Frontiers
Browse
Table_6_A Similar Secretome Disturbance as a Hallmark of Non-pathogenic Botrytis cinerea ATMT-Mutants?.XLSX (16.2 kB)

Table_6_A Similar Secretome Disturbance as a Hallmark of Non-pathogenic Botrytis cinerea ATMT-Mutants?.XLSX

Download (16.2 kB)
dataset
posted on 2019-12-06, 04:11 authored by Amélie de Vallée, Pascal Bally, Christophe Bruel, Lucie Chandat, Mathias Choquer, Cindy Dieryckx, Jean William Dupuy, Sophie Kaiser, Marie-Pascale Latorse, Elise Loisel, Géraldine Mey, Guillaume Morgant, Christine Rascle, Julia Schumacher, Adeline Simon, Eytham Souibgui, Muriel Viaud, François Villalba, Nathalie Poussereau

The gray mold fungus Botrytis cinerea is a necrotrophic pathogen able to infect hundreds of host plants, including high-value crops such as grapevine, strawberry and tomato. In order to decipher its infectious strategy, a library of 2,144 mutants was generated by random insertional mutagenesis using Agrobacterium tumefaciens-mediated transformation (ATMT). Twelve mutants exhibiting total loss of virulence toward different host plants were chosen for detailed analyses. Their molecular characterization revealed a single T-DNA insertion in different loci. Using a proteomics approach, the secretome of four of these strains was compared to that of the parental strain and a common profile of reduced lytic enzymes was recorded. Significant variations in this profile, notably deficiencies in the secretion of proteases and hemicellulases, were observed and validated by biochemical tests. They were also a hallmark of the remaining eight non-pathogenic strains, suggesting the importance of these secreted proteins in the infection process. In the twelve non-pathogenic mutants, the differentiation of infection cushions was also impaired, suggesting a link between the penetration structures and the secretion of proteins involved in the virulence of the pathogen.

History

Usage metrics

    Frontiers in Microbiology

    Licence

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC