Enhanced Resolution of a Secondary Alcohol by Hydrolysis of a Bichiral Ester Catalyzed by Lipase from Candida cylindracea

The effect of a chiral centre in the acyl group on the resolution of esters prepared from a racemic alcohol was investigated. R-2-chloropropionic acid afforded a higher enantiomeric ratio than S-2-chioropropionic acid in the hydrolysis of the corresponding esters of racemic 1-phenylethanol catalyzed by Candida cylindracea lipase. Even when a mixture of esters prepared from racemic acid and racemic alcohol was used for resolution of the alcohol, a noteworthy high enantioselectivity was observed. The hydrolysis of a bichiral ester offers an amplification in the resolution of enantiomers of alcohols by the combination of a chemical diastereoselectivity and an enzymatic enantio- and diastereoselectivity.