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Chemical Oxysterols

1–50 of 162 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 22-hydroxycholesterol progesterone biosynthetic process 22-hydroxycholesterol results in increased progesterone biosynthetic process 1: Mus musculus Leydig Cells | Cell Line, Tumor   1
2. 22-hydroxycholesterol progesterone biosynthetic process Hydrocarbons, Chlorinated Hydrocarbons, Chlorinated inhibits the reaction [22-hydroxycholesterol results in increased progesterone biosynthetic process] 1: Mus musculus Leydig Cells | Cell Line, Tumor   1
3. 22-hydroxycholesterol drug metabolic process 22-hydroxycholesterol results in decreased drug metabolic process 1: Homo sapiens Placenta | Mitochondria   1
4. 22-hydroxycholesterol drug metabolic process 22-hydroxycholesterol results in decreased drug metabolic process 1: Bos taurus Adrenal Cortex | Mitochondria   1
5. 22-hydroxycholesterol drug metabolic process Ergocalciferols [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased metabolism of Ergocalciferols 1: Homo sapiens Placenta | Mitochondria   1
6. 22-hydroxycholesterol drug metabolic process Ergocalciferols [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased metabolism of Ergocalciferols 1: Bos taurus Adrenal Cortex | Mitochondria   1
7. 22-hydroxycholesterol drug metabolic process 20-hydroxyvitamin D2 [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased hydroxylation of 20-hydroxyvitamin D2 1: Homo sapiens Placenta | Mitochondria   1
8. 22-hydroxycholesterol drug metabolic process 20-hydroxyvitamin D2 [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased hydroxylation of 20-hydroxyvitamin D2 1: Bos taurus Adrenal Cortex | Mitochondria   1
9. 22-hydroxycholesterol drug metabolic process 1 alpha-hydroxyergocalciferol [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased hydroxylation of 1 alpha-hydroxyergocalciferol 1: Homo sapiens Placenta | Mitochondria   1
10. 22-hydroxycholesterol drug metabolic process 1 alpha-hydroxyergocalciferol [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased hydroxylation of 1 alpha-hydroxyergocalciferol 1: Bos taurus Adrenal Cortex | Mitochondria   1
11. 22-hydroxycholesterol drug metabolic process 17,20-dihydroxyvitamin D2 [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased chemical synthesis of 17,20-dihydroxyvitamin D2 1: Homo sapiens Placenta | Mitochondria   1
12. 22-hydroxycholesterol drug metabolic process 17,20-dihydroxyvitamin D2 [22-hydroxycholesterol results in decreased drug metabolic process] which results in decreased chemical synthesis of 17,20-dihydroxyvitamin D2 1: Bos taurus Adrenal Cortex | Mitochondria   1
13. 22-hydroxycholesterol positive regulation of cholesterol metabolic process 3,5-diethoxycarbonyl-1,4-dihydrocollidine [3,5-diethoxycarbonyl-1,4-dihydrocollidine results in increased positive regulation of cholesterol metabolic process] which results in increased abundance of 22-hydroxycholesterol 1: Mus musculus Liver | Multipotent Stem Cells   1
14. 22-hydroxycholesterol cholesterol efflux Alitretinoin | APOA1 [22-hydroxycholesterol co-treated with Alitretinoin] promotes the reaction [APOA1 protein results in increased cholesterol efflux] 2: Homo sapiens | Rattus norvegicus Fetus | Astrocytes | Cells, Cultured
3 genes: ABCA1 | ABCG1 | CAV1
1
15. 22-hydroxycholesterol cholesterol efflux Alitretinoin [22-hydroxycholesterol co-treated with Alitretinoin] results in increased cholesterol efflux 2: Homo sapiens | Rattus norvegicus Fetus | Astrocytes | Cells, Cultured
3 genes: ABCA1 | ABCG1 | CAV1
1
16. 22-hydroxycholesterol fatty acid transport 22-hydroxycholesterol results in increased fatty acid transport 1: Homo sapiens Hepatocytes | Cell Line   1
