvtXnfuN7jeOOkN5nw3WpKA8E2txE/0byklz6O3be6+SabapMQZ2JmLzCJ58gACW8iWVnuvPPOO+O9CCGiJV6hbXfdbq768ir+U/if5tsGpw/mheNeYGru1Ki9bjQFQgHeWvcWs+bNYuHuhc2nyUBj8cgTRz3BSUNOwml1xnGVIlI0XWN56XLmbJvTaqezicvq4vzR56PpOgur6gjK14DtSrPoTNC/o8xb1nybpmtsq97Gfwr+w2trXmNV+SpCWoh+Kf3kaLUJKIrCsIxhnDXyLNLsaawsW4k/5AcaPyP+ufGfbKvaxuis0aQ50uK82q5Lsadw6tBTqfJVsbq88QuJSl8l/978b/LT8hmWMSxqr90vpR8T+0xk7va5BLUg9cF6vtz+JTP6zyDDmRG11xUi3uSImzCteIU2s1X9S/FI8tB0jRWlK5izbQ5zt8+lpL6k3W3dVjdvnvQmw3oNY08gyIHfr8Yn89za5FIVbhuSx8wBfSioLmDu9rnM3TaXtXvWtrm9HIkzJzMXmMRrZIAceRPJRoKbMKV4hDYzVv1L8Yj5dSWsNcnz5PHyCS/TL6Vf822/WbWNT0orkSvdWnOoCiumjSXdZm1xu4S45GTWApN4jQyQ8CaSiQQ3YTrxCG1mq/qX4hFzCzespTvS+Vn+z0ixpfDqmlcB6Ovpy0snvNQitAEsra7jzB834ZWjbi1YgJ/nZPD0mEEdbichLvmYscAkXiMDJLyJZCHBTZhKPEKbmar+pXjEvLoa1o4beBxT8qZgU21ousaTPz5JaX0pV0+8mryUvFaP03Wd6QvWscXri/YfxVBcqsKHBw1nfKo77MdIiEseZiwwidfIAAlvIhlIcBOmEY/QZpaq/0AowDvr3+G55c9R7a9ucd+xA49l1kGzGJA2IE6rE93Vk7DWHR+XVHLd2gLqNTlhEsCiwEGpHj6aNLzbzyEhLjn4Q37eXvc2z694nhp/TYv7Thx0ItcddB39U/vHaXXdE4+RARLehNlJcBOmEOvQZpaqfykeMZ9Yh7V96brOWcs380NFLTIcoPFo27ypoxjockTk+STEmZ/ZCkziMTJAwpswMwluwvBiHdra+yB69MhHGZoxNOKvFy1SPGIe8Qxr+yvy+Zk+f13SH3Vzqyo3Dsrl6oHROV1aQpy5manAxB/y8+CiB3l3/bvNt7mtbu6efjfHDzo+Kq8p4U2YlQQ3YWixDm1mqPqX4hFzSKSwtr+Xd5Ryz+Zd1CdpUYkCDHc7+GrqKCwx+PJDQpx5manAJNYjAyS8CTOS4CYMK5ahzQxV/1I8YnyJHNZarlPnhCUbWFXjTcrxAE5V4dNJIxiT4or5a0uIMx8zFZjEemSAhDdhNhLchCHFMrQZvepfikeMzShhbX/bvT6OWbSe2lByRTeXqjB7UC7XDsyJ91IkxJmMWQpMYj0yQMKbMBMJbsJwYhnajFz1L8UjxmXUsLa/bytquGDFFhqS5JRJp6pwbFYafx07KOGOwkuIMw8zFJjEemSAhDdhFhLchKHEMrQZuepfikeMxyxhbX8vFpbypy1FeE1eVmIFhnmcfD5pBE5LdMaPREo4Ic6u2pnWb5qEuARmhgKTWI4MkPAmzECCmzCMWIU2I1f9S/GIsZg1rO1L13Vu37STN3ftMW14syjQx25jzqQR9HEY5/8NSIgzA6MXmMRyZICEN2F0EtyEIcQqtBm16l+KR4wjGcLa/nRd59YNO3hvd4XpwptVgSyblc8mjaCv09hfikiIMy5d15mzfQ6PLXnMkAUmsRwZIOFNGJkEN5HwYhXajFj1HwgFeHf9uzy34jmqfFUt7pPikcSRjGFtf7quc8emnbxhoiNvdkWhj93Kx5NGkGuwI22dkRBnTEYvMInVyAAJb8KoJLiJhBaL0GbEqn8pHkl8Etba9tKOUu7evMvwhSUuVWFcqpvXxg0mw2aN93KiSkKc8Ri5wCRWIwMkvAkjkuAmElYsQpsRq/6leCRxSVgLz7cVNVy8civ1Ic2Qc95cqsI5eVncM6wfVjW5/q1JiDMWoxaYxGpkgIQ3YTQS3ERCikVoa6vq/8A+B/LwjIcTsuq/veKRNHsaM8fP5JxR50jxSBxIWOue7V4fl6/exsY6H/UGOXXSpoBDVXlgRH/OzM2M93LiTkKccRixwCRWIwMkvAkjkeAmEk4sQltbVf8XjL6A2ZNnJ9wOtRSPJB4Ja5Gh6Tqv7yrnrk278Gsawc4fEjcuVeWIXik8PGoA2Xb5/7g/CXGJz6gFJrEYGSDhTRiFBDeRUKId2oxU9R8IBXhn/Ts8t/w5qv3VLe6T4pHYk7AWPUU+P9evLWBRVR3eBLv2zaEouC0qj4/O57je8gVJOCTEJTYjFpjEYmSAhDdhBBLcRMKIdmgzStW/FI8kDglrsaPrOp+WVfHnLUXsbAjg0+J7/ZvnpyHa5+dlcfPgXFKtljiuxrgkxCUuoxWYxGJkgIQ3kegkuImEEO3QZpSqfykeiT8Ja/H3Y3U9zxWW8HlZFSrE7CicCjhUhQFOO9cMzOHU7AxclsiNHEl2EuISk9EKTKI9MkDCm0hkEtxE3EUztBml6l+KR+JLwlpiqggEebtoD88VllAX0qgPaUTjA8ulKmjAyb3TmZnfhwmp7ii8itiXhLjEY6QCk2iPDJDwJhKVBDcRV9EMbUao+pfikfiRsGYcmq7zTUUtX5RX8V1FLZvqfThUhaCud3kenAVwW1QaNJ1Mm4XJ6R5m9ErltD4Zpp/HlqgkxCUOIxWYRHtkgIQ3kYgkuIm4iWZoS/SqfykeiQ8Ja+YQ0HTW1nlZWl3PgspaChr8lPiD7AkEqQs1HllXAB2wKQoZNgvZNit5DhvjU91MSfdwYJqbXhLUEo6EuMRglAKTaI8MkPAmEo0ENxEX0QxtiVz1L8UjsSdhLXmEdJ3qYAifphHSGxshPVaLXKdmUBLi4s8oBSbRHBkg4U0kEgluIuaiFdoSvepfikdiR8KauVUGgvxYXc/iqjrmV9Wxy+enPBCiNhjCqiioP/0z0mk8OmdXFXrZrGTbrByQ6uLQjBQmpXkY7LLLvzmDkBAXXwXVBTy29LGELjCJ5sgACW8iUUhwEzEVrdCWyFX/UjwSGxLWzMunaXxSWsWnpZUsrqqjPBDCqSp4Q90b2u2xqOh6Y7A7IMXJUZlpnJWXSX+n/Ds0Aglx8ZPoBSbRHBkg4U0kAgluImaiFdoStepfikeiT8KauRV4fby0s4w3dpWjQ/P1a5FmVxQUBaakebg6vw8zMlNR5UicIUiIiz0jFJhEa2SAhDcRbxLcRExEI7QlatW/FI9El4Q1c9N0na/21PB0QTFLquvRdR1/DD+lPBYVj0Vl5oBszsvLkgITA5EQF1sdFZicMOgErj/o+rgWmERrZICENxFPEtxE1EUjtCVi1b8Uj0SPhDXz03Sd13eV8/DW3dRrWtSOroVr39ludw7rRx+H/CwZiYS42EnkApNojQyQ8CbiRYKbiKpohLZErPqX4pHIk7CWPDbWNXDlmu1sqfdRr8U3sO3PpoBdVblnWD/OzcuUf8cGJCEuNhK1wCRaIwMkvIl4kOAmoiYaoS3Rqv6leCSyJKwll4Cm8/j23TxVUIJf00msyNaSW1UZk+Lk6TEDGehyxHs5opskxEVfohaYRGNkgIQ3EWsS3ERURDq0JVrVvxSPRI6EteS0ttbL/63cSok/mHBH2dpjAeyqwq2D85g5IFuOvhmchLjoSdQCk2iMDJDwJmJJgpuIuEiHtkSq+pfikciQsJbcPi2t5Oo12/Fqxvz4casKR2el8dTogThluLcpSIiLjkQsMInGyAAJbyJWJLiJiIp0aEuUqn8pHuk5CWtC03Ue3Lqb5wtLDBvamjhVhYFOB+9OHEquFJeYioS4yEvEApNIjwyQ8CZiQYKbiJhIhrZEqvqX4pHuk7AmmoR0nWvWbGdOWRX1Bg9tTawKpFstfHzQCAa75bo3M5IQF1mJVmAS6ZEBEt5EtElwExERydCWKFX/UjzSPRLWxP5Cus7M1dv4T3m14Y+07U8F0qwWPpk0nKFuZ7yXI6JIQlzkJFKBSaRHBkh4E9EkwU30WCRDWyJU/UvxSNdJWBPt0XWdq9Zs5/OyarwGKSHpKgXoZbPw+aQR5EvjZFLoSog7ftDxHNn/SAlx+0mkApNIjwyQ8CaiRYKb6JFIhrZ4V/1L8UjXSFgT4XhoaxHPFBj/mrbOqEA/p52vpowkxWqJ93JEDEmI65lEKjCJ5MgACW8iGiS4iW6LVGiLd9W/FI+ET8Ka6IrPS6u4Ys02Gkwe2po4FIWDMzy8M2Eoqlz3mpQkxHVfohSYRHJkgIQ3EWkS3ES3RCq0xbvqX4pHOidhTXTHujovJy3eaJgZbZHiUhUu6deb24f1i/dSRJxJiOueRCgwieTIAAlvIpIkuIkui1Roi2fVvxSPdEzCmuiJoKYzY+E6tnh9JOMHjFNVeH/iMCalx25kiUhsEuK6LhEKTCI1MkDCm4gUCW6iSyIR2uJZ9S/FI+2TsCYi5cntxTy6rTjpjrbta4DTxncHj8auyoBu0ZKEuPAlQoFJpEYGSHgTkSDBTYQtEqEtXlX/gVCAd9e/y3MrnqPKV9XivmQuHpGwJiJtm9fHkQvXJc11be1xqQozB/ThtiF58V6KSGAS4sIT7wKTSI0MkPAmekqCmwhLJEJbPKr+pXikNQlrIlp0XefkpRtZXl1PKN6LSQBOVeHzySMY5XHFeynCACTEda7KV8Vzy5/jnfXvxLzAJFIjAyS8iZ6Q4CY6FYnQFo+qfyke2UvCmoiFd4vK+e2GnUl9iuS+FGC0x8l/poxMmvcaERkS4joWzwKTSIwMkPAmukuCm+hQT0Nbu1X/0+7mhMHRqfqX4pFGEtZELOm6zpQf1rDDF+h84yTiVlX+PnEok6WoRHSThLj2xavAJBIjAyS8ie6Q4Cba1dPQFuuqfykekbAm4ueHylrOX7GF+pAcbduXApzYO52Xxg2O91KECUiIay1eBSaRGBkg4U10lQQ30aaehrZYVv13VDxy3MDjuOGgG0xdPCJhTSSCC1ds4cvy6qSs/++MQ1VYcuhYetut8V6KMBEJcS3Fq8CkpyMDJLyJrpDgJlrpSWiLZdV/MheP7BvWvtj+BcX1xW1uJ2FNxEKJL8CUH9bgk4+TNjlVhRsG5nDDoNx4L0WYlIS4veJRYNLTkQES3kS4JLiJFnoS2mJZ9Z+MxSMS1kSiemhrEU8VlOBL8hEAHcm0WVg5/QAsJntfEolHQlyjWBeY9HRkgIQ3EQ4JbqJZT0JbrKr+k614RMKaSHRBTeeA71ZRGZQBAB3xWFSeHTOQ43qb+zpbkVgkxMW2wKSnIwMkvInOSHATQM9CWyyq/pOpeETCmjCSOWVVXL1mO7VSStKpQ9M9fHDQ8HgvQySpZA5xsS4w6cnIAAlvoiMS3ES3Q1ssqv6TpXhEwpowqpvXFfB60Z7ONxTYFYUtR4zHqsrpkiK+kjXExbLApCcjAyS8ifZIcEty3Q1t0a76T4biEQlrwgymL1jL5npfvJdhCCkWlQ8PGs7YFFe8lyJEs2QMcbEqMOnJyAAJb6ItEtySWHdDW7Sr/s1cPCJhTZhJQ0hj2DcrCMqnSFhcqsJdw/pxUb/e8V6KEG1KthAXqwKT7o4MkPAm9ifBLUl1J7RFu+rfrMUjEtaEWS2uquPc5ZupkevbwnZ6nwyeHzso3ssQolPJFOJiUWDS3ZEBEt7EviS4JaHuhLZoVv2bsXhEwppIBn8tLOFPW4pkDEAX9HXYWDptbLyXIUSXJEOIi0WBSXdHBkh4E00kuCWZ7oS2aFX9m614RMKaSDaXrtrKJ6VVnW8omlkU2HT4eFyWjtt6hUhUZg9x0S4w6e7IAAlvAiS4JZXuhLZoVP2bqXhEwppIZscvWs/yWm/Unr/03JPQykvJfm8uanqv5tvLLz+H4Kb12KdOI7Ci8VpYPRAABRRr478tNas3WnlZ432aBgE/isPZ/Bx9Pv2+8fkr9qCoKorLhX3qdFKvuw3V5Y7an8mtqnw1dSQDXY6ovYYQsWLmEFfZUMnzK56PWoFJd0YGSHgTEtySRFdDW7Sq/s1QPCJhTYhGB36/miJfoPMNu6n03JNQbHbcPz8b9y/OBSCwZSNVd95MaMd2er/1CZbcvgBUPXAHlt45pFx6davn8S9bTNV9vyf773NaPX/aTXfgmHQIodISKm69Cschh5N6+fVR+zOlWlTeHD+EqRnG2HkVIlxmDXHRLDDpzsgACW/JTYJbEuhqaItG1b/Ri0ckrAnR2qD/Lachite3lZ57Eq6TzsD3/Tyynn0TgJpnH0FJTaPupacjGtwAap57lGDBVnrd90TU/kwpFpVHRuVzWp+MqL2GEPFmxhAXrQKT7owMkPCWvKzxXoCIrq6GtkhX/Ru5eETCmhDt03U9qqGtiW3MOBq++ITg9i1Y+g+k4as5ZD7xMnUvPR3R1wmV7Ma34Fuchx8d0edt9Tq6TmUg2PmGQhhYflo+l427jMvGXdZuiPNrfuYVzmNe4TxDhLiJfSbyxolvtCowKagpYNa8Wd0uMLFb7PzhkD8wIXtC88iA+mA9N/3vJpaXLm9zZMCU3Ck8fczTzeGt1FvKJXMukfCWBOSIm4l1JbRFuurfqMUjEtaECI9f0xj0vxVEcxBA0xGxwJqV6A1e7BMmUf/e62Tc/xQlx06JyBE3vaoSLBYUT0rjaZJXzm5xLVykOVSFPw7tyyX926//FsKszHIkLloFJl0dGSBH3pKPBLcuaghpFPsDFPsCFPuDVASCBHQdHbAqCh6LSo7dRh+HlVy7jXSrJS7XbHUltEWy6r+j4pEJ2RO4afJNCVc8ImFNiK7zaRqDYxTcrP3y2XPDpdjGjsdx8OE4jzkhYsFt31MlY8GhKtw+tC+XSXATSc4MIS4aBSZdHRmQaOHNp2nN+8jFvgB79ttPdjftJ9ut5DpsZMRpP9mo5FTJDoR0nfV1DSytrue7ihoWVtWx2x/AoahYFdB+2qZpx0UBLIqChcb7fJqOU1UYn+rmiF4pTEr3MDHVTYrVEt11dyG0RbLq30jFIxLWhOjcnoY9VDRUMDh9cKv3DpuiEKtv/Sy5fbHk9cO/4DvSb7ozRq8aHQqNf3dCJDsznE6Z4czg1qm3cu6oc1sUmAS0AK+sfoUPNn3Q5QKTNHsajx31WIuRAWXeMi6dc2mbZ0HF87RJTdfZUN+0n1zLwqo6dvn8He8no2D56T6/pmNTFcaluDgiM5XJaR4mprlJi/J+spHJEbf9aLrOvD01PFNQwsKqOmyqgqbreHt4LYdNAaeq4tU0+jvtXNqvN2fnZUX8h7MroS1SVf9GKR6RsCZE+Mq8ZZzx4RlU+irJ8+RxypBTOG3oaS12BAbMW04gih8h+x4RC+4sRK+txjZyLHooaNgjbm5V4f7hfTmrrxxxE6ItRj4SF+kCk66MDIjVkTdd1/m2opZnCkv4vrIWq6Kg61Cv9ez8C6sCLlWlQdPJddi4uF8W5+Vl0csmx5j2JcHtJ3sCQd7aVc7zhaXUaxp1oWieANT4w6mjc2p2Blfk92FsiqvHzxluaItU1b8RikckrAnRdbquM2fbHG7++uZW9/Vy9OKOQ+/gZwN/xgHfrqIsikUb7QUrIwc3RasjvfQJ8tQSctw55HpyW/ya42n87z6uPt2Wes6NAAAgAElEQVSuGBfCLIwY4nRdb1Vg0qQ7BSZdGRkQzfBWFQjy7u49PFtYSnUwFIP9ZAUNOLF3OlcM6MPEtOjN1zSSpA9uS6vreK6glDllVagKPT6y1lUWBeyKwiCXg2sH5nBydjoOte1h2B0JN7RFouo/0YtHJKwJ0T5d16nwVbC7bjfFdcXsrm/8tbi+uPG2+mKK64rxa/52nyPVlsr3533PUQvXsbauod3tRGuK5iVj9x+xBos63g6FLFeWhDshfmK0EBfJApOujAxoK7w9c8wzfFnwJb6Qj2sOvAaHxRH2n2NVTT3PFpbwSWkVCrHfT1ZpvDa4n9PONfl9OL1PL1yWru8nm0XSBrfN9Q1cs6aA9XVeGjQ9qhfYh8tjUbEoCg+O6M/pfTLCPpwebmjradV/IhePSFgTIjKhLByjMkfx3qnvcd7yzfx3T03nDxB76UF677gaRa/v8VO1Fe5yPDnkunMl3AlTM1KIi2SByUebP2oeGdDkwjEXthoZsH94s6m25jOjZo6fyTUHXtPpa233+rhubQEraurxazqhsFYYXR6LigL8aXg/zsrNTJjehFhKuuAW0HSeKijm8e3F+BMksO3PrapMSnfz+Kh8+jo7vjYsnNAWiar/RCwekbAmksn+oWzfMBbJUNYkxZpCXbAOfZ8KEoti4efDfs7vpv4Ou9XOg1uKeGJ7MTKVLHzpVgurpo+irL6szf+HTf9/S72lLf7uu0vCnTA7o4S4guqCFgUmTdId6V0qMAl3ZMCi3Yu46surWoQ8gP4p/fn0F5+2u88W0nWeLyzloa1F+HWdUAKmBLeqckCqi6dG55PvCv/ooRkkVXBbUVPPzNXbKPYFqI/xod6usgJ2VeX2oXn8ul9v1Db+gYUT2npa9Z9oxSMS1oQZxTqUpdpSyfHktHkaXq6ncYfeY/Nw3ifnsbJsJQATsydy17S7WlxT8VV5NZev3kZNlK91MJMZvVJ5d2Lnp6UHtICEOyG6yAghLhIFJuGMDNB1nXM/OZfV5atbPf6dU95hbNbYVrevrfVyxertFDb4En4/uelSo1sG53H5gGwsSXL0LSmCm67r/GVbMU8VFNOQ4D+I+3OrCqNSXLw+bghZ9r3NOuGEtp5U/SdS8YiENWFkiRrKwrF+z3reXPsmE/tM5OfDft6qmbYyEGTcd6uj2ixpJnZF4dbBuVw9MCcizyfhToj2JXKIi0SBiaZrLUYGwN6zqS4cfSEvrnqRJ398ss3Hnjn8TO6cdmeL9TxbWMKDW3fj0yLxjhE7blVhsMvBWxOGkuMw//uP6YNbfUhj5uptfFtRE/MLKiPFpkCG1cq7E4cyJsUVVmjrbtV/ohSPSFgTRtAUyorr2tlxTuBQFikTvltFsV9OlgxHqkXltfFDODQjdt/wxyvc7fszKeFOxFuihrhIFJi0NTJgaPpQNldtbvcxLquLhecvBKAhpHHdugK+LKvucaV/vFgVSLVYeGvCUA40efukqYNbkc/PL3/czE6f33BH2triUhWeHp3P1+sfaDe0dbfqPxGKRySsiUQioSw8l63ayselVZ1vKLAqsP7wcXgsiTVcVsKdSCaJGOJ6WmDSVmN4E6fFyYz+M/h659fNZSVuq5sF5y+g1B/grGWb2er1mWY/+ZGRAzgjNzPeS4ka0wa3Aq+PU5ZupDwQTMgLK7vLQhBX2Qu46r8HWoa27lb9t1c80j+lPzdMuiGqxSMS1kQ8SCiLnDd3lXP7xh0Jfz1EIhjmdvDtwaPjvYxuaQp3bTWVSrgTRpVoIa4nBSb+kJ8/fv9HPt7ycav7rp54NZcccAn/3vRvvtn5DZeOu5TstFGcsmQjxf4AQRO9fTtVhTuH9uPi/r3jvZSoMGVwK2zwc8LiDVQEggnZGtljmo+UPS/x6/79m0Nbd6r+41U8ImFNRJOEstiqDoYY/90qU3xbG01uVeWOoXlc3D+7840NKpbhDhqLtvb/tybhTnRXIoW47haYzJ43u1XoA7Bb7Hx91td47I2fRcW+AMcv3kBZwFyhrYlLVfijScOb6YJbmT/IMYvWUeYPJsTMiWixEuSFA4ZyQu+MLlf9x6N4RMKaiAQJZYnpujXbeb+kwlRnN0SaU1VYPf0APNbEOk0y1iTcCSNIhBDXnQKTy+ZexoKiBW0+3wWjL+DWqbdSFQjys8UbKPL5TRnamjh/Om3yFyY7bdJUwc2vaZyydCNra70ETPOnap9LVTgi9D5LCz9ovq2jqv9YF4+EG9YyHBkck3+MhLUk11Eo23enTkJZ4lld6+WUJRsMWwAVbVbg7LxM/jIqP95LMQQJdyKRxDvEhVNg4rA4+NOCP2G32PHYPKwtX8uGig0tvpy/YsIVXDHhKs78cRNLq+vxm2f3v11OVeGDA4ebqrDENMFN13WuW1fAxyWVybPzoGsoWjWZRb9F1WrbrfqPZfGIhDXRFgll5nf0wnWsqWvofMMk5FQV5kweyUiPM95LMY39w11b7ycS7kSkxTPEdVRg0sfdp/mo3C+G/4K7pt1FIBRgQ8UGPt/2OemOdC4bdxm/37CDt4rKk2c/GehltTBv6ijTjAowTXB7Y1cZt2/chdegVabdpgew+rdxTa8t3DilddV/LIpHJKwlt7ZCWVvfkEsoM7d/Fldwy/pCamUYdyvjU13MnTwy3stIOokU7pqKViTcmUe8Qlx7BSb7evLoJzlywJEtbvtX8R5mrStMqtAGjW2+I9xOvpgy0hRDuk0R3Ip8fqbPX2fY+RM95VA07h2ez4X99l6EGe3iEQlryUFCmQiXT9MY++0qCW778VhUHh2Vz2l9MuK9FNEGCXciEuIR4paVLOPBRQ+ysmxlq/tSbal8fMbHZLoar+8q8wc5ZP6apH1/dqsqNw7K5eqBfTrfOMEZPrjpus5ZyzfzQ0UtyTwC1mNR+e7g0bioj1rxiIQ1c5FQJiLtT5t38cKOUmmY3Ecvm4UV0w7Aphr/m95kJeFOdEUsQ9yX279k1rxZbd43otcI3j/tfQAuWbmVL8ur8CfxW7NLVZg3dRQDXY54L6VHDB/cPiypYNbawqQ92tbECgyx16AV/jaixSMS1oxp31DW0VBdCWUikupCIQ75YS2lgWT+Gm0vl6ry7JiBnJAd2ZZekXgk3Im2RDvE/X3937ln/j3tPu+SC5fwn/JqLlu1NelOkdyfBTgwzc1HBw2P2mziWDB0cNsTCHLwD2uoSdJDv61oDaSVP4/DuxjofvGIhLXEJqFMJLKv99Tw65Vbkn4nwabAjMw03hg/JN5LEQlCwl1yi0aI84V8vLjyRdaVr8Mb8lLrr2VX7S58IR8XjLmA/xt3FVPnr2FPwMwDssLnVlXuG96Pc/pmxXsp3Wbo4HbzukLe3b0nKSpNw6WEahlfdT+zJ13bpeIRCWuJQUKZMIOZq7fxWWlVUr83eywq8w8ZTbZd3iNF+CTcJYdIhLiAFqA+UN/h5S93b9rJSzvL5PT1fXgsKiumj8VjMeZMTcMGt7pgiLHfrZIfxv3YlRCPjsrnzNzsTreVsBZbEspEsqgIBDl4/hqqg8l5NoRbVfnT8H6ca+BvdUXiknBnLt0Jcd6gl7M+PotqXzWzJ8/m/NHnt3qMFEa1zWNRuWdYP84z6PuzYYPbqzvLuGvTTuoluLUyLsXFF1Parp6WsBYdEsqEaOmz0kquWrM96U6ZtCsKk9PdvD9xmKGvoxDGJuHOmMINcXkpeWyv3t58261TbuWCMRe02O793Xu4ZcMO6iS4tTLYZef7g0cb8j3akMFN13Wmzl9LYUNkdoLNxqkqfD55BKM8LkDCWk/FrX2x6YNPQpkwqHs27+SlHWVJE94UINdhY96UkaTbrPFejhAdknCX2MIJcfu64aAbuHTcpc2/P2rhOtbWNURziYblVlX+MXEoB6Ubb1/KkMFtQWUt563YIt8itMMCnJXbi19nVUhY64SEMiGiR9N1zl2+hfmVtfiM91HTZR6LypzJIxjmdsZ7KUJEhIS7xBBuiLt47MXcOPlGVtXUc+rSjUnzpVlXqcBJ2em8eMDgeC+lywwZ3H69Ygtzy6sj9DZhToruJ3PH1ah6629bkiWsSSgTIv5qgyGOX7yBggYfARO/abtUhZcOGMxRWWnxXooQMSXhLrYeXPQgr695vc37Mp2Z/O/s/3Htmu38s6SCkInfc3vKoSosPXQsWXZjnR1hrNUCpf4A8ypqJLR1Qtc1GjzTcNf+FzBfWGsrlLX1YRG1ULZ/OJNQJkSbUqwW/n3QcE5csoEin9+U4c2pKjw9ZqCENpGUbKqNvJQ88lLy2t0mkuGuvKGc8oZyVpevbncbM4e7NHvb7zMqKueMPIfqYIiPSisltHVCAd4qKufagTnxXkqXGO6I2/MFJfx5a5G0SYbBFtzNpZ75hgtrEsqEMJ8yf5BTl25gZ4Mfv4nevl0/hbaTsjPivRQhDE2O3IWnIdjAK6tfocZfw8C0geSn5ZOfmk+OOweLauGtXeX8YeMOKe8LQ1+HjaXTxsZ7GV1iuOB27vLNfLWnJt7LMASrAhsPH4/LosZ7Kc0klAmRvCoDQc5fsYU1tV7DX3uhAi6LyssHDOaIzNR4L0eIpCDhrnMzV2/jw5LKeC/DEGyKworpY+lloDIpwwW3Ud+spDIoE+DDkWpReXP8EKZmpHS+cQQkTCjb51cJZUIkloCm89sNhbxfXGHY8OZQFHrbrbw3cRhD3I54L0cIsY9kD3cHfr+aIl8gZq9nZKkWlefHDuJoA53mbpyICez2BfBq0iQZLp+ms6S6PiLBraNQ1vymKKFMCNEJm6rw8Kh8JqS6uWPTTvyajpG+inOrKpPT3bx4wGDSrJZ4L0cIsR8zX3O3snQlL658kXHZ47hozEXYLfYW91cFgpT6g50+j2hUH9JYXFVnqOBmqCNun5ZWcv3aAmpkDEDYjspM5e0JQzvcRkKZECIetnl9XLVmO+tqG6hP8C/l7Ao4VJUHRvTnjJxehhzcKoQIXyIeubv484tZUbYCgCHpQ7hr2l1M7DOx+Tn+t6eGy1Ztlf3kLpic5ubjSSPivYywGSq43blpJ38tLEV+HMOXYbXw/ZR+EsqEEAlJ13XeKirnjk278GtaQrZOulSFo7PSeHDEAMNVRwshoifW4a4tR/Q7ggcOf4AURwp/2bqbR7ftRo65hc+lKmw5YrxhvowzVHA748eN/FBZF+9lGIseoveOy1H0ngczCWVCiGgp8QW4cX0hX1fUoOl6QgQ4j0XFY1F5bFS+oU6lEUIkjliEu/4p/fnszM+46Kc5x91V9n9nknb9b7FPnNzt5whH3Zt/I1i0g/Sb/tilbUO7d1F23sn0+WIRiiUyX6I5VIXFh44h255YJTPtMdRXh7t9sf8Owfufz6h/73VCBdtQ3B6sw0bgOf8y/EsWUPfa86RefTPuM89r3r7+/beoefohPBfNJOXiK/AvW0zVfb8n++9zYr52APQAmiUDS7Ckw80klAkh4qmPw8br44ewtd7H33aU8vbuPQDUxfiUH5sCqqJwYKqbq/P7cHRWGhaDfBMrhEg8kbrmrsTb/n5cpa+xRbKnpSS9X36/R49vS1v7wZ7zLw378V3ZtjvsikKxLyDBLRrKA7ENbnXvvU7d2y+TdsPvcUyZBjYr/oXf4/tuHorThaX/QLxzP24R3LxzPsLSf2BM19kRhRAOe18GpaRJKBNCJLzBbgf3jujP74f25d8llTxVUMyOBj8+TY/qafKen8amnJ+XyaX9sxnokrZIIURshBPuftj1A5d/cXmL2xQU8jx53DHtDgBK/NIm2VUKsNsf5IB4LyRMhglumq5TG8MxAFptDXUvP0vaLXfhPOKY5tsd02bgmDaD2leewzZqLIENawlu3Yx18FCCWzejB3zYRiXOMD+PLYU7ZzzB6X16xXspQggRNpdF5ey8TM7Oy2RZdT3PF5bw1Z4avJqGXVGoC2k9CnIuVUFVFAKazqgUJ7/pn82p2Rk4E2jupRBCNBmTNYa+nr7sqtvF8F7DOX3o6Zw0+CSy3dnN2/R0XFbpuSeRdtMdBFYuI7htM4rdju+7eVhy+5J+58P4vvmSun+8iWKzk3bTH3FMORQA72cfUvfuq2ilxagZvXCfczHuU3+J7vVScds1EPBTctI0ALJe+xfej/9JaFch6b/7U/Ppj2m33kXty8+iNzTg/uX5pFxwGQC1rzzXvG0T72cfUvfqc6CD+1cX4jn7om7/mYO6TomBxicYJrj5NB1FgShe39lCYM0KdL8fx+FHdbid69iT8X7xMamXX4937ke4jj2Z4LYtsVlkGDQ99qcaCSFEJE1Mc/Ps2EFA41iYpdV1zK+s47vKGjbW+dDQcagqFmgOczqN36Q2neQY0HX8mk4fu40p6W4O75XKQWluRnlcWFU5FVIIkdjSHel8cPoH1Afr6e3q3eY2/gjOxvT98DUZ9z5K2q13Uf3gnVTcehWuk84g++9z8H7+EdWP3kv2W58AoPbKJONPj2Pp25/AiiVU3HYttpFjsY0YTa/7nwrrkqHAymX0fvUDgju2s+eqC3EefjTWgUPa/nP+uIjer/2bYNEOKm68HOuwETgmHdKtP2dQJ+FbjfdlmOAW0nVi+dGqVVehpmd0evGj82cnsef6S0i55CoavppD5hMvU/vikzFaZed0IGjQIbdCCLG/XIeNk7IzOCk7A2hspawNaRT7A+z2BdgTCBHSdTRdx6oquFWVHIeNXLuNLLtVrlcTQhiW2+bGbXO3eZ+uR7a70j7+wMbLhADnjGPxffNfPOf+H4rFgvPo46l55B602hrUlFQchxy+93ETJuOYfAiBlT9iGzE67Nfz/HomisOJbehIrENGENy8od3glvLrmSguF7Yhw3GdcDoN//2828FNRydgoP1kwwS3WH/UqmnpaFWV6KFgh+HNkpOHpe8Aal98Cmu/fCx9cmO4yvCosqMihDAZTdfZ4vWxssbLLl+AHQ0+Crx+ygJBAlrjDoxFUUixqPR32hnospPrsDHc7WR8qhu3nBIphBDtUntl7f2Nw4GSnoFisQCgOBqvAda99ZCSim/Bt9S99leCO7aDpqH7GrAOHta118vc+3qK04nmrW93W0v23n1tS04ewa0bu/RarV7bQLvJhgluVlUhloHYNmY82G34vv0K54xjO9zWddwpVD90J2m33BmbxXWBgoLVQD+QQgjRlppgiIVVdSyqquObihpW13pRUVAVaNA0gh19PlTVoQBOVcGqKHg1jX4OO4dkpDAtI4Wp6R4Gu6WMRAiR2L7c/iUbKjYwre80JmRPaDF7TFEUVIj5rGPd76fyzptJv+1uHNOPRLHaqLx91t5Lm6KwDxoq3Y01f3Djf5fsRs3K7uQR7VMVxVBnYhgmuDlUFYuioMVo7JyakkrKxVdS88T9YLHimHwIWK34lyzAv2wxisPZvK3zqONQs/tgP2Biu8+n+30tb7DZYzLsT9MDbN2znB8tvchx55DtzsamGqPyVAghVtXU81xhKR+XVmJTFOpDGnsvvw//80AHvJre/JjtDX62797Dx6WVhHSdwS4H1w7M4eTsdByqHI0TQiSWLVVbmDVvFgDPLn+WgWkDOXXIqZw4+ETy0/KBxnbcmhj3GujBAAT8qBm9wGLFt+BbfIvnYx3UeMRN7ZWFVl3VfFplJNS9/gJpN95OqGgX3s8/JP23f+r8Qe2wKQpZNsPEIeMEN4BeNgsl/tiNBPCcdRFqZm/q3niBqvt+h+ryYB0xGs/5l+JfPL95O8Xh7PDcWq2shJITWt6f9fqHWPvlR23tTXwhH68uf4S3AtuBxiNwvV29yfXkkuPOaf41x7P3vyXcCSHiqSGk8XFpJU8WlFDg9eHXdEJAQxTaqZrKm9bWNXDz+kJuWV/IhX2zuKR/NgOc9oi/nhBChEPXdap8Vc2z3RYULWhx//bq7Ty17CmeWvYUJww6gYdmPESWzUpNyB/TdapuD6nX3ELV3bc2lvodOgPHtCOa77fmD8Z59AmUXXAqhEJkRWBWnG3CJMouPA00Hc9ZFzW3W3Zr/UCOQWa4ASi6HqNDWBFw9MJ1rKlriPcyjEXzkbnrRixaVdgPkXAnhIiHXQ1+ni8s5Y2iciB+jbh2pfG0o8lpHq4bmMOMzMh8SyyEENA6lDUN3N538HZxXTENofD2eZ0WJ4suWMRpSzeysKouyqs3F49FZe7kEQx1OzvfOAEY6ojbAKddglsXKaqNY/tPpaSuiOL6Ysq8ZXTWO6SjU+otpdRbykpWtv28Eu6EEBES0nVeLCzl/q1FBHWdQJy/TvTrgK7zXWUtP1bXMzXdw2Oj88l1yPuZEKJjkQ5l4ThzxJkADHTaJbh1kU/TyJUjbtHxbEEJ928pwmecJcfdEJeD7w/ZW8caCAUo9ZbufQOpK2715hJOuAuHhDshRGfW1Xm5cvV2tnt91CdoJbNVabzO+s6hfTm/b5Y09QqRpGIdyjw2D7nu3Ob9ps+2foY36G2+f2Svkdx72L2MyhwFwOu7yrhj486frucV4cixW1k+/YB4LyNshjriNinNjV1V8IXkBzJch2R4WvzeZrHRN6UvfVP6tvuYSIU7OXInhGiPX9N4ZFsxzxWW4NMiO38o0oI6BEMaf9y0izeLynlmzCCGSAulEKYS71C27z5Q068p9pQWjwlpIT7c/CEOi4OrJl7FRWMuwqru3ZU/KM3z0xdLifyOmlgmp3s63yiBGOqImzekMfybFR3XPotmHovKAyP688vczIg/dyIcucv1NL7hSbgTwlhK/QHOWb6ZLfU+w30zrAJOVeXZsQM5vnd6vJcjhAiDEUJZOAJagAVFCxieMZwcT06r+4OazpCvV+A3zq59XLlUhT8O68fF/XrHeylhM1RwAzh0/hq2emPbmGNULlXhP1NGxe2bYQl3Qoj9raip55zlm6kOhgz9JZxTVbg2P4fZg3JiMtpFCNE2s4SySPnZonWsqpU+iHCkWFT+eeAwxqe6472UsBnqVEmAQzNS2OrdE+9lGEJID5FjDQLxCW5GOS1Twp0QsTG3rIqZq7cZ7ihbWxo0nacKilld6+X5sYOwqRLehIg0CWXt03W9zS+NDuuVyprahpgP4jYin6Yz2uOK9zK6xHBH3OaUVXH1mu3Uxqkm2jB0Dbt3GTkVz3J4/8M5buBxHNH/CNw243yr0GT/cNci5MmROyEM4aOSCq5dW0CDCULbvlyqwsEZKbw2bjB2GdwtRNgklHXPmvI1XPff66jx15Cflk9+aj4uq4scTw6/GfcbFtcE+PXKrXEbp2Ikh6Z7+OCg4fFeRpcYLrgFNZ1x362iIhiK91ISm9ZAeunD2H3rm29yWpyGD3HtSaRwl+vOpbe7t4Q7IX7yeWkVV6zZZrrQ1sSpKkzPSOHVcUOwypE3ISSURdFfFv+FV1a/0uZ9YzLH8M4p73DQD2so8gViuzCD8VhUnhszkGMNdq2y4YIbwF+2FvHE9hIZC9CBdLWB0ZUPsLlyU5v3mznEtUfCnRCxt7CylrOXbzbF6ZEdcakKp2Rn8MTofLnmTZiahLL40HWdVWWreGb5M3y789s2t+mb0pc5Z87hr4Ul/HlLkenfd3siy2ZhxfQDsBjs/dqQwa3EF2DKD2skuLXDrSrcPrQv/9c/my2VW5izfQ5zt81lk4S4Tkm4EyJydjT4OXrReqqT5AwJl6rw+yF9uWxAdryXIkS3SChLLE1hbe72uczdNpdddbva3dZpdfLqCa8yJmsMVYEg479fjU+CW5ucqsKsgblcP6h1M2eiM2RwA7hoxRa+KK+WSRVtcKoKK6cfQKrV0uJ2CXGR0V64213X+EEn4U4IqA9pHLtoPdsafCTT6E2nqvDG+CEc1is13ksRogUJZcbQlbDWpI+7Dy8f/zL5afnNt129Zhv/Kq4kOb426xqHqrDk0LH0thuuo9G4wW1+ZS3nLd9CvSYXX+7LosCvcjJ5bHR+h9tJiIsuCXci2V2/toAPSypMe11bR1ItKvMPGUOWAXcKhDFJKDO