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Chemical Tetrapyrroles

1–50 of 897 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride apoptotic process Hemin 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride inhibits the reaction [Hemin results in increased apoptotic process] 1: Mus musculus Cell Line | Cerebral Cortex | Microvessels
5 genes: BAX | BCL2 | CASP3 | HMOX1 | PARP1
1
2. 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride positive regulation of cell death Doxorubicin | rosiglitazone 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride inhibits the reaction [[Doxorubicin co-treated with rosiglitazone] results in increased positive regulation of cell death] 1: Homo sapiens Breast | Cell Line, Tumor 1 gene: HMGB1 1
3. 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride positive regulation of cell death docetaxel | rosiglitazone 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride inhibits the reaction [[docetaxel co-treated with rosiglitazone] results in increased positive regulation of cell death] 1: Homo sapiens Breast | Cell Line, Tumor 1 gene: HMGB1 1
4. 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride peptidyl-tyrosine modification Blood Glucose | Oxygen 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride inhibits the reaction [[Oxygen deficiency co-treated with Blood Glucose deficiency] results in increased peptidyl-tyrosine modification] 1: Rattus norvegicus Myocardium   1
5. 5,10,15,20-tetrakis(N-methyl-4'-pyridyl)porphyrinato-iron(III) peptidyl-tyrosine modification Mevinphos | Peroxynitrous Acid 5,10,15,20-tetrakis(N-methyl-4'-pyridyl)porphyrinato-iron(III) inhibits the reaction [Mevinphos promotes the reaction [Peroxynitrous Acid results in increased peptidyl-tyrosine modification]] 1: Rattus norvegicus Medulla Oblongata   1
6. 5,10,15,20-tetrakis(N-methyl-4'-pyridyl)porphyrinato-iron(III) neurological system process involved in regulation of systemic arterial blood pressure Mevinphos 5,10,15,20-tetrakis(N-methyl-4'-pyridyl)porphyrinato-iron(III) inhibits the reaction [Mevinphos affects neurological system process involved in regulation of systemic arterial blood pressure] 1: Rattus norvegicus Cardiovascular System   1
7. 5,15-diphenylporphyrin reactive oxygen species biosynthetic process Etoposide 5,15-diphenylporphyrin inhibits the reaction [Etoposide results in increased reactive oxygen species biosynthetic process] 1: Homo sapiens MCF-7 Cells   1
8. AEOL 10150 cell death Paraquat | TXNRD2 AEOL 10150 inhibits the reaction [TXNRD2 mutant form promotes the reaction [Paraquat results in increased cell death]] 1: Rattus norvegicus Dopaminergic Neurons | Cell Line   1
9. AEOL 10150 positive regulation of oxidative stress-induced neuron death Isoflurophate AEOL 10150 inhibits the reaction [Isoflurophate results in increased positive regulation of oxidative stress-induced neuron death] 1: Rattus norvegicus Piriform Cortex   1
10. AEOL 10150 positive regulation of oxidative stress-induced neuron death Isoflurophate AEOL 10150 inhibits the reaction [Isoflurophate results in increased positive regulation of oxidative stress-induced neuron death] 1: Rattus norvegicus Hippocampus   1
11. AEOL 10150 positive regulation of oxidative stress-induced neuron death Isoflurophate AEOL 10150 inhibits the reaction [Isoflurophate results in increased positive regulation of oxidative stress-induced neuron death] 1: Rattus norvegicus Amygdala   1
12. Bilirubin apoptotic process Streptozocin Bilirubin inhibits the reaction [Streptozocin results in increased apoptotic process] 1: Rattus norvegicus Insulin-Secreting Cells | Cell Line, Tumor
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
13. Bilirubin response to oxidative stress Streptozocin Bilirubin inhibits the reaction [Streptozocin results in increased response to oxidative stress] 1: Rattus norvegicus Insulin-Secreting Cells | Cell Line, Tumor
13 genes: ABCB11 | ABCC1 | ABCC2 | AKT1 | ALAD | BCL2L1 | CAT | DDIT3 | HMOX1 | HMOX2 | PON2 | SLC23A2 | SLC7A11
1
14. Bilirubin cell proliferation Bilirubin results in decreased cell proliferation 1: Rattus norvegicus Astrocytes | Cells, Cultured
13 genes: AKT1 | AREG | AXIN2 | BCL2L1 | CYP1A1 | GH1 | IL18 | LRP1 | MAPRE2 | MET | PDK1 | PTEN | TNF
1
15. Bilirubin apoptotic process Bilirubin results in increased apoptotic process 1: Rattus norvegicus Astrocytes | Cells, Cultured
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
16. Bilirubin apoptotic process Ursodeoxycholic Acid Ursodeoxycholic Acid inhibits the reaction [Bilirubin results in increased apoptotic process] 1: Rattus norvegicus Astrocytes | Cells, Cultured
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
17. Bilirubin apoptotic process Chenodeoxycholic Acid Chenodeoxycholic Acid promotes the reaction [Bilirubin results in increased apoptotic process] 1: Rattus norvegicus Astrocytes | Cells, Cultured
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
18. Bilirubin apoptotic process Bilirubin results in increased apoptotic process 1: Rattus norvegicus Neurons | Cells, Cultured
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
19. Bilirubin cell proliferation Bilirubin results in decreased cell proliferation 1: Rattus norvegicus Neurons | Cells, Cultured
13 genes: AKT1 | AREG | AXIN2 | BCL2L1 | CYP1A1 | GH1 | IL18 | LRP1 | MAPRE2 | MET | PDK1 | PTEN | TNF
1
20. Bilirubin apoptotic process Ursodeoxycholic Acid Ursodeoxycholic Acid inhibits the reaction [Bilirubin results in increased apoptotic process] 1: Rattus norvegicus Neurons | Cells, Cultured
22 genes: AHR | AKT1 | BCL2L1 | C1D | CASP3 | CHAC1 | CTSH | DDIT3 | EI24 | GADD45B | GSN | HMOX1 | IGFBP3 | IL1B | MAPK1 | MAPK3 | PARP1 | PTEN | RBM5 | TNF | TNFRSF19 | XBP1
1
21. Bilirubin reactive oxygen species metabolic process tert-Butylhydroperoxide Bilirubin analog inhibits the reaction [tert-Butylhydroperoxide results in increased reactive oxygen species metabolic process] 1: Rattus norvegicus Hepatocytes
6 genes: CAT | MET | NNT | PDGFB | PRDX4 | SESN1
1
22. Bilirubin membrane lipid catabolic process tert-Butylhydroperoxide Bilirubin analog inhibits the reaction [tert-Butylhydroperoxide results in increased membrane lipid catabolic process] 1: Rattus norvegicus Hepatocytes 1 gene: MGST2 1
23. Bilirubin cell proliferation Bilirubin results in decreased cell proliferation 1: Homo sapiens MCF-7 Cells
13 genes: AKT1 | AREG | AXIN2 | BCL2L1 | CYP1A1 | GH1 | IL18 | LRP1 | MAPRE2 | MET | PDK1 | PTEN | TNF
1
24. Bilirubin reactive oxygen species metabolic process Oxygen Bilirubin inhibits the reaction [Oxygen deficiency results in increased reactive oxygen species metabolic process] 1: Homo sapiens Placenta | Cell Line, Tumor
6 genes: CAT | MET | NNT | PDGFB | PRDX4 | SESN1
1
25. Bilirubin heme catabolic process zinc protoporphyrin [zinc protoporphyrin results in decreased heme catabolic process] which results in decreased abundance of Bilirubin 1: Rattus norvegicus Serum
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
26. Bilirubin heme catabolic process 2-tert-butylhydroquinone [2-tert-butylhydroquinone results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
27. Bilirubin heme catabolic process salvin [salvin results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
28. Bilirubin heme catabolic process carnosol [carnosol results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
29. Bilirubin heme catabolic process cobaltiprotoporphyrin [cobaltiprotoporphyrin results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
30. Bilirubin heme catabolic process Hemin [Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
31. Bilirubin heme catabolic process Curcumin | piperine [[Curcumin co-treated with piperine] results in increased heme catabolic process] which results in increased abundance of Bilirubin 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
32. Bilirubin heme catabolic process 2-tert-butylhydroquinone | Hemin 2-tert-butylhydroquinone promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
