Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose

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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
Controlled depolymerization of cellulose by light-driven lytic polysaccharide oxygenases
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Fermentation, Free Full-Text
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
Biomolecules, Free Full-Text
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Frontiers Progress in Ameliorating Beneficial Characteristics of Microbial Cellulases by Genetic Engineering Approaches for Cellulose Saccharification
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Processive Enzymes Kept on a Leash: How Cellulase Activity in Multienzyme Complexes Directs Nanoscale Deconstruction of Cellulose
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
Biochemical, structural insights of newly isolated AA16 family of Lytic Polysaccharide Monooxygenase (LPMO) from Aspergillus fumigatus and investigation of its synergistic effect using biomass
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Cellulose Surface Degradation by a Lytic Polysaccharide Monooxygenase and Its Effect on Cellulase Hydrolytic Efficiency - ScienceDirect
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
A designed Copper Histidine-brace enzyme for oxidative depolymerization of polysaccharides as a model of lytic polysaccharide monooxygenase
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
A designed Copper Histidine-brace enzyme for oxidative depolymerization of polysaccharides as a model of lytic polysaccharide monooxygenase
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Chimeric cellulases (CD-CBM) show greater penetration and bulk
Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization  of Cellulose
Lytic Polysaccharide Monooxygenases in Biomass Conversion: Trends in Biotechnology
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