Characterisation of Agaricus bisporus response genes to Verticillium fungicola infection

Resumen de la conferencia presentada al VI Meeting on Genetics and Cellular Biology of Basidiomycetes (GCBB-VI), organizado por y celebrado en la Universidad Pública de Navarra el 3-6 de junio de 2005.The mycoparasite Verticillium fungicola is a persistent threat to the cultivation of the mushroom Agaricus bisporus. Mushroom “dry bubble” is characterised by an undifferentiated mass of cells and can result in major crop losses. During the establishment of “dry bubble” substantial changes occur in the biochemistry and physiology of both partners. To enable new insights to be made into the molecular events underlying the disease, work is in progress to identify genes expressed during pathogen infection. Subtractive Suppressive Hybridisation (SSH) has enabled recovery of 65 expressed sequenced tags (ESTs) differentially expressed during infection. After database searches 27 of the genes were identified as most likely from V. fungicola, 25 from A. bisporus and 13 unknown. Bioinformatic analysis suggested that the response genes identified were involved in a range of biological functions that included stress, signalling, protein synthesis and cell wall structure and function. Specific full-length genes will be recovered using cDNA library constructed from lesions of A. bisporus infected with V. fungicola, enabling silencing approaches to be used to further investigate the role of the identified genes in disease. An alternative higher-throughput method of gene function analysis, RNA interference (RNAi) using A. bisporus model genes (URA3, CBX), is also being developed. Silencing constructs expressing RNAi hairpin were transformed into A. bisporus using Agrobacterium tumefaciens and hygromycin resistance. Screening of the transformants by PCR confirmed integration of the silencing construct in 24 transformants. RT-PCR is being used to confirm transcription of the RNAi hairpin. Quantitative PCR will be used to analyse levels of target gene transcripts post RNAi transformation. The role of A. bisporus genes identified, in the infection process, will be determined through infection trails with A. bisporus silenced lines

Molecular toolkit development for gene expression and gene silencing technologies in the homobasidiomycete Fungi Agaricus bisporus and Coprinus cinereus

Resumen de la conferencia presentada al VI Meeting on Genetics and Cellular Biology of Basidiomycetes (GCBB-VI), organizado por y celebrado en la Universidad Pública de Navarra el 3-6 de junio de 2005.We have developed a “Molecular Toolkit” comprising interchangeable promoters and marker genes to facilitate transformation of homobasidiomycete mushrooms and subsequent analysis of gene expression. We will describe the testing of a wide range of promoters in both Agaricus bisporus and Coprinus cinereus when linked to a range of selectable and visual marker genes, along with the parameters required to successfully achieve foreign gene expression within these organisms. It has been previously demonstrated that a prerequisite for GFP expression in A. bisporus and C. cinereus is an intron. We describe the construction of an expression vector containing a multiple cloning site linked to an intron thus allowing different genes to be easily expressed in A. bisporus and C. cinereus. We report on the development of gene silencing technologies within A. bisporus and C. cinereus. In particular the serine protease has been targeted for gene silencing in A. bisporus. Serine protease has been implicated in post-harvest and age-related senescence of sporophores. On harvesting, mushrooms degenerate rapidly to give browned caps and loss of texture in the fruit body, and such problems can dramatically reduce sale ability of the mushrooms. Suppression of genes involved in these pathways could increase mushroom shelf-life and profitability for mushroom growers, or help to further elucidate the complex biochemical pathways involved in post-harvest degradation. Progress will also be reported on gene silencing in C. cinereus

A phylogenetic reconstruction and emendation of Agaricus section Duploannulatae

International audienc

Not Available

Not AvailableDNA analysis reveals genetic homogeneity and single nucleotide polymorphism in 5.8S ribosomal RNA gene spacer region among commercial cultivars of the button mushroom Agaricus bisporus in India.Not Availabl

Gene transfer in the homobasidiomycete Coprinus bilanatus A model system for edible mushrooms

SIGLEAvailable from British Library Document Supply Centre- DSC:DX178870 / BLDSC - British Library Document Supply CentreGBUnited Kingdo