View article

Both (S) and (R) forms of enantiomerically pure 2-tetralols, and their substituted analogs, are fundamental pharmaceutical intermediates. Here, we utilized the wild type and an engineered form of a highly enantioselective acetophenone reductase from Geotrichum candidum NBRC 4597 (GcAPRD) to produce (S)- and (R)-2-tetralols, and their substituted analogs. All mutations targeted residue Trp288, which has been shown to restrict substrate binding, but not play a direct role in catalysis. The wild type produced (S)-alcohols with excellent enantioselectivity, while the engineered forms produced either (S)- or (R)- alcohols, depending on the substituent on the aromatic ring of the substrate, indicating that enantioselectivity can be rationally controlled. As a result, we were able to produce 6-hydroxy-2-tetralol, a potential antifungal drug intermediate, with 98% ee (S) and 81% ee (R) by wild type and Trp288Ser GcAPRD …