Effects of Lignin-Diverted Reductant with Polyphenol Oxidases on Cellulose Degradation by Wild and Mutant Types of Lytic Polysaccharide Monooxygenase
Kai Li, Yuan Wang, Xiao Guo, Bo Wang

TL;DR
This study explores how different enzymes and reducing agents work together to break down plant biomass, focusing on the performance of wild and mutant types of LPMO.
Contribution
The study reveals the synergistic effects of polyphenol oxidases and lignin-diverted reductants on mutant LPMO activity in lignocellulose degradation.
Findings
Laccase and tyrosinase show high thermal stability and potential synergy with LPMO in lignocellulose degradation.
Gallic acid increases LPMO activity by over 10%, especially in mutant LPMOs when combined with polyphenol oxidases.
Wild and mutant LPMOs exhibit similar activity with lignin-diverted phenolic compounds and reducing agents.
Abstract
Establishing a multi-enzyme synergistic lignocellulosic biodegradation system using lytic polysaccharide monooxygenase (LPMO) and polyphenol oxidases is vital for efficiently utilizing plant biomass waste, ultimately benefiting the carbon cycle and promoting environmental protection. Single-residue mutations of LPMO can improve the efficiency of lignocellulosic biomass degradation. However, the activity of mutant-type LPMO in relation to lignin-diverted reducing agents has not been sufficiently explored. In this study, laccase and tyrosinase were initially investigated and their optimal conditions and impressive thermal stability were revealed, indicating their potential synergistic abilities with LPMO in lignocellulose biodegradation. When utilizing gallic acid as a reducing agent, the activities of LPMOs were increased by over 10%, which was particularly evident in mutant-type LPMOs…
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Taxonomy
TopicsEnzyme-mediated dye degradation · Biofuel production and bioconversion · Lignin and Wood Chemistry
