Protein Domain : Aldo-keto reductase family 3A IPR044489

Type  Family
Description  This entry represents aldo-keto reductase family 3A (AKR3A), including Gcy1 and Ypr1 from Saccharomyces cerevisiae. Gcy1 is a glycerol dehydrogenase involved in glycerol catabolism under microaerobic conditions [ ]. It has mRNA binding activity []. Ypr1 acts as a 2-methylbutyraldehyde reductase that displays high specific activity towards 2-methylbutyraldehyde, as well as other aldehydes such as hexanal [].In general, the aldo-keto reductase (AKR) protein superfamily members reduce carbonyl substrates such as: sugar aldehydes, keto-steroids, keto-prostaglandins, retinals, quinones, and lipid peroxidation by-products [ , ]. However, there are some exceptions, such as the reduction of steroid double bonds catalysed by AKR1D enzymes (5beta-reductases); and the oxidation of proximate carcinogen trans-dihydrodiol polycyclic aromatic hydrocarbons; while the beta-subunits of potassium gated ion channels (AKR6 family) control Kv channel opening [].Structurally, they contain an (alpha/beta)8-barrel motif, display large loops at the back of the barrel which govern substrate specificity, and have a conserved cofactor binding domain. The binding site is located in a large, deep, elliptical pocket in the C-terminal end of the beta sheet, the substrate being bound in an extended conformation. The hydrophobic nature of the pocket favours aromatic and apolar substrates over highly polar ones [ ]. They catalyse an ordered bi bi kinetic mechanism in which NAD(P)H cofactor binds first and leaves last []. Binding of the NADPH coenzyme causes a massive conformational change, reorienting a loop, effectively locking the coenzyme in place. This binding is more similar to FAD- than to NAD(P)-binding oxidoreductases [].
Short Name  AKR3A

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