Abstract
The basidiomycete Chondrostereum purpureum (Silverleaf fungus) is a saprotroph and plant pathogen commercially used for combatting forest “weed” trees in vegetation management. However, little is known about its lignocellulose-degrading capabilities and the enzymatic machinery that is responsible for the degradative potential, and it is not yet clear to which group of wood-rot fungi it actually belongs. Here, we sequenced and analyzed the draft genome of C. purpureum (41.2 Mbp) and performed a quantitative proteomic approach during growth in submerged and solid-state cultures based on soybean meal suspension or containing beech wood supplemented with phenol-rich olive mill residues, respectively. The fungus harbors characteristic lignocellulolytic hydrolases (GH6 and GH7) and oxidoreductases (e.g. laccase, heme peroxidases). High abundance of some of these genes (e.g. 45 laccases, nine GH7) can be explained by gene expansion, e.g. identified for the laccase orthogroup ORTHOMCL11 that exhibits a total of 18 lineage-specific duplications. Other expanded genes families encode for proteins more related to a pathogenic lifestyle (e.g. protease and cytochrome P450s). The fungus responds to the presence of complex growth substrates (lignocellulose, phenolic residues) by the secretion of most of these lignocellulolytic and lignin-modifying enzymes (e.g. alcohol and aryl alcohol oxidases, laccases, GH6, GH7). Based on the genetic and enzymatic constitution, we consider the ‘marasmioid’ fungus C. purpureum as a ‘phytopathogenic’ white-rot fungus (WRF) that possesses a complex extracellular enzyme machinery to accomplish efficient lignocellulose degradation during both saprotrophic and phytopathogenic life phases.
Highlights
Wood-degrading organisms play an important role in carbon and nitrogen cycling
Assembly and quality assessment of Chondrostereum purpureum draft genome The genome of C. purpureum was assembled from 3,971,460 quality filtered reads obtained from the Ion Torrent Personal Genome Machine (PGM) System
From the subset of 248 ultra-conserved CEGMA CEGs considered, we found 229 (92.3%) complete and 237 (95.6%) partial proteins sequences
Summary
The most efficient ones are filamentous fungi, which can ecologically be categorized into brown-rot, white-rot and soft-rot fungi, colonizing compact wood (logs, branches, stumps) and degrading all polymeric cell wall components [1, 2]. Basidiomycetous brown-rot fungi (BRF) degrade primarily the polysaccharide components of wood and leave a partially modified lignin framework behind, whereas basidiomycetous white-rot fungi (WRF) decompose efficiently all cell wall components. The rate and extent of lignin, cellulose, and hemicellulose removal varies among white-rot species [5, 6]. They are considered to decompose the three wood components via the synergistic action of extracellular hydrolases and oxidoreductases classified within the CAZy database [7]. The class of Agaricomycetes includes numerous well-known WRF (wood and litter decomposers) and BRF, e.g. within the orders Polyporales (Trametes versicolor, Phlebia radiata, Bjerkandera adusta, Irpex lacteus), Gloeophyllales (Gloeophyllum trabeum) and Agaricales (Agaricus bisporus, Stropharia coronilla, Agrocybe praecox) [7]
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