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Chemical Ethanol

1–50 of 1,270 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 2-(2-mercaptoethanol)-3-methyl-1,4-naphthoquinone cell proliferation 2-(2-mercaptoethanol)-3-methyl-1,4-naphthoquinone results in decreased cell proliferation 1: Homo sapiens Urinary Bladder | Cell Line, Tumor   1
2. 2-(2-mercaptoethanol)-3-methyl-1,4-naphthoquinone cell proliferation baicalein 2-(2-mercaptoethanol)-3-methyl-1,4-naphthoquinone promotes the reaction [baicalein results in decreased cell proliferation] 1: Homo sapiens Urinary Bladder | Cell Line, Tumor   1
3. 3,4-dihydroxyphenylethanol detection of oxidative stress Doxorubicin 3,4-dihydroxyphenylethanol inhibits the reaction [Doxorubicin results in increased detection of oxidative stress] 1: Rattus norvegicus Heart 1 gene: ADIPOQ 1
4. 3,4-dihydroxyphenylethanol mitochondrion organization Doxorubicin 3,4-dihydroxyphenylethanol inhibits the reaction [Doxorubicin results in decreased mitochondrion organization] 1: Rattus norvegicus Heart
3 genes: CEBPA | SOD2 | TFAM
1
5. 3,4-dihydroxyphenylethanol lipid catabolic process Doxorubicin 3,4-dihydroxyphenylethanol inhibits the reaction [Doxorubicin results in decreased lipid catabolic process] 1: Rattus norvegicus Heart   1
6. 3,4-dihydroxyphenylethanol cell aging 3,4-dihydroxyphenylethanol results in decreased cell aging 1: Homo sapiens Fibroblasts
2 genes: BCL2 | ICAM1
1
7. 3,4-dihydroxyphenylethanol reactive oxygen species biosynthetic process 3,4-dihydroxyphenylethanol results in decreased reactive oxygen species biosynthetic process 1: Homo sapiens Fibroblasts   1
8. 3,4-dihydroxyphenylethanol positive regulation of cell death Xanthine | XDH 3,4-dihydroxyphenylethanol inhibits the reaction [[Xanthine co-treated with XDH protein] results in increased positive regulation of cell death] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line
3 genes: EGR1 | PTGS2 | UCP2
1
9. 3,4-dihydroxyphenylethanol positive regulation of reactive oxygen species biosynthetic process Xanthine | XDH 3,4-dihydroxyphenylethanol inhibits the reaction [[Xanthine co-treated with XDH protein] results in increased positive regulation of reactive oxygen species biosynthetic process] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line   1
10. 3,4-dihydroxyphenylethanol positive regulation of ERK1 and ERK2 cascade Xanthine | XDH 3,4-dihydroxyphenylethanol promotes the reaction [[Xanthine co-treated with XDH protein] results in increased positive regulation of ERK1 and ERK2 cascade] 1: Rattus norvegicus Myoblasts, Cardiac | Cell Line
5 genes: ICAM1 | IL6 | JUN | MAPK3 | TNF
1
11. 3,4-dihydroxyphenylethanol NADH dehydrogenase (ubiquinone) activity sodium arsenite 3,4-dihydroxyphenylethanol inhibits the reaction [sodium arsenite results in decreased NADH dehydrogenase (ubiquinone) activity] 1: Rattus norvegicus Brain | Mitochondria
2 genes: ND1 | ND2
1
12. 3,4-dihydroxyphenylethanol succinate dehydrogenase (ubiquinone) activity sodium arsenite 3,4-dihydroxyphenylethanol inhibits the reaction [sodium arsenite results in decreased succinate dehydrogenase (ubiquinone) activity] 1: Rattus norvegicus Brain | Mitochondria   1
13. 3,4-dihydroxyphenylethanol cytochrome-c oxidase activity sodium arsenite 3,4-dihydroxyphenylethanol inhibits the reaction [sodium arsenite results in decreased cytochrome-c oxidase activity] 1: Rattus norvegicus Brain | Mitochondria
2 genes: COX1 | COX4
1
14. 3,4-dihydroxyphenylethanol dopamine catabolic process 2,4,5,2',4',5'-hexachlorobiphenyl [2,4,5,2',4',5'-hexachlorobiphenyl results in increased dopamine catabolic process] which results in increased abundance of 3,4-dihydroxyphenylethanol 1: Rattus norvegicus PC12 Cells   1
