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Network of interactions between drugs (red spheres) and targets (blue spheres) is displayed above.
The red lines are used for the predicted interactions and the thickness of edges indicate the confidence score of predictions.

Data source: DrugBank-all; Query type: chemical; # of requested predictions: 20; Secondary interactions: no
Input drug 1: DB07567
No. Group Type Drug ID Drug Name SMILES
⇨ TargetHunter		 Image
1 Experimental SmallMoleculeDrug DB07567 (2R,3R,4S)-3-(4-HYDROXYPHENYL)-4-METHYL-2-[4-(2-PYRROLIDIN-1-YLETHOXY)PHENYL]CHROMAN-6-OL Thumb


No. Gene UniProt ID Protein Name Pathway PDB
1 ESR1 P03372 Estrogen receptor hsa01522; hsa04915; hsa04917; hsa04919; hsa04961; hsa05200; hsa05205; hsa05224


20 predicted interactions (targets) of input drug (DB07567): (2R,3R,4S)-3-(4-HYDROXYPHENYL)-4-METHYL-2-[4-(2-PYRROLIDIN-1-YLETHOXY)PHENYL]CHROMAN-6-OL
No. Gene UniProt ID Protein Name Pathway PDB Confidence score
1 ESR2 Q92731 Estrogen receptor beta hsa01522; hsa04915; hsa04917; hsa05200; hsa05224 42.0%
2 NCOA2 Q15596 Nuclear receptor coactivator 2 hsa04915; hsa04919 40.6%
3 PGR P06401 Progesterone receptor hsa04114; hsa04914; hsa04915; hsa05224 1A28; 1E3K; 1SQN; 1SR7; 1ZUC; 2C7A; 2OVH; 2OVM; 2W8Y; 3D90; 3G8O; 3HQ5; 3KBA; 3ZR7; 3ZRA; 3ZRB; 4A2J; 4APU; 4OAR 32.8%
4 SHBG P04278 Sex hormone-binding globulin NA 1D2S; 1F5F; 1KDK; 1KDM; 1LHN; 1LHO; 1LHU; 1LHV; 1LHW 25.8%
5 AR P10275 Androgen receptor hsa04114; hsa05200; hsa05215 25.8%
6 NR1I2 O75469 Nuclear receptor subfamily 1 group I member 2 NA 18.2%
7 OPRK1 P41145 Kappa-type opioid receptor hsa04080 2A0D; 2IQN; 4DJH 17.1%
8 F2 P00734 Prothrombin hsa04080; hsa04610; hsa04810
1A2C; 1A3B; 1A3E; 1A46; 1A4W; 1A5G; 1A61; 1ABI; 1ABJ; 1AD8; 1AE8; 1AFE; 1AHT; 1AI8; 1AIX; 1AWF; 1AWH; 1AY6; 1B5G; 1B7X; 1BA8; 1BB0; 1BCU; 1BHX; 1BMM; 1BMN; 1BTH; 1C1U; 1C1V; 1C1W; 1C4U; 1C4V; 1C4Y; 1C5L; 1C5N; 1C5O; 1CA8; 1D3D; 1D3P; 1D3Q; 1D3T; 1D4P; 1D6W; 1D9I; 1DE7; 1DIT; 1DM4; 1DOJ; 1DWB; 1DWC; 1DWD; 1DWE; 1DX5; 1E0F; 1EB1; 1EOJ; 1EOL; 1FPC; 1FPH; 1G30; 1G32; 1G37; 1GHV; 1GHW; 1GHX; 1GHY; 1GJ4; 1GJ5; 1H8D; 1H8I; 1HAG; 1HAH; 1HAI; 1HAO; 1HAP; 1HBT; 1HDT; 1HGT; 1HLT; 1HUT; 1HXE; 1HXF; 1IHS; 1IHT; 1JMO; 1JOU; 1JWT; 1K21; 1K22; 1KTS; 1KTT; 1LHC; 1LHD; 1LHE; 1LHF; 1LHG; 1MH0; 1MU6; 1MU8; 1MUE; 1NM6; 1NO9; 1NRN; 1NRO; 1NRP; 1NRQ; 1NRR; 1NRS; 1NT1; 1NU7; 1NU9; 1NY2; 1NZQ; 1O0D; 1O2G; 1O5G; 1OOK; 1OYT; 1P8V; 1PPB; 1QBV; 1QHR; 1QJ1; 1QJ6; 1QJ7; 1QUR; 1RD3; 1RIW; 1SB1; 1SFQ; 1SG8; 1SGI; 1SHH; 1SL3; 1SR5; 1T4U; 1T4V; 1TA2; 1TA6; 1TB6; 1TBZ; 1THP; 1THR; 1THS; 1TMB; 1TMT; 1TMU; 1TOM; 1TQ0; 1TQ7; 1TWX; 1UMA; 1UVS; 1VR1; 1VZQ; 1W7G; 1WAY; 1WBG; 1XM1; 1XMN; 1YPE; 1YPG; 1YPJ; 1YPK; 1YPL; 1YPM; 1Z71; 1Z8I; 1Z8J; 1ZGI; 1ZGV; 1ZRB; 2A0Q; 2A2X; 2A45; 2AFQ; 2ANK; 2ANM; 2B5T; 2BDY; 2BVR; 2BVS; 2BVX; 2BXT; 2BXU; 2C8W; 2C8X; 2C8Y; 2C8Z; 2C90; 2C93; 2CF8; 2CF9; 2CN0; 2FEQ; 2FES; 2GDE; 2GP9; 2H9T; 2HGT; 2HNT; 2HPP; 2HPQ; 2HWL; 2JH0; 2JH5; 2JH6; 2OD3; 2PGB; 2PGQ; 2PKS; 2PW8; 2R2M; 2THF; 2UUF; 2UUJ; 2UUK; 2V3H; 2V3O; 2ZC9; 2ZDA; 2ZDV; 2ZF0; 2ZFF; 2ZFP; 2ZFQ; 2ZFR; 2ZG0; 2ZGB; 2ZGX; 2ZHE; 2ZHF; 2ZHQ; 2ZHW; 2ZI2; 2ZIQ; 