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Chemical Sulfhydryl Compounds

1–50 of 505 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. 2,3-dimercaptosuccinic acid monocyclohexyl ester reactive oxygen species metabolic process sodium arsenite 2,3-dimercaptosuccinic acid monocyclohexyl ester inhibits the reaction [sodium arsenite results in increased reactive oxygen species metabolic process] 1: Cavia Brain 1 gene: BCL2 1
4. 2,3-dimercaptosuccinic acid monocyclohexyl ester regulation of mitochondrial membrane potential sodium arsenite 2,3-dimercaptosuccinic acid monocyclohexyl ester inhibits the reaction [sodium arsenite affects regulation of mitochondrial membrane potential] 1: Cavia Brain
2 genes: BAX | BCL2
1
5. 2,3-dimercaptosuccinic acid monocyclohexyl ester regulation of mitochondrial membrane potential sodium arsenite | Succimer Succimer promotes the reaction [2,3-dimercaptosuccinic acid monocyclohexyl ester inhibits the reaction [sodium arsenite affects regulation of mitochondrial membrane potential]] 1: Cavia Brain
2 genes: BAX | BCL2
1
6. 2,3-dimercaptosuccinic acid monocyclohexyl ester reactive oxygen species metabolic process sodium arsenite 2,3-dimercaptosuccinic acid monocyclohexyl ester inhibits the reaction [sodium arsenite results in increased reactive oxygen species metabolic process] 1: Cavia Brain | Neurons | Cells, Cultured 1 gene: BCL2 1
7. 2,3-dimercaptosuccinic acid monocyclohexyl ester reactive oxygen species metabolic process sodium arsenite | Succimer Succimer promotes the reaction [2,3-dimercaptosuccinic acid monocyclohexyl ester inhibits the reaction [sodium arsenite results in increased reactive oxygen species metabolic process]] 1: Cavia Brain | Neurons | Cells, Cultured 1 gene: BCL2 1
8. 2,3-dimercaptosuccinic acid monocyclohexyl ester reactive oxygen species metabolic process sodium arsenite | Succimer 2,3-dimercaptosuccinic acid monocyclohexyl ester promotes the reaction [Succimer inhibits the reaction [sodium arsenite results in increased reactive oxygen species metabolic process]] 1: Cavia Brain | Neurons | Cells, Cultured 1 gene: BCL2 1
9. 2-mercaptopurine apoptotic process 2-mercaptopurine results in increased apoptotic process 1: Mus musculus Spleen | B-Lymphocytes   1
10. 2-mercaptopurine cell proliferation 2-mercaptopurine results in decreased cell proliferation 1: Mus musculus Spleen | B-Lymphocytes   1
11. 2-thiomalic acid response to oxidative stress tert-Butylhydroperoxide 2-thiomalic acid promotes the reaction [tert-Butylhydroperoxide results in increased response to oxidative stress] 1: Rattus norvegicus Testis 1 gene: GPX1 1
12. 2-thiomalic acid apoptotic process arsenic trioxide [2-thiomalic acid co-treated with arsenic trioxide] results in increased apoptotic process 1: Homo sapiens Bone Marrow | Cell Line, Tumor 1 gene: GPX1 1
13. 2-thiomalic acid apoptotic process arsenic trioxide [2-thiomalic acid co-treated with arsenic trioxide] results in increased apoptotic process 1: Homo sapiens HL-60 Cells 1 gene: GPX1 1
14. 2-thiomalic acid apoptotic process arsenic trioxide [2-thiomalic acid co-treated with arsenic trioxide] results in increased apoptotic process 1: Homo sapiens U937 Cells 1 gene: GPX1 1
15. 2-thiomalic acid reactive oxygen species metabolic process Sodium Selenite 2-thiomalic acid inhibits the reaction [Sodium Selenite results in increased reactive oxygen species metabolic process] 1: Rattus norvegicus Liver   1
16. 2-thiomalic acid positive regulation of cell death 3-chloro-4-hydroxyaniline 2-thiomalic acid inhibits the reaction [3-chloro-4-hydroxyaniline results in increased positive regulation of cell death] 1: Rattus norvegicus Kidney Cortex | Cells, Cultured   1