17. 22-hydroxycholesterol progesterone biosynthetic process 22-hydroxycholesterol results in increased progesterone biosynthetic process 1: Rattus norvegicus Granulosa Cells | Cells, Cultured   1
18. 22-hydroxycholesterol testosterone secretion 22-hydroxycholesterol results in increased testosterone secretion 1: Rattus norvegicus Leydig Cells | Cells, Cultured   1
19. 22-hydroxycholesterol positive regulation of progesterone biosynthetic process 4,4'-hexafluorisopropylidene diphenol 4,4'-hexafluorisopropylidene diphenol inhibits the reaction [22-hydroxycholesterol results in increased positive regulation of progesterone biosynthetic process] 1: Mus musculus Leydig Cells | Cell Line, Tumor   1
20. 22-hydroxycholesterol positive regulation of progesterone biosynthetic process 22-hydroxycholesterol results in increased positive regulation of progesterone biosynthetic process 1: Mus musculus Leydig Cells | Cell Line, Tumor   1
21. 24-hydroxycholesterol positive regulation of cholesterol efflux 2-Hydroxypropyl-beta-cyclodextrin [2-Hydroxypropyl-beta-cyclodextrin results in increased positive regulation of cholesterol efflux] which results in increased secretion of 24-hydroxycholesterol 1: Homo sapiens Neural Stem Cells | Cell Line, Tumor
3 genes: ABCA1 | ABCG1 | NR1H3
1
22. 24-hydroxycholesterol pericardium morphogenesis triphenyl phosphate 24-hydroxycholesterol inhibits the reaction [triphenyl phosphate results in increased pericardium morphogenesis] 1: Danio rerio Embryo, Nonmammalian | Pericardium   1
23. 25-hydroxycholesterol apoptotic process 25-hydroxycholesterol results in increased apoptotic process 1: Homo sapiens Muscle, Smooth, Vascular | Cells, Cultured
6 genes: CASP3 | CASP8 | CASP9 | FAS | IL1B | TNFSF15
1
24. 25-hydroxycholesterol cell proliferation 25-hydroxycholesterol results in decreased cell proliferation 1: Homo sapiens HL-60 Cells
2 genes: INSIG1 | STAT3
1
25. 25-hydroxycholesterol cell death 25-hydroxycholesterol results in increased cell death 1: Rattus norvegicus PC12 Cells 1 gene: CDKN1B 1
26. 25-hydroxycholesterol cell death quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside inhibits the reaction [25-hydroxycholesterol results in increased cell death] 1: Rattus norvegicus PC12 Cells 1 gene: CDKN1B 1
27. 25-hydroxycholesterol cell death 25-hydroxycholesterol results in increased cell death 1: Homo sapiens Bone Marrow | Cell Line, Tumor 1 gene: CDKN1B 1
28. 25-hydroxycholesterol cell death quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside inhibits the reaction [25-hydroxycholesterol results in increased cell death] 1: Homo sapiens Bone Marrow | Cell Line, Tumor 1 gene: CDKN1B 1
29. 25-hydroxycholesterol release of cytochrome c from mitochondria 25-hydroxycholesterol results in increased release of cytochrome c from mitochondria 1: Rattus norvegicus PC12 Cells   1
30. 25-hydroxycholesterol release of cytochrome c from mitochondria quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside quercetin 3-O-beta-(2''-galloyl)-rhamnopyranoside inhibits the reaction [25-hydroxycholesterol results in increased release of cytochrome c from mitochondria] 1: Rattus norvegicus PC12 Cells   1
31. 25-hydroxycholesterol release of cytochrome c from mitochondria Acetylcysteine Acetylcysteine inhibits the reaction [25-hydroxycholesterol results in increased release of cytochrome c from mitochondria] 1: Rattus norvegicus PC12 Cells   1
32. 25-hydroxycholesterol release of cytochrome c from mitochondria 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid inhibits the reaction [25-hydroxycholesterol results in increased release of cytochrome c from mitochondria] 1: Rattus norvegicus PC12 Cells   1
33. 25-hydroxycholesterol release of cytochrome c from mitochondria Ascorbic Acid Ascorbic Acid inhibits the reaction [25-hydroxycholesterol results in increased release of cytochrome c from mitochondria] 1: Rattus norvegicus PC12 Cells   1