2cMNaqj2VowccTYYzg1dXvwq0HdqgcfTK6Us3yumS+1GBE7PT+dsBg+O9lG4xbHDTdZ2p89dQ2CAXX+5L1f08ONDP+UOmh32dhYS4+JBwJ8zqh8pazkuC69raY1cUjuudxosG3TEQiUVCmTl1NawdN+g4Ds07FJvFhqZrPPXjU+yu282VE69kQOqANh87Y8Fa1tf7ovnHMBy3qvL3iUOZnO6J91K6xbDBDeAfu/dwy/odctStiRbE5t9ARsmfOTjvYG6afBOjMkd16SkkxCWWzsLd7vrdlHvLJdyJhNEQ0jh0/lqK/Mn9pZpLVfjbAYM5Oist3ksRCUxCWXLpSVhrT1ALUtFQgTfoxRv0UumrpNpfzdEDjubLPbVcYZLZmZGgAgekupgzaYRhS6QMHdx0Xef0HzexpLouqa6haI+i+ehVdCuWUHnj71E4deipXHvgteR6crv8fBLijEGO3IlEctemnby8sywpT5HcX5bNwsJDxuDZ73pjkRwklAmITlhrsrVqK5fNuYwSb0mr+wamDuTjX3zMecs3801FDQF5S8apKvxnykiGup3xXkq3GTq4ARR4fcxYuC7pv01wqyrXDUijtuQN/rHhH4T0vZejOi1OLhxzIZeOuxSPrXuHhiXEGZuEOxELq2u9nLxkg4S2nzhVhV/lZPLQqLZPYxLGJaFMdCSaYW1fr61+jYcWP9TmfQ6Lg8UXLKbEF+DQBWuTfiC3W1W4ZmAOswd1/UBGIjF8cAN4rqCEB7cWUZ+kOwsKMMrj5MspI7EoClsqt/DokkeZt2Nei+0ynZlcPfFqfjH8F1jV7l80LyHOnCTciZ761bJNfFtRK22/+3CoCvMPGU2ewx7vpYgwSSgT3RGrsLavL7Z9wez/zW7zvkvHXcoNB90AwBu7yrhj466kvrRokMvON1NHY1ONeTAXW8EAACAASURBVIpkE1MEt5Cuc/Si9Wyoa0jKHQZVD/DhxHymZLacR7GwaCEPL36YtXvWtrh9SPoQbpx8I4f3O7zH5/hKiEsuEu5Ee3Y0+Jm+YK3MDdqPQ1W4ckAfbhuSF++lCCSUiciKR1gD2F23myd/fJKPNn/U5uftYX0P45mfPdO8j6frOicv3cjy6vqkHA/gVBX+deBwJqYZf//TFMENYHN9A8ct3pB8h4K1BjyV/2CIvpxHZjzCuOxxLe/WNT7Z8gmPL32c4vriFvd1t8CkPRLiBEi4S1b3bNrFCztK8ZvjIyWi0q0WVk0/wPDf9Ca6RAhlTe8/EsrMK15hDaAuUMffVv6N19a8hi/UdltkuiOdD077gGx3dovbCxv8HL1wHTVJtp/sUhWuyu/DzYPN8eWZaYIbwFfl1VyyamvSXO9mJYSlbgGp5c+iADbVxm1Tb+NXI37V6khaQ7CBN9a+wYsrX6QuUNd8e08LTNoTbog7rN9hHD/oeAlxSUbCnbn4NY2x365Kuh2CcHksKo+NyufUPhnxXophJUIokyNlySueYQ0amyP/ufGfPL3safY07Glx35EDjmRQ2iBeWf0KCgr3H34/g9IHsaZ8DfOL5jN/13wcVgevnvAqO0IZnLN8c9Jch+xUFY7olcqr4wYbtkVyf6YKbgBPby/mL9uKTX8erxUY6XHy29xi7vjut9T4a5rvO23oafzhkD/gsrpaPa7cW86zy5+NSoFJe8IJcQ6Lg8P7HS4hTjSTcGcc/yqu4Mb1hcl3xkMXTEh1MWfyyHgvIyG1F8paBDMJZSLG4h3Wmtbwzc5v+Mviv7ClakuL+0ZnjuamyTcxNW8quq7zw64fWFa6jFdWv4I36G31XCcPPpn7j7if13aW8cdNO01/kMOiwCCngy+mjMRtUeO9nIgxXXDTdZ2b1xfyfnGFeX8otSA2vYZPJw1jXK8BFNYUMnvebNbtWde8ycheI3n0yEcZkNZ2m1m0C0zaIyFORJKEu8RwzKJ1rK6NzE61WTlVhbmTRzLCY9wa6u6QUCaMJBHCWpO15Wv5y+K/sGD3gha353pyue7A6zh5yMmoSstAcs7H57C6fHWbz/fA4Q9w0pCTgMaxLa/sLDPtfrIK9LZbmTN5hOmKoUwX3AA0XeeGtQV8VFppvh9KLYiqVZGx+48McHl46YSX6JfSj4ZgA/fOv5cPN3/YvGmqLZX7Dr+PIwcc2e7TxaLApD0S4kQstBfu9t2JlHDXfWtrvZwoIwA6ZQXOycvk4VH58V5KxEgoE2aQSGEN2i8e8dg8XDbuMi4YfQFOa9tfAD2+9HFeXPliq9uH9xrO+6e+36Ks5Pcbd/J2Ubnp9pMtQC+blc8mj2CA01yhDUwa3KDxh/KW9YW8X1xpmtMm7YpChiWEWnAjoWAZAH09fZvDm67r/GPjP/jzgj8T0ALNj/vNuN9w9cSrsahtD4GNZYFJeyTEiXiScNd9D24p4ontxQTjvRADSLdaWH/4uM43TACJFMqa/ltCmYiURAtr0H7xiEWx8MsRv+TKCVeS5cpq9/HLSpYx+6vZlDaUtrrvwcMfxKf5eHHFi+yq28XJQ07m7ml3c/fmXaY68mZTINNm5ZNJI+hvwtAGJg5u0PgP89nCEh7cutvw3wa7VIUJqW5eHTeYlSXzuf6/1+PX/EDL8AawqmwVs+fNpqiuqPnxh+YdygNHPEAvZ692XyPWBSbtkRAnEpGEu7adsmQDi6vr470MQ3CqCt8fPJq+cd6hkFAmklEihjXovHhk1qRZDEkf0u7jdV3nrXVv8fCihwnqrb9C89g8+EI+gtre+6yKlR8v+hGAV3aUcefmnabYTx7hcfLW+KFk2SN/qU+iMHVwazJvTzWXrtqGN6RhxGNvLlXhvLws7h7eD8tPh7m/3flth+GtoqGC2765je93fd/8PLme3DZHBuwvHgUm7ZEQJ4zEjOHOF/LhsDjavE/XdYZ8vcI039ZGW6pF5ZEot0vuH8paXfspoUwkkUQNa01rC6d4pCP1gXru/OFOPtv6WfNt6Y50rppwFc8sf4YqX1Wbj+vr6cucX85p/v0PlbVctGIL9SHNkHPeXKrCz3N68eCIAaYfu5IUwQ1gS72Py1ZtZZvXb5hTJ20KOFSVh0b054zczFb3dxbeQlqIZ5Y/w19X/HXvc3YwMmB/8Sow6Wg9EuKE0Rkp3L2y6hUeW/oYozNHc/uhtzMma0yL+zfXN3Dsog2GeU+NNwW4tH9v7h3ev1uPl1AmROcSOaw16U7xyP62Vm1l9rzZLfaHxmaN5ZEjH6FvSl+2Vm7ljH+f0eIL+CZ/OPgPnD3q7Ba3FTb4+c2qrWyo8xnmPd36037yPcP6cV7f9k8jNZOkCW7QWFrytx1l/HlLEX5dI5jAf3KXqnBkZioPjcyndweHfDsLbwD/K/wfv/02/JEB+2uvwGRo+lBmT54d1QKT9kiIE2aWKOHuvgX3UeGrABqvs7ho7EVcNeGq5gvj39u9h9s27JAxAF0w2uPkq6mtrxmWUCZE9xkhrEHPikf29cX2L7j9u9tbXNbyyxG/5LaptzWfIaHpGpfOuZTFxYtbPNaiWPjvWf8l09n6gICu67yxq5w7N+/CpyX2frJbVZma7uGx0fnkOuJ/2UCsJFVwa7Kjwc81a7azoqae+gQ7xcehKHisKo+PyufY3ulhPSac8NadkQH7SoQCk/ZIiBPJKJbhbl8em4cHDn+AGQNmcOO6At4s2tP5g0QzKzoP522kpD62oWz/UC6hTBidUcIa9Lx4pElQC/L40sd5ZfUrzbc5LA7+cMgf+Pmwnzffpuka986/l/c2vNfqOQ7JO4QXjnuhw9fZ7Qtww9oCFlbVJdzRN7ui4LKoPDJqACdnR++080SVlMENGv/Bf1hSwf1bdlPiD+LVtAjv3nSN56fhgBfmZXHT4FxSrG03QLYnnPDW3ZEB+0qUApP2SIgTYq9ohbs0exrfnfsdpy/dyIKqus4fAHj/8xn1771OqGAbituDddgIPOdfhpqSSs2zjxDYsBa9upKc//7Y4nElJ01r8Xvd78N12q9Iu+42AHxLF1Dz+P2ESnZjG30A6bfchSW3b4vHaNVVlP3651gHDCLziZebb6//5J/Uv/0K2p4ybOMOJO3mP2Lp3QeAundexTv3I7TiIpT0DNynnYXnnF83PzawaT01Tz5AcMtGFJcb16lnknLh5Z3/RWh+MnfNxqK1fe1JZySUiWRmpLAGPS8e2VeZt4xbvr6FRbsXNd/WL6Ufjx31WIsvztsKbeN7j2d1+WpCeoinj3maI/ofEdZrflZayX1bitjR4Men6XHtifBYVDRd55y8LG4dnEuGzbwFJB1J2uDWRNd1llTX80xBCf8pr0ZRiFmzjgWwqwr5TjvXDMzh1OwMnD2Y7h5OeOvuyID9JVKBSXskxAnRufbC3brydSwpWdLmY4amD+VfP/8Xh/ywhm0N/k5fo+6916l7+2XSbvg9jinTwGbFv/B7/CuW4jrpDAKrfkRJz6Dq9tmtgtu+NG89ZWf+jIw/P4l9wiS0qgrKLjiNtBvvwDHtCGpfeobAyh/JfPq1Fo+rfvhugoXbQNebg5t/2WIq776FzL+8gKV/PjVPPUhw+xYyH/tb45rfeQX7QQdjHTqc0M4dVNxyJamXX4/z6BMAKPu/X+A87Gg8F19JaPcuKq6/hNRZv8c5/cgO/y4UrZ704j9jC2xrdZ+EMiFaM1pYg8gUj+xrWckybpx3IyXekubbjuh/BPcddh/pjr1nZ7UV2k4Zcgr3Tr+X4vpiAlqAgWkDu/znWVZdz/OFJXxaVoUKMSukUgGnqpLjsHJtfg4/z+mFuwf7yWaQ9MFtX2X+IG/uKuevO0po0HTqQ9E5CudSVTR0TslOZ+aAPoxPjVxYCCe8QfdHBuwv0QpM2iMhToiuWVK8hIs/v7jFbaMzR3NYv8O4YvwV2K12Rny9gupOrm/TamsoO+t40m65C+eRx7a7XXBnAeUXnt5hcPPO+Td1r/2VrDc+QlEU6j9+n4bP/03mU68CoHu9lJxxFFl/fRtr/mAA/KuWUfvcI7hOPhPvZ/9qDm41zz6C7veRdv1vAQiVlVB21vFkvf5vrP1anz5e/eQDoOvNR/qKTzyUrGffwDpoKACVd96MbcQoPOdd2uHfh1X38TPbUqam6hLKhGiHEcNak0gUjzRpq+pfQeHqiVfzm/G/afE8HYW2cL+U70xFIMg7RXt4trCEupAWxf1kBQ04LiudKwdkc2CaO+ZdColKglsbQrrOvD01fFlexXcVtWz1+nGoCgFNx9fFvy4L4LaoNGg6mTYLk9I8HJmZyul9MkiP0mHecMNbT0YG7C8RC0zaIyFOiM4FQgHuW3gfmys3c1i/wzhlyCn0Tdl7CqKu6/Sdt7zTD23fwu+o/N319JkzH8XS/nteOMFtz+zLsY8/iJSLrwCg+qkHIRAgbdbvm7cpu+SXpFx8Bc4jfoYeCrHnygtIu+l2gls24f30g5bBzddA2g2/AyBUWkLZ2ceTfs8jOKcf1eJ1dV1nz8xzcZ1yJu7TftX4+BefBE0j5ZKrCO3aScVNM8m4+xFso8Z2+PfhVhXuHd4/aRrQhAiXkcMaRK54pEl7Vf8PHP4A0/tNb7FtLEJby9fT+aailrnlVXxfUcumeh8OVSGo610+a02l8TTIBk0nw2rhoDQ3MzJTOb1PL1PPY+su+Rtpg0VROCYrjWOy0gDwaxqraxtYUl3HgspadjQEKPEHqAiEqNc0mr7v0ACb8v/s3Xl4VPW9BvD3nNkne1jCDoIGkUVwQVBQ3BX3ilJtrStaCtSCWmnF5RZL5V7FokWs1rpbtVZbBBdwoeACiqACAmIIOyEL2Wef87t/xDNMNjJJZuZs7+d5+jzlzCTzS4ScefM75/1KyLHb0NVpR0+XA8dneTE6JwOjsr3IS9P1uON6j8PCsxbGwtv++v246b2bmoW3PHcenjj7iUYjA0rqS3D9e9cnPDJANbrnaLx68avNCkyKqosw7cNpmheYxBuYOxBTc6di6vFTWw1xwWgQH+z+AB/s/oAhjizJYXPg/rH3t/p4NMFzs1JTDTkn94ihLRHRkv0If/sVcu46vCbh90HOaXyFgJyRCeFrGAjue/MfcAwZBkfhcYjsaPxLGufoU1E993fwXDIJ9j79UP/iU4AkQQSaF4TUP/8koCjwXHBZ7JhrzHjUPHQffK+/CChRZPzi1jZDG9BwnmjvLwCJzMroYQ1IXvFIvLaq/uOlO7QBgCxJOCM/C2fkZwEAworAlno/vqrxYW1VHfYEQjgYDKMyEkV9VIGEhnEoChoq/HPtdnRxNLxPHpHlwck5GRiVnXHEFnVqwO9QApyyjFHZXozK9uKWPt0aPSaEQEQACgQckgRZJ7tKiYY3m2zDjFEzcHy34zF79WzUhmoRVsKYu2Yuvin7JuGRAQAgSzIuGXQJzu1/brMCk7UH1uLqt6/WRYFJPIY4oo6JQkAC2txxk7NzoFRXQUQjnQpv/hXL4Bg2Eraeh39+SR4vhK9xOYrw1UPyehEtL4XvrX+gy5OvtPj5XCeOQeYNv0T1A3dC+OrhvfJaSN4M2LoVNHqe761X4V++FPkL/w7J6QTQEEarZk9H1q/vhvvsC6EcqkD1A3fBl9cF3suuPuLXIdBwVQeRVZkhrAFtFI/0mYCZJyVePBIvkap/lRahrSUOWcKILC9GZHlxY++ujR4TQiAqGs4ZenqfbFS8VNLkEr1sEuj8yICmjFBg0hpeTkl0ZBFFoO9/275UUqmrRdnV5yHn7j/AfUbH73Er/8VlyLjmRnguPFx57Vv6LwTefxv5jz8H4Md73H5yFrr89RVEdu9E9dzZkDMbfiMsQkGIYAByVg66vv4+JFvjNzWRPbtQcdtP0e219yFnNVxt4X/336h7djHy/vwM7L0OD80Ob9uMyrumovuSVbFj9W+8jND6tcib99gRvx9uWcIDR/fGDU3e3BCZmVnCGpD84hFVolX/Kr2ENkovBjcLaE94S8bIgKaMUmDSGoY4ouaEEOi98puE6qHrX38BvteeR9bMOXCdNAaw2xH6ai1CX69D5q23A+EQovv3ouKmSej+3hoAUmx3C2goGKn87VR0e+MDyN7Dv+xRqg6h/LrLkH3X/XCNGY+6555E+JuvkL/oBYhQCEpdTey5wY+Xw//hu8h98FHY8rtChIKI7tsD24BBUEpLUP3QvXAMPR5Zt8wAAPg/eAd1ixcgb8FTsPdv/Ftzpb4O5T+9EFm/+T3cZ54PpeoQqu+bBcfIk2Mf3xqvLOHBwj64tifvcSNzM1NYUyWzeCReolX/KoY262Jws4j2hLdkjQxoykgFJq1hiCM6bPDqjaiORNt+IhqCkO+NlxDZXQzZkwF74RBk/Oxm2Lp2R/m1FzV6rlzQE93+8U7szzULHoQIBJDz+webfd7gV2tQ+9h8RA8eaJjjdvcfms1xAwD/e0salZModbWo/M3NiOzfA9mTAfcFlyLzpmmxnbiyay+CUlYKyXH4TaT73InInjkHABBa/wVqn16I6N7dkJwuuMaejqzpd0FyH/nS8iybjMVDB+CcH++hJjITM4Y1IPnFI/ESrfpXMbRZG4ObhbQnvAHJGxkQTxFKswITlZ4KTBLBEEdWN3bNFhT7g20/kWKybDLeHHU0hidxDAyRlswa1oDUFI+o2lP1r2JoIwY3i2lveEvmyIB4gUigWYEJ0PBDS28FJolgiCMrunz9dqyprm/7iRTjliV8MeY4dHfp/00rUWvMHNaA1BWPqNpT9a9iaCOAwc2S2hveokq00cgAAHDIjnaPDGiJkQtMWsMQR1Zx97Y9eH5/hdbLMBSnJKH4jBGw6fyycKKmzB7WgNQVj8RrT9W/iqGNVAxuFtXe8AYAq/auio0MUF066NJ2jQxojdELTFrDEEdm9ubBSty1bQ/qo4lUlBAADMv04IOTB2u9DKKEWCGsqVJVPBKvPVX/KoY2isfgZmEdCW/JHhnQlBkKTFrDEEdms8sfxIQvtsKv8DSSCBnArX274YGjW/8ZS6Q1K4U1ILXFI6r2Vv2rGNqoKQY3i+tIeEvFyIB4ZiowaQ1DHJmBEAJHr97IHbcEZdlkPDakHy7slqv1UogasVpYA1JbPBKvvVX/KoY2agmDG3UovKVqZEA8sxWYtIYhjoyMBSWJc0kSvhh7HApYTEI6YMWwBqS+eCRee6v+VQxt1BoGNwLQsfAGpGZkQFNmLDBpDUMcGc2CnSVYsLMEEZ5J2pRnt2HL+I638RJ1llXDGtDwta/auwoLvlqQsuKR+Ndqb9W/iqGNjoTBjWI6Gt5SNTKgKbMWmLSmPSHuvAHn4Yw+ZzDEUdr94AvgnC+3IcD73I7IIQG/6NUVfyzso/VSyGKsHNZU6SgeUXWk6l/F0EZtYXCjRjoa3lI5MqApMxeYtIY7caRnF677HhtqfVovQ9dcsoSVJx+Lo7wtN8cRJRPDWoN0FI/E60jVv4qhjRLB4EbNdDS8AakdGRDPCgUmrWGII71ZVlaFX2/ZzZKSIxidk4ElJxyj9TLIxBjWDktX8Ui8jlT9qxjaKFEMbtSizoS3VI8MiGeVApPWMMSRHkQUgWGfbkJVJNr2ky0o0ybjieP647yurZcREHUEw1pjbRaPnDgTA3OTUzwS/5odqfpXMbRRezC4Uas6E95SPTKgKSsVmLSGIY609L87DmDRnlIEea9bM/kOGzaeNgw2k13CTdpgWGsuncUj8Tpa9a9iaKP2YnCjI+pMeEvHyICmrFZg0hqGOEq3kmAYp3z+HYI8pTTiliXc3r8AMweYd+efUo9hrXXpLB6J19GqfxVDG3UEgxu1qTPhDUjPyICmrFhg0hqGOEqXn31ThI8P1YJ3uh3mkiWsG3scujnN/waakoth7