33. Bilirubin heme catabolic process Hemin | salvin salvin promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
34. Bilirubin heme catabolic process carnosol | Hemin carnosol promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
35. Bilirubin heme catabolic process cobaltiprotoporphyrin | Hemin cobaltiprotoporphyrin promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
36. Bilirubin heme catabolic process 2,2'-dihydroxychalcone | Hemin 2,2'-dihydroxychalcone promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
37. Bilirubin heme catabolic process Curcumin | Hemin | piperine [Curcumin co-treated with piperine] promotes the reaction [[Hemin results in increased heme catabolic process] which results in increased abundance of Bilirubin] 1: Mus musculus Microglia | Cell Line
4 genes: BLVRA | HMOX1 | HMOX2 | UGT1A1
1
38. Bilirubin bilirubin transport Cholates | Cholesterol, Dietary | cocoa butter [[cocoa butter co-treated with Cholesterol, Dietary co-treated with Cholates] results in increased bilirubin transport] which results in increased abundance of Bilirubin 1: Rattus norvegicus Plasma 1 gene: ABCC2 1
39. Bilirubin reactive oxygen species biosynthetic process cobaltous chloride Bilirubin inhibits the reaction [cobaltous chloride results in increased reactive oxygen species biosynthetic process] 1: Homo sapiens Human Umbilical Vein Endothelial Cells   1
40. Bilirubin bilirubin transport barium chloride | Plant Extracts Plant Extracts inhibits the reaction [[barium chloride results in increased bilirubin transport] which results in increased secretion of Bilirubin] 1: Rattus norvegicus Plasma 1 gene: ABCC2 1
41. Bilirubin bilirubin transport barium chloride [barium chloride results in increased bilirubin transport] which results in increased secretion of Bilirubin 1: Rattus norvegicus Plasma 1 gene: ABCC2 1
42. Bilirubin bilirubin transport Taurine [Taurine results in decreased bilirubin transport] which results in decreased abundance of Bilirubin 1: Rattus norvegicus Serum 1 gene: ABCC2 1
43. Bilirubin bilirubin transport Taurine | Zinc Acetate [[Taurine co-treated with Zinc Acetate] results in decreased bilirubin transport] which results in decreased abundance of Bilirubin 1: Rattus norvegicus Serum 1 gene: ABCC2 1
44. Bilirubin bilirubin transport poly(N-vinylpyrrolidine) | Taurine | Zinc [[[Taurine binds to Zinc] which co-treated with poly(N-vinylpyrrolidine)] results in decreased bilirubin transport] which results in decreased abundance of Bilirubin 1: Rattus norvegicus Serum 1 gene: ABCC2 1
45. Bilirubin glutathione biosynthetic process Ethanol Bilirubin affects the reaction [Ethanol results in decreased glutathione biosynthetic process] 1: Rattus norvegicus Hepatocytes | Cells, Cultured
2 genes: CHAC1 | MGST2
1
46. Bilirubin superoxide dismutase activity Ethanol Bilirubin affects the reaction [Ethanol results in decreased superoxide dismutase activity] 1: Rattus norvegicus Hepatocytes | Cells, Cultured   1
47. Bilirubin lipid catabolic process Ethanol Bilirubin affects the reaction [Ethanol results in increased lipid catabolic process] 1: Rattus norvegicus Hepatocytes | Cells, Cultured 1 gene: PLA1A 1
48. Bilirubin reactive oxygen species biosynthetic process Ethanol Bilirubin affects the reaction [Ethanol results in increased reactive oxygen species biosynthetic process] 1: Rattus norvegicus Hepatocytes | Cells, Cultured   1
49. Bilirubin glutathione biosynthetic process Ethanol | IL6 | TNF Bilirubin inhibits the reaction [[IL6 protein co-treated with TNF protein] promotes the reaction [Ethanol results in decreased glutathione biosynthetic process]] 1: Rattus norvegicus Hepatocytes | Cells, Cultured
2 genes: CHAC1 | MGST2
1
50. Bilirubin superoxide dismutase activity Ethanol | IL6 | TNF Bilirubin inhibits the reaction [[IL6 protein co-treated with TNF protein] promotes the reaction [Ethanol results in decreased superoxide dismutase activity]] 1: Rattus norvegicus Hepatocytes | Cells, Cultured   1
1–50 of 897 results.