34. 25-hydroxycholesterol positive regulation of cholesterol metabolic process 3,5-diethoxycarbonyl-1,4-dihydrocollidine [3,5-diethoxycarbonyl-1,4-dihydrocollidine results in increased positive regulation of cholesterol metabolic process] which results in increased abundance of 25-hydroxycholesterol 1: Mus musculus Liver | Multipotent Stem Cells   1
35. 27-hydroxycholesterol positive regulation of chemokine biosynthetic process 27-hydroxycholesterol affects positive regulation of chemokine biosynthetic process 1: Homo sapiens Monocytes | Cell Line 1 gene: IL1B 1
36. 27-hydroxycholesterol protein kinase B signaling 27-hydroxycholesterol affects protein kinase B signaling 1: Homo sapiens Monocytes | Cell Line
5 genes: CCL2 | CCL3 | IGF1 | IL1B | TGFB1
1
37. 27-hydroxycholesterol T-helper 1 cell chemotaxis 27-hydroxycholesterol affects T-helper 1 cell chemotaxis 1: Homo sapiens Jurkat Cells   1
38. 27-hydroxycholesterol endothelial tube morphogenesis VEGFA [27-hydroxycholesterol results in increased secretion of VEGFA protein] which results in increased endothelial tube morphogenesis 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
39. 27-hydroxycholesterol positive regulation of reactive oxygen species biosynthetic process 27-hydroxycholesterol results in increased positive regulation of reactive oxygen species biosynthetic process 1: Homo sapiens Human Umbilical Vein Endothelial Cells
3 genes: CD36 | GRIN1 | TLR4
1
40. 27-hydroxycholesterol endothelial tube morphogenesis STAT3 STAT3 protein promotes the reaction [27-hydroxycholesterol results in increased endothelial tube morphogenesis] 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
41. 27-hydroxycholesterol endothelial tube morphogenesis 27-hydroxycholesterol results in increased endothelial tube morphogenesis 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
42. 27-hydroxycholesterol positive regulation of reactive oxygen species biosynthetic process Acetylcysteine Acetylcysteine inhibits the reaction [27-hydroxycholesterol results in increased positive regulation of reactive oxygen species biosynthetic process] 1: Homo sapiens MCF-7 Cells
3 genes: CD36 | GRIN1 | TLR4
1
43. 27-hydroxycholesterol endothelial tube morphogenesis Acetylcysteine Acetylcysteine inhibits the reaction [27-hydroxycholesterol results in increased endothelial tube morphogenesis] 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
44. 27-hydroxycholesterol cholesterol biosynthetic process 27-hydroxycholesterol results in decreased cholesterol biosynthetic process 1: Rattus norvegicus Brain | Cell Line, Tumor
3 genes: APOA1 | CES1 | HMGCR
1
45. 27-hydroxycholesterol apoptotic process 27-hydroxycholesterol results in increased apoptotic process 1: Rattus norvegicus Brain | Cell Line, Tumor
6 genes: APP | E2F1 | ERBB4 | IL1B | MAPT | SNCA
1
46. 27-hydroxycholesterol cellular senescence 27-hydroxycholesterol results in increased cellular senescence 1: Rattus norvegicus PC12 Cells   1
47. 27-hydroxycholesterol cellular senescence 27-hydroxycholesterol results in increased cellular senescence 1: Mus musculus Microglia | Cell Line, Transformed   1
48. 27-hydroxycholesterol cell proliferation 27-hydroxycholesterol results in decreased cell proliferation 1: Mus musculus Microglia | Cell Line, Transformed
7 genes: ERBB4 | GSK3B | IGF1 | SRC | STAT3 | TGFB1 | VEGFA
1
49. 27-hydroxycholesterol reactive oxygen species biosynthetic process 27-hydroxycholesterol results in increased reactive oxygen species biosynthetic process 1: Mus musculus Microglia | Cell Line, Transformed   1
50. 27-hydroxycholesterol reactive oxygen species biosynthetic process Acetylcysteine Acetylcysteine inhibits the reaction [27-hydroxycholesterol results in increased reactive oxygen species biosynthetic process] 1: Mus musculus Microglia | Cell Line, Transformed   1
1–50 of 162 results.