Genome sequencing and analysis of the biomass-degrading fungus Trichoderma reesei (syn. Hypocrea jecorina)

Diego Martinez(Los Alamos National Laboratory), Randy M. Berka(Novozymes (Denmark)), Bernard Henrissat(Centre National de la Recherche Scientifique), Markku Saloheimo(VTT Technical Research Centre of Finland), Mikko Arvas(VTT Technical Research Centre of Finland), Scott Baker(Pacific Northwest National Laboratory), Jarod Chapman(Joint Genome Institute), Olga Chertkov(Los Alamos National Laboratory), Pedro M. Coutinho(Centre National de la Recherche Scientifique), Dan Cullen(United States Department of Agriculture), Étienne Danchin(Centre National de la Recherche Scientifique), Igor V. Grigoriev(Joint Genome Institute), Paul V. Harris(Novozymes (Denmark)), Melissa F. Jackson(Los Alamos National Laboratory), Christian P. Kubicek(TU Wien), Cliff Han(Los Alamos National Laboratory), Isaac Ho(Joint Genome Institute), Luis Larrondo(Pontificia Universidad Católica de Chile), Alfredo Lopez de Leon(Novozymes (Denmark)), Jon Magnuson(Pacific Northwest National Laboratory), Sandy Merino(Novozymes (Denmark)), Monica Misra(Los Alamos National Laboratory), Beth A. Nelson(Novozymes (Denmark)), Nicholas H. Putnam(Joint Genome Institute), Barbara Robbertse(Oregon State University), Asaf Salamov(Joint Genome Institute), Monika Schmoll(TU Wien), Astrid Terry(Joint Genome Institute), Nina Thayer(Los Alamos National Laboratory), Ann Westerholm‐Parvinen(VTT Technical Research Centre of Finland), Conrad L. Schoch(Oregon State University), Jian Yao, Ravi D. Barabote(Los Alamos National Laboratory), Mary Anne Nelson(University of New Mexico), Chris Detter(Los Alamos National Laboratory), David Bruce(Los Alamos National Laboratory), Cheryl R. Kuske(Los Alamos National Laboratory), Gary Xie(Los Alamos National Laboratory), Paul Richardson(Joint Genome Institute), Daniel S. Rokhsar(Joint Genome Institute), Susan Lucas(Joint Genome Institute), Edward M. Rubin(Joint Genome Institute), Nigel Dunn-Coleman, Michael P. Ward, Thomas Brettin(Joint Genome Institute)
Nature Biotechnology
May 1, 2008
10.1038/nbt1403
Cited by 1,275Open Access
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Abstract

Trichoderma reesei is the main industrial source of cellulases and hemicellulases used to depolymerize biomass to simple sugars that are converted to chemical intermediates and biofuels, such as ethanol. We assembled 89 scaffolds (sets of ordered and oriented contigs) to generate 34 Mbp of nearly contiguous T. reesei genome sequence comprising 9,129 predicted gene models. Unexpectedly, considering the industrial utility and effectiveness of the carbohydrate-active enzymes of T. reesei, its genome encodes fewer cellulases and hemicellulases than any other sequenced fungus able to hydrolyze plant cell wall polysaccharides. Many T. reesei genes encoding carbohydrate-active enzymes are distributed nonrandomly in clusters that lie between regions of synteny with other Sordariomycetes. Numerous genes encoding biosynthetic pathways for secondary metabolites may promote survival of T. reesei in its competitive soil habitat, but genome analysis provided little mechanistic insight into its extraordinary capacity for protein secretion. Our analysis, coupled with the genome sequence data, provides a roadmap for constructing enhanced T. reesei strains for industrial applications such as biofuel production.

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