Quantitative iTRAQ-based secretome analysis reveals species-specific and temporal shifts in carbon utilization strategies among manganese(II)-oxidizing Ascomycete fungi.
Zeiner, Carolyn A; Purvine, Samuel O; Zink, Erika M; Pasa-Tolic, Ljiljana; Chaput, Dominique L; Wu, Si; Santelli, Cara M; Hansel, Colleen M.
Fungal Genet Biol
; 106: 61-75, 2017 09.
Artigo em Inglês | MEDLINE | ID: mdl-28676260
Pectin as Carbon Source for <i>Monilinia laxa</i> Exoproteome and Expression Profiles of Related Genes.
Genomes and secretomes of Ascomycota fungi reveal diverse functions in plant biomass decomposition and pathogenesis.
How nutritional status signalling coordinates metabolism and lignocellulolytic enzyme secretion.
Plant cell wall deconstruction by ascomycete fungi.
Phoma herbarum, a soil fungus able to grow on natural lignin and synthetic lignin (DHP) as sole carbon source and cause lignin degradation.
Destructuring plant biomass: focus on fungal and extremophilic cell wall hydrolases.
Secretome analysis reveals effector candidates associated with broad host range necrotrophy in the fungal plant pathogen Sclerotinia sclerotiorum.
Carbon-substrate utilization profiles by Cladorrhinum (Ascomycota).
Broad-specificity GH131 ß-glucanases are a hallmark of fungi and oomycetes that colonize plants.
In vitro growth and cell wall degrading enzyme production by Argentinean isolates of Macrophomina phaseolina, the causative agent of charcoal rot in corn.