15. 4-hydroxyphenylethanol hexokinase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in decreased hexokinase activity] 1: Rattus norvegicus Liver   1
16. 4-hydroxyphenylethanol hexokinase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in decreased hexokinase activity] 1: Rattus norvegicus Kidney   1
17. 4-hydroxyphenylethanol phosphoenolpyruvate carboxykinase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in increased phosphoenolpyruvate carboxykinase activity] 1: Rattus norvegicus Liver   1
18. 4-hydroxyphenylethanol phosphoenolpyruvate carboxykinase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in increased phosphoenolpyruvate carboxykinase activity] 1: Rattus norvegicus Kidney   1
19. 4-hydroxyphenylethanol glycogen (starch) synthase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in decreased glycogen (starch) synthase activity] 1: Rattus norvegicus Liver   1
20. 4-hydroxyphenylethanol glycogen phosphorylase activity Streptozocin 4-hydroxyphenylethanol inhibits the reaction [Streptozocin results in increased glycogen phosphorylase activity] 1: Rattus norvegicus Liver   1
21. Ethanolamine regulation of metabolic process cyanoginosin LR [cyanoginosin LR affects regulation of metabolic process] which results in increased abundance of Ethanolamine 1: Mus musculus Liver   1
22. amosulalol regulation of blood pressure Phenylephrine amosulalol inhibits the reaction [Phenylephrine results in increased regulation of blood pressure] 1: Canis lupus familiaris Cardiovascular System   1
23. amosulalol regulation of heart rate Isoproterenol amosulalol inhibits the reaction [Isoproterenol results in increased regulation of heart rate] 1: Canis lupus familiaris Heart 1 gene: ADRB1 1
24. amosulalol regulation of heart rate amosulalol results in decreased regulation of heart rate 1: Canis lupus familiaris Heart 1 gene: ADRB1 1
25. amosulalol regulation of blood pressure amosulalol results in decreased regulation of blood pressure 1: Canis lupus familiaris Cardiovascular System   1
26. amosulalol vasodilation amosulalol results in increased vasodilation 1: Canis lupus familiaris Heart | Myocardium | Coronary Vessels   1
27. bitolterol regulation of heart rate bitolterol results in increased regulation of heart rate 1: Canis lupus familiaris Heart   1
28. BRL 37344 lipid catabolic process BRL 37344 results in increased lipid catabolic process 5: Canis lupus familiaris | Cavia porcellus | Homo sapiens | Mesocricetus auratus | Rattus norvegicus Adipocytes, White 1 gene: LPL 1
29. BRL 37344 lipid catabolic process BRL 37344 results in increased lipid catabolic process 1: Mus musculus Adipocytes, Brown | Cell Line 1 gene: LPL 1
30. BRL 37344 lipid catabolic process BRL 37344 results in increased lipid catabolic process 1: Mus musculus Adipocytes, White | Cell Line 1 gene: LPL 1
31. caffeic acid phenethyl ester membrane lipid catabolic process caffeic acid phenethyl ester results in decreased membrane lipid catabolic process 1: Rattus norvegicus Brain   1
32. caffeic acid phenethyl ester glutathione biosynthetic process Cadmium caffeic acid phenethyl ester inhibits the reaction [Cadmium results in decreased glutathione biosynthetic process] 1: Mus musculus Kidney 1 gene: GCLC 1
33. caffeic acid phenethyl ester positive regulation of reactive oxygen species metabolic process Hydrogen Peroxide caffeic acid phenethyl ester inhibits the reaction [Hydrogen Peroxide affects positive regulation of reactive oxygen species metabolic process] 1: Mus musculus Lung | Fibroblasts | Cell Line
