GENE - CHEMICAL INTERACTIONS REPORT
Note: Use of the qualifier "multiple interactions" designates that the annotated interaction
is comprised of a complex set of reactions and/or regulatory events, possibly involving
additional chemicals and/or gene products.
Object Symbol | Qualifier | Evidence | With | Reference | Source | Notes | Original Reference(s) | Por | increases metabolic processing | EXP | | 6480464 | CTD | [POR protein results in increased metabolism of Diquat] which results in increased metabolism of NADP | PMID:21215309 | Por | multiple interactions | EXP | | 6480464 | CTD | diphenyleneiodonium inhibits the reaction [[POR protein results in increased metabolism of Diquat] which results in increased metabolism of NADP] | PMID:21215309 | Por | increases metabolic processing | ISO | POR (Homo sapiens) | 6480464 | CTD | [POR protein results in increased metabolism of Diquat] which results in increased metabolism of NADP; [POR protein results in increased metabolism of Paraquat] which results in increased metabolism of NADP | PMID:21215309 | Por | multiple interactions | ISO | Por (Rattus norvegicus) | 6480464 | CTD | NADP affects the reaction [POR protein affects the metabolism of Nitrofurantoin]; NADP promotes the reaction [POR protein results in increased reduction of Vitamin K 3] | PMID:18206659 PMID:27558805 | Por | multiple interactions | ISO | POR (Homo sapiens) | 6480464 | CTD | [CYB5A protein co-treated with Heme] promotes the reaction [[CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 12-hydroxyellipticine]; [CYB5A protein co-treated with Heme] promotes the reaction [[CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 13-hydroxyellipticine]; [CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 12-hydroxyellipticine; [CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 13-hydroxyellipticine; [CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 7-hydroxyellipticine; [CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 9-hydroxyellipticine; [CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased oxidation of ellipticine; [NADP co-treated with CYP1A2 protein co-treated with CYP2C8 protein co-treated with CYP2C9 protein co-treated with CYP2C19 protein co-treated with CYP2D6 protein co-treated with CYP3A4 protein co-treated with POR protein] results in increased metabolism of 1-(3-(4-phenoxyphenoxy)-2-oxopropyl)indole-5-carboxylic acid; [POR protein co-treated with NADP] results in increased activity of and results in increased reduction of 3-nitrobenzanthrone; [POR protein co-treated with NADP] results in increased chemical synthesis of Hydrogen Peroxide; CYB5A protein promotes the reaction [[CYP3A4 protein co-treated with POR protein co-treated with NADP] results in increased chemical synthesis of 13-hydroxyellipticine]; diphenyleneiodonium inhibits the reaction [[POR protein results in increased metabolism of Diquat] which results in increased metabolism of NADP]; diphenyleneiodonium inhibits the reaction [[POR protein results in increased metabolism of Paraquat] which results in increased metabolism of NADP]; Ketoconazole affects the reaction [[NADP co-treated with CYP1A2 protein co-treated with CYP2C8 protein co-treated with CYP2C9 protein co-treated with CYP2C19 protein co-treated with CYP2D6 protein co-treated with CYP3A4 protein co-treated with POR protein] results in increased metabolism of 1-(3-(4-phenoxyphenoxy)-2-oxopropyl)indole-5-carboxylic acid]; NADP promotes the reaction [[POR protein results in increased metabolism of Diquat] which results in increased metabolism of Oxygen]; NADP promotes the reaction [[POR protein results in increased metabolism of Paraquat] which results in increased metabolism of Oxygen]; Quercetin inhibits the reaction [[NADP co-treated with CYP1A2 protein co-treated with CYP2C8 protein co-treated with CYP2C9 protein co-treated with CYP2C19 protein co-treated with CYP2D6 protein co-treated with CYP3A4 protein co-treated with POR protein] results in increased metabolism of 1-(3-(4-phenoxyphenoxy)-2-oxopropyl)indole-5-carboxylic acid]; Thioctic Acid inhibits the reaction [[NADP co-treated with CYP1A2 protein co-treated with CYP2C8 protein co-treated with CYP2C9 protein co-treated with CYP2C19 protein co-treated with CYP2D6 protein co-treated with CYP3A4 protein co-treated with POR protein] results in increased metabolism of 1-(3-(4-phenoxyphenoxy)-2-oxopropyl)indole-5-carboxylic acid]; Tranylcypromine affects the reaction [[NADP co-treated with CYP1A2 protein co-treated with CYP2C8 protein co-treated with CYP2C9 protein co-treated with CYP2C19 protein co-treated with CYP2D6 protein co-treated with CYP3A4 protein co-treated with POR protein] results in increased metabolism of 1-(3-(4-phenoxyphenoxy)-2-oxopropyl)indole-5-carboxylic acid] | PMID:20545351 PMID:20561902 PMID:21215309 PMID:22390216 PMID:24120545 | | ||||||||||||||||||||||
| Go Back to source page | Continue to Ontology report |