2ZNK; 2ZO3; 3B23; 3B9F; 3BEF; 3BEI; 3BF6; 3BIU; 3BIV; 3BV9; 3C1K; 3C27; 3D49; 3DA9; 3DD2; 3DHK; 3DT0; 3DUX; 3E6P; 3EE0; 3EGK; 3EQ0; 3F68; 3GIC; 3GIS; 3HAT; 3HKJ; 3HTC; 3JZ1; 3JZ2; 3K65; 3LDX; 3LU9; 3NXP; 3P17; 3P6Z; 3P70; 3PMH; 3PO1; 3QDZ; 3QGN; 3QLP; 3QTO; 3QTV; 3QWC; 3QX5; 3R3G; 3RLW; 3RLY; 3RM0; 3RM2; 3RML; 3RMM; 3RMN; 3RMO; 3S7H; 3S7K; 3SHA; 3SHC; 3SI3; 3SI4; 3SQE; 3SQH; 3SV2; 3T5F; 3TU7; 3U69; 3U8O; 3U8R; 3U8T; 3U98; 3U9A; 3UTU; 3UWJ; 3VXE; 3VXF; 4AX9; 4AYV; 4AYY; 4AZ2; 4BAH; 4BAK; 4BAM; 4BAN; 4BAO; 4BAQ; 4BOH; 4CH2; 4CH8; 4DIH; 4DII; 4DT7; 4DY7; 4E05; 4E06; 4E7R; 4H6S; 4H6T; 4HFP; 4HTC; 4HZH; 4I7Y; 4LOY; 4LXB; 4LZ1; 4LZ4; 4MLF; 4N3L; 4NZE; 4NZQ; 4O03; 4RKJ; 4RKO; 4RN6; 4THN; 4UD9; 4UDW; 4UE7; 4UEH; 4YES; 5AF9; 5AFY; 5AFZ; 5AHG; 5E8E; 5GDS; 7KME; 8KME
 17.1%
9 HSD17B1 P14061 Estradiol 17-beta-dehydrogenase 1 hsa00140; hsa01100; hsa04913 16.6%
10 CHRM1 P11229 Muscarinic acetylcholine receptor M1 hsa04020; hsa04024; hsa04080; hsa04151; hsa04725; hsa04810 NA 16.0%
11 NR1I3 Q14994 Nuclear receptor subfamily 1 group I member 3 NA 1XV9; 1XVP 15.7%
12 MMP8 P22894 Neutrophil collagenase NA 15.1%
13 GLRA1 P23415 Glycine receptor subunit alpha-1 hsa04080 1MOT; 1VRY; 2M6B; 2M6I; 4X5T 15.0%
14 OPRM1 P35372 Mu-type opioid receptor hsa04080; hsa04915; hsa05032 NA 14.0%
15 MAPK10 P53779 Mitogen-activated protein kinase 10 hsa01522; hsa04010; hsa04012; hsa04014; hsa04024; hsa04068; hsa04071; hsa04137; hsa04140; hsa04141; hsa04210; hsa04215; hsa04217; hsa04310; hsa04380; hsa04510; hsa04530; hsa04620; hsa04621; hsa04622; hsa04625; hsa04657; hsa04658; hsa04659; hsa04664; hsa04668; hsa04722; hsa04723; hsa04728; hsa04750; hsa04910; hsa04912; hsa04914; hsa04917; hsa04920; hsa04926; hsa04930; hsa04931; hsa04932; hsa04933; hsa05120; hsa05131; hsa05132; hsa05133; hsa05142; hsa05145; hsa05152; hsa05160; hsa05161; hsa05164; hsa05167; hsa05168; hsa05169; hsa05170; hsa05200; hsa05210; hsa05212; hsa05231; hsa05418 13.8%
16 CHRM3 P20309 Muscarinic acetylcholine receptor M3 hsa04020; hsa04080; hsa04725; hsa04742; hsa04810; hsa04911; hsa04970; hsa04971; hsa04972 2CSA 13.2%
17 CHRNA4 P43681 Neuronal acetylcholine receptor subunit alpha-4 hsa04080; hsa04725; hsa05033 2GVT; 2LLY 13.0%
18 AHR P35869 Aryl hydrocarbon receptor hsa04659; hsa04934 NA 13.0%
19 ESRRG P62508 Estrogen-related receptor gamma NA 1KV6; 1TFC; 1VJB; 2E2R; 2EWP; 2GP7; 2GPO; 2GPP; 2GPU; 2GPV; 2P7A; 2P7G; 2P7Z; 2ZAS; 2ZBS; 2ZKC 12.5%
20 CTSS P25774 Cathepsin S hsa04142; hsa04145; hsa04210; hsa04612; hsa05152 12.4%


  logl

Reference:  Hongchun Li, Fen Pei, D. Lansing Taylor and Ivet Bahar. (2020) QuartataWeb: Integrated Chemical–Protein-Pathway Mapping for Polypharmacology and Chemogenomics. Bioinformatics 36(12), 3935–3937.

Contact:

The QuartataWeb server is maintained by the Bahar Lab at the Department of Computational & Systems Biology at the University of Pittsburgh, School of Medicine, and sponsored by the NIH awards P41 GM103712 and P01 DK096990; and by the Li Lab at Research Center for Computer-Aided Drug Discovery at Shenzhen Institutes of Advanced Technology, CAS.

For questions and comments please contact Hongchun Li.