======= CYP1A1 ======= == Gene Information == * **Official Symbol**: CYP1A1 * **Official Name**: cytochrome P450 family 1 subfamily A member 1 * **Aliases and Previous Symbols**: N/A * **Entrez ID**: [[https://www.ncbi.nlm.nih.gov/gene/?term=1543|1543]] * **UniProt**: [[https://www.uniprot.org/uniprot/P04798|P04798]] * **Interactions**: [[https://thebiogrid.org/search.php?search=CYP1A1&organism=9606|BioGRID]] * **PubMed articles**: [[https://www.ncbi.nlm.nih.gov/pubmed/?term=gene%20CYP1A1|Open PubMed]] * **OMIM**: [[https://omim.org/entry/108330|Open OMIM]] == Function Summary == * **Entrez Summary**: N/A * **UniProt Summary**: Cytochromes P450 are a group of heme-thiolate monooxygenases. In liver microsomes, this enzyme is involved in an NADPH-dependent electron transport pathway. It oxidizes a variety of structurally unrelated compounds, including steroids, fatty acids, and xenobiotics. |p450| |flavonoid 3-monooxygenase activity| |oxidoreductase activity, acting on diphenols and related substances as donors| |ethylene metabolic process| |dibenzo-p-dioxin catabolic process| |arachidonic acid monooxygenase activity| |vitamin D 24-hydroxylase activity| |insecticide metabolic process| |cellular alkene metabolic process| |olefin metabolic process| |response to nematode| |dibenzo-p-dioxin metabolic process| |9-cis-retinoic acid biosynthetic process| |9-cis-retinoic acid metabolic process| |estrogen 2-hydroxylase activity| |response to iron(III) ion| |demethylase activity| |maternal process involved in parturition| |lipid hydroxylation| |coumarin metabolic process| |retinoic acid biosynthetic process| |hydrogen peroxide biosynthetic process| |phenylpropanoid metabolic process| |diterpenoid biosynthetic process| |estrogen 16-alpha-hydroxylase activity| |omega-hydroxylase P450 pathway| |antibiotic biosynthetic process| |response to herbicide| |hepatocyte differentiation| |xenobiotic catabolic process| |lyase activity| |vitamin D metabolic process| |terpenoid biosynthetic process| |flavonoid metabolic process| |parturition| |response to insecticide| |response to vitamin A| |epoxygenase P450 pathway| |response to hyperoxia| |response to food| |toxin metabolic process| |reactive oxygen species biosynthetic process| |response to immobilization stress| |isoprenoid biosynthetic process| |response to increased oxygen levels| |long-chain fatty acid biosynthetic process| |oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen| |cellular response to copper ion| |retinoic acid metabolic process| |response to arsenic-containing substance| |estrogen metabolic process| |monooxygenase activity| |oxygen binding| |response to iron ion| |positive regulation of G1/S transition of mitotic cell cycle| |fat-soluble vitamin metabolic process| |hydrogen peroxide metabolic process| |porphyrin-containing compound metabolic process| |retinol metabolic process| |Hsp90 protein binding| |Hsp70 protein binding| |response to copper ion| |positive regulation of cell cycle G1/S phase transition| |secondary metabolic process| |arachidonic acid metabolic process| |tetrapyrrole metabolic process| |demethylation| |amine metabolic process| |primary alcohol metabolic process| |positive regulation of mitotic cell cycle phase transition| |response to vitamin| |positive regulation of cell cycle phase transition| |retinoid metabolic process| |antibiotic metabolic process| |unsaturated fatty acid metabolic process| |diterpenoid metabolic process| |icosanoid metabolic process| |reactive oxygen species metabolic process| |long-chain fatty acid metabolic process| |oxidoreductase activity| |fatty acid biosynthetic process| |terpenoid metabolic process| |cellular hormone metabolic process| |vitamin metabolic process| |liver development| |hepaticobiliary system development| |digestive tract development| |xenobiotic metabolic process| |iron ion binding| |isoprenoid metabolic process| |heme binding| |digestive system development| |regulation of G1/S