cjSXTyi6kzVv4qhjTqKwY0S0tnwlq6RAfGsXGDSGoY4SqXt9QGcu46jAVRuWcKNvbvi/qMT+zlJxLDWNi2KR1SdqfpXMbRRZzC4UcI6G96iShSLv1mMv37719ixVI0MiGf1ApPWMMRRKjxcfACLdpfBr3DfrafTgc/HDIHblvzLtMg8GNYSo0XxSLzOVP2rGNqosxjcqF06G96A9I0MaIoFJq1jiKNkCSkKxq/dil2BkNZL0ZRHlvDK8YMwNjdT66WQDjGsJU6r4pF4nan6VzG0UTIwuFG7JSO8pXNkQFMsMDkyhjjqrA01PlyxYbtlL5l0yRIu756HhUP6ab0U0hGGtfbTqnhE1dmqfxVDGyULgxt1SDLCW7pHBjS19sBaPLLuERaYHAFDHHXU77/fi1cOVFgyvOXZbVg79jhk2/mGzOoY1jpGq+KReJ2t+lcxtFEyMbhRhyUjvGkxMiAeC0wSxxBH7RFSFEz8aju21vsRsdBZxiNL+NfIo3FCjjUvuyaGtc7QsngkXmer/lUMbZRsDG7UKckIb4A2IwPiscCkfRjiKBFloTDO+GIrDoWjbT/ZBDyyhIcK+2Byz9S/sSR9YVjrHK2LR1TJqPpXMbRRKjC4UaclK7xpMTKgKRaYtB9DHB3JxlofLl2/HX6TXzLpkSVc27ML/ljYR+ulUJowrHWeHopHVMmo+lcxtFGqMLhRUiQrvGk1MqApFph0DEMctWT1oVpct3GHae9388gSzuuag8XH9Yds8ftizY5hLXm0Lh6Jl4yqfxVDG6USgxslTbLCG6DdyICmWGDScQxxFO/jihrctKnYdDtvHlnCuV2ysXjoANj4s8CUGNaSSw/FI/GSUfWvYmijVGNwo6RKZnjTcmRAPBaYdB5DHAHAJ5W1uH5jMXxRBWY48XhkGVcU5OLhwX2502YyDGvJp5fiEVWyqv5VDG2UDgxulHTJDG9ajwxouhYWmHQeQ5y1/eAL4Kqvi1ARiiBk4NOPW5Zw36BeuKlPN62XQknCsJYaeikeiZesqn8VQxulC4MbpUQyw5vWIwOaYoFJ8jDEWVN1OIJfbCzGt7U+w106aQfgtsl4bvhRGJeXpfVyqJMY1lJHT8Uj8ZJV9a9iaKN0YnCjlElmeAO0HxnQFAtMkoshzlqiQuBve8rwUPEBhIRA1ABnIo8s4eScDCwc0g89XU6tl0MdxLCWenoqHlEls+pfxdBG6cbgRimV7PCmh5EBTbHAJPkY4qxjtz+I6Vt2Y1OtHz5F0Xo5LXJKEtw2CY8M7oeLu+Xw37MBMaylh96KR1TJrPpXMbSRFhjcKOWSHd70MjIgHgtMUochzvyEEPhnySH8fvs+RITQzdgAGYDrx6r/hwr7IM/BHXQjYVhLH70Vj8RLZtW/iqGNtMLgRmmR7PAG6GdkQDwWmKQWQ5y5HQpH8OK+Cvx1bymCikB9VJsdOLcsQQA4t0s2ftWvO07I5j2rRsGwll56LB6Jl8yqfxVDG2mJwY3SJhXhTS8jA5pigUnqMcSZV1QIfFRRg0W7S7Gh1gdFCITTcKbKsMnwyDJu69sN1/bsgi5O7rAZAcNa+um1eESV7Kp/FUMbaY3BjdIqFeFNTyMDmmKBSXowxJnXLn8Qz+wtw8sHDkEGEBICwSRdSimjIawFFYETs72Y1r8AZ+ZncZC2ATCsaUePxSPxkl31r2JoIz1gcKO0S0V409vIgKZYYJI+DHHmFFQUbKr146uaeqyurMP6mnrURhS4ZAlRIeBXxBGHejslCc4fL4EMKwLHZroxLjcTp+Rm4oRsL7o5+YZe7xjWtKXX4pF4ya76VzG0kV4wuJEmUhHeAP2NDIjHApP0Y4gzt7JQGN/W+nEgGEZJMIRd/hBKQxGEhQJFAA5ZQqbNhn5uJ/q4nejusqPQ60Zhhpu7agbBsKY9PRePqFJR9a9iaCM9YXAjzaQqvOlxZEA8FphogyHOnIKKgtJQBKXBMEpCYVSGowgLASEE7JIEr01GgdOBApcDBU47su027m7rHMOaPui9eESViqp/FUMb6Q2DG2kqVeFNjyMDmmKBiXZ2VO/A8p3L8f7O9xniDEQRAtt9QayvqcenlXX4oroe+wIhuGQZth//SUeEgNpFKQGwSRJsAKIAQoqAR5YwIsuL0/OzcGK2FyOzvMiw8w2Y1hjW9EPvxSPxUlH1r2JoIz1icCPNpSq8AfocGdAUC0y0xRCnb0IIrK6sw+I9pfi8qg42SYIQ6PSwbocEuGUZfkVBH7cTN/Xuisk98pHDWW1pw7CmP60VjxR4C3D7CbdrXjwSLxVV/yqGNtIrBjfShVSGN72ODGiKBSbaY4jTj+pwBP84cAhP7ilDbTSa8pluHlmGgMDF3XLxy77dMCyL/11TgWFNn4xQPKJKVdW/iqGN9IzBjXQjleFNzyMD4rHARD8Y4rSxsdaHJ/eUYmlZNWQA/iRV/yfKBsApSxjgcWF6v+64uHsuXLI+dhiMimFNv4xQPBIvVVX/KoY20jsGN9KVVIY3vY8MiMcCE31hiEu9Xf4gpn+3G5vqfAgpAtG2PyTlMmwybADmD+6Ly7vncse7HRjW9M0oxSPxUlX1r2JoIyNgcCPdSWV4A/Q9MqApFpjoD0NcckWFwJO7y/DwzgO6CWxNeWUZo7K9eGxIP/R2O7Vejm4xrOmfkYpHVKms+lcxtJFRMLiRLqU6vOl9ZEBTLDDRJ4a4zvmuzo9fbt6JvYFwp8tGUs0uAU5Jxj2DeuLG3l0hc/cNAMOakRipeESVyqp/FUMbGQmDG+lWqsObEUYGNNVagcnAnIG446Q7WGCiIYa4xAkh8PjuUizYWYKgEl+FoH9eWUZhhgsvjRiErk5r/rKEYc1YjFQ8Ei+VVf8qhjYyGgY30rVUhzfAGCMD4rHARP8Y4loXiCqYvmUXPqyoSXvxSLI4JCDHbsdrIwdhaKb+fkakAsOa8RiteCReKqv+VQxtZEQMbqR76QhvRhkZEI8FJsbAEHdYaTCMq74uwq5AEAGDhrZ4XlnGVQqargAAIABJREFU40P64aLuuVovJSUY1ozJiMUjqlRX/asY2sioGNzIENIR3owyMqApFpgYh5VD3P5ACBet346yYBgRrReTRG5ZwvzCPpjcU587F+3FsGZcRiweiZfqqn8VQxsZGYMbGUY6wpuRRgY0xQITY7FSiCsJhnH+um0oD0cQNeEZxyNLeMjA4U0Igc0Vm/H+zvexYtcK7Kvb1+LzGNb0y4jFI/FSXfWvYmgjo2NwI0NJR3gDjDUyoKnWCkwG5QzCrJNmscBEh8wc4irDEZzz5TYcDIURMfHZxi1LWDSkv2Eum2RYMwejFo+o0lH1r2JoIzNgcCPDSVd4M9rIgHgsMDEuM4W4iCJw+Ybt+LbWh5AFzjReWcbbJx6j28IShjXzMHLxiCodVf8qhjYyCwY3MqR0hTcjjgyIxwITYzN6iPvttj34Z8khw7ZHdkQXhw0rRx+Lbk59hB2GNXMxcvFIvHRU/asY2shMGNzIsNIV3gDjjQxoigUmxme0EPdGySHctW2PpUIb0DAqYGimB++cWKjZkG6GNfMxevFIvHRU/asY2shsGNzI0NIZ3ow4MqApFpiYg95DXFkojDFrtqA+qqTtNfXEK8u4Z1BP3NynW9pek2HNvIxePKJKV9W/iqGNzIjBjQwvneHNqCMDmmKBiXnoMcRd9+0OrDxUg7CFzy4eWcInpwxBb7czZa/BsGZuRi8eiZeuqn8VQxuZFYMbmUI6w5uRRwbEY4GJ+eghxL1fXo1fbt4Fv2LN3TaVXQJG52TiXyMHJfWXIAxr5meG4pF46ar6VzG0kZkxuJFppDO8AcYeGRCPBSbmpEWIq4lEMfrz71AVibb9ZAvwyjIWHNsXlxd07ucBw5o1mKV4RJXOqn8VQxuZHYMbmUq6w5uRRwY0xQIT80pGiAsrYQQiAWQ5s1p9nXu378UL+yoQ5GklJtsmY+O4YXDJ7XuTyrBmHWYqHlGls+pfxdBGVsDgRqaT7vBm9JEBTbHAxNw6EuJqQjWYvHQyfGEf7h59NyYVTmr2Mf6ogqGfboLPooUkrcmwyfjfwj64skd+m89lWLMesxSPxEtn1b+KoY2sgsGNTCnd4Q0w/siAplhgYn6JhrieGT2xs2Zn7Ni9Y+7F1YOvbvS8Vw9U4J7v96He4ve2teTYDDdWjm75flGGNWsyU/FIvHRW/asY2shKGNzItLQIb2YYGRCPBSbWkUiIi3f3yXfj58f9PPbncWu34Adf8AgfYV0eWcKSE47B8KyGy08Z1qzLbMUjqnRX/asY2shqGNzI1LQIb2YZGRCPBSbWkmiI++WIX2LaqGnYUOPDTzb8YPkmydbYAFxekIep3WsZ1izKbMUj8dJd9a9iaCMrYnAj09MivJllZEBTLDCxngfXPIjXtr3W4mPdPd3x4dUf4rbNO/F2aRUY21oniTDy906HLHzNHmNYMy8zFo/ES3fVv4qhjayKwY0sQYvwBphnZEBTLDCxjsfWP4anNz7d7LgMGdNHTcekITdi5GebEVR4KjkiJYCMqn/CW7ccAMOaFZixeESlRdW/iqGNrIzBjSxDq/BmppEBTbHAxPx8YR+e3fws6sP16J/VH32z+6J/dn/08PaATbbhuX3l+J8f9sHP4NYme6QMN3j+y7BmcmYtHlFpUfWvYmgjq2NwI0vRKryZbWRAPBaYWNsNG3fgvfIarZdhCHYJ2DpuODLtfINpRmYtHomnRdW/iqGNiMGNLEir8AaYb2RAPBaYWNPwTzehLBTRehmGkGWT8ezwozAur/Uh5mQ8Zi4eiadF1b+KoY2oAYMbWZKW4c1sIwOaYoGJdVSEIhj52WaEeRpJiEMC7hzQA7cP4C8wzKCt4pE7TroDp/Q8RaPVJY9WVf8qhjaiwxjcyLK0DG9mHBnQFAtMzO+DihpM3bwTtVH2SSbqtNxM/GvU0VovgzrJzMUj8bSq+lcxtBE1xuBGlqZleBNC4F/b/4V5a+eZamRAUywwMa8/Fe3HX3aXItr2U+lHWTYZ348fzr/zBmX24pF4WlX9qxjaiJpjcCPL0zK8AcDm8s2YuXKm6UYGxGOBiTn99OsirKysbfuJFOOQJGw8bShyHdxtNhIrFI+otKz6VzG0EbWMwY0I2oc3M48MiMcCE3M5Y+1WbPMF0vJah2begkjR9+j2xgeQnE4AQPX8+2DrWoDMm6cBACLFRai865fwXnUd6p9/MvaxIhgAHE5IcsMbzqxZc+AYVIjaxQsQ/n4LRE0VCj7akJavI9MmY9mJhRicYY5dGbOzSvGISsuqfxVDG1HrGNyIfqR1eDPzyICmWGBiDsM+2YTycOobJaMl+1H+80sgZWQie+YcuCecC6BxcAtv34rKu3+FzF/cBu/lkxt9fNk1E5F9531wnTgmdiyyeyfCmzZAyslF9b2z0hbcsm0ynhl2FMbns1lSz9oqHrnzpDsxuudojVaXGlpW/asY2oiOzPh3zhIlybje47DwrIVwyg2/zd9fvx83vXcT9tXtS8vr22Qbpo+ajkVnL0KWs+FNXVgJY+6auZjz6Rz4I/60rCMduni6YM6YOXjz0jcxoc+E2PFANICnNz6NiW9OxOvbXkdEYc28nlVF0vPfx7/8bTiGDIfn/EvgX/52s8fDWzah8q6pyLx5erPQ1hp7vwHwTLwC9gGDkr3cI4oCKAmF23weaWdLxRZMWT4F0z+a3ii0FXgLMG/cPLx68aumC20rdq3ANcuuaRTaJhVOwvMXPs/QRqQjDG5EcbQOb0DDzd+vXfxao3u+lhQtwXXvXIc9NXvSto50GJg7EI+f/Tj+dt7fMCR/SOz4ocAhzF0zF5OWTMKqvavACwP0JyoEomn6zxJYvgzucybCfc5EhL78HNFDFbHHwls3oXL2NGT96g54L/pJehbUCVEh4GMLpy6V1Jfgnk/uweSlkxu1RWY4MnD7Cbdj6RVLccmgS0zRFqmKKBE8su4RzFo5K3b5usvmwtzT5uL+sfenfD6biqGNKDHm+elDlCR6CG99s/rixQtfxGWDLosd21a5DZOXTsbKPSvTto50OaXnKXj14lcxb9w8FHgLYseLqosw7cNpmLJiSqO5d6S9iBBIx8W7oY0bED14AO4J58JReBxsvfog8OHh+2/CWzZCysiE65T03H/TWQLg3DudqQ/X47H1j+Hity7GkqIlsbZIm2TD5MGTseyKZbhl+C2maYtUlfvLceuKWxvNZ+ud2RsvTXwpLfPZVAxtRIljcCNqgR7Cm9vujv3W0yE7AAC14VrM+GgGHlv/GKKKuUrYZUnGJYMuwdIrluL2E25vdI/b2gNrcfXbV+OeT+5BSX2JhqskVbruuAy8/zacJ42BnNPQsOo++wIE4i6X9Fx2NRyFx6HyrqlQamvStKrO4YlXHyJKBK9vex0T35yIpzc+3agtckKfCXjz0jcxZ8wc07RFxvu69GtMfntyo/lsLV3tkWoMbUTtw/MHUSv0EN4kScKkwkl48cIX0TOjZ+z40xufxtQPpqIyUJm2taSL2+7GLcNvwbIrlmHy4MmwSQ0nbwGBJUVLcMlbl+Cx9Y81aqWk9HNIElJ9wZ8IBhD47wqEv/kKZVeeg7Irz4HvjZcRKfoe4aJtAABJtiFnzjzYuvdA5W9/BaW+LsWr6hwZgN1ERUNGJITAf/f8F1cuuRJz18xt1BY5JH8InjnvGTx+9uOmaotUCSHw8paXceN7N8bms0mQMH3kdDx+1uNpmc+mYmgjaj8GN6Ij0EN4A4ChXYfitYtfw6m9To0d+/zA57h66dXYWLYxrWtJFxaY6JskSfDIqQ0ggU8+BmQZXZ79F/KffhX5T7+KLs+9CcfwUQgsX3p4LXYHcu7/P8g5uaj63QwIf9tFPkIIiFAQCDcUhYhQECIUStnXorJJEvI5w00zViweUfnCPty9+m489MVDsflsOa4cLD5nMW47/ra03rvH0EbUMQxuRG3QS3jLc+fhibOfwG0jbosdK6kvwfXvXY/Xt71u2gIPtcDkmfOeYYGJzuSlOIAEli+F54JLYSvoCVt+19j/vFf8FIEP3gWihy8XlhwO5P7hEUhOJyrvub1hdtsRKAcPoPSCMai4aRIAoPSCMSi/PvX39cgAClyOlL8ONWbF4pF4xdXF+Nk7P2s0n21ol6F4/eLX0zafTcXQRtRxnONGlCCt57zFW7V3FWavno3aUG3s2KWDLsWcMXPgsXvSvp50UYSCZTuWYeH6hTjoO9josVN6noI7T7ozrfdnWN2F677Hhlqf1sswFK8sY+XowejnSU9bn9XVh+vxzMZn8MJ3LzS6h80m2TCpcBKmHj/VlPewxVuxawXu/fTeRpeXTyqchNmjZ6etNVLF0EbUOQxuRO2gp/C2p3YPZq2c1ahtcXDeYDw64VH0ze6b9vWkUyASwEtbXsLfNv6t0ZsRCRIuGXQJZoyagR4ZPTRcoTXcumknlpRVab0MQ7FJQNH4EXDbzLmzoxcRJYI3t7+JRV8vanQPG9BQPDLzxJmmvIctXkSJYOH6hY1aI102F+aMmZPW1kgVQxtR5zG4EbWTnsJbIBLAg2sexH+K/hM7luXIwrzx8zCh74S0ryfdKvwVWPzNYrzx/RuIisOXzbltblx33HW4efjNjdopKbn+trcMc3/YjyBPIwnr43Zg3dihWi/DtIQQWLV3FRZ8taDRPWxAQ/HInSfdadp72OKV+8vx21W/bdQa2TuzN/585p81uSqBoY0oORjciDpAT+FNCIF/bf8X5q2dh7ASjh2fMnwKpo2cZomT4o6qHXj0q0excu/KRsfz3fmYNnIafnLMT2CXWQiRbBtqfLjq6x9Qx4HSCbuyIBeLjhug9TJMaUvFFjyy7pFG97ABDcUjt59wOy4aeJFp72GL93Xp17hj5R2x1kigoep/3rh5aW2NVDG0ESUPgxtRB+kpvAHA5vLNmLlyJg7UH4gdG9tzLOafPh957jxN1pRuXxz4Ag+vexhbDm1pdHxQziDMOmkWxvceD4lV7EkTUhQMWrWRA6UT5JVlPHhMb1zby9z3VKVbSX0JHt/wON4uejs2PBtoKB65Zfgt+PmQn5tueHZLhBB4ZesrePjLh2OtkRIkTBs5DVNGTNEktDK0ESUXgxtRJ+gtvFUGKjF79Wx8tv+z2LEeGT2w4IwFGN5tuCZrSjcWmKTX6Wu34HtfsO0nEjJsMpaecAyGZJq3QCidWDxymC/swwOfP9CoNTLHlYP54+envTVSxdBGlHwMbkSdpLfwFlWiWPzNYvz127/GjjlkB2aPno2rCq+yzI4TC0zSY/a2PXh+fwV4ImmbS5Kw44wRsFnk32CqsHikseLqYsxaOQs/VP0QOza0y1AsmLAAvTJ7abImhjai1GBwI0oCvYU3wLojA5pigUlqfVRRgymbd6Ke97m16fS8TLw+8mitl2FYLB5pTk9V/yqGNqLUYXAjShI9hjcrjwxoigUmqaEIgRGfbkZ5OKL1UnQtwybj78OOwhn5WVovxZBYPNKY3qr+VQxtRKnF4EaURHoMb1YfGdAUC0yS7/FdB/HIzhIEFJ5OWlPgtGPDqUMh8+9Wu7B4pDm9Vf2rGNqIUo/BjSjJ9BjeODKgMRaYJFdFKIITPt+MIINbizyyhN8e1RNT+3XXeimGweKRlumt6l/F0EaUHgxuRCmgx/AGcGRAUywwSZ6bNxXj3bJq8E635lyyhG9OHYpcBy/FbQuLR1qmx6p/FUMbUfowuBGliF7DG0cGNMcCk877qroeV31dBJ/C6BZPBnBZ91wsHjpA66XoGotHWqfHqn8VQxtRejG4EaWQXsMbRwa0jAUmHSeEwKlrt6DYH9J6KbrikSX8+4RjcHyWV+ul6BaLR1qnx6p/FUMbUfoxuBGlmF7DG8CRAa1hgUnHLCmtwm+27Oau249sAEZme7HsxEKtl6JLLB45Mj1W/asY2oi0weBGlAZ6Dm8cGdAyFpi0nxACk74uwtrqOkR4ZoFblrBy9LEY4NH2TbbesHjkyPRa9a9iaCPSDoMbUZroObxxZEDrWGDSPvsCIYxfu9Xyu24eWcasAQWY0b9A66XoBotH2qbXqn8VQxuRthjciNJIz+GNIwOOjAUmiXtmbxn+WHTAsuFNAjDI68LKk4+FXeYltSweSYxeq/5VDG1E2mNwI0ozPYc3gCMD2sICk7YpQuDcdduwpS5gyfEAblnC0hOOwTAWkrRaPNIjowd+PerXli4eUem56l/F0EakDwxuRBrQe3jjyIC2scDkyHb6gzj7y22oj1orunllGb/u3x2/GWDty2dZPJIYPVf9qxjaiPSDwY1II3oPbxwZ0DYWmBzZ6kO1uG7jDgQUa5xm3LKEs/Kz8cywAZb998HikcTpuepfxdBGpC8MbkQa0nt4AzgyIBEsMGndX3eX4qHiA/CbPLzZJeAojwvLTxoMj037S9vSjcUj7aPnqn8VQxuR/jC4EWnMCOGNIwMSwwKT5oQQ+N32vXjtwCHThjcbgG5OO94/aTAKXA6tl5NWLB5pH71X/asY2oj0icGNSAeMEN44MiBxLDBpTAiBO7btwVsHK00X3mwSkG+3492TCtHH7dR6OWnF4pH20XvVv4qhjUi/GNyIdMII4U0IgTe2v4E/rf0TRwYkoLUCk4E5A3HHSXdYqsDEjDtvDgno6nRg2QnHoJeFQhuLR9pP71X/KoY2In1jcCPSESOENwDYVL4Js1bO4siABLDA5DAhBJ7eW4Z5Ow4YvrDEI0sYkunBSyMGIt9hjd1TFo+0nxGq/lUMbUT6x+BGpDNGCW8cGdA+LDA5bNWhWty4qRj+qGLIOW8eWcKVBXn4U2FfOCwwYJvFIx1jhKp/FUMbkTEwuBHpkFHCG0cGtB8LTBoU+4K4ZXMxin0h+BRjxDe7BLhkGfOO6Y3JPc2/s8TikY4rri7GzI9noqi6KHZMb1X/KoY2IuNgcCPSKaOEN4AjAzqCBSaAIgSe3VuOP+44gJBQENHx2cgjSzg1NxOPHtsP3S3QHMnikY4zQtW/iqGNyFgY3Ih0zEjhjSMDOoYFJsC+QAgztuzG1zU+3e2+uWQJHlnGo8f2xYXdcrVeTsqxeKTjjFL1r2JoIzIeBjcinTNSeOPIgI5hgUnDZXlLyqrwp6IDKA1F4FcUaHlyypBlCAA/7ZmPu4/qgRyTF5CweKRzjFL1r2JoIzImBjciAzBSeOPIgI5jgUnD35/1NT48sacUH1TUQALS1kApA3DLEnq4HJjevwCXd8+D12buywFZPNJ5Rqn6VzG0ERkXgxuRQRgpvAEcGdAZLDBpUB6K4JX9FXhqbxn8igJfNDW7cB5ZggLgvC45mNqvG0ZleU1/eSqLRzrPSFX/KoY2ImNjcCMyEKOFN44M6BwWmDSICoGVh2qxorwan1bVYac/BJcsISJEu3fjZAAZNhlBRSDbbsOJ2V6ckZ+FywvyLDOPjcUjnWekqn8VQxuR8TG4ERmM0cIbRwZ0HgtMGgsqCjbX+bG+xoc1VXXYGwihNBRBZTgCvyIgA5AAKABkCcix29DV4UAPlx0jsrwYnZOBE7Iz0NVpjaCmYvFIchip6l/F0EZkDgxuRAZktPAGcGRAZ7HApG1CCNREovArCqICcMsyMm0SXDZrvzFl8UjyGKnqX8XQRmQeDG5EBmXE8MaRAZ3HAhOgNhLF1zU+fFVTj8+r6rEvGEJFKIKaSBSSBMiQIAEQACJCwC3LyHfY0N3lwPBMD8bkZuKEbC/6uZ2m3qlk8UjyGK3qX8XQRmQuDG5EBmbE8MaRAclhpQKTkKLg3fJqvFdWjS+q61EaisAtS/Ar7R/aLaHhHreoEJAlCSOyPDgzPxuTCvLQy+1MyfrTjcUjyWW0qn8VQxuR+TC4ERmcEcMbRwYkj5kLTPYFQnh2Xzme31cOBUB9NDXDuZ2SBEkCxuZkYlq/7hiXl2nYnTgWjySX0ar+VQxtRObE4EZkAkYMbwBHBiSTWQpMFCHwSWUdFu0uxZqqOggAoTSepjJsMrLtNkzt2w2Te+QbZvA2i0eSy4hV/yqGNiLzYnAjMgmjhjeODEgeIxeYCCHwyoEK/F9xCWqjSsp21xLlkSUIAJd0y8V9R/dCN6dD0/W0hsUjyWfEqn8VQxuRuTG4EZmIUcMbRwYkl9EKTHb4gvjVdzvxfX0QPkXbwNaUQwJcsox5x/TGVT3ydfN3kcUjqWHEqn8VQxuR+TG4EZmMUcMbwJEByab3ApOwIrBo90H8eddBhBQBfUW2xryyjGFZHiw6rj/6alhiwuKR1DFi1b+KoY3IGhjciEzIyOGNIwOST48FJtvqA7hxYzEOBEPwK8Y4DdmkhiKTOQN74aY+XdO++8bikdQwatW/iqGNyDoY3IhMysjhjSMDUkMvBSbLy6vxy8274FcUGPEE5JFlnN81GwuH9INLTn1QYvFI6hi16l/F0EZkLQxuRCZm5PDGkQGpoWWBiRACC3YexF92HzTMLltr3LKEgR4XXj1+ELq7UlNcwuKR1DJq1b+KoY3IehjciEzOyOEN4MiAVEl3gYkiBG7fuhvLSqt1V0DSUXZJQq7dhmUnHoP+nuTdA8XikdQyctW/iqGNyJoY3IgswOjhjSMDUicdBSaKEJj63S4sL682/E5bUzKAHIcN75xQiKO8nQtvQgis3rcaj6x7hMUjKeIL+/DAZw/g3Z3Gq/pXMbQRWReDG5FFGD28cWRAaqWqwEQIgV9v3Y2lpVWmC20qGUCew4b3Thrc4cZJFo+knpGr/lUMbUTWxuBGZCFGD28ARwakWiIFJgICy3cuR747v80doAXFJXjcBPe0tcUGoI/biY9OHowMe+JvoFk8kh5GrvpXMbQREYMbkcWYIbxxZEBqtVVg0iujF9764S0AwPzx8zFx4MQWP8/y8mrcunknAiYPbSqXJOHUvEy8PGIg5DZ2gFk8kh5Gr/pXMbQREcDgRmRJZghvHBmQeq0VmMTLcmbhrUvfQkFGQaPj2+sDOH/d96YpIkmUV5YxpW83/G5gzxYfb7N45KSZGJjD4pFkMHrVv4qhjYhUDG5EFmWG8MaRAenRWoGJakzPMXjq3Kdi9xlGhcCZX2zFdl/QkHPaOsstS3hr1DEYle2NHWPxSHoZvepfxdBGRPEY3IgszAzhDeDIgHR5v/h93LnqzhYfu2HoDbjjpDsAAIt2leKRnSWW222L19/txOpTjoVTllk8kkZmqPpXMbQRUVMMbkQWZ5bwxpEBqfe3jX/DwvULW3zMbXPjy59/iV3+ICZ8sdX0ZSRt8cgyftHDg0jZcyweSRMzVP2rGNqIqCXG+dUTEaXEuN7jsPCshXDKDTXm++v346b3bsK+un0ar6x98tx5eOLsJ3DbiNtix0rqS3D9e9fj9W2vg7+j6rxz+p2Dvlktl78Myh0EIQSmfbcLIYuHNgDwKwqe2luJN3eti4U2m2TD5MGTseyKZbhl+C0MbUlUXF2Ma5dd2yi0De0yFK9f/DpDGxGZBnfciAiAeXbeAI4MSCUhBPwRf+x/daE6BKIBHN/teLxRUom7v99r6UskGxFR2EO7kXvwPpzJ4pGUMUPVv4qhjYiOhMGNiGLMFN44MiC9hBAYvWYL9gRCWi9FV2QRwvwBEq4beLLWSzEds1T9qxjaiKgtvFSSiGLMctkkAPTN6osXL3wRlw26LHZsW+U2TF46GSv3rNRuYSb1RXU9KkIRrZehP5ITK31dtV6F6ZT7y3Hrilsbhbbemb3x0sSXGNqIyLS440ZEzZhp540jA9Lj+m93YHlFjSXr/9vikiWsHzsUXZx2rZdiCmap+lcxtBFRorjjRkTNmGnnTZIkXFV4FV648AX0zDg8FPnpjU9j6gdTURmo1HB15lAWCmPloVqGtlZIAF7eX6H1MgxPCIGXt7yMG9+7MRbaJEiYPnI6Hj/rcYY2IjI97rgRUavMtPMGcGRAqiwoLsHCXQcR5OmkVV0ddnxz2lDYfhxSTu1jpqp/FUMbEbUXd9yIqFVm2nkDODIgFaJC4Om9ZQxtbfArCj4+VNv2E6kZM1X9qxjaiKgjGNyI6IjMFt5ssg3TR03HorMXIcuZBQAIK2HMXTMXcz6dA3/Er/EKjeXDihqEGdraVB9V8MTug1ovw3BW7FqBa5Zdg6LqotixSYWT8PyFz6NXZi8NV9ZxDG1E1FG8VJKIEmK2yyYBjgxIht9u24MXeP9WQpyShOIzRvByyQSYrepfxdBGRJ3BHTciSojZdt4AjgxIhs+q6rRegmE4ZAnb6gNaL0P3zFb1r2JoI6LOYnAjooSZMby57W7MPW0u7ht7HxyyAwBQG67FjI9m4LH1jyGqRDVeoX4FFQW7/By4nShFCHxVU6/1MnRtQ+kGXP321fiy5MvYsdP7nI7XLn4Nx+Yfq+HKOoehjYiSgcGNiNrFjOGNIwM6ZlOtHy6Zl/0lyq8IfFrJHcqWCCHw0ncv4ab3bkKZvwyA8av+VQxtRJQsDG5E1G5mDG8AMKzrMLx28Ws4tdepsWOfH/gcVy+9GhvLNmq4Mn1aX+NjMUk7fVnNHbemfGEf7l51N+Z/OR8REQHQUPW/+JzFuO342yBLxn2rwtBGRMlk3J+GRKQps4Y3dWTArSNujR3jyICWra2uQ1Dh96M9SkJh+KOK1svQDTNW/asY2ogo2dgqSUSdYsa2SdWqvaswe/Vs1IYOz9+6dNClmDNmDjx2j4Yr04cL1m3D17WpG59QOvHwzqcIBgCHE5Lc8PvGrFlzEN27G/UvPwPJ4QBsNtj7D0Tm1FlwDj0eoa/XofKOWyG53LHPkXX7bHjOvxQAUD3vHoTWfwER8EPO7wLv5OvhvegnKftaVF5ZxsejB6O/x5Xy19K7FbtW4N5P70V9+PAu5KTCSZg9ejZcNmN/fxjaiCgVGNyIqNPMHN44MqB1oz7bjAPBcFpeq+yaici+8z64ThwTO1b33JOI7t+DnN8zkJn1AAAgAElEQVT/ESISRt0zixBYsQxd/7kc4W++QvW8e9Dt9fdb/HyR4iLYeveF5HQisrsYlTOnIPdPj8FReFxKv45sm4yXRgzE6NzMlL6Onpm16l/F0EZEqcJLJYmo08x62STAkQFHUhWOaL2EGMnugOe8S6AcKoeoqWrz+fajBkFyOtWPBiQJ0f17U7tIAAqAgyH9fN/SzaxV/yqGNiJKJQY3IkoKM4c3jgxoTggBv47ubxOhEPzvL4HcvQfknDwAgFJ1CGVXno2yay9C7aKHIfyNL+us+fM8HLxwLCpuuAJyflc4TxmX8nVGhUCljgJvOpm16l/F0EZEqcbgRkRJY+bwxpEBjYWF0MUJJLByOUovGY+yn16A8PdbkPuHRwAAtn4D0OWpV9H1nyuQ/8hTCH//HWoXP9LoY7N/83t0X/oJ8hb+Ha7xZzXcK5diCoCIxe5QMHPVv4qhjYjSQQ/nXSIyETOHN4AjA1R6iR7uCeeh+9ur0f3Nj5C/4KnYPWq2/K6wDxgESZZh69kbmbf9BoFVHzb7eMlmg3P4KCjlB+Ff8s9mj6eClTolzVz1r2JoI6J0Mf5PTCLSHbOHN44MAOySpJvwlghJkgDRemQS0SgiabjHTQLgkKwxtNzMVf8qhjYiSicGNyJKCbOHN5tsw4xRM7Do7EXIcmYBAMJKGHPXzMWcT+fAH0ldTb4e2CQJNh0HkNCGLxEt2Q8hBKKlJah9+jG4Tp0AAFAqDyHw0XtQ/D6IaBTBLz9D4KP34Bw1OuXrskkSMmzmP/Wu2LUC1yy7BkXVRbFjkwon4fkLn0evzF4arix5GNqIKN3Mf/YgIs2YPbwBLZcrLClaguveuQ57avZouLLUy7Xr981p+IetODTjBpROPBWHZtwA+1FHI2vGbxselADfkn+i/OrzUXbZGah78lFk/eouuE+bkPJ1yQB6uFJ/L51WIkoEj6x7BLNWzorNZ3PZXJh72lzcP/Z+w89nUzG0EZEWOMeNiFLOzHPeVIFIAA+ueRD/KfpP7FiWIwvzxs/DhL4TtFtYCk34Yiu21ge0XoahZNpkvHNiIQoz3G0/2WDK/eX47arfNmqN7J3ZG38+88+maI1UMbQRkVa440ZEKWeFnTcrjgzoZeKdo1QJKgIFTrvWy0g6s1f9qxjaiEhLDG5ElBZWCG9WGxlwfJYXfKvaPl6bjByHeYKbFar+VQxtRKQ1BjciShsrhDfAOiMDTs7JgNcCRRvJdHyWR+slJI0Vqv5VDG1EpAfm+alKRIZglfBmhZEBo7K9CCjG/zrSxSkBp+dlab2MpLBC1b+KoY2I9ILBjYjSzirhTR0Z8Jez/mLKkQF5DjvyHXzjmiiXLOOE7Aytl9FpVqj6VzG0EZGesFWSiDRjhbZJ1Z7aPZi1cha2HtoaOzY4bzAenfAo+mb31XBlnXPzpmIsK6vWehmGYJeAbeOHI8NmzDf8ESWChesX4rnNz8WOuWwuzBkzB5cffbl2C0sRhjYi0hvuuBGRZqyy8wYAfbP64sULX8Rlgy6LHdtWuQ2Tl07Gyj0rtVtYJ52Znw2PrN9B3HrSz+0ybGgr95djyvIpjUJb78zeeGniSwxtRERpwuBGRJqyUngz48iAS7vngpdttM0rS7i1T1etl9EhatX/uoPrYsfMWPWvYmgjIr3ipZJEpAtWumwSADaVb8KslbNwoP5A7NjYnmMx//T5yHPnabiy9pvx3S68ebASxoud6eOWJWw6bRgy7cZ54y+EwMtbXsYj6x6JtUZKkDBt5DRMGTHFVK2RKoY2ItIz8/3UJSJDstLOG2CukQG39e0GJy+XbJUNwBUFeYYKbVaq+lcxtBGR3pnvJy8RGZbVwptZRgYMy/Kiv8el9TJ0yylLuLVPN62XkTArVf2rGNqIyAgY3IhIV6wW3swyMmB6v+7I4DDuFg3yujEk0xiDt61U9a9iaCMio+A9bkSkS1a75w0w9siAQFTB0E83oT6qaL0UXcm0yXh4cF9cXqDv+xatVvWvYmgjIiPhr0eJSJestvMGGHtkgNsm4/peXeDmvW6N2CUJE7vlaL2MI7Ja1b+KoY2IjIY7bkSka1bceRNC4I3tb+BPa/+EsBKOHZ8yfAqmjZym2zeV9ZEoRq/5DhVh9ksCgEeWsOi4/pjYLVfrpbRqQ+kG3LHyDpT5y2LHTu9zOuaNm4ccl74DZ2cwtBGRETG4EZHuWTG8AcYcGfBxRQ1u2lQMv2LtU4tdAk7Py8Irxw/SeiktsmLVv4qhjYiMisGNiAzBquGtMlCJ2atn47P9n8WO9cjogQVnLMDwbsM1XFnrbtlUjOXlNQhZ+PSSYZPx2SlDUOByaL2UZnxhHx747IFGrZE5rhzMHz/ftK2RKoY2IjIyBjciMgyrhreoEsUT3zyBp759KnbMITswe/RsXFV4FSRJX/eVHQpHcMrn36HWokUlXlnGH47phZ/36qr1Upopri7GzI9nNmqNHNplKBZMWGDa1kgVQxsRGR2DGxEZilXDGwD8d89/8btPfofaUG3s2KWDLsWcMXPgseurbn5paRVmbNlluUsmnRIwKjsD/x51tO4C9YpdK3Dvp/eiPlwfOzapcBJmj54Nl83cc/gY2ojIDBjciMhwrBze9tTuwcyPZ2Jb5bbYMb2ODHjgh314fl+5ZcKbBKC7046Vo49FnsOu9XJirFr1r2JoIyKzYHAjIkOycngLRAJ4cM2D+E/Rf2LHshxZmDd+Hib0naDdwppQhMDVXxfhy5p6BC0Q3ryyjPdOKkRhhlvrpcSU+8tx13/vwrqD62LHemf2xp/P/DOOzT9Ww5WlB0MbEZkJgxsRGZaVw5tRRgbURqI498tt2BsMIWLis41blvDMsKNwdpdsrZcSY9WqfxVDGxGZDYMbERmalcMbYIyRAWWhMC786nuUBMKIaL2YFHDLEh47th8uLdDH99vKVf8qhjYiMiMGNyIyPKuHNyOMDCgLhXHxV9uxPxhC2ERnHbcs4fEh/XBJd32ENitX/asY2ojIrBjciMgUrB7ejDAy4FA4gmu/KcK2+oDhC0skAB5ZxjPDBuBMnVweaeWqfxVDGxGZGYMbEZmG1cMboP+RAWFF4K5te/Cf0krDhjenJKGL045/jhyEo736KCKxctW/iqGNiMyOwY2ITIXhzRgjA57dW4b/KdqPkCJgpDHdXlnGyGwvnh02ADk6qPy3etW/iqGNiKyAwY2ITIfhzRgjA3b4gpj63U5srw/Cp+g7vjkkwCXLmHdMb1zVI18Xl55avepfxdBGRFbB4EZEpsTwZoyRAYoQeHF/Bf7nh/0IKYouWyc9sozT8zLx8LF90c3p0Ho5AFj1r2JoIyIrYXAjItNieGtghJEBB4IhzNy6B2uq6hARQhcz3zJtMlyyhEeP7YfzuuojDLHq/zCGNiKyGgY3IjI1hrcGRhgZAAA/+AL4254yvFZyCLIkoT6a3ksoHRJgkyQMy/Rger8CnNMlG3ZZ+8siAVb9x2NoIyIrYnAjItNjeGtghJEBqvpoFP85WIXHdx/EwWAEAUVJaYlJhixDAPhpz3zc0qcbBnr11cTIqv/DGNqIyKoY3IjIEhjeDtP7yIB4QghsqPFh8Z4yrDxUg7AQsP+4E9eZk5dblmCXJAQVgWO8Lkzp2w2Xdc+D16a/Sw1Z9X8YQxsRWRmDGxFZBsPbYUYYGdCUEAL7gmGsr/FhbVUdPq2qww++IGQATlmCDEABIAQgAEgSoMawiBAIKgJdnHaclO3F+LwsnJCdgeMy3XDK+gtrAKv+m2JoIyKrY3AjIktheDssEAlg7pq5WFK0JHZMbyMD2iKEQFUkioOhMA4GIzgUjiAsBBQh4JAkZNhs6O6yo4fTgW5OBxw6uV+tLaz6b4yhjYiIwY2ILIjh7TAjjAxoiRACuwIhfFvrx4FgCPsCYewKBFEeiiCsNJzWbJKETJuMPh4n+rud6O5yoNDrxrBMD9w6vCRSxar/xhjaiIgaMLgRkSUxvDWm95EB9ZEo1tX48GV1PVZX1mJTnR+KELBJEkKKglAbZzIZDfe12SQJfkVBf7cLY3MzMDY3EyflZKC/R/t7xVj13xxDGxHRYQxuRGRZDG+N6XFkwJY6P/66pwz/Lq2EQ5LgjyZ3SHeGTUZUCBzjdWN6/+64sGuOJve8seq/OYY2IqLGGNyIyNIY3hrTw8iAkKLgnbJqPL77IIp8wbQN5M6wybBJwPW9uuLG3l3Ry+1M/YuCVf8tYWgjImqOwY2ILI/hrTktRgaUBMN4ek8ZXthfDgGgLs3Dt1UuSQIkYExOJmb0745xeVkpey1W/TfH0EZE1DIGNyIiMLy1JF0jAxQh8Oy+cvyx6AAiQiCko9OSV5YxNjcDjx7bD91djqR9Xlb9t4yhjYiodQxuREQ/YnhrLtUjA7bXBzD1u13Y4QvCp2izw9YWhwQ4ZRlzj+6Na3rmd/pyUVb9t4yhjYjoyBjciIjiMLw1l4qRAWFFYOGuEvxldylCioA+I1tjXlnGkEw3njiuf4dbKFn13zKGNiKitjG4ERE1wfDWstZGBswePRuPbXgM/ogfD572ILp5ux3x85SHIrj22yJsrw/ArxjrFGQD4JJlPDVsAM7pkp3wx7Hqv3UMbUREiWFwIyJqAcNby1oaGeCUnbHv0/kDzsfDZzzc6sdvrvNj8tdFqI5EEDbw2cctS5jZvwC/7l/Q5qWTrPpvHUMbEVHiGNyIiFrB8NaylkYGqCRIWHL5EgzIGdDssQ8ranDLpmLD7bK1xivLOLdLNhYd1x92ueXwxqr/1jG0ERG1j3WvzSAiasO43uOw8KyFcMoN87z21+/HTe/dhH11+zRembZssg0zRs3AlOFTmj0mIFoMdO+WVZkqtAGAT1GwvKIaN2zcgXALX9eKXStwzbJrGoW2SYWT8PyFzzO0MbQREbUbgxsR0REwvLXu8/2ft3j87R1vo7i6OPbn5eXVmPrdLlOFNpVfEfi0qg43bypG5MevL6JE8Mi6RzBr5azYfDaXzYW5p83F/WPvt+x8NhVDGxFRxzC4ERG1geGtZcd2ab26/tlNzwIAvqqux22bdyJgwtCm8isCqytrcee2PSj3l2PK8imN5rP1zuyNlya+ZOn5bCqGNiKijuM9bkRECeI9b40JIbDmwBpsLN+IzeWbse7gOtSEaiBBwuJzFmNg15Mx4YttqI5EtV5qWrgkgbyaNxGt/HfsGKv+D2NoIyLqHAY3IqJ2YHg7skP+Q3DYHLDbMnDeum0o9gcRsdJZRgkip+xhuILbWPUfh6GNiKjzGNyIiNqJ4a1tM7fuxlsHK019iWRrZMWHvx8jcEE/a1f9qxjaiIiSg78GJCJqJ97zdmRrq+osG9oAwG7z4q0ahniAoY2IKJkY3IiIOoDhrWWBqIKp3+2ybGgDgJAAlldU47+HarVeiqYY2oiIkovBjYiogxjemvu/nQdwKBzRehma8ysC07/bhfqoNYpZmmJoIyJKPgY3IqJOYHg7bEudH8/sLbf0blu82mgUc4v2a72MtGNoIyJKDQY3IqJOYnhr8MAP+xFkaIsJKAL/OHAIB4NhrZeSNgxtRESpw+BGRJQEVg9v+wMhrKmqA2Nbc8/vL9d6CWnB0EZElFoMbkRESWLl8PbsvnKGthYEFYG/7y1HxOQ7kQxtRESpx+BGRJREVgxvIUXBc/vKEeJY0BZFhMD7FdVaLyNlGNqIiNKDwY2IKMmsFt7eLa+GovUidKwuquAvu0q1XkZKMLQREaUPgxsRUQpYKbz9ZVcp6qOMbkeypd6P7fUBrZeRVAxtRETpxeBGRJQiVghvW+v92O4zVyBJhYgi8Le9ZVovI2kY2oiI0o/BjYgohcwe3t4+WGX64o1kiAD4d2mV1stICoY2IiJtMLgREaWYmcPbqspaRLRehEEEFAX7AyGtl9EpDG1ERNphcCMiSgMzhjchBDbV8TLJRDklCetrfFovo8MY2oiItMXgRkSUJmYLb8X+EMDpbQmriyr4orpe62V0CEMbEZH2GNyIiNLITOFtfU09ZEnSehmGIQB8Ulmr9TLajaGNiEgfGNyIiNLMLOFtbVUdxwC003ZfEFEDDSpnaCMi0g9JCAOdQYiITOSTfZ/g9o9uR0hpKKzoldELf7/g7+id2VvjlSXmsvXbsTbBS//8H74L3z9fRHT3TkjeDNiPLkTGz26BnJmF2sULEP5+C0RNFQo+2tDo40onntrozyIUhOfSq5D969kAgOD6tahd+BCipSVwDBmGnN/+D2w9egEAquffh8CH70KyO2If3+3t1ZBsNkRL9qP82osguT2xx7zX3IDM624FANQuXoDgZyuhHKqA3LU7Mn52EzznXXJ4HdEo6p97Ev73/g3h88HWuy/yFjwNOTPriN8Htyxh7ZjjUOByHPF5esDQRkSkL3atF0BEZFXqzpsa3tSdN6OEt9JQOKHn1f/zRdT/41lk/+YeuE4+FXDYEfriMwQ/XQnPxCvgnnAuPJddhep7ZzX72O7vfBb7/4rfh/Irz4H7jHMb/lxdier770T2HffBderpqPv7E6ieOxv5i16IfUzG5BuQefO0VtfW7e1VkGzNT4WSx4PcPy6ErU9/RLZtRuXd02Dr1RfOYSMbvqbnnkRo8zfIf/x5yAU9Ed1ZBMnpbPN74ZAkHAyFdR/cGNqIiPSHl0oSEWnIyJdNVoTaHgSg1NWi/tnFyP717+A+/WxIHg8kuwOuU89A1i9nwt5vADwTr4B9wKA2P1dw1QeQ8/LhGHECACCw+iPY+w+Ee8K5kJwuZF7/S4SLvkdkd3Gnv7bMG6bC3u8oSLIMx5DhcAwfhfB33zZ8TbU18P3rZWTfcS9sPXpBkiTYjzoaktOV0OcuCSYWeLXC0EZEpE8MbkREGjNieBNCoDaB+9vC330LEQrBNf7MTr+m//2lcJ97MaQfC1EiO4tgH1QYe1zyeGDr1QeRnUWxY74lr6P0sjNQcdu1CKz6oNnnLP/pRJRdfT6q598PpbqyxdcVwQAi276LhcvIju2AzYbgqg9QduU5KP/FZfD9+7WEvoaoEChPIPBqhaGNiEi/GNyIiHTAaOEtmuDd0UpNNeSc3BYvR2zX65XsR/jbr+A5P+4+M78PUkZmo+fJGZkQvoZZad4rrkHXF/6Dbm9+iMwbp6Jm/v0IbfoaACDl5CJ/8Uvo+uo7yH/yFQh/Par/eE+Lr13z6B9hH1QI58kN99tFy0sh6usQ2bsLXV9Zipz7/w91zz+J4Lo1bX4dCoCgTm8tZ2gjItI3BjciIp0wUniLQiCRQQBydg6U6iqIaOd2mfwrlsExbCRsPQ/f+yd5vBC+xuUowlcPyesFADgKh8RCo2vMeLjPuRDB1R82rMvjhWPwUEg2O2z5XZD169kIrfscSpPPV/vko4gUFyHnvvmxnT71ksjM626F5HLDMagQ7jPPR2jtJ21+HQLQZaskQxsRkf4xuBER6YhRwpsNUkKjtx3HjQCcDgQ/+bhTrxdYsbTRbhsA2AcMQqTo+9ifhd+PyP69R7hfTgJaDU0/xlDl8OWfdc8tRvCLT5H3v09AjtvZsw885scPiYuuCc6zkwDYdTb7jqGNiMgYGNyIiHTGCOHNlmD2kDOzkHnDVNQ+9hACn3wMEfBDRMIIrv0EtX/9M4QQEKEgEG4o7BChIEQo1OhzhDZ9jWh5KVw/tkmq3OPORGRnEQKrPoAIBVH34lNwDDwG9n5HAQAC/10Bxe+DUBQEv/wcgQ/egevUCQCA8JaNiOzeCaEoUKqrUPuX/4Vj5EmxOv/6V55B4MN3kffwk5Bzchu9rr13XziGj0L9y89AhEKI7NqBwMfvwzl2fNvfDwBOWT/BjaGNiMg4OMeNiEin9D7nrXD1RtREogk91//BO/C98RIiu4shezJgLxyCjJ/dDFvX7ii/9qJGz5ULeqLbP96J/blmwYMQgQByfv9gs88b/GoNah+bj+jBAw1z3O7+Q2yO26Hbb2ooEhECth69kHHtTXCfdUHDej58F3XP/AVK1SHI3kw4TzwFmbf9Brb8rgCAg2eNAhyORvfmZfzsZmT87GYAQLSsFDUP/w/CGzdAzsuH96c3wHvJpDa/D1k2GU8c1x/nds1J6PuWSgxtRETGwuBGRKRjeg5vY9dsQbE/qPUyDCXLJuPNUUdjeJZX03UwtBERGQ8vlSQi0jE9XzZZ4OxcU6QVhYVAgVPb4dsMbURExsTgRkSkc3oNb4UZbk1f34gUAXTRMPAytBERGReDGxGRAegxvJ2Sk4FMG08j7VGY4YJNo1ZJhjYiImPjGZeIyCD0Ft5OzMnQ5UwyvZIBnJabpclrM7QRERkfgxsRkYHoKbz1dzsh62wmmZ5l2GSckpuR9tdlaCMiMgcGNyIig9FLeJMkCcP+v717D5KrKvA4/ju3390zPe+ZPCaTkPAwASIEEApfPLKSRaREXqv4YBVkwayopVi6VVCr5S6i1uqCEYosoi4sCroioEsUQSryEEEQJBATQhLIYyaZmcyj333P/hGTIiHJzPR0973d/f38FWZ67j3916kv99xzmmJVvWcty1mrJcnqhhvRBgD1g3ADgBrkl3h7V1uzgjx0m5SY42hGpHo7ShJtAFBfCDcAqFF+iLdzu1sVZLnkhEJG+kBPW9XuR7QBQP0h3ACghnkdb0ckonoLxwJMKGCMLuvtqsq9iDYAqE+EGwDUOK/jbXlfjxIcC3BIxzTFND8eqfh9iDYAqF/MtABQB7yMt7M6W1gueQhNAUfL+3oqfh+iDQDqG+EGAHXCq3gLOUb/OLtTEYd4O5CQMVrakazoPYg2AKh/hBsA1BGv4u3S2Z0VvX6tihijy3o7Faxg1BJtANAYCDcAqDNexNuMSEhvb20Sz9z2Y6SPVjBqiTYAaByEGwDUIS/i7brDZ7Nc8g1ijtHHZnWoK1yZs9uINgBoLIQbANSpasfbUYmo/mlOt2LEmyQpGQzoS/NnVeTaRBsANB7CDQDqWLXj7XPzetQZDlbk2rUk5hh9d9FcxSpwTALRBgCNiXADgDpXzXgLO45uXjRP0QZ+6hZxjM7uatU72prLfm2iDQAaF+EGAA2gmvF2QktCF81ob9h4izmO/u2I2WW/LtEGAI2NcAOABlHNePvqEbM1PxZpuIO5o47RjxbPV0uovMtFiTYAAOEGAA2kWvEWcRzd9dYFaq7AO15+FXOMvnbEbJ3UkijrdYk2AIBEuAFAw6lWvHVHQvqfty5oiF0mY47RhTPadcms8p7ZRrQBAPYg3ACgAVUr3o5LxnXbMYfV9ftuMcfozI6k/v3I3rJel2gDALwR4QYADapa8XZ6R1IrjzmsLp+8xRxHp7cndfOieQqU8X0+og0AsD9jrbVeDwIA4J3Vr6/W1b+9Wjk3J0malZil25bdptlN5d0Z8dHBUV36/AalXVf1MPHEHKNzulr17YV9RBsAoOIINwBA1eLt5fGMLnx2nYbzBeVqePaJOkZfnj9Tl/d2yRBtAIAqINwAAJKqF29D+YI+8udX9JextNJubU1BQSNFHUe3HXOY3tVe3gO2iTYAwKEQbgCAvaoVbwXX6ubN/frWq9uUc62KZb16ZcQdR8clY/rPhXPVGw2X9dpEGwBgIoQbAGAf1Yo3SXo1ndVVL27US2NppXz69C1sdp9L9/Uje3VeT1tZl0ZKRBsAYHIINwDAm1Qz3qy1unPrTl27bosKrlXWJ9OS0e532c7oSOqGI+eoIxws+z2INgDAZBFuAIADqma8SdKOXEE/eH1At762Q3lrNV50K3KfiUSMkYx0enuzPtXXo5NaEhW5D9EGAJgKwg0AcFDVjjdp9/tvv9k5ohs3bdcLY2kVrVWhCjNVIuAo4hhd1tulj8zqUFc4VLF7EW0AgKki3AAAh+RFvO2xPpXRytcG9OOtQwoYKeta5co0bRntjrW8a7W4Oablc3u0tCNZ1jPZDoRoAwCUgnADAEzIy3iTpHTR1XOjKT29a1yPDo3p2dGUMq6rsDHKW6vMBBubhP62wYi0O/6OiEd0aluTTmlp0oktCc2IVO7p2hsRbQCAUhFuAIBJ8Tre9rclk9PzY2ltzea1LZvXxnRW/bmC8tbKtVYhx6gpEFBfNKzeaFg9kZAOj0e0MBFTyKnsU7UDIdoAANNBuAEAJs1v8VZwrXbkC9qey2t7Nq/B/O5ws1YKGqN4wFFPJKQZ4ZC6I0ElAt4EEtEGAJguwg0AMCVexZu1Vq+ks3pmJKXHhsf0xPCYNmVyChmj0N/eSytaqz2TmpHkGCNHUlFSxnXVHAjouOa43t3epCXJhBY3xxULOBUdN9EGACgHwg0AMGXVijdrrR4fHtf3Nvdr9dCojIyM0bSPCggbo4hjlHZdzYtFdNnsTl0wo11NwfKGFNEGACgXwg0AUJJKxttooaifbBvUik39Gi4UlSq6quRkFXeMXEnn9bTpk71dWtgUm/Y1iTYAQDkRbgCAkh0o3lYsXaFVG1ep6BZ1xeIrFApMfsfGF8fSumXzgO7tH5Ijo5Rb3UO4A5JCjtHh8aiW93Xr7K4WhZ2pL6Uk2gAA5Ua4AQCmZf94Czvhvf++esnVuuzYyya8xuZMTlev2ag/jaSUs1ZFH8xMiYCjkDH65lFzdE5366T/jmgDAFQC4QYAmLbVr6/Wpx/6tPI2v8/PF7Qs0M/f//OD/l3RWq3cPKDrN2xTzrq+CLb9xR1Hb2tJ6NsL+yY8741oAwBUSmW30gIANIRTZ52qw9sOf9PP1+9ar3VD6w74Ny+Np7X0qZf19Q1blXb9GW2SlHJdrR4e1dufXKMfvb5D7kH+fyfRBgCoJMINADBtL+58UWsG1xzwd/f89Z59/ttaq5s39WvZH9fqpfGMUq5Pi+0NCnb3TpbXrduic5/5qwbzhX1+T7QBACqNcAMATNvc5FzNS8474O/uXXfv3n9nXVdXvrhRN2zYpoxrK2SlfeAAAA0ESURBVLpTZCWkXFfPjaZ02h9e0pqxtCSiDQBQHbzjBgAoi3QhrUdfe1QPvvqgHtn8iPLu7vfdEqGEnvjQExrI5XXxs+v1SjqrTA08ZTsUIynqOFqxaI6eWncj0QYAqDjCDQBQdql8SnevvVtPbn1SVyy+Qj0ti/Tep9dqey6vQh3NOgEVFNtxq2KpxyQRbQCAyiHcAAAVtT2b17Kn12qgzqJtLzerpsHbdOGMdqINAFAxQa8HAACoX8P5gt77TB1HmyQ5EaU7L9e7jlpAtAEAKobNSQAAFVG0Vh97foP6s4X6jba/KSqoq9Zs3rthCQAA5Ua4AQAq4tq/vq4/j6aUa5AV+WnX1UXPrtfOXGHiDwMAMEWEGwCg7P5326Du3DqodI3vHjlVw4WCPvL8Kwc9pBsAgFIRbgCAshrI5fWFta8p7bpeD6Xq8lZ6aSytH27Z6fVQAAB1hnADAJTV51/arGwDRtseKdfqK+u2aGs25/VQAAB1hHADAJTNqh279OjQqPINvlIw57r69JpN4sQdAEC5EG4AgLIYLRR19ZpNDfde24EUJP1x17h+MTDs9VAAAHWCcAMAlMU3NmxTqti4SyT3l3atvvDyaw29bBQAUD6EGwBg2tJFV3ds3aksSwP3UbRWDwzs8noYAIA6QLgBAKbtPpYEHtB40dVNG7d7PQwAQB0g3AAA03bTxu0aZ5nkAW1IZ/WXsbTXwwAA1DjCDQAwLc+NprQ5w9b3B5OzVrds6vd6GACAGke4AQCm5ZZN/cqyk+RBFa30i4FhjRSKXg8FAFDDCDcAQMmG8wU9sGOXWCR5aI6MfrJ10OthAABqGOEGACjZL/qHmUgmIeW6Wvn6gNfDAADUMOZbAEDJHh4c5cDtSXotk9M4yyUBACUi3AAAJXt6ZNzrIdSMmOPo2dGU18MAANQowg0AUJLBfEFDeZ4gTVbGdfX0COEGACgN4QYAKMkzIylFHeP1MGpG3kqPDo16PQwAQI0i3AAAJXlq15hSHLo9Jc+NpGQt7wQCAKaOcAMAlOTPo2mxUHJqMq7VLjYoAQCUIOj1AAAAtWlrNl+R6w5+9jIV1q9V1z2/kQmHJUm7vn6tMg/9SiYYkoxRoHeumq/6nMJvPXHv3xV3Dmjstu8q9+TvZdMpOZ3dip7+HiUuvlQmFtP2M46XolEZGSkcUfiEk5X87L/IaWqWJGUeWaXUPXcov36tQm85Wu3/sbLs3y3iGG3PFdQaYvoFAEwNT9wAACXZkSuU/ZrFbVuUf/5PkjHKPva7fX6XuPhSdf/yMXXdv1qxcy/Q8HWfly3ufnrljuzS4PKPSdms2m/6gbof+L3avvE9uWOjKmzZvPcaHbf+WN2/fEydd9wnOzaq8dtv3vs705xU/IJLlPjgpWX/Xns4kvorFLwAgPpGuAEASjJcgSV/6VX3KbTwWMXOep/Sq+474GeMMYqd+feyI7vkDu2UJKXu/m858YSSX/6aAjNmSZIC3TOUXH6NQguOfNM1nESTIqe+W4WNr+z9WeSEUxQ97T1yOrrK/r32KEraniPcAABTR7gBAKasaK2KFdhkI7PqAUWXnq3o0rOVe+pxFQd3vukztlhUetX9CsycLaetQ5KUe+ZJRd55howzuWnNHR1RdvXDCi