Stereoselective biocatalytic hydride transfer to substituted acetophenones by the yeast Metschnikowia koreensis

Freely suspended and variously entrapped viable cells of the yeast Metschnikowia koreensis were examined for the asymmetric reduction of prochiral acetophenone. A ketone substrate at 25 mM can be converted (92%) to the corresponding alcohol within 3 h using freely suspended cells 46 mg/mL dry cell weight (DCW)] at pH 9 (Tris buffer, 50 mM), 25 °C, in an agitated reactor (200 rpm). The reaction displayed an excellent stereoselectivity of >99%. Supplementation of the reaction mixture with glucose (20 g/L) greatly enhanced the rate of the bioreduction reaction likely because of improved cofactor recycling in the cells. The cells could successfully reduce various acetophenones substituted with electron withdrawing groups on the phenyl ring, particularly at the para-position compared to ortho- or meta-substituted acetophenones. The ketone reductase of M. koreensis showed Prelog-selectivity as the reaction exclusively yielded (S)-alcohols. The thermostability and the substrate tolerance of the yeast were improved by immobilization in calcium alginate beads. Immobilization reduced the effectiveness factor only slightly.