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Chemical Diarylheptanoids

1–50 of 681 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one cell proliferation 1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one results in decreased cell proliferation 1: Homo sapiens Lung | Cell Line, Tumor 1 gene: TP53 1
2. 1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one apoptotic process 1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one results in increased apoptotic process 1: Homo sapiens Lung | Cell Line, Tumor
5 genes: CASP3 | CASP9 | DDIT3 | TP53 | XBP1
1
3. 1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one apoptotic process DDIT3 DDIT3 mutant form inhibits the reaction [1,5-bis(2,3-dimethoxyphenyl)penta-1,4-dien-3-one results in increased apoptotic process] 1: Homo sapiens Lung | Cell Line, Tumor
5 genes: CASP3 | CASP9 | DDIT3 | TP53 | XBP1
1
4. BDMC-A mitochondrial depolarization BDMC-A results in increased mitochondrial depolarization 1: Homo sapiens MCF-7 Cells   1
5. BDMC-A cell proliferation BDMC-A results in decreased cell proliferation 1: Homo sapiens MCF-7 Cells
4 genes: AKT1 | BAX | BCL2 | TP53
1
6. BDMC-A release of cytochrome c from mitochondria BDMC-A results in increased release of cytochrome c from mitochondria 1: Homo sapiens MCF-7 Cells
3 genes: BAX | BCL2 | TP53
1
7. BDMC-A apoptotic process BDMC-A results in increased apoptotic process 1: Homo sapiens MCF-7 Cells
10 genes: AKT1 | APAF1 | BAX | BCL2 | CASP3 | CASP8 | CASP9 | FASLG | PARP1 | TP53
1
8. BDMC-A reactive oxygen species metabolic process BDMC-A results in increased reactive oxygen species metabolic process 1: Homo sapiens MCF-7 Cells 1 gene: BCL2 1
9. bis(4-hydroxycinnamoyl)methane lipoprotein lipid oxidation Copper bis(4-hydroxycinnamoyl)methane inhibits the reaction [Copper results in increased lipoprotein lipid oxidation] 1: Homo sapiens     1
10. bis(4-hydroxycinnamoyl)methane low-density lipoprotein particle clearance Tetradecanoylphorbol Acetate bis(4-hydroxycinnamoyl)methane inhibits the reaction [Tetradecanoylphorbol Acetate results in increased low-density lipoprotein particle clearance] 1: Homo sapiens Monocytes | Cell Line, Tumor
2 genes: CD36 | HMOX1
1
11. CNB 001 cell proliferation 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine CNB 001 inhibits the reaction [1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine results in decreased cell proliferation] 1: Mus musculus Dopaminergic Neurons
2 genes: BCL2 | TNF
1
12. Curcumin positive regulation of reactive oxygen species biosynthetic process lead acetate Curcumin inhibits the reaction [lead acetate results in increased positive regulation of reactive oxygen species biosynthetic process] 1: Mus musculus Blood
5 genes: CD36 | GRIN1 | HDAC4 | IL4 | TLR4
1
13. Curcumin lipoprotein lipid oxidation Copper Curcumin inhibits the reaction [Copper results in increased lipoprotein lipid oxidation] 1: Homo sapiens     1
