Highly active and recyclable immobilized multiple enzymes for one-pot enantioselective cascade reactions: Synthesis of (R)- and (S)-α-amino acids from racemic α-hydroxy acids

Cascade biotransformation of racemic alcohols to enantiopure amines is highly wanted in pharmaceutical manufacturing but requires green and efficient solution. Here we developed the first immobilized enzyme-based approach for this transformation, being cleaner and more productive than whole-cells biocatalysis, and more economic and higher-yielding than using isolated enzymes. As demonstration, the conversion of racemic mandelic acids to high-value (R)- or (S)-phenylglycines was achieved by immobilized enantioselective alcohol oxidase, racemase, catalase, and (S)- or (R)-transaminase. Co-immobilization of the four enzymes on Ni-NTA functionalised carriers gave high enzyme loadings (192–195 mg enzyme/g carrier), loading efficiencies (97–98%), and free enzyme activities (107–113%). Immobilized enzymes transformed racemic mandelic acids to the corresponding four (S)-phenylglycines in 91–99% ee and 82–95% yields or five (R)-phenylglycines in 93–99% ee and 83–94% yields. These catalysts showed good recyclability, retaining 86–98% productivities in the fifth reaction cycles.