9 genes: AKR1C3 | CDKN1A | IFNG | LEP | MAPK14 | NFE2L2 | NOX4 | PDGFRB | TP53
1
34. caffeic acid phenethyl ester positive regulation of reactive oxygen species metabolic process Bleomycin caffeic acid phenethyl ester inhibits the reaction [Bleomycin affects positive regulation of reactive oxygen species metabolic process] 1: Mus musculus Lung | Fibroblasts | Cell Line
9 genes: AKR1C3 | CDKN1A | IFNG | LEP | MAPK14 | NFE2L2 | NOX4 | PDGFRB | TP53
1
35. caffeic acid phenethyl ester positive regulation of cell proliferation Bleomycin caffeic acid phenethyl ester inhibits the reaction [Bleomycin affects positive regulation of cell proliferation] 1: Mus musculus Lung | Fibroblasts | Cell Line
42 genes: ADRA1D | AKR1C2 | AKR1C3 | ALDH1A2 | ARRB1 | CCND1 | CD86 | CDK2 | CDKN1B | CLDN7 | COL18A1 | CTNNB1 | CXCR3 | EDN1 | ETS1 | FASL | FGF15 | FGF7 | GDNF | IFNG | IL18 | IL1B | IL2 | IRS1 | JUN | LEP | NGF | NOG | NOTCH2 | PDGFRB | PRKACA | PTGS2 | PTK2 | RARA | RELA | RPS9 | RUNX2 | S100B | SPHK1 | STAT3 | TGFB2 | TNF
1
36. caffeic acid phenethyl ester positive regulation of reactive oxygen species metabolic process Bleomycin | NFE2L2 NFE2L2 protein affects the reaction [caffeic acid phenethyl ester inhibits the reaction [Bleomycin affects positive regulation of reactive oxygen species metabolic process]] 1: Mus musculus Lung | Fibroblasts | Cell Line
9 genes: AKR1C3 | CDKN1A | IFNG | LEP | MAPK14 | NFE2L2 | NOX4 | PDGFRB | TP53
1
37. caffeic acid phenethyl ester positive regulation of cell proliferation Bleomycin | NFE2L2 NFE2L2 protein affects the reaction [caffeic acid phenethyl ester inhibits the reaction [Bleomycin affects positive regulation of cell proliferation]] 1: Mus musculus Lung | Fibroblasts | Cell Line
42 genes: ADRA1D | AKR1C2 | AKR1C3 | ALDH1A2 | ARRB1 | CCND1 | CD86 | CDK2 | CDKN1B | CLDN7 | COL18A1 | CTNNB1 | CXCR3 | EDN1 | ETS1 | FASL | FGF15 | FGF7 | GDNF | IFNG | IL18 | IL1B | IL2 | IRS1 | JUN | LEP | NGF | NOG | NOTCH2 | PDGFRB | PRKACA | PTGS2 | PTK2 | RARA | RELA | RPS9 | RUNX2 | S100B | SPHK1 | STAT3 | TGFB2 | TNF
1
38. caffeic acid phenethyl ester reactive oxygen species metabolic process Particulate Matter caffeic acid phenethyl ester inhibits the reaction [Particulate Matter results in increased reactive oxygen species metabolic process] 1: Homo sapiens Ear, Middle | Epithelial Cells | Cells, Cultured
4 genes: CAT | CYBA | NOX4 | SOD1
1
39. caffeic acid phenethyl ester reactive oxygen species metabolic process Vehicle Emissions caffeic acid phenethyl ester inhibits the reaction [Vehicle Emissions results in increased reactive oxygen species metabolic process] 1: Homo sapiens Ear, Middle | Epithelial Cells | Cells, Cultured
4 genes: CAT | CYBA | NOX4 | SOD1
1
40. caffeic acid phenethyl ester cell proliferation Benzo(a)pyrene [Benzo(a)pyrene co-treated with caffeic acid phenethyl ester] results in decreased cell proliferation 1: Homo sapiens Lung | Epithelial Cells | Cell Line, Tumor
25 genes: ADRA1D | BAX | BCAR1 | CDK1 | CSPG4 | CTNNB1 | FOXC2 | GAS6 | GDNF | HDGF | IL12B | IL18 | IL1A | LGI1 | PROK2 | S100B | SERPINF1 | STAT3 | TGFB2 | TNF | TP53 | TYR | VTN | XRCC5 | ZFP37
1
41. caffeic acid phenethyl ester amyloid fibril formation TTR caffeic acid phenethyl ester inhibits the reaction [TTR protein results in increased amyloid fibril formation]   1 gene: CDKN2A 1
42. caffeic acid phenethyl ester positive regulation of cell death caffeic acid phenethyl ester results in increased positive regulation of cell death 1: Mus musculus Microglia | Cell Line
8 genes: AKR1C3 | CDKN1A | CDKN1B | DUSP6 | FAS | IL1B | MSX2 | PTGS2
1
