Engineering a Highly Regioselective Fungal Peroxygenase for the Synthesis of Hydroxy Fatty Acids

Journal article (2023)

Authors

Patricia Gómez de Santos Evoenzyme S.L., Madrid
Alejandro González-Benjumea CSIC - Instituto de Recursos Naturales y Agrobiologia de Sevilla (IRNAS)
Angela Fernandez-Garcia Institute of Catalysis, CSIC, Madrid
Carmen Aranda CSIC - Instituto de Recursos Naturales y Agrobiologia de Sevilla (IRNAS)
Y. Wu BT/Biocatalysis - AS
A. But BT/Biocatalysis - AS
Patricia Molina-Espeja Institute of Catalysis, CSIC, Madrid
W. Zhang BT/Biocatalysis - AS
F. Hollmann BT/Biocatalysis - AS
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Research Group
BT/Biocatalysis (AS) (TU Delft)
Copyright: © 2023 Patricia Gomez de Santos, Alejandro González-Benjumea, Angela Fernandez-Garcia, Carmen Aranda, Y. Wu, A. But, Patricia Molina-Espeja, W. Zhang, F. Hollmann, More Authors
DOI: https://doi.org/10.1002/anie.202217372
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Published Date

2023

Language

English

Faculty

Applied Sciences

Department

BT/Biotechnologie

Research Group

BT/Biocatalysis

Abstract

The hydroxylation of fatty acids is an appealing reaction in synthetic chemistry, although the lack of selective catalysts hampers its industrial implementation. In this study, we have engineered a highly regioselective fungal peroxygenase for the ω-1 hydroxylation of fatty acids with quenched stepwise over-oxidation. One single mutation near the Phe catalytic tripod narrowed the heme cavity, promoting a dramatic shift toward subterminal hydroxylation with a drop in the over-oxidation activity. While crystallographic soaking experiments and molecular dynamic simulations shed light on this unique oxidation pattern, the selective biocatalyst was produced by Pichia pastoris at 0.4 g L−1 in a fed-batch bioreactor and used in the preparative synthesis of 1.4 g of (ω-1)-hydroxytetradecanoic acid with 95 % regioselectivity and 83 % ee for the S enantiomer.