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Structure- and computational-aided engineering of an oxidase to produce isoeugenol from a lignin-derived compound

Chemistry

Structure- and computational-aided engineering of an oxidase to produce isoeugenol from a lignin-derived compound

Y. Guo, L. Alvigini, et al.

Discover how researchers engineered a bacterial eugenol oxidase to effectively convert lignin-derived 4-n-propylguaiacol into isoeugenol, a sought-after flavor molecule. This exciting study led by Yiming Guo and a team from the University of Groningen and University of Pavia highlights innovative mutations that enhance enzyme stability and activity for scalable production. Dive into the world of biocatalysis!

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Playback language: English
Abstract
This study presents the engineering of a bacterial eugenol oxidase to selectively dehydrogenate 4-n-propylguaiacol, a lignin-derived compound, into isoeugenol, a valuable flavor and fragrance molecule. Through computational predictions and a multi-step engineering process, the researchers improved the enzyme's thermostability, chemoselectivity, and activity. Structural insights revealed that slow catalytic activity was due to a slowly decaying covalent substrate-flavin adduct, which was addressed by targeted mutations. The final engineered variant, PROGO, exhibited good activity, thermostability, and high chemoselectivity for 4-n-propylguaiacol oxidation. Gram-scale preparative reactions demonstrated PROGO's utility as a stable biocatalyst for isoeugenol production from lignin.
Publisher
Nature Communications
Published On
Nov 23, 2022
Authors
Yiming Guo, Laura Alvigini, Milos Trajkovic, Lur Alonso-Cotchico, Emanuele Monza, Simone Savino, Ivana Marić, Andrea Mattevi, Marco W. Fraaije
Tags
bacterial eugenol oxidase
4-n-propylguaiacol
isoeugenol
biocatalyst
thermostability
chemo-selectivity
lignin

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