Chemoenzymatic Hydroxymethylation of Carboxylic Acidsby Tandem Stereodivergent Biocatalytic Aldol Reaction and ChemicalDecarboxylation

Chiral 2-substituted 3-hydroxycarboxylic acid derivatives are valuable building blocks for the preparation of naturally occurring and synthetic biologically active molecules. Current methodologies for the preparation of these compounds are still limited for large-scale production due to the high costs, limited microbial strains, low yields, difficult downstream processing, and limited range of structures. We report an effective chemoenzymatic method for the synthesis of enantiomerically pure 2-substituted 3-hydroxycarboxylic esters. The strategy comprises: (i) a stereoselective aldol addition of 2-oxoacids to methanal catalyzed by two enantiocomplementary 2-oxoacid aldolases, (ii) oxidative decarboxylation, and (iii) esterification. Compounds with S-configuration were obtained in 69–80% isolated yields (94–99% ee), and the R enantiomers in 57–88% (88–98% ee), using a substrate concentration range of 0.1–1.0 M. The method developed offers a versatile alternative route to this important class of chiral buil...