Litcius/Paper detail

Repurposing myoglobin into an abiological asymmetric ketoreductase

Xiang Zhang, Dongping Chen, Julian Stropp, Ryo Tachibana, Zhi Zou, Daniel Klose, Thomas R. Ward

2024Chem21 citationsDOIOpen Access PDF

Abstract

Thanks to recent advances in enzyme repurposing, hemoproteins have gained significant attention as versatile biocatalysts that catalyze a variety of transformations, ranging from oxidation to redox-neutral reactions. To complement these achievements, we report herein on our efforts to repurpose myoglobin (Mb) into an asymmetric ketoreductase, using PhSiH 3 as reductant. Two rounds of mutagenesis afforded a double mutant capable of reducing with high enantioselectivity a broad range of prochiral aliphatic and aromatic ketones in the presence of whole cells. Additional rounds of directed evolution afforded a quintuple mutant with opposite enantioselectivity. Mechanistic investigations suggest that a fleeting Fe–H species undergoes heterolytic hydride transfer to afford enantiopure alcohols from the corresponding ketones. The excellent saturation kinetic profile, combined with the practicality of whole-cell biocatalysis under aerobic conditions, highlights the potential of repurposed Mb as an asymmetric ketoreductase with a broad substrate scope, thus expanding the reaction repertoire catalyzed by hemoproteins.

Topics & Concepts

ChemistryBiocatalysisMyoglobinKinetic resolutionDirected evolutionCombinatorial chemistrySaturated mutagenesisHemeproteinEnantiopure drugRedoxStereochemistryEnzymeOrganic chemistryBiochemistryEnantioselective synthesisCatalysisHemeMutantReaction mechanismGeneEnzyme Catalysis and ImmobilizationCyclopropane Reaction MechanismsMetal-Catalyzed Oxygenation Mechanisms