73 research outputs found
Regulation of proteinaceous effector expression in phytopathogenic fungi
Effectors are molecules used by microbial pathogens to facilitate infection via effector-triggered susceptibility or tissue necrosis in their host. Much research has been focussed on the identification and elucidating the function of fungal effectors during plant pathogenesis. By comparison, knowledge of how phytopathogenic fungi regulate the expression of effector genes has been lagging. Several recent studies have illustrated the role of various transcription factors, chromosome-based control, effector epistasis, and mobilisation of endosomes within the fungal hyphae in regulating effector expression and virulence on the host plant. Improved knowledge of effector regulation is likely to assist in improving novel crop protection strategies
Fine-scale structure of populations of the ectomycorrhizal fungus Hebeloma cylindrosporum in coastal sand dune forest ecosystems
International audienc
erformance of the COX1 gene as a marker for the study of metabolically active Pezizomycotina and Agaricomycetes fungal communities from the analysis of soil RNA
International audienceIn temperate forest soils, filamentous ectomycorrhizal and saprotrophic fungi affiliated to the Agaricomycetes and Pezizomycotina contribute to key biological processes. The diversity of soil fungal communities is usually estimated by studying molecular markers such as nuclear ribosomal gene regions amplified from soil-extracted DNA. However, this approach only reveals the presence of the corresponding genomic DNA in the soil sample and may not reflect the diversity of the metabolically active species. To circumvent this problem, we investigated the performance of the mitochondrial cytochrome c oxidase 1 (COX1)-encoding gene as a fungal molecular marker for environmental RNA-based studies. We designed PCR primers to specifically amplify Agaricomycetes and Pezizomycotina COX1 partial sequences and amplified them from both soil DNA and reverse-transcribed soil RNA. As a control, we also amplified the nuclear internal transcribed spacer ribosomal region from soil DNA. Fungal COX1 sequences were readily amplified from soil-extracted nucleic acids and were not significantly contaminated by nontarget sequences. We show that the relative abundance of fungal taxonomic groups differed between the different sequence data sets, with for example ascomycete COX1 sequences being more abundant among sequences amplified from soil DNA than from soil cDNAs
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