14. Curcumin apoptotic process Tetracaine Curcumin inhibits the reaction [Tetracaine results in increased apoptotic process] 1: Rattus norvegicus PC12 Cells
148 genes: AATF | AHR | AKT1 | AKT2 | ALDOC | APAF1 | APP | ATM | AXIN1 | BAD | BAK1 | BAX | BBC3 | BCL10 | BCL2 | BCL2A1 | BCL2L1 | BCL2L11 | BCL2L2 | BID | BIRC2 | BIRC3 | BIRC5 | BIRC7 | CASP1 | CASP12 | CASP2 | CASP3 | CASP4 | CASP7 | CASP8 | CASP9 | CCAR1 | CD14 | CDK1 | CDK5 | CDKN2A | CFLAR | CHEK1 | CHEK2 | CXCR4 | CYCS | DAXX | DDIT3 | DFFB | DHCR24 | DIABLO | DRAM1 | DYNLL1 | E2F1 | EP300 | EPO | ERN1 | FADD | FAS | FASLG | FGFR2 | FIS1 | FOXO1 | GADD45A | GAS6 | GJA1 | GPER1 | GPX1 | GREM1 | GSN | HMOX1 | IFNG | IGFBP3 | IKBKG | IL1A | IL1B | IL2RA | IRF3 | ITPR1 | JAK2 | LCN2 | LTA | LTBR | MAP2K4 | MAPK1 | MAPK14 | MAPK3 | MCL1 | MCM2 | MEF2C | MYD88 | NAIP | NFKB1 | NFKBIA | NOD1 | NR3C1 | OPA1 | PAK2 | PARP1 | PCSK9 | PLK3 | PMAIP1 | POLB | PPARD | PPIF | PRDX3 | PRKCA | PRKCD | PRKCE | PTEN | PTPN6 | RAF1 | RB1 | RHOB | RIPK1 | RPS6KB1 | RTKN | S100A8 | S100A9 | SFRP2 | SFRP5 | SIRT1 | SULF1 | TF | TGFBR1 | TGFBR2 | TIAF1 | TICAM1 | TLR2 | TNF | TNFRSF10A | TNFRSF10B | TNFRSF1A | TNFRSF1B | TNFRSF21 | TNFSF10 | TNFSF14 | TP53 | TRADD | TRAF1 | TRAF2 | TRAF3 | TRIB3 | TRP53 | VDAC1 | WNT1 | WT1 | XAF1 | XBP1 | XIAP | YPEL3 | ZFP36L1
1
15. Curcumin reactive oxygen species metabolic process Curcumin results in decreased reactive oxygen species metabolic process 1: Equus caballus Neutrophils
7 genes: BCL2 | CAT | CTGF | PDGFB | PMAIP1 | SOD1 | SOD2
1
16. Curcumin maintenance of gastrointestinal epithelium Diclofenac Curcumin inhibits the reaction [Diclofenac results in decreased maintenance of gastrointestinal epithelium] 1: Rattus norvegicus Intestine, Small
2 genes: NOD2 | SERPINA3
1
17. Curcumin alkaline phosphatase activity Diethylhexyl Phthalate Curcumin inhibits the reaction [Diethylhexyl Phthalate results in decreased alkaline phosphatase activity] 1: Rattus norvegicus Testis   1
18. Curcumin positive regulation of collagen biosynthetic process Glucose Curcumin analog inhibits the reaction [Glucose results in increased positive regulation of collagen biosynthetic process] 1: Rattus norvegicus Myocytes, Cardiac | Cell Line
13 genes: CCL2 | CTGF | EP300 | F2 | F2R | HDAC2 | IL18 | PDGFB | PDGFRB | SERPINE1 | SOX9 | TGFB1 | VIM
1
19. Curcumin negative regulation of histone deacetylase activity Curcumin analog results in increased negative regulation of histone deacetylase activity 1: Mus musculus Prostate | Cell Line, Tumor   1
20. Curcumin mitochondrial electron transport, cytochrome c to oxygen Rotenone Curcumin analog inhibits the reaction [Rotenone results in decreased mitochondrial electron transport, cytochrome c to oxygen] 1: Rattus norvegicus Dopaminergic Neurons | Cell Line 1 gene: CYCS 1
21. Curcumin histone acetyltransferase activity Curcumin results in decreased histone acetyltransferase activity 1: Mus musculus Embryonic Structures | Heart
5 genes: ATF2 | CREBBP | EP300 | NCOA1 | TADA3
1