06tqzjn0jRWo2zoQsAoAQssgcATFnBWhlJ5Uy33PN/UnH7VkVP+zs5LW0KzOpV5qFfKXHhhyVJ4z/5oVI/v0s2n5esVfIL18kEApIkd2RYTnvnhPcYvOJDkjGy6ZQCs/uUvOZfy/gNJmYl5dlVEgBQAsINADBllTi9LfPgfQqfeIqcljZJUvTMZcqsum9vuCUu+qiaPvEpWWtVfHW9hq65Uk5zUpGT3yEn2Sp3cMeE92i/5U4FZ/fJFvJK33u3hj7zcXV8/6cy4UgFvtGBsdQFAFAK5g8AwJSFjFE5F/zZbEaZ3/1a+eee1sD5SzVw/lKl7rlDhfVrlV//8j6fNcYoeNjhCh19nLJPrJYkhZecrOzqh2XdyY3KBEOKnX2eiltfV2HDujJ+k0NzJAUNh5YDAKaOcAMATJkxRjGnfAGSWf2w5Djq+P5P1X7rXWq/9S513P4zhY49XplV97/p84VNG5R/4VkF582XJMUv/LDc8TGNXH+titu2SJKKA/0aXfFN5devfdPf22JR6f+7V4pEFZjZu/dnNpeVikXJdWVzWdlCeTcSCRijdo4CAACUgNkDAFCStlBQ6TJtbZ9Zdb9iy85VoGfmPj+Pn/cPGr3xBoVPOFnjP75dqZ/eISsrJ9mq6LJzFXvfBZIkJ9mi9htv19htKzT4qY/KZtK7z3E7Y5mCs+fsvd7Oyy/efY6b4ygwZ65av/ItOcmW3WP49QMaueG6vZ/tX3aKome9Ty1f/EpZvqO0+/+W9kRCZbseAKBxGGt5SxoAMHXL/viynh1Nez2MmhJ3HD38tqM0N1a9d+oAAPWBpZIAgJLMiYa9HkLNyVpXPWGeuAEApo5wAwCU5OTWJkXK+J5bI5gZDikaYOoFAEwdswcAoCRLknGF2CFxSk5qSXg9BABAjSLcAAAlOboppqzLa9KTFXeM3tHW7PUwAAA1inADAJQk4jiaF+M9t8kyxmhJMu71MAAANYpwAwCU7O2tTWKx5OQUXKsjE1GvhwEAqFGEGwCgZEs7WxRns41JeVtrQgHeCQQAlIjZFgBQstPbmxVlZ8kJJQKOrprT7fUwAAA1jHADAJQsYIw+2dtNvE0gEXD07nY2JgEAlI5wAwBMyyWzOsTekgcXc4yumNMlh2WSAIBpINwAANPSGQ7qzPYkm5QchGulD87s8HoYAIAaR7gBAKbtqr5uxRymlP05ks7qbFF7KOj1UAAANY5ZFgAwbSck4+oOEyf7iziOruxjUxIAwPQRbgCAaTPG6IuHzVCcp257OZLekojqeA7dBgCUATMsAKAs3t/TpsXNMQV52U2SFHaMvrtortfDAADUCcINAFAWxhjdtGiuQoapJe4YfWZuj+bHI14PBQBQJ5hdAQBl0xsN60vzWTI5IxLW8r4er4cBAKgjjT2zAgDK7hO9XZoXCzfsBBN1jG45eq6CHEoOACijRp1XAQAVEjBGK485TLFA400xMcfon/t6dGwzG5IAAMqr8WZVAEDFzY9H9F/HzFO0gZ46RR2jd7Y163PzWCIJACg/wg0AUBGntSd1TYMcERA0Um8krJuPnidjGidWAQDVU/+zKQDAM1fO6dYHeloVq+Mnb46k9lBQdx+/QPEGXB4KAKgOZhgAQMUYY3TDUXN0TldrXT55C0hqCwV1/5IjNDMS9no4AIA6Vn+zKADAVxxj9J2FfTq/p77iLWSkznBQD554pPpinNcGAKgsY621Xg8CAFD/rLVasalf33h1mzJubU89McfoyERUdy5eoI5w0OvhAAAaAOEGAKiq3+4c0eV/eVWpoqtanIBijtG53W365lFzFKrjd/cAAP5CuAEAqm59KqOPv/CqNqezStXI07egpLDj6KtHzNIlszq9Hg4AoMEQbgAATxSt1crNA7p+w1blrFXRx7NR3DE6sSWh7yzsYxMSAIAnCDcAgKc2pbNavmaTXhhNK+W6Xg9nH2FjFA0YfeuoPp3T1cIZbQAAzxBuAADPWWv1s+1Dun7DNu3MFZR2vX3/Le44cmV10Yx2fWn+TLWF2IAEAOAtwg0A4BvWWv1h17hWbOrXI0OjkpWyVZqmjKSY46gzHNTyvm6d39OmRDBQlXsDADARwg0A4Ev92bx+tGWHVr62Q3lrNVaszDLKqGPkWumMjmZdNadbJ7UkWBIJAPAdwg0A4GsF1+qhwRGt2rFLjw+Pa1Mmp5hjlHPtlJ/GOZISAUc5axV3HB2fjOv09qTe39OqrnCoMl8AAIAyINwAADUlXXT1wlhaz4yM6/HhMW3O5LQjV9BQvqiCtdpztJq1kpXUHAyoIxTUjEhIi5tjOrkloSXJhHoihBoAoHYQbgCAupF1XRWslbVS0BiFHSOHZY8AgDpAuAEAAACAzzleDwAAAAAAcGiEGwAAAAD4HOEGAAAAAD5HuAEAAACAzxFuAAAAAOBzhBsAAAAA+BzhBgAAAAA+R7gBAAAAgM8RbgAAAADgc4QbAAAAAPgc4QYAAAAAPke4AQAAAIDPEW4AAAAA4HOEGwAAAAD4HOEGAAAAAD5HuAEAAACAzxFuAAAAAOBzhBsAAAAA+BzhBgAAAAA+R7gBAAAAgM8RbgAAAADgc4QbAAAAAPgc4QYAAAAAPke4AQAAAIDPEW4AAAAA4HOEGwAAAAD4HOEGAAAAAD5HuAEAAACAzxFuAAAAAOBzhBsAAAAA+BzhBgAAAAA+R7gBAAAAgM8RbgAAAADgc4QbAAAAAPgc4QYAAAAAPke4AQAAAIDPEW4AAAAA4HOEGwAAAAD4HOEGAAAAAD5HuAEAAACAzxFuAAAAAOBz/w+CVzAyn+dEswAAAABJRU5ErkJggg==\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "### NETWORKX and matplotlib throw a lot of warnings... Suppresing them for now, \n", + "### hopfully future versioning will fix this without having to modify code too much\n", + "import warnings\n", + "warnings.simplefilter('ignore')\n", + "\n", + "G = dtp.build_explanitory_graph(paths)\n", + "dtp.draw_explanitory_graph(G, title=False);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Build from a list of paths" + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "[['CHEBI:135990', 'NCBIGene:1813', 'WP:WP4222', 'CHEBI:59540', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:1813', 'HP:0007018', 'NCBIGene:2917', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:1813', 'GO:0006813', 'NCBIGene:288', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'WP:WP706', 'CHEBI:86990', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'REACT:R-HSA-390666', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'GO:0051378', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'GO:0014062', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'WP:WP706', 'CHEBI:58266', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'HP:0002322', 'MESH:C492572', 'DOID:1470'],\n", + " ['CHEBI:135990', 'NCBIGene:3350', 'HP:0002080', 'MESH:C492572', 'DOID:1470']]" + ] + }, + "execution_count": 13, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "list_of_paths = top_10_rows['node_ids'].tolist()\n", + "list_of_paths" + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths)\n", + "dtp.draw_explanitory_graph(G);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Add a list of edges\n", + "\n", + "Adding a list of edges wen building the graph will result in annotations\n", + "\n", + "The function `parse_metapath_to_edge_name` can produce the edge names from a metapath abbreviation, but metapath info of type `hetnetpy.hetnet.MetaPath` is required (see cell 6). An optinal inversion map will change names if the edge is inverted... e.g. `has_part` becomes `part_of` when the edge is inverted." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Simple list of paths" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "[['affects', 'part_of', 'has_part', 'treats'],\n", + " ['affects', 'marker_or_mechanism', 'marked_by', 'associated_with'],\n", + " ['affects', 'regulates', 'regulated_by', 'associated_with'],\n", + " ['activates', 'part_of', 'has_part', 'treats'],\n", + " ['activates', 'part_of', 'associated_with'],\n", + " ['activates', 'enables', 'associated_with'],\n", + " ['activates', 'involved_in', 'associated_with'],\n", + " ['activates', 'part_of', 'has_part', 'treats'],\n", + " ['activates', 'marker_or_mechanism', 'marked_by', 'treats'],\n", + " ['activates', 'marker_or_mechanism', 'marked_by', 'treats']]" + ] + }, + "execution_count": 15, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# Get the edge names\n", + "list_of_edges = []\n", + "for mp in top_10_rows['metapath']:\n", + " list_of_edges.append(dtp.parse_metapath_to_edge_names(mp, mp_info, inv_map))\n", + "list_of_edges" + ] + }, + { + "cell_type": "code", + "execution_count": 16, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges)\n", + "dtp.draw_explanitory_graph(G);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Map from identifer to name\n", + "\n", + "Adding this to the draw function will have node names written in place of identifiers" + ] + }, + { + "cell_type": "code", + "execution_count": 17, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "('gepirone', 'potassium ion transport', 'major depressive disorder')" + ] + }, + "execution_count": 17, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "id_to_name = nodes.set_index('id')['name'].to_dict()\n", + "id_to_name['CHEBI:135990'], id_to_name['GO:0006813'], id_to_name['DOID:1470']" + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges) # Keep the edge labels\n", + "dtp.draw_explanitory_graph(G, id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Path weights\n", + "\n", + "Weights for each path will change edge thickness" + ] + }, + { + "cell_type": "code", + "execution_count": 19, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "[0.6402238388010566,\n", + " 0.2152409762979889,\n", + " 0.17554950102121633,\n", + " 0.1450408127370994,\n", + " 0.14297846181755294,\n", + " 0.1288928716657668,\n", + " 0.08761738763310642,\n", + " 0.08566731994172735,\n", + " 0.07244747683365106,\n", + " 0.07244747683365106]" + ] + }, + "execution_count": 19, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "path_weights = top_10_rows['model_metric'].tolist()\n", + "path_weights" + ] + }, + { + "cell_type": "code", + "execution_count": 20, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights)\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Customize your edge weights \n", + "\n", + "### Need to fix bug... \n", + "\n", + "currently not working with triple-key edge_weights (start_id, end_id, label)... only dual key." + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "metadata": {}, + "outputs": [], + "source": [ + "edge_tuples = []\n", + "for p in list_of_paths:\n", + " for i in range(len(p)-1):\n", + " edge_tuples.append((p[i], p[i+1]))\n", + "edge_tuples = set(edge_tuples)\n", + "\n", + "# Build an edge id to weight map\n", + "edge_weights = {et: (1+np.random.random())**2 for et in edge_tuples}" + ] + }, + { + "cell_type": "code", + "execution_count": 22, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, edge_weights=edge_weights)\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Color by node type\n", + "\n", + "A map from node identifier to node type (or label) will result in coloring by type\n", + "\n", + "Coloring in this fashion can be altered with seaborns `.set_palette()` method." + ] + }, + { + "cell_type": "code", + "execution_count": 23, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "('ChemicalSubstance', 'BiologicalProcessOrActivity', 'Disease')" + ] + }, + "execution_count": 23, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "id_to_label = nodes.set_index('id')['label'].to_dict()\n", + "id_to_label['CHEBI:135990'], id_to_label['GO:0006813'], id_to_label['DOID:1470']" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, node_id_to_label=id_to_label)\n", + "dtp.draw_explanitory_graph(G);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Customize node colors\n", + "\n", + "A mapper from node id to color (only tested hex colors) will color nodes as desired" + ] + }, + { + "cell_type": "code", + "execution_count": 25, + "metadata": {}, + "outputs": [], + "source": [ + "# Choose custom node colors\n", + "node_color_map = {'AnatomicalEntity': '#5252b9',\n", + " 'BiologicalProcessOrActivity': '#fc99d5',\n", + " 'MacromolecularMachine': '#d032a3',\n", + " 'Disease': '#50e316',\n", + " 'Pathway': '#b7d165',\n", + " 'PhenotypicFeature': '#165f28',\n", + " 'GeneFamily': '#6404b7',\n", + " 'PhysiologicalProcess': '#ec102f',\n", + " 'OrganismTaxon': '#e9bf98',\n", + " 'ChemicalSubstance': '#21f0b6'}\n", + "\n", + "node_id_to_color = nodes.set_index('id')['label'].map(node_color_map).to_dict()" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Highlight a single path in a different color\n", + "\n", + "The function `highlight_path_of_interest` will define colors for for the edges to highlight a path" + ] + }, + { + "cell_type": "code", + "execution_count": 27, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "['CHEBI:135990', 'NCBIGene:3350', 'WP:WP706', 'CHEBI:86990', 'DOID:1470']" + ] + }, + "execution_count": 27, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "# Pick a path to highlight\n", + "path_of_interest = top_10_rows.loc[3, 'node_ids']\n", + "path_of_interest" + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "metadata": {}, + "outputs": [ + { + "data": { + "text/plain": [ + "{('CHEBI:135990', 'NCBIGene:1813'): '#2ca02c',\n", + " ('CHEBI:135990', 'NCBIGene:3350'): '#ff7f0e',\n", + " ('CHEBI:58266', 'DOID:1470'): '#2ca02c',\n", + " ('CHEBI:59540', 'DOID:1470'): '#2ca02c',\n", + " ('CHEBI:86990', 'DOID:1470'): '#ff7f0e',\n", + " ('GO:0006813', 'NCBIGene:288'): '#2ca02c',\n", + " ('GO:0014062', 'DOID:1470'): '#2ca02c',\n", + " ('GO:0051378', 'DOID:1470'): '#2ca02c',\n", + " ('HP:0002080', 'MESH:C492572'): '#2ca02c',\n", + " ('HP:0002322', 'MESH:C492572'): '#2ca02c',\n", + " ('HP:0007018', 'NCBIGene:2917'): '#2ca02c',\n", + " ('MESH:C492572', 'DOID:1470'): '#2ca02c',\n", + " ('NCBIGene:1813', 'GO:0006813'): '#2ca02c',\n", + " ('NCBIGene:1813', 'HP:0007018'): '#2ca02c',\n", + " ('NCBIGene:1813', 'WP:WP4222'): '#2ca02c',\n", + " ('NCBIGene:288', 'DOID:1470'): '#2ca02c',\n", + " ('NCBIGene:2917', 'DOID:1470'): '#2ca02c',\n", + " ('NCBIGene:3350', 'GO:0014062'): '#2ca02c',\n", + " ('NCBIGene:3350', 'GO:0051378'): '#2ca02c',\n", + " ('NCBIGene:3350', 'HP:0002080'): '#2ca02c',\n", + " ('NCBIGene:3350', 'HP:0002322'): '#2ca02c',\n", + " ('NCBIGene:3350', 'REACT:R-HSA-390666'): '#2ca02c',\n", + " ('NCBIGene:3350', 'WP:WP706'): '#ff7f0e',\n", + " ('REACT:R-HSA-390666', 'DOID:1470'): '#2ca02c',\n", + " ('WP:WP4222', 'CHEBI:59540'): '#2ca02c',\n", + " ('WP:WP706', 'CHEBI:58266'): '#2ca02c',\n", + " ('WP:WP706', 'CHEBI:86990'): '#ff7f0e'}" + ] + }, + "execution_count": 28, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "edge_color_map = dtp.highlight_path_of_interest(list_of_paths, path_of_interest)\n", + "edge_color_map" + ] + }, + { + "cell_type": "code", + "execution_count": 29, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Custom edge colors" + ] + }, + { + "cell_type": "code", + "execution_count": 30, + "metadata": {}, + "outputs": [], + "source": [ + "import seaborn as sns\n", + "\n", + "def get_random_hex_color():\n", + " r = np.random.random()\n", + " g = np.random.random()\n", + " b = np.random.random()\n", + " \n", + " return sns.color_palette([(r, g, b)]).as_hex()[0]" + ] + }, + { + "cell_type": "code", + "execution_count": 31, + "metadata": {}, + "outputs": [], + "source": [ + "random_edge_colors = {k: get_random_hex_color() for k in edge_color_map.keys()}" + ] + }, + { + "cell_type": "code", + "execution_count": 32, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=random_edge_colors)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Add a probability to the title\n", + "\n", + "As these graphs are based off of repruposing predctions, the overall probability of the prediction may be of interest.\n", + "It can be added with the draw function and appears next to the drug name." + ] + }, + { + "cell_type": "code", + "execution_count": 33, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## Scaling size\n", + "\n", + "This feature was built around 10 or fewer paths, all starting and ending on the same node. However, it should scale with more paths... but is not guarnteed to be as good looking.\n", + "\n", + "\n", + "The `n_paths` argument in the draw function helps scale the final figure height to give room for extra nodes. Keeping the value consistant with the number of paths will guarentee that nodes are non-overlapping, but smaller values may be better produce a more compact figure and reduce empty space." + ] + }, + { + "cell_type": "code", + "execution_count": 34, + "metadata": {}, + "outputs": [], + "source": [ + "top_20_rows = test_path.head(20)\n", + "\n", + "list_of_paths = top_20_rows['node_ids'].tolist()\n", + "\n", + "list_of_edges = []\n", + "for mp in top_20_rows['metapath']:\n", + " list_of_edges.append(dtp.parse_metapath_to_edge_names(mp, mp_info, inv_map))\n", + "list_of_edges\n", + "\n", + "path_weights = top_20_rows['model_metric'].tolist()\n", + "\n", + "# We will have more edges, so rebuild the color map\n", + "edge_color_map = dtp.highlight_path_of_interest(list_of_paths, path_of_interest)" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### n_paths = 10 \n", + "\n", + "With 20 paths passed, using `n_paths=10` produces a quite compact result, many nodes overlapping." + ] + }, + { + "cell_type": "code", + "execution_count": 35, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, n_paths=None);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### n_paths = 20 \n", + "\n", + "Using the actual number of paths passed produces a figure where there is space for all the nodes" + ] + }, + { + "cell_type": "code", + "execution_count": 36, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, n_paths=20);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "### n_paths = 15 \n", + "\n", + "An `n_paths` value smaller than number of paths, more compact result" + ] + }, + { + "cell_type": "code", + "execution_count": 37, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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\n", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, n_paths=15);" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# xscale\n", + "\n", + "You can also scale the the width of the final figure with the `xscale` argument (default is 10)" + ] + }, + { + "cell_type": "code", + "execution_count": 38, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, n_paths=15, xscale=25);" + ] + }, + { + "cell_type": "code", + "execution_count": 39, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map, xscale=17)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, n_paths=10, xscale=17);" + ] + }, + { + "cell_type": "code", + "execution_count": 40, + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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+ "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "G = dtp.build_explanitory_graph(list_of_paths, list_of_edges, path_weights=path_weights, \n", + " node_id_to_label=id_to_label, node_id_to_color=node_id_to_color, \n", + " edge_id_to_color=edge_color_map)\n", + "\n", + "dtp.draw_explanitory_graph(G, node_id_to_name=id_to_name, proba=.6051, xscale=25);" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "metadata": {}, + "outputs": [], + "source": [] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.7.5" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/data_tools/setup.py b/data_tools/setup.py new file mode 100644 index 0000000..de52ba9 --- /dev/null +++ b/data_tools/setup.py @@ -0,0 +1,28 @@ +from setuptools import setup, find_packages + +install_requires = [ + 'requests>=2.22.0', + 'hetnetpy', + 'tqdm', + 'pandas', + 'matplotlib_venn', + 'matplotlib>=3.1.1', + 'seaborn', + 'scikit-learn>=0.21.3', + 'scipy>=1.3.1', + 'wikidataintegrator==0.7.4' +] + +setup( + name='data_tools', + author='Mike Mayers', + author_email='mmayers@scripps.edu', + url='https://github.com/mmayers12/data_tools', + version='0.0.8', + packages=find_packages(), + license='LICENSE', + description='Tools for manipulating data, particularly with the end goal of forming hetnet', + long_description=open('README.md').read(), + install_requires=install_requires, + python_requires='>=3.6', +)