Kinetic and Mechanistic Studies of a Novel Carbonyl Reductase Isolated from Candida Parapsilosis

The novel carbonyl reductase from Candida parapsilosis (CPCR) exhibits a very broad substrate specificity, accepting primary and secondary alcohols, aldehydes, ketoacetals, aliphatic and aromatic ketones, cyclic ketones, diketones, halogenated ketones, keto esters and halogenated keto esters of variable chain length as substrates. Based on the kinetic constants of a variety of different substrates a hypothetical model of the substrate-binding site is proposed. The small alkyl side chain of the carbonyl compound is bound to a small pocket of the binding site, while the large alkyl group is orientated towards the large hydrophobic pocket. This model and the kinetic data enables the prediction of whether a substrate of interest may be reduced by the CPCR. Product inhibition studies are reported which show that the kinetic mechanism of the CPCR is Ordered Bi-Bi, with the nucleotide adding to free enzyme before the other substrate. Alcohols and/or ketones are adsorbed at sites other than the active site and alter the catalytic properties of the enzyme. The enzyme transfers the pro-R hydride of NADH to the re face of the carbonyl compounds yielding (S) alcohols.