43. caffeic acid phenethyl ester positive regulation of cell proliferation sodium arsenite caffeic acid phenethyl ester inhibits the reaction [sodium arsenite results in increased positive regulation of cell proliferation] 1: Homo sapiens Bone and Bones | Mesenchymal Stromal Cells | Cell Line, Tumor
42 genes: ADRA1D | AKR1C2 | AKR1C3 | ALDH1A2 | ARRB1 | CCND1 | CD86 | CDK2 | CDKN1B | CLDN7 | COL18A1 | CTNNB1 | CXCR3 | EDN1 | ETS1 | FASL | FGF15 | FGF7 | GDNF | IFNG | IL18 | IL1B | IL2 | IRS1 | JUN | LEP | NGF | NOG | NOTCH2 | PDGFRB | PRKACA | PTGS2 | PTK2 | RARA | RELA | RPS9 | RUNX2 | S100B | SPHK1 | STAT3 | TGFB2 | TNF
1
44. caffeic acid phenethyl ester positive regulation of NIK/NF-kappaB signaling 2-Acetylaminofluorene | Diethylnitrosamine caffeic acid phenethyl ester inhibits the reaction [[Diethylnitrosamine co-treated with 2-Acetylaminofluorene] results in increased positive regulation of NIK/NF-kappaB signaling] 1: Rattus norvegicus Liver
9 genes: CD14 | EDN1 | IL12B | IL18 | IL1B | RELA | SMPD3 | SPHK1 | TNF
1
45. caffeic acid phenethyl ester positive regulation of NIK/NF-kappaB signaling 2-Acetylaminofluorene | Diethylnitrosamine | RELA caffeic acid phenethyl ester inhibits the reaction [[[Diethylnitrosamine co-treated with 2-Acetylaminofluorene] results in increased positive regulation of NIK/NF-kappaB signaling] which affects the localization of RELA protein] 1: Rattus norvegicus Liver
9 genes: CD14 | EDN1 | IL12B | IL18 | IL1B | RELA | SMPD3 | SPHK1 | TNF
1
46. caffeic acid phenethyl ester positive regulation of NF-kappaB transcription factor activity 2-Acetylaminofluorene | Diethylnitrosamine caffeic acid phenethyl ester inhibits the reaction [[Diethylnitrosamine co-treated with 2-Acetylaminofluorene] results in increased positive regulation of NF-kappaB transcription factor activity] 1: Rattus norvegicus Liver
10 genes: CAT | CLOCK | IL18 | IL1B | NFKB1 | NFKB2 | RELA | SPHK1 | TNF | TNFSF11
1
47. caffeic acid phenethyl ester positive regulation of I-kappaB phosphorylation 2-Acetylaminofluorene | Diethylnitrosamine caffeic acid phenethyl ester inhibits the reaction [[Diethylnitrosamine co-treated with 2-Acetylaminofluorene] results in increased positive regulation of I-kappaB phosphorylation] 1: Rattus norvegicus Liver   1
48. caffeic acid phenethyl ester apoptotic process Dichlorvos caffeic acid phenethyl ester inhibits the reaction [Dichlorvos results in increased apoptotic process] 1: Rattus norvegicus Liver
42 genes: AHR | AIMP1 | ARRB1 | BAX | BIRC2 | BIRC3 | CASP1 | CASP3 | CASP8 | CD14 | CDK1 | CDKN2A | CXCR3 | CYCS | DDIT3 | FAS | FASL | GAS6 | HMOX1 | IFNG | IL1A | IL1B | ITPR1 | LALBA | MAPK14 | MFN2 | NFKB1 | NFKBIA | NGFR | NOTCH2 | OPA1 | PACS2 | PRKCE | RB1 | RHOB | TNF | TNFRSF10A | TNFRSF10B | TNFRSF11B | TP53 | VDAC1 | XIAP
1
49. caffeic acid phenethyl ester apoptotic process Dichlorvos | soybean oil, phospholipid emulsion [soybean oil, phospholipid emulsion co-treated with caffeic acid phenethyl ester] inhibits the reaction [Dichlorvos results in increased apoptotic process] 1: Rattus norvegicus Liver
42 genes: AHR | AIMP1 | ARRB1 | BAX | BIRC2 | BIRC3 | CASP1 | CASP3 | CASP8 | CD14 | CDK1 | CDKN2A | CXCR3 | CYCS | DDIT3 | FAS | FASL | GAS6 | HMOX1 | IFNG | IL1A | IL1B | ITPR1 | LALBA | MAPK14 | MFN2 | NFKB1 | NFKBIA | NGFR | NOTCH2 | OPA1 | PACS2 | PRKCE | RB1 | RHOB | TNF | TNFRSF10A | TNFRSF10B | TNFRSF11B | TP53 | VDAC1 | XIAP
1
50. caffeic acid phenethyl ester activation of protein kinase B activity Dexamethasone caffeic acid phenethyl ester inhibits the reaction [Dexamethasone results in increased activation of protein kinase B activity] 1: Rattus norvegicus Femur
2 genes: GAS6 | IL18
1
1–50 of 1,270 results.