22. Curcumin negative regulation of mitochondrial membrane potential Cisplatin Curcumin inhibits the reaction [Cisplatin results in increased negative regulation of mitochondrial membrane potential] 1: Rattus norvegicus Mitochondria
3 genes: HEBP2 | PMAIP1 | PRKCE
1
23. Curcumin positive regulation of programmed cell death Cycloheximide Cycloheximide inhibits the reaction [Curcumin results in increased positive regulation of programmed cell death] 1: Homo sapiens Neuroglia | Cell Line, Tumor
4 genes: CDKN1A | CSK | RIPK1 | TNF
1
24. Curcumin histone H3 acetylation Curcumin results in decreased histone H3 acetylation 1: Mus musculus Myocytes, Cardiac | Cells, Cultured
4 genes: EP300 | LEF1 | TADA3 | TRIM16
1
25. Curcumin endothelial tube morphogenesis VEGFA Curcumin analog inhibits the reaction [VEGFA protein results in increased endothelial tube morphogenesis] 1: Homo sapiens Human Umbilical Vein Endothelial Cells
4 genes: CTNNB1 | CXCR4 | MIR21 | RHOB
1
26. Curcumin glutathione biosynthetic process Particulate Matter Curcumin inhibits the reaction [Particulate Matter results in decreased glutathione biosynthetic process] 1: Homo sapiens MCF-7 Cells
4 genes: GCLC | GCLM | GGT1 | GSS
1
27. Curcumin regulation of cell diameter Dietary Fats Curcumin inhibits the reaction [Dietary Fats affects regulation of cell diameter] 1: Mus musculus Adipocytes   1
28. Curcumin regulation of JNK cascade Curcumin affects regulation of JNK cascade 1: Mus musculus Macrophages | Cell Line
4 genes: EGFR | IGF1R | MAPK9 | TRAF2
1
29. Curcumin positive regulation of cell proliferation Acrylamide Curcumin inhibits the reaction [Acrylamide affects positive regulation of cell proliferation] 1: Homo sapiens Hep G2 Cells
134 genes: ADAM17 | AGT | AKT1 | AKT2 | AR | ATF3 | BCL2 | BCL2L1 | BIRC5 | CCAR1 | CCND1 | CCND3 | CCPG1 | CD47 | CDC20 | CDK2 | CDK4 | CDKN1B | CDX2 | CSF1 | CSF1R | CTGF | CTNNB1 | CXCL12 | CXCR2 | EGF | EGFR | EIF4G1 | EPO | ERBB2 | F2 | F2R | FASLG | FGF2 | FGF5 | FGFR2 | FLT1 | FN1 | FNTB | FOSL1 | GLI1 | GPER1 | GREM1 | HDAC1 | HDAC2 | HDAC4 | HES1 | HGF | HIF1A | HMGB1 | HMGCR | HSF1 | HSP90AA1 | HTR1A | ID2 | ID3 | IFNG | IGF1 | IGF1R | IGF2 | IKBKB | IL18 | IL1B | IL2 | IL4 | IL5 | IL6 | INS | IRS1 | IRS2 | ITGB1 | JAK2 | JUN | KDR | KIT | KRAS | LEF1 | LGMN | LRP5 | LTA | MAPK1 | MDM2 | MECP2 | MIR1290 | MIR21 | MST1R | MVD | MYC | NANOG | NGF | NKX2-5 | NKX3-1 | NOD2 | NOTCH1 | ODC1 | OSMR | PDGFB | PDGFRB | PGF | PLAU | PPARD | PRDX3 | PRKAA1 | PTEN | PTGS2 | PTHLH | PTK2 | PTPN6 | RARA | RELA | RUNX2 | SFRP2 | SIRT1 | SOX9 | STAT1 | STAT3 | STAT5A | STAT5B | STS | STX3 | SUZ12 | T | TBC1D8 | TGFB1 | TGFBR1 | TGFBR2 | THBS1 | TIMP1 | TNC | TNF | VEGFA | VIP | WNT1 | XBP1
1
30. Curcumin cell proliferation Curcumin results in increased cell proliferation 1: Homo sapiens Retinal Pigment Epithelium | Cells, Cultured
