期刊
BIORESOURCE TECHNOLOGY
卷 344, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biortech.2021.126290
关键词
Xylanolytic enzymes; Substrate specificity; Genome comparison; Genome mining; Industrial application
资金
- China Scholarship Council Scholar-ship [201803250066]
Fungi are important polysaccharide degraders in nature, and they can diversify their carbohydrate-active enzyme combinations to survive in different ecological habitats. This review summarizes the current knowledge on substrate specificity of xylanolytic enzymes and the diversity of enzyme sets in fungi, and reviews the industrial applications of fungal xylanolytic enzymes.
As important polysaccharide degraders in nature, fungi can diversify their extensive set of carbohydrate-active enzymes to survive in ecological habitats of various composition. Among these enzymes, xylanolytic ones can efficiently and sustainably degrade xylans into (fermentable) monosaccharides to produce valuable chemicals or fuels from, for example relevant for upgrading agro-food industrial side streams. Moreover, xylanolytic enzymes are being used in various industrial applications beyond biomass saccharification, e.g. food, animal feed, biofuel, pulp and paper. As a reference for researchers working in related areas, this review summarized the current knowledge on substrate specificity of xylanolytic enzymes from different families of the Carbohydrate-Active enZyme database. Additionally, the diversity of enzyme sets in fungi were discussed by comparing the number of genes encoding xylanolytic enzymes in selected fungal genomes. Finally, to support bio-economy, the current applications of fungal xylanolytic enzymes in industry were reviewed.
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