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MGST1 | microsomal glutathione S-transferase 1; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles. Has a wide substrate specificity (155 aa) | |||
ADH1A | alcohol dehydrogenase 1A (class I), alpha polypeptide (375 aa) | |||
ALDH3A1 | aldehyde dehydrogenase 3 family, member A1; ALDHs play a major role in the detoxification of alcohol-derived acetaldehyde. They are involved in the metabolism of corticosteroids, biogenic amines, neurotransmitters, and lipid peroxidation. This protein preferentially oxidizes aromatic aldehyde substrates. It may play a role in the oxidation of toxic aldehydes (453 aa) | |||
GSTM2 | glutathione S-transferase mu 2 (muscle); Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles (218 aa) | |||
GSTM5 | glutathione S-transferase mu 5; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles (218 aa) | |||
MGST2 | microsomal glutathione S-transferase 2; Can catalyze the production of LTC4 from LTA4 and reduced glutathione. Can catalyze the conjugation of 1-chloro-2,4- dinitrobenzene with reduced glutathione (147 aa) | |||
GSTT2B | glutathione S-transferase theta 2B (gene/pseudogene); Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles. Has a sulfatase activity (244 aa) | |||
ADH1B | alcohol dehydrogenase 1B (class I), beta polypeptide (375 aa) | |||
SMOX | spermine oxidase (555 aa) | |||
AKR1A1 | aldo-keto reductase family 1, member A1 (aldehyde reductase); Catalyzes the NADPH-dependent reduction of a variety of aromatic and aliphatic aldehydes to their corresponding alcohols. Catalyzes the reduction of mevaldate to mevalonic acid and of glyceraldehyde to glycerol. Has broad substrate specificity. In vitro substrates include succinic semialdehyde, 4- nitrobenzaldehyde, 1,2-naphthoquinone, methylglyoxal, and D- glucuronic acid. Plays a role in the activation of procarcinogens, such as polycyclic aromatic hydrocarbon trans-dihydrodiols, and in the metabolism of various xenobiotic [...] (325 aa) | |||
CNDP2 | CNDP dipeptidase 2 (metallopeptidase M20 family); Hydrolyzes a variety of dipeptides including L-carnosine but has a strong preference for Cys-Gly. Isoform 2 may be play a role as tumor suppressor in hepatocellular carcinoma (HCC) cells (475 aa) | |||
GSTA1 | glutathione S-transferase alpha 1; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles (222 aa) | |||
MAOA | monoamine oxidase A; Catalyzes the oxidative deamination of biogenic and xenobiotic amines and has important functions in the metabolism of neuroactive and vasoactive amines in the central nervous system and peripheral tissues. MAOA preferentially oxidizes biogenic amines such as 5-hydroxytryptamine (5-HT), norepinephrine and epinephrine (527 aa) | |||
GSTO2 | glutathione S-transferase omega 2; Exhibits glutathione-dependent thiol transferase activity. Has high dehydroascorbate reductase activity and may contribute to the recycling of ascorbic acid. Participates in the biotransformation of inorganic arsenic and reduces monomethylarsonic acid (MMA) (243 aa) | |||
CNDP1 | carnosine dipeptidase 1 (metallopeptidase M20 family) (507 aa) | |||
COMT | catechol-O-methyltransferase; Catalyzes the O-methylation, and thereby the inactivation, of catecholamine neurotransmitters and catechol hormones. Also shortens the biological half-lives of certain neuroactive drugs, like L-DOPA, alpha-methyl DOPA and isoproterenol (271 aa) | |||
GSTO1 | glutathione S-transferase omega 1; Exhibits glutathione-dependent thiol transferase and dehydroascorbate reductase activities. Has S-(phenacyl)glutathione reductase activity. Has also glutathione S-transferase activity. Participates in the biotransformation of inorganic arsenic and reduces monomethylarsonic acid (MMA) and dimethylarsonic acid (241 aa) | |||
GSTM4 | glutathione S-transferase mu 4; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles. Active on 1- chloro-2,4-dinitrobenzene (218 aa) | |||
GSTA4 | glutathione S-transferase alpha 4; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles. This isozyme has a high catalytic efficiency with 4-hydroxyalkenals such as 4- hydroxynonenal (4-HNE) (222 aa) | |||
MAOB | monoamine oxidase B; Catalyzes the oxidative deamination of biogenic and xenobiotic amines and has important functions in the metabolism of neuroactive and vasoactive amines in the central nervous system and peripheral tissues. MAOB preferentially degrades benzylamine and phenylethylamine (520 aa) | |||
ADH6 | alcohol dehydrogenase 6 (class V) (375 aa) | |||
GSTP1 | glutathione S-transferase pi 1; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles. Regulates negatively CDK5 activity via p25/p35 translocation to prevent neurodegeneration (210 aa) | |||
CARNS1 | carnosine synthase 1; Catalyzes the synthesis of carnosine and homocarnosine. Carnosine is synthesized more efficiently than homocarnosine (950 aa) | |||
GSTA2 | glutathione S-transferase alpha 2; Conjugation of reduced glutathione to a wide number of exogenous and endogenous hydrophobic electrophiles (222 aa) | |||
ADH7 | alcohol dehydrogenase 7 (class IV), mu or sigma polypeptide; Could function in retinol oxidation for the synthesis of retinoic acid, a hormone important for cellular differentiation. Medium-chain (octanol) and aromatic (m-nitrobenzaldehyde) compounds are the best substrates. Ethanol is not a good substrate but at the high ethanol concentrations reached in the digestive tract, it plays a role in the ethanol oxidation and contributes to the first pass ethanol metabolism (394 aa) |