Project description:We report the application of RNA sequencing technology for transcriptome profiling of Trichoderma asperellum challenged with Organophosphorus Pesticide Dichlorvos. Based on RNA-seq analysis, in T. asperellum TJ01 treated with 100 μg/mL, 500 μg/mL, and 1000 μg/mL dichlorvos, 204, 490, and 872 genes were significantly upregulated, respectively, while 37, 177, and 383 genes were significantly downregulated, respectively. This study provides a framework for the application of transcriptome profiling towards characterization of trichoderma under stress of Organophosphorus Pesticide.
Project description:Neurospora intermedia is a heterothallic filamentous ascomycete. In this study we use microarray technology to study the difference in gene expression between vegetative growth and early reproductive development. Neurospora intermedia FGSC#8882 mat-A and FGSC#8782 mat-a. Solid synthetic crossing medium (SCM) was used as a nutrient regime before sampling and processing. Two different conditions were sampled: vegetative mycelial tissue and young reproductive mycelial tissue.
Project description:Neurospora intermedia is a heterothallic filamentous ascomycete. In this study we use microarray technology to study the difference in gene expression between vegetative growth and early reproductive development.
Project description:In opportunistic human pathogenic fungi, changes in gene expression play a crucial role in the evolution of growth stages from early spore germination through host infection. Comparative transcriptomics from diverse fungal pathogens along closely related non-pathogenic model provided insights of regulatory mechanisms behind the initiation of infectious processes by different fungi. We examined the gene expression patterns of 3,845 single-copy orthologous genes (SCOGs) across five phylogenetically distinct species, including the opportunistic human pathogens Fusarium oxysporum, Aspergillus fumigatus, and A. nidulans, and nonpathogenic species Neurospora crassa and Trichoderma asperelloides, at four sequential stages spore germination.
Project description:The transcriptional activator XlnR (Xlr1/Xyr1) is a major regulator in fungal xylan and cellulose degradation as well as in the utilization of d-xylose via the pentose catabolic pathway. XlnR homologs are commonly found in filamentous ascomycetes and often assumed to have the same function in different fungi. However, a comparison of the saprobe Aspergillus niger and the plant pathogen Magnaporthe oryzae showed different phenotypes for deletion strains of XlnR. In this study wild type and xlnR/xlr1/xyr1 mutants of five fungi were compared: Fusarium graminearum, M. oryzae, Trichoderma reesei, A. niger and Aspergillus nidulans. Growth profiling on relevant substrates and a detailed analysis of the secretome as well as extracellular enzyme activities demonstrated a common role of this regulator in activating genes encoding the main xylanolytic enzymes. However, large differences were found in the set of genes that is controlled by XlnR in the different species, resulting in the production of different extracellular enzyme spectra by these fungi. This comparison emphasizes the functional diversity of a fine-tuned (hemi-)cellulolytic regulatory system in filamentous fungi, which might be related to the adaptation of fungi to their specific biotopes.
Project description:Comparative genomics and transcriptomics of the filamentous fungi Aspergillus oryzae and Aspergillus niger have opened possibilities for investigating the cellular metabolism and regulation of these fungi on a systemic level. The aim of this work was to understand how metabolism is regulated and to identify common regulatory responses between A. oryzae and A. niger. We therefore conducted batch fermentations with A. oryzae and A. niger grown on three different carbon sources (glucose, maltose, and xylose) in order to investigate their genome-wide transcription response Keywords: Two Aspergillus species and different carbon sources