17. 2-thiomalic acid membrane organization 3,5-dichloroaniline 2-thiomalic acid inhibits the reaction [3,5-dichloroaniline results in decreased membrane organization] 1: Rattus norvegicus Kidney Cortex | Cells, Cultured   1
18. 3,4-dimercaptotoluene histamine secretion mediated by immunoglobulin Deferoxamine 3,4-dimercaptotoluene inhibits the reaction [Deferoxamine results in increased histamine secretion mediated by immunoglobulin] 1: Rattus norvegicus Peritoneum | Mast Cells   1
19. 3-tritylthio-L-alanine mitotic cell cycle arrest 3-tritylthio-L-alanine results in increased mitotic cell cycle arrest 1: Homo sapiens HeLa Cells   1
20. 3-tritylthio-L-alanine apoptotic process 3-tritylthio-L-alanine results in increased apoptotic process 1: Homo sapiens HeLa Cells   1
21. acetaminophen cysteine protein modification process Acetaminophen [Acetaminophen results in increased protein modification process] which results in increased abundance of acetaminophen cysteine 1: Mus musculus Liver   1
22. acetaminophen-cysteine conjugate peptidyl-cysteine modification Acetaminophen [Acetaminophen results in increased peptidyl-cysteine modification] which results in increased abundance of acetaminophen-cysteine conjugate 1: Mus musculus Liver   2
23. acetaminophen-cysteine conjugate peptidyl-cysteine modification Acetaminophen | OGT OGT gene mutant form inhibits the reaction [[Acetaminophen results in increased peptidyl-cysteine modification] which results in increased abundance of acetaminophen-cysteine conjugate] 1: Mus musculus Liver   1
24. Cysteamine lipid catabolic process Iron Cysteamine inhibits the reaction [Iron results in increased lipid catabolic process] 1: Sus scrofa Stomach   1
25. Cysteine membrane lipid catabolic process potassium bromate Cysteine inhibits the reaction [potassium bromate results in increased membrane lipid catabolic process] 1: Rattus norvegicus Kidney   1
26. Cysteine regulation of organ growth potassium bromate Cysteine inhibits the reaction [potassium bromate results in increased regulation of organ growth] 1: Rattus norvegicus Kidney   1
27. Cysteine apoptotic process Vitamin K 3 Cysteine inhibits the reaction [Vitamin K 3 results in increased apoptotic process] 1: Mus musculus Thigh | Muscles | Cells, Cultured
9 genes: AKT1 | HMOX1 | MAPK1 | MAPK14 | MAPK3 | NFKBIA | RB1 | TGFBR2 | TNF
1
28. Cysteine membrane lipid catabolic process Vitamin K 3 Cysteine inhibits the reaction [Vitamin K 3 results in increased membrane lipid catabolic process] 1: Mus musculus Thigh | Muscles | Cells, Cultured   1
29. Cysteine membrane lipid catabolic process Endrin Cysteine inhibits the reaction [Endrin results in increased membrane lipid catabolic process] 1: Rattus norvegicus     1
30. Cysteine membrane lipid catabolic process Vitamin K 3 Cysteine inhibits the reaction [Vitamin K 3 results in increased membrane lipid catabolic process] 1: Rattus norvegicus Myocytes, Cardiac | Cells, Cultured   1
31. Cysteine cell death Cysteine results in decreased cell death 1: Rattus norvegicus Cerebral Cortex | Neurons | Cells, Cultured
3 genes: CDKN1B | HMOX1 | TGFB2
1
32. Cysteine leukocyte chemotaxis benoxaprofen Cysteine inhibits the reaction [benoxaprofen results in decreased leukocyte chemotaxis] 1: Homo sapiens Neutrophils   1
33. Cysteine oxidation-reduction process benoxaprofen Cysteine inhibits the reaction [benoxaprofen affects oxidation-reduction process] 1: Homo sapiens Neutrophils
10 genes: CAT | CBS | CDO1 | CYP1A1 | HMOX1 | LPO | MPO | NOS2 | SOD2 | TXNRD1
1
34. Cysteine apoptotic process Spermine Cysteine inhibits the reaction [Spermine results in increased apoptotic process] 1: Rattus norvegicus Brain | Microglia | Cells, Cultured
9 genes: AKT1 | HMOX1 | MAPK1 | MAPK14 | MAPK3 | NFKBIA | RB1 | TGFBR2 | TNF
1
35. Cysteine regulation of blood pressure Histamine Cysteine affects the reaction [Histamine results in decreased regulation of blood pressure] 1: Canis lupus familiaris Blood Vessels
4 genes: ACTA2 | HMOX1 | NOS2 | SOD2
1
36. Cysteine membrane lipid catabolic process NADP Cysteine inhibits the reaction [NADP results in increased membrane lipid catabolic process] 1: Rattus norvegicus Microsomes, Liver   1
37. Cysteine membrane lipid catabolic process Ethanol Cysteine inhibits the reaction [Ethanol results in increased membrane lipid catabolic process] 1: Rattus norvegicus Microsomes, Liver   1
38. Cysteine membrane lipid catabolic process Hydrogen Peroxide Cysteine inhibits the reaction [Hydrogen Peroxide results in increased membrane lipid catabolic process] 1: Rattus norvegicus Microsomes, Liver   1
39. Cysteine cell proliferation Tosylphenylalanyl Chloromethyl Ketone Cysteine inhibits the reaction [Tosylphenylalanyl Chloromethyl Ketone results in decreased cell proliferation] 1: Homo sapiens Jurkat Cells
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
40. Cysteine apoptotic process Tosylphenylalanyl Chloromethyl Ketone Cysteine inhibits the reaction [Tosylphenylalanyl Chloromethyl Ketone results in increased apoptotic process] 1: Homo sapiens Jurkat Cells
9 genes: AKT1 | HMOX1 | MAPK1 | MAPK14 | MAPK3 | NFKBIA | RB1 | TGFBR2 | TNF
1
41. Cysteine cell proliferation Tosylphenylalanyl Chloromethyl Ketone Cysteine inhibits the reaction [Tosylphenylalanyl Chloromethyl Ketone results in decreased cell proliferation] T-Lymphocytes | Cell Line, Transformed
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
42. Cysteine apoptotic process Tosylphenylalanyl Chloromethyl Ketone Cysteine inhibits the reaction [Tosylphenylalanyl Chloromethyl Ketone results in increased apoptotic process] T-Lymphocytes | Cell Line, Transformed
9 genes: AKT1 | HMOX1 | MAPK1 | MAPK14 | MAPK3 | NFKBIA | RB1 | TGFBR2 | TNF
1
43. Cysteine apoptotic process Tosylphenylalanyl Chloromethyl Ketone Cysteine inhibits the reaction [Tosylphenylalanyl Chloromethyl Ketone results in increased apoptotic process] 1: Homo sapiens B-Lymphocytes | Cell Line, Transformed
9 genes: AKT1 | HMOX1 | MAPK1 | MAPK14 | MAPK3 | NFKBIA | RB1 | TGFBR2 | TNF
1
44. Cysteine cell proliferation Buthionine Sulfoximine Cysteine inhibits the reaction [Buthionine Sulfoximine results in decreased cell proliferation] T-Lymphocytes
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
45. Cysteine cell proliferation Buthionine Sulfoximine [Buthionine Sulfoximine results in decreased cell proliferation] which results in decreased abundance of Cysteine T-Lymphocytes
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
46. Cysteine cell proliferation Acetylcysteine | Buthionine Sulfoximine Acetylcysteine inhibits the reaction [[Buthionine Sulfoximine results in decreased cell proliferation] which results in decreased abundance of Cysteine] T-Lymphocytes
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
47. Cysteine cell proliferation Buthionine Sulfoximine Cysteine inhibits the reaction [[Buthionine Sulfoximine results in decreased cell proliferation] which results in decreased abundance of Cysteine] T-Lymphocytes
7 genes: AKT1 | CYP1A1 | PCNA | TGFB1 | TGFB2 | TNF | TXNRD1
1
48. Cysteine cell death Cysteine results in decreased cell death 1: Homo sapiens Lung | Fibroblasts | Cells, Cultured
3 genes: CDKN1B | HMOX1 | TGFB2
1
49. Cysteine membrane lipid catabolic process Cysteine results in increased membrane lipid catabolic process     1
50. Cysteine membrane lipid catabolic process Melatonin Melatonin inhibits the reaction [Cysteine results in increased membrane lipid catabolic process]     1
1–50 of 505 results.