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Chemical Phytosterols

1–50 of 84 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. coagulin-L positive regulation of p38MAPK cascade Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of p38MAPK cascade] 1: Mus musculus Aorta 1 gene: IL1B 1
2. coagulin-L positive regulation of p38MAPK cascade Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of p38MAPK cascade] 1: Mus musculus Macrophages | Cell Line 1 gene: IL1B 1
3. coagulin-L positive regulation of nitric oxide biosynthetic process Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of nitric oxide biosynthetic process] 1: Mus musculus Macrophages | Cell Line
6 genes: IFNG | IL1B | IL6 | MAPK9 | TLR4 | TNF
1
4. coagulin-L positive regulation of nitric oxide biosynthetic process Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of nitric oxide biosynthetic process] 1: Mus musculus Plasma
6 genes: IFNG | IL1B | IL6 | MAPK9 | TLR4 | TNF
1
5. coagulin-L positive regulation of reactive oxygen species biosynthetic process Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of reactive oxygen species biosynthetic process] 1: Mus musculus Macrophages | Cell Line | Mitochondria
2 genes: IL4 | TLR4
1
6. coagulin-L protein oxidation Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased protein oxidation] 1: Mus musculus Plasma   1
7. coagulin-L lipid oxidation Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased lipid oxidation] 1: Mus musculus Plasma   1
8. coagulin-L lipid oxidation 8-epi-prostaglandin F2alpha | Lipopolysaccharides coagulin-L inhibits the reaction [[Lipopolysaccharides results in increased lipid oxidation] which results in increased abundance of 8-epi-prostaglandin F2alpha] 1: Mus musculus Plasma   1
9. coagulin-L lipid oxidation Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased lipid oxidation] 1: Mus musculus Liver   1
10. coagulin-L lipid oxidation Lipid Peroxides | Lipopolysaccharides coagulin-L inhibits the reaction [[Lipopolysaccharides results in increased lipid oxidation] which results in increased abundance of Lipid Peroxides] 1: Mus musculus Liver   1
11. coagulin-L DNA modification Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased DNA modification] 1: Mus musculus Liver   1
12. coagulin-L DNA modification 8-oxo-7-hydrodeoxyguanosine | Lipopolysaccharides coagulin-L inhibits the reaction [[Lipopolysaccharides results in increased DNA modification] which results in increased abundance of 8-oxo-7-hydrodeoxyguanosine] 1: Mus musculus Liver   1
13. coagulin-L positive regulation of toll-like receptor 4 signaling pathway Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in increased positive regulation of toll-like receptor 4 signaling pathway] 1: Mus musculus Macrophages | Cell Line   1
14. coagulin-L positive regulation of vasoconstriction Acetylcholine | Lipopolysaccharides | Phenylephrine coagulin-L inhibits the reaction [Lipopolysaccharides inhibits the reaction [Acetylcholine inhibits the reaction [Phenylephrine results in increased positive regulation of vasoconstriction]]] 1: Mus musculus Aorta   1
15. coagulin-L response to acetylcholine Lipopolysaccharides coagulin-L inhibits the reaction [Lipopolysaccharides results in decreased response to acetylcholine] 1: Mus musculus Aorta   1
16. fucosterol growth involved in heart morphogenesis fucosterol results in decreased growth involved in heart morphogenesis 1: Danio rerio Heart   1
17. fucosterol embryonic body morphogenesis fucosterol affects embryonic body morphogenesis 1: Danio rerio Body Regions   1
18. fucosterol embryonic body morphogenesis bisphenol A | Diethylhexyl Phthalate | nonylphenol [bisphenol A co-treated with Diethylhexyl Phthalate co-treated with nonylphenol co-treated with fucosterol] affects embryonic body morphogenesis 1: Danio rerio Body Regions   1
19. fucosterol head morphogenesis bisphenol A | Diethylhexyl Phthalate | nonylphenol [bisphenol A co-treated with Diethylhexyl Phthalate co-treated with nonylphenol co-treated with fucosterol] affects head morphogenesis 1: Danio rerio Head   1
20. nymphayol positive regulation of insulin secretion involved in cellular response to glucose stimulus nymphayol results in increased positive regulation of insulin secretion involved in cellular response to glucose stimulus 1: Rattus norvegicus Insulin-Secreting Cells | Cell Line, Tumor   1
21. nymphayol positive regulation of glucose import nymphayol results in increased positive regulation of glucose import 1: Rattus norvegicus Muscle, Skeletal | Muscle Cells | Cell Line 1 gene: IRS1 1
22. nymphayol positive regulation of glycogen metabolic process nymphayol results in increased positive regulation of glycogen metabolic process 1: Rattus norvegicus Liver   1
23. nymphayol positive regulation of glycolytic process nymphayol results in increased positive regulation of glycolytic process 1: Rattus norvegicus Liver   1
24. nymphayol lipid oxidation Ethanol nymphayol inhibits the reaction [Ethanol results in increased lipid oxidation] 1: Rattus norvegicus Stomach   1
