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An Engineered Cholesterol Oxidase Catalyses Enantioselective Oxidation of Non‐steroidal Secondary Alcohols

Rachel S. Heath, Jack J. Sangster, Nicholas J. Turner

2022ChemBioChem12 citationsDOIOpen Access PDF

Abstract

Abstract The enantioselective oxidation of 2° alcohols to ketones is an important reaction in synthetic chemistry, especially if it can be achieved using O 2 ‐driven alcohol oxidases under mild reaction conditions. However to date, oxidation of secondary alcohols using alcohol oxidases has focused on activated benzylic or allylic substrates, with unactivated secondary alcohols showing poor activity. Here we show that cholesterol oxidase (EC 1.1.3.6) could be engineered for activity towards a range of aliphatic, cyclic, acyclic, allylic and benzylic secondary alcohols. Additionally, since the variants demonstrated high ( S )‐selectivity, deracemisation reactions were performed in the presence of ammonia borane to obtain enantiopure ( R )‐alcohols.

Topics & Concepts

Enantiopure drugEnantioselective synthesisAllylic rearrangementChemistryAlcohol oxidationAlcohol oxidaseAlcoholOrganic chemistrySelectivityCholesterol oxidaseCombinatorial chemistryEnzymeCatalysisBiochemistryGeneRecombinant DNAPichia pastorisSteroid Chemistry and BiochemistryEnzyme Catalysis and ImmobilizationPharmacogenetics and Drug Metabolism