Asymmetric Reduction of Substituted 2‐Tetralones by Thermoanaerobacter pseudoethanolicus Secondary Alcohol Dehydrogenase

Abstract Ketones bearing two bulky substituents, named bulky–bulky ketones, were successfully reduced to their corresponding optically enriched alcohols by using various mutants of Thermoanaerobacter pseudoethanolicus secondary alcohol dehydrogenase (TeSADH). Substituted 2‐tetralones, in particular, were reduced to 2‐tetralols with high conversion and high enantioselectivity. The pharmacological importance of substituted 2‐tetralols as key drug‐building blocks makes our biocatalytic reduction method a highly essential tool. We showed that changing the position of the substituent on the aromatic ring of 2‐tetralones impacts their binding affinity and the reaction maximum catalytic rate. Docking studies with several TeSADH mutants explain how the position of the substituent on the tetralone influences the binding orientation of substituted 2‐tetralones and their reaction stereoselectivity.