Biocatalytic Oxidative Amination of para-Substituted Phenols

Abstract

Biocatalytic preparation of chiral amines is a large and burgeoning field in organic chemistry. Many enzymes and routes have been published, including transaminases, imine reductases, reductive aminases, amine dehydrogenases and others. However, all these routes rely on some sacrificial substrate, in the form of either amine donor or cofactor regeneration substrate. Herein, we report the direct oxidative amination of p-substituted phenols catalyzed by an evolved flavoprotein oxidase, with the consumption of only substrate and O2, and release of H2O2. The substrate scope of the reaction is studied, and is tolerant of a diverse panel including ammonia, primary and secondary amines, and amino acids. The reaction is later employed at preparative scale to generate aminated products in 50–80 % yield. This report establishes flavoprotein oxidase as a new and economical member of the chemist's toolkit for biocatalytic generation of chiral amines, acting as oxidative aminase.