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Biochemical and molecular characterization of a cellobiohydrolase from Trametes versicolor.

Author(s): Lahjouji K, Storms R, Xiao Z, Joung KB, Zheng Y, Powlowski J, Tsang A, Varin L

Appl Microbiol Biotechnol. 2007 May;75(2):337-46 Authors: Lahjouji K, Storms R, Xiao Z, Joung KB, Zheng Y, Powlowski J, Tsang A, Varin L

Article GUID: 17333176

Development of a pyrG mutant of Aspergillus oryzae strain S1 as a host for the production of heterologous proteins.

Author(s): Ling SO, Storms R, Zheng Y, Rodzi MR, Mahadi NM, Illias RM, Abdul Murad AM, Abu Bakar FD

ScientificWorldJournal. 2013;2013:634317 Authors: Ling SO, Storms R, Zheng Y, Rodzi MR, Mahadi NM, Illias RM, Abdul Murad AM, Abu Bakar FD

Article GUID: 24381522

Enhancement of synthetic Trichoderma-based enzyme mixtures for biomass conversion with an alternative family 5 glycosyl hydrolase from Sporotrichum thermophile.

Author(s): Ye Z, Zheng Y, Li B, Borrusch MS, Storms R, Walton JD

PLoS One. 2014;9(10):e109885 Authors: Ye Z, Zheng Y, Li B, Borrusch MS, Storms R, Walton JD

Article GUID: 25295862


Title:Enhancement of synthetic Trichoderma-based enzyme mixtures for biomass conversion with an alternative family 5 glycosyl hydrolase from Sporotrichum thermophile.
Authors:Ye ZZheng YLi BBorrusch MSStorms RWalton JD
Link:https://www.ncbi.nlm.nih.gov/pubmed/25295862?dopt=Abstract
DOI:10.1371/journal.pone.0109885
Category:PLoS One
PMID:25295862
Dept Affiliation: GENOMICS
1 Department of Energy Great Lakes Bioenergy Research Center and Department of Energy Plant Research Laboratory, Michigan State University, East Lansing, Michigan, United States of America.
2 Centre for Structural and Functional Genomics, Concordia University, Montréal, Quebec, Canada.

Description:

Enhancement of synthetic Trichoderma-based enzyme mixtures for biomass conversion with an alternative family 5 glycosyl hydrolase from Sporotrichum thermophile.

PLoS One. 2014;9(10):e109885

Authors: Ye Z, Zheng Y, Li B, Borrusch MS, Storms R, Walton JD

Abstract

Enzymatic conversion of lignocellulosic materials to fermentable sugars is a limiting step in the production of biofuels from biomass. We show here that combining enzymes from different microbial sources is one way to identify superior enzymes. Extracts of the thermophilic fungus Sporotrichum thermophile (synonym Myceliophthora thermophila) gave synergistic release of glucose (Glc) and xylose (Xyl) from pretreated corn stover when combined with an 8-component synthetic cocktail of enzymes from Trichoderma reesei. The S. thermophile extracts were fractionated and an enhancing factor identified as endo-ß1,4-glucanase (StCel5A or EG2) of subfamily 5 of Glycosyl Hydrolase family 5 (GH5_5). In multi-component optimization experiments using a standard set of enzymes and either StCel5A or the ortholog from T. reesei (TrCel5A), reactions containing StCel5A yielded more Glc and Xyl. In a five-component optimization experiment (i.e., varying four core enzymes and the source of Cel5A), the optimal proportions for TrCel5A vs. StCel5A were similar for Glc yields, but markedly different for Xyl yields. Both enzymes were active on lichenan, glucomannan, and oat ß-glucan; however, StCel5A but not TrCel5A was also active on ß1,4-mannan, two types of galactomannan, and ß1,4-xylan. Phylogenetically, fungal enzymes in GH5_5 sorted into two clades, with StCel5A and TrCel5A belonging to different clades. Structural differences with the potential to account for the differences in performance were deduced based on the known structure of TrCel5A and a homology-based model of StCel5A, including a loop near the active site of TrCel5A and the presence of four additional Trp residues in the active cleft of StCel5A. The results indicate that superior biomass-degrading enzymes can be identified by exploring taxonomic diversity combined with assays in the context of realistic enzyme combinations and realistic substrates. Substrate range may be a key factor contributing to superior performance within GH5_5.

PMID: 25295862 [PubMed - indexed for MEDLINE]