25. nymphayol positive regulation of prostaglandin biosynthetic process Ethanol nymphayol inhibits the reaction [Ethanol results in decreased positive regulation of prostaglandin biosynthetic process] 1: Rattus norvegicus Stomach   1
26. nymphayol positive regulation of superoxide dismutase activity Ethanol nymphayol inhibits the reaction [Ethanol results in decreased positive regulation of superoxide dismutase activity] 1: Rattus norvegicus Stomach 1 gene: TNF 1
27. nymphayol positive regulation of glutathione peroxidase activity Ethanol nymphayol inhibits the reaction [Ethanol results in decreased positive regulation of glutathione peroxidase activity] 1: Rattus norvegicus Stomach   1
28. Sitosterols cholesterol homeostasis Sitosterols affects cholesterol homeostasis 1: Homo sapiens Serum   1
29. Sitosterols cholesterol homeostasis Cholesterol, LDL [Sitosterols affects cholesterol homeostasis] which results in decreased abundance of Cholesterol, LDL 1: Homo sapiens Serum   1
30. Stigmasterol positive regulation of inflammatory response Stigmasterol affects positive regulation of inflammatory response 1: Homo sapiens Caco-2 Cells 1 gene: TNF 1
31. Stigmasterol cellular calcium ion homeostasis Stigmasterol affects cellular calcium ion homeostasis 1: Homo sapiens Caco-2 Cells   1
32. Stigmasterol regulation of cholesterol metabolic process Calcium [Stigmasterol affects the abundance of Calcium] which affects regulation of cholesterol metabolic process 1: Homo sapiens Caco-2 Cells 1 gene: NR1H4 1
33. Stigmasterol positive regulation of tumor necrosis factor production Stigmasterol affects positive regulation of tumor necrosis factor production 1: Homo sapiens Caco-2 Cells   1
34. Stigmasterol positive regulation of interleukin-8 secretion Stigmasterol affects positive regulation of interleukin-8 secretion 1: Homo sapiens Caco-2 Cells   1
35. Stigmasterol positive regulation of interleukin-10 secretion Stigmasterol affects positive regulation of interleukin-10 secretion 1: Homo sapiens Caco-2 Cells   1
36. Stigmasterol negative regulation of mitochondrial membrane potential Stigmasterol affects negative regulation of mitochondrial membrane potential 1: Homo sapiens Caco-2 Cells   1
37. Stigmasterol negative regulation of mitochondrial membrane potential KNG1 KNG1 protein modified form promotes the reaction [Stigmasterol affects negative regulation of mitochondrial membrane potential] 1: Homo sapiens Caco-2 Cells   1
38. Stigmasterol negative regulation of mitochondrial membrane potential Rotenone Rotenone promotes the reaction [Stigmasterol affects negative regulation of mitochondrial membrane potential] 1: Homo sapiens Caco-2 Cells   1
39. Stigmasterol negative regulation of mitochondrial membrane potential Oligomycins Oligomycins promotes the reaction [Stigmasterol affects negative regulation of mitochondrial membrane potential] 1: Homo sapiens Caco-2 Cells   1
40. Stigmasterol male germ-line stem cell population maintenance Stigmasterol results in decreased male germ-line stem cell population maintenance 1: Mus musculus Seminiferous Tubules   1
41. Stigmasterol Sertoli cell development GW 4064 Stigmasterol inhibits the reaction [GW 4064 results in increased Sertoli cell development] 1: Mus musculus Seminiferous Tubules
2 genes: ESR1 | FSHR
1
42. Stigmasterol Sertoli cell development bisphenol A [bisphenol A co-treated with Stigmasterol] results in increased Sertoli cell development 1: Mus musculus Seminiferous Tubules
2 genes: ESR1 | FSHR
1
43. Stigmasterol male germ-line stem cell population maintenance bisphenol A [bisphenol A co-treated with Stigmasterol] results in increased male germ-line stem cell population maintenance 1: Homo sapiens Testis   1
44. Stigmasterol Sertoli cell proliferation bisphenol A [bisphenol A co-treated with Stigmasterol] results in decreased Sertoli cell proliferation 1: Homo sapiens Testis
2 genes: ESR1 | FSHR
1
45. Stigmasterol spermatocyte division bisphenol A [bisphenol A co-treated with Stigmasterol] results in decreased spermatocyte division 1: Mus musculus Testis   1
46. Stigmasterol spermatid development bisphenol A [bisphenol A co-treated with Stigmasterol] results in decreased spermatid development 1: Mus musculus Epididymis 1 gene: FSHR 1
47. Stigmasterol Sertoli cell proliferation bisphenol A [bisphenol A co-treated with Stigmasterol] affects Sertoli cell proliferation 1: Mus musculus Seminiferous Tubules
2 genes: ESR1 | FSHR
1
48. Stigmasterol male germ-line stem cell population maintenance bisphenol A [bisphenol A co-treated with Stigmasterol] affects male germ-line stem cell population maintenance 1: Mus musculus Seminiferous Tubules   1
49. Stigmasterol Sertoli cell proliferation NR1H4 [NR1H4 gene mutant form affects the susceptibility to Stigmasterol] which results in increased Sertoli cell proliferation 1: Mus musculus Testis
2 genes: ESR1 | FSHR
1
50. Stigmasterol male germ-line stem cell population maintenance NR1H4 NR1H4 gene mutant form inhibits the reaction [Stigmasterol results in decreased male germ-line stem cell population maintenance] 1: Mus musculus Seminiferous Tubules   1
1–50 of 84 results.