Works (1)
Updated: July 5th, 2023 15:39
2016 journal article
Multidomain, Surface Layer-associated Glycoside Hydrolases Contribute to Plant Polysaccharide Degradation by Caldicellulosiruptor Species
JOURNAL OF BIOLOGICAL CHEMISTRY, 291(13), 6732–6747.
author keywords: biofuel; cell surface; cell surface enzyme; enzyme; glycoside hydrolase; plant cell wall; Caldicellulosiruptor; S-layer; lignocellulose
MeSH headings : Bacterial Proteins / chemistry; Bacterial Proteins / genetics; Bacterial Proteins / metabolism; Cloning, Molecular; Clostridiales / chemistry; Clostridiales / classification; Clostridiales / enzymology; Escherichia coli / genetics; Escherichia coli / metabolism; Gene Expression; Genome, Bacterial; Glucans / metabolism; Glycoside Hydrolases / chemistry; Glycoside Hydrolases / genetics; Glycoside Hydrolases / metabolism; Kinetics; Mutation; Phylogeny; Polysaccharides / metabolism; Protein Binding; Protein Engineering; Protein Structure, Tertiary; Recombinant Proteins / chemistry; Recombinant Proteins / genetics; Recombinant Proteins / metabolism; Substrate Specificity; Wood / metabolism; Xylans / metabolism
TL;DR:
The results here provide new insights into the architecture and role of SLHdomain GHs and demonstrate that hemicellulose degradation can be enhanced through non-native SLH domain GHs engineered into the genomes of Caldicelluosiruptor species.
(via Semantic Scholar)
www.jbc.org (publisher PDF)
UN Sustainable Development Goal Categories
7. Affordable and Clean Energy
(Web of Science)
12. Responsible Consumption and Production
(Web of Science)
15. Life on Land
(OpenAlex)
Sources: Web Of Science, NC State University Libraries
Added: August 6, 2018
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