79 genes: ACE | ACHE | AKT1 | AR | AURKB | BAD | BAK1 | BAX | BCL2 | BCL2L1 | CDC25C | CDK1 | CDK4 | CDK5 | CDK7 | CDK9 | CREBBP | CSF1 | CSF1R | CTNNB1 | CXCL1 | CYP1A1 | EGFR | ENTPD5 | EPO | ERBB2 | ERCC1 | FGF2 | FGF5 | GAS6 | GPX1 | GSK3B | HGF | HTR1A | IFNAR2 | IGF1 | IGFBP4 | IL12A | IL12B | IL18 | IL1A | IL2RA | IRS2 | KLF10 | LIG4 | LTA | MAP2K1 | MCM7 | MIF | MKI67 | MXD1 | MYC | NANOG | PCNA | PDK1 | PDPN | PLK1 | PPARD | PRKDC | PTEN | PTPN6 | RAF1 | REG3A | RETNLB | SMAD4 | SOX2 | SRC | STAT3 | STAT4 | TCF7L2 | TGFB1 | TNF | TNFRSF1B | TOP2A | TP53 | TXNRD1 | VEGFA | XRCC5 | ZFP36L1
1
31. Curcumin apoptotic process Curcumin results in increased apoptotic process 1: Homo sapiens HL-60 Cells
148 genes: AATF | AHR | AKT1 | AKT2 | ALDOC | APAF1 | APP | ATM | AXIN1 | BAD | BAK1 | BAX | BBC3 | BCL10 | BCL2 | BCL2A1 | BCL2L1 | BCL2L11 | BCL2L2 | BID | BIRC2 | BIRC3 | BIRC5 | BIRC7 | CASP1 | CASP12 | CASP2 | CASP3 | CASP4 | CASP7 | CASP8 | CASP9 | CCAR1 | CD14 | CDK1 | CDK5 | CDKN2A | CFLAR | CHEK1 | CHEK2 | CXCR4 | CYCS | DAXX | DDIT3 | DFFB | DHCR24 | DIABLO | DRAM1 | DYNLL1 | E2F1 | EP300 | EPO | ERN1 | FADD | FAS | FASLG | FGFR2 | FIS1 | FOXO1 | GADD45A | GAS6 | GJA1 | GPER1 | GPX1 | GREM1 | GSN | HMOX1 | IFNG | IGFBP3 | IKBKG | IL1A | IL1B | IL2RA | IRF3 | ITPR1 | JAK2 | LCN2 | LTA | LTBR | MAP2K4 | MAPK1 | MAPK14 | MAPK3 | MCL1 | MCM2 | MEF2C | MYD88 | NAIP | NFKB1 | NFKBIA | NOD1 | NR3C1 | OPA1 | PAK2 | PARP1 | PCSK9 | PLK3 | PMAIP1 | POLB | PPARD | PPIF | PRDX3 | PRKCA | PRKCD | PRKCE | PTEN | PTPN6 | RAF1 | RB1 | RHOB | RIPK1 | RPS6KB1 | RTKN | S100A8 | S100A9 | SFRP2 | SFRP5 | SIRT1 | SULF1 | TF | TGFBR1 | TGFBR2 | TIAF1 | TICAM1 | TLR2 | TNF | TNFRSF10A | TNFRSF10B | TNFRSF1A | TNFRSF1B | TNFRSF21 | TNFSF10 | TNFSF14 | TP53 | TRADD | TRAF1 | TRAF2 | TRAF3 | TRIB3 | TRP53 | VDAC1 | WNT1 | WT1 | XAF1 | XBP1 | XIAP | YPEL3 | ZFP36L1
1
32. Curcumin calcium-transporting ATPase activity Lipopolysaccharides | Tobacco Smoke Pollution Curcumin inhibits the reaction [[Lipopolysaccharides co-treated with Tobacco Smoke Pollution] results in decreased calcium-transporting ATPase activity] 1: Rattus norvegicus Muscle, Skeletal | Mitochondria   1
33. Curcumin DNA damage response, detection of DNA damage Curcumin results in increased DNA damage response, detection of DNA damage 1: Mus musculus Monocytes | Cell Line, Tumor
3 genes: PARP1 | PCNA | UBC
1
34. Curcumin dopamine catabolic process Homovanillic Acid | Rotenone [Curcumin analog inhibits the reaction [Rotenone results in increased dopamine catabolic process]] which results in decreased abundance of Homovanillic Acid 1: Drosophila melanogaster Tissues 1 gene: MAOA 1
35. Curcumin apoptotic process sodium arsenite Curcumin inhibits the reaction [sodium arsenite results in increased apoptotic process] 1: Homo sapiens Keratinocytes | Cell Line, Transformed
