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Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose

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Last updated 11 novembro 2024
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Recent advances in the efficient degradation of lignocellulosic metabolic networks by lytic polysaccharide monooxygenase
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
IJMS, Free Full-Text
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Biotechnology & Bioengineering, Biotechnology Journal
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Biomolecules, Free Full-Text
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Controlled depolymerization of cellulose by light-driven lytic polysaccharide oxygenases
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
A sensitive, accurate, and high-throughput gluco-oligosaccharide oxidase-based HRP colorimetric method for assaying lytic polysaccharide monooxygenase activity, Biotechnology for Biofuels and Bioproducts
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose
Advances in lytic polysaccharide monooxygenases with the cellulose-degrading auxiliary activity family 9 to facilitate cellulose degradation for biorefinery - ScienceDirect
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