A trimodular bacterial enzyme combining hydrolytic activity with oxidative glycosidic bond cleavage efficiently degrades chitin
Open Access
- 3 July 2020
- journal article
- research article
- Published by Elsevier BV in Journal of Biological Chemistry
- Vol. 295 (27), 9134-9146
- https://doi.org/10.1074/jbc.RA120.013040
Abstract
No abstract availableKeywords
Funding Information
- Norges Forskningsråd (221576)
- Norges Forskningsråd (247001)
This publication has 66 references indexed in Scilit:
- The Multi Domain Caldicellulosiruptor bescii CelA Cellulase Excels at the Hydrolysis of Crystalline CelluloseScientific Reports, 2017
- A polysaccharide utilization locus from Flavobacterium johnsoniae enables conversion of recalcitrant chitinBiotechnology for Biofuels, 2016
- Cellulose Degradation by Polysaccharide MonooxygenasesAnnual Review of Biochemistry, 2015
- Fungal CellulasesChemical Reviews, 2015
- New enzyme insights drive advances in commercial ethanol productionCurrent Opinion in Chemical Biology, 2014
- Revealing Nature’s Cellulase Diversity: The Digestion Mechanism of Caldicellulosiruptor bescii CelAScience, 2013
- The chitinolytic machinery of Serratia marcescens – a model system for enzymatic degradation of recalcitrant polysaccharidesThe FEBS Journal, 2013
- An Oxidative Enzyme Boosting the Enzymatic Conversion of Recalcitrant PolysaccharidesScience, 2010
- Towards new enzymes for biofuels: lessons from chitinase researchTrends in Biotechnology, 2008
- The Non-catalytic Chitin-binding Protein CBP21 from Serratia marcescens Is Essential for Chitin DegradationJournal of Biological Chemistry, 2005