148 genes: AATF | AHR | AKT1 | AKT2 | ALDOC | APAF1 | APP | ATM | AXIN1 | BAD | BAK1 | BAX | BBC3 | BCL10 | BCL2 | BCL2A1 | BCL2L1 | BCL2L11 | BCL2L2 | BID | BIRC2 | BIRC3 | BIRC5 | BIRC7 | CASP1 | CASP12 | CASP2 | CASP3 | CASP4 | CASP7 | CASP8 | CASP9 | CCAR1 | CD14 | CDK1 | CDK5 | CDKN2A | CFLAR | CHEK1 | CHEK2 | CXCR4 | CYCS | DAXX | DDIT3 | DFFB | DHCR24 | DIABLO | DRAM1 | DYNLL1 | E2F1 | EP300 | EPO | ERN1 | FADD | FAS | FASLG | FGFR2 | FIS1 | FOXO1 | GADD45A | GAS6 | GJA1 | GPER1 | GPX1 | GREM1 | GSN | HMOX1 | IFNG | IGFBP3 | IKBKG | IL1A | IL1B | IL2RA | IRF3 | ITPR1 | JAK2 | LCN2 | LTA | LTBR | MAP2K4 | MAPK1 | MAPK14 | MAPK3 | MCL1 | MCM2 | MEF2C | MYD88 | NAIP | NFKB1 | NFKBIA | NOD1 | NR3C1 | OPA1 | PAK2 | PARP1 | PCSK9 | PLK3 | PMAIP1 | POLB | PPARD | PPIF | PRDX3 | PRKCA | PRKCD | PRKCE | PTEN | PTPN6 | RAF1 | RB1 | RHOB | RIPK1 | RPS6KB1 | RTKN | S100A8 | S100A9 | SFRP2 | SFRP5 | SIRT1 | SULF1 | TF | TGFBR1 | TGFBR2 | TIAF1 | TICAM1 | TLR2 | TNF | TNFRSF10A | TNFRSF10B | TNFRSF1A | TNFRSF1B | TNFRSF21 | TNFSF10 | TNFSF14 | TP53 | TRADD | TRAF1 | TRAF2 | TRAF3 | TRIB3 | TRP53 | VDAC1 | WNT1 | WT1 | XAF1 | XBP1 | XIAP | YPEL3 | ZFP36L1
1
36. Curcumin D-alanine:2-oxoglutarate aminotransferase activity sodium arsenite Curcumin inhibits the reaction [sodium arsenite results in increased D-alanine:2-oxoglutarate aminotransferase activity] 1: Rattus norvegicus Liver   1
37. Curcumin dopamine catabolic process Rotenone Curcumin inhibits the reaction [Rotenone results in increased dopamine catabolic process] 1: Drosophila melanogaster Tissues 1 gene: MAOA 1
38. Curcumin dopamine biosynthetic process Acrylamide Curcumin inhibits the reaction [Acrylamide results in decreased dopamine biosynthetic process] 1: Rattus norvegicus Brain
3 genes: NR4A2 | T | TH
1
39. Curcumin 3',5'-cyclic-AMP phosphodiesterase activity VEGFA Curcumin inhibits the reaction [VEGFA protein results in increased 3',5'-cyclic-AMP phosphodiesterase activity] 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
40. Curcumin ubiquinol-cytochrome-c reductase activity sodium arsenite Curcumin inhibits the reaction [sodium arsenite results in decreased ubiquinol-cytochrome-c reductase activity] 1: Rattus norvegicus Brain | Hippocampus   1
41. Curcumin mitochondrial electron transport, NADH to ubiquinone Rotenone Curcumin analog inhibits the reaction [Rotenone results in decreased mitochondrial electron transport, NADH to ubiquinone] 1: Rattus norvegicus Dopaminergic Neurons | Cell Line
2 genes: BDNF | PRKN
1
42. Curcumin calcium-mediated signaling Curcumin results in increased calcium-mediated signaling 1: Homo sapiens Retinal Pigment Epithelium | Cells, Cultured
7 genes: CCL3 | CXCL8 | CXCR4 | GRIN1 | SELE | TNF | TNFSF11
1
43. Curcumin triglyceride biosynthetic process Dietary Fats Curcumin inhibits the reaction [Dietary Fats results in increased triglyceride biosynthetic process] 1: Mus musculus Blood
2 genes: GPAM | LPL
1
44. Curcumin activation of protein kinase B activity bromopyruvate Curcumin inhibits the reaction [bromopyruvate results in increased activation of protein kinase B activity] 1: Homo sapiens HL-60 Cells
10 genes: AKT1 | GAS6 | IGF1 | IL18 | INS | MIR21 | MTOR | PDGFB | PINK1 | SRC