transition of mitotic cell cycle| |positive regulation of mitotic cell cycle| |regulation of cell cycle G1/S phase transition| |fatty acid derivative metabolic process| |monocarboxylic acid biosynthetic process| |cellular response to xenobiotic stimulus| |cellular response to metal ion| |lipid modification| |hormone metabolic process| |multi-multicellular organism process| |cofactor biosynthetic process| |response to nutrient| |cellular response to inorganic substance| |steroid metabolic process| |aging| |response to virus| |positive regulation of cell cycle process| |response to xenobiotic stimulus| |carboxylic acid biosynthetic process| |response to antibiotic| |organic acid biosynthetic process| |camera-type eye development| |response to lipopolysaccharide| |alcohol metabolic process| |fatty acid metabolic process| |response to molecule of bacterial origin| |response to hypoxia| |enzyme binding| |response to decreased oxygen levels| |eye development| |visual system development| |sensory system development| |response to metal ion| |positive regulation of cell cycle| |response to oxygen levels| |regulation of lipid metabolic process| |mitochondrial inner membrane| |gland development| |regulation of mitotic cell cycle phase transition| |heterocycle catabolic process| |small molecule catabolic process| |cofactor metabolic process| |aromatic compound catabolic process| |regulation of cell cycle phase transition| |organic hydroxy compound metabolic process| |organic cyclic compound catabolic process| |response to nutrient levels| |drug metabolic process| |response to toxic substance| |monocarboxylic acid metabolic process| |response to extracellular stimulus| |regulation of hormone levels| |response to inorganic substance| |cellular response to organic cyclic compound| |sensory organ development| |cell population proliferation| |response to wounding| |lipid biosynthetic process| |small molecule biosynthetic process| |regulation of mitotic cell cycle| |epithelial cell differentiation| |intracellular membrane-bounded organelle| |response to bacterium| |regulation of cell cycle process| |multicellular organismal reproductive process| |multicellular organism reproduction| |tube development| |response to lipid| |carboxylic acid metabolic process| |response to organic cyclic compound| |endoplasmic reticulum membrane| |cellular lipid metabolic process| |oxidation-reduction process| |multi-organism reproductive process| |oxoacid metabolic process| |response to drug| |organic acid metabolic process| |epithelium development| |response to abiotic stimulus| |regulation of cell cycle| |lipid metabolic process| |response to other organism| |response to external biotic stimulus| |response to biotic stimulus| |reproductive process| |reproduction| |response to oxygen-containing compound| |small molecule metabolic process| |tissue development| |organic substance catabolic process| |cellular catabolic process| \\ === CRISPR Data === ^Screen^Score^ |[[:results:exp473|Cincreasin 100μM R08 exp473]]|-2.43| |[[:results:exp66|BI-D1870 3.15μM R02 exp66]]|-2.37| |[[:results:exp287|HMS-I2 5μM R06 exp287]]|-2.1| |[[:results:exp320|ABT-702 5μM plus CoCl2 18μM R07 exp320]]|1.74| No correlation found to any other genes in chemogenomics. Global Fraction of Cell Lines Where Essential: 0/739 ^Tissue^Fraction Of Cell Lines Where Essential^ |1290807.0|0/1| |909776.0|0/1| |bile duct|0/28| |blood|0/28| |bone|0/26| |breast|0/33| |central nervous system|0/56| |cervix|0/4| |colorectal|0/17| |esophagus|0/13| |fibroblast|0/1| |gastric|0/16| |kidney|0/21| |liver|0/20| |lung|0/75| |lymphocyte|0/16| |ovary|0/26| |pancreas|0/24| |peripheral nervous system|0/16| |plasma cell|0/15| |prostate|0/1| |skin|0/24| |soft tissue|0/9| |thyroid|0/2| |upper aerodigestive|0/22| |urinary tract|0/29| |uterus|0/5| == Essentiality in NALM6 == * **Essentiality Rank**: 12990 * **Expression level (log2 read counts)**: -1.85 {{:chemogenomics:nalm6 dist.png?nolink |}}