Strategies in the Preparation of Homochiral Compounds Using Combined Enantioselective Enzymes

Abstract

In order to obtain a homochiral product from a racemic substrate, different strategies can be followed using a moderately enantioselective enzymatic catalyst. Two new strategies are presented, involving the simultaneous use of two enzymes, parallel or consecutive. In the parallel system, the substrate enantiomer yielding the unwanted product enantiomer is enantioselectively converted by the second enzyme. In the consecutive system, the substrate enantiomer yielding the desired product enantiomer is itself the preferred product of another enantioselective enzymatic reaction. For irreversible pseudo-first order enzyme kinetics, a relationship was found which describes the dependency of the yield and enantiomeric excess for these systems on the E-values of the separate enzymes and on the ratio of their concentrations. For Michaelis-Menten kinetics, these relationships usually give good approximations. According to these calculations, the yield and enantiomeric excess obtainable with the concepts of combined enzymes exceed significantly those obtainable with the separate enzymes, and also those obtainable with the strategy of product recirculation.