1
45. Curcumin positive regulation of necrotic cell death bromopyruvate Curcumin promotes the reaction [bromopyruvate results in increased positive regulation of necrotic cell death] 1: Homo sapiens HL-60 Cells
2 genes: HEBP2 | RIPK1
1
46. Curcumin lipid oxidation Diclofenac | Malondialdehyde Curcumin inhibits the reaction [[Diclofenac results in increased lipid oxidation] which results in increased abundance of Malondialdehyde] 1: Rattus norvegicus Stomach   1
47. Curcumin positive regulation of transcription from RNA polymerase II promoter in response to oxidative stress Curcumin results in increased positive regulation of transcription from RNA polymerase II promoter in response to oxidative stress 1: Homo sapiens Hep G2 Cells 1 gene: NFE2L2 1
48. Curcumin positive regulation of apoptotic process lonidamine [Curcumin co-treated with lonidamine] results in increased positive regulation of apoptotic process 1: Homo sapiens Cell Line, Tumor
106 genes: ACE | AKT1 | APAF1 | APC | ATF6 | ATM | BAD | BAK1 | BAX | BBC3 | BCL10 | BCL2L1 | BCL2L11 | BID | BMP2 | CASP1 | CASP12 | CASP2 | CASP3 | CASP8 | CASP9 | CCAR1 | CDK4 | CDKN2A | CREB1 | CTNNB1 | CYP1B1 | DAXX | DDIT3 | DIABLO | DUSP1 | E2F1 | FADD | FAS | FASLG | FOSL1 | FOXA1 | FOXO1 | GADD45A | GPER1 | GRIN1 | GSK3B | HIF1A | HMGB1 | HMOX1 | HSPD1 | ID3 | IDO1 | IFNG | IGFBP3 | IL18 | IL1B | IL6 | IRF5 | ITGB1 | JAK2 | JUN | LPAR1 | LRP6 | LTA | MAP2K4 | MAP3K1 | MAPK8 | MAPK9 | MIR21 | MMP2 | MMP9 | NCOA1 | NEUROD1 | NGF | NOS2 | NOS3 | NOTCH1 | PDGFRB | PDIA3 | PMAIP1 | PPARG | PRKCD | PRKDC | PRKN | PTEN | PTGS2 | RASSF2 | RELA | RHOB | RIPK1 | RPS6 | RXRA | SFRP2 | SIRT1 | SOD1 | SRC | TCF7L2 | TGFB1 | TGFBR1 | TGM2 | TLR4 | TNF | TNFSF10 | TOP2A | TP53 | TRADD | TRAF6 | TRP53 | UBC | WT1
1
49. Curcumin cell-cell adhesion via plasma-membrane adhesion molecules Particulate Matter Curcumin inhibits the reaction [Particulate Matter results in increased cell-cell adhesion via plasma-membrane adhesion molecules] 1: Homo sapiens Human Umbilical Vein Endothelial Cells | U937 Cells
4 genes: CD36 | CDH2 | ITGAM | PECAM1
1
50. Curcumin cell proliferation quinocetone | zinc protoporphyrin zinc protoporphyrin inhibits the reaction [Curcumin inhibits the reaction [quinocetone results in decreased cell proliferation]] 1: Homo sapiens Hepatocytes | Cell Line, Transformed
79 genes: ACE | ACHE | AKT1 | AR | AURKB | BAD | BAK1 | BAX | BCL2 | BCL2L1 | CDC25C | CDK1 | CDK4 | CDK5 | CDK7 | CDK9 | CREBBP | CSF1 | CSF1R | CTNNB1 | CXCL1 | CYP1A1 | EGFR | ENTPD5 | EPO | ERBB2 | ERCC1 | FGF2 | FGF5 | GAS6 | GPX1 | GSK3B | HGF | HTR1A | IFNAR2 | IGF1 | IGFBP4 | IL12A | IL12B | IL18 | IL1A | IL2RA | IRS2 | KLF10 | LIG4 | LTA | MAP2K1 | MCM7 | MIF | MKI67 | MXD1 | MYC | NANOG | PCNA | PDK1 | PDPN | PLK1 | PPARD | PRKDC | PTEN | PTPN6 | RAF1 | REG3A | RETNLB | SMAD4 | SOX2 | SRC | STAT3 | STAT4 | TCF7L2 | TGFB1 | TNF | TNFRSF1B | TOP2A | TP53 | TXNRD1 | VEGFA | XRCC5 | ZFP36L1
1
1–50 of 681 results.