Highly Productive Oxidative Biocatalysis in Continuous Flow by Enhancing the Aqueous Equilibrium Solubility of Oxygen

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2018 May 10

PMID 29741801

Citations 18

Authors

Michael R Chapman

Sebastian C Cosgrove

Nicholas J Turner

Nikil Kapur

A John Blacker

Affiliations

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Abstract

We report a simple, mild, and synthetically clean approach to accelerate the rate of enzymatic oxidation reactions by a factor of up to 100 when compared to conventional batch gas/liquid systems. Biocatalytic decomposition of H O is used to produce a soluble source of O directly in reaction media, thereby enabling the concentration of aqueous O to be increased beyond equilibrium solubility under safe and practical conditions. To best exploit this method, a novel flow reactor was developed to maximize productivity (g product L h ). This scalable benchtop method provides a distinct advantage over conventional bio-oxidation in that no pressurized gas or specialist equipment is employed. The method is general across different oxidase enzymes and compatible with a variety of functional groups. These results culminate in record space-time yields for bio-oxidation.

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