Oxidation by Cytochrome P450 - Pathway Page
Name Oxidation by Cytochrome P450
Resource WikiPathways
Genes CYB5B CYP3A7 CYP2D6 CYB5A MIR4651 CYP4F11 CYP2A6 CYB5R1 CYP2B6 CYP2A13 CYP2C8 CYP4A22 CYP2C19 CYB5R2 CYP2R1 CYP3A43 CYP2W1 CYP2A7 CYB5R4 CYP27B1 CYP19A1 CYP17A1 CYP2J2 CYP4F8 CYP4F22 CYP4F12 POR CYP1B1 CYP4V2 CYP1A1 CYP7A1 CYP4X1 CYP11B2 CYP2C9 CYP39A1 CYP8B1 CYP2G1P CYP27C1 CYP4F3 CYP51A1 CYP26C1 CYP24A1 CYP20A1 CYP7B1 CYP26A1 CYP4A11 CYP46A1 CYP4F2 CYP27A1 CYP2F1 CYP3A5 CYP2C18 CYP3A4 CYP2S1 CYP26B1 CYP4B1 CYP4Z1 CYP2U1 CYB5R3 CYP1A2 CYP2E1 CYP11B1 CYP11A1
Size 63
Hierarchy Landscape

The following plot represents the hierarchical landscape of 'Oxidation by Cytochrome P450'. The hierarchical tree allows to click on the pathways with children (black border) and continue the exploration. All nodes are colored by their source (click on the map for the legend) and cross-link to the original pathway page.

Metabolic pathwaysCaffeine and Theobromine metabolismNAD+ biosynthetic pathwaysLidocaine metabolismCori CycleProstaglandin Synthesis and RegulationTryptophan metabolismFatty Acid BiosynthesisHeroin metabolismPolyol PathwayGanglio Sphingolipid MetabolismBiogenic Amine SynthesisMethionine De Novo and Salvage PathwayArylamine metabolismGlycolysis and GluconeogenesisDopamine metabolismAcetylcholine SynthesisCodeine and Morphine MetabolismSynthesis and Degradation of Ketone BodiesTrans-sulfuration and one carbon metabolismGlutathione metabolismTCA CycleSteroid BiosynthesisEicosanoid SynthesisNAD Biosynthesis II (from tryptophan)Heme BiosynthesisTrans-sulfuration pathwayOxidative phosphorylationDegradation pathway of sphingolipids, including diseasesArachidonate Epoxygenase / Epoxide HydrolasePPAR Alpha PathwayPeroxisomal beta-oxidation of tetracosanoyl-CoANAD+ metabolismSphingolipid MetabolismTCA Cycle and Deficiency of Pyruvate Dehydrogenase complex (PDHc)Methylation PathwaysNicotine MetabolismTriacylglyceride SynthesisIrinotecan PathwayNucleotide MetabolismBiosynthesis and regeneration of tetrahydrobiopterin (BH4) and catabolism of phenylalanine, including diseasesBenzo(a)pyrene metabolismMitochondrial LC-Fatty Acid Beta-OxidationAmino Acid metabolismCholesterol BiosynthesisOxytocin signalingFatty Acid Omega OxidationGlycogen MetabolismColchicine Metabolic PathwayCannabinoid receptor signalingCytosine methylationTryptophan catabolism leading to NAD+ productionOxidation by Cytochrome P450Eukaryotic Transcription InitiationKennedy pathway from SphingolipidsPentose Phosphate PathwayTamoxifen metabolismVitamin A and Carotenoid MetabolismAflatoxin B1 metabolismOne carbon donorGlycerophospholipid Biosynthetic PathwayOne carbon metabolism and related pathwaysGlucocorticoid and Mineralcorticoid MetabolismOne Carbon MetabolismVitamin D MetabolismGlobo Sphingolipid MetabolismPyrimidine metabolismAlanine and aspartate metabolismLipid Metabolism PathwayGlucuronidationUrea cycle and metabolism of amino groupsCocaine metabolismMetabolism of Tetrahydrocannabinol (THC)Electron Transport ChainEstrogen metabolismDiclofenac Metabolic PathwayMetabolism of Spingolipids in ER and Golgi apparatusFelbamate MetabolismFatty Acid Beta OxidationFolate Metabolism

About

ComPath is developed and maintained in an academic capacity by Daniel Domingo-Fernández and Charles Tapley Hoyt at the Fraunhofer SCAI Department of Bioinformatics. This web application relies on data loaded from KEGG, Reactome, and WikiPathways Restful APIs, as well as MSigDB. More information here.