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    The velvet protein Vel1 controls initial plant root colonization and conidia formation for xylem distribution in Verticillium wilt


    Freitag, Michael, Höfer, Annalena M., Harting, Rebekka, Aßmann, Nils F., Gerke, Jennifer, Schmitt, Kerstin, Starke, Jessica, Bayram, Ozgur, Tran, Van-Tuan, Valerius, Oliver, Braus-Stromeyer, Susanna A. and Braus, Gerhard H. (2021) The velvet protein Vel1 controls initial plant root colonization and conidia formation for xylem distribution in Verticillium wilt. PLOS Genetics, 17 (3). e1009434. ISSN 1553-7404

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    Abstract

    he conserved fungal velvet family regulatory proteins link development and secondary metabolite production. The velvet domain for DNA binding and dimerization is similar to the structure of the Rel homology domain of the mammalian NF-κB transcription factor. A comprehensive study addressed the functions of all four homologs of velvet domain encoding genes in the fungal life cycle of the soil-borne plant pathogenic fungus Verticillium dahliae. Genetic, cell biological, proteomic and metabolomic analyses of Vel1, Vel2, Vel3 and Vos1 were combined with plant pathogenicity experiments. Different phases of fungal growth, development and pathogenicity require V. dahliae velvet proteins, including Vel1-Vel2, Vel2-Vos1 and Vel3-Vos1 heterodimers, which are already present during vegetative hyphal growth. The major novel finding of this study is that Vel1 is necessary for initial plant root colonization and together with Vel3 for propagation in planta by conidiation. Vel1 is needed for disease symptom induction in tomato. Vel1, Vel2, and Vel3 control the formation of microsclerotia in senescent plants. Vel1 is the most important among all four V. dahliae velvet proteins with a wide variety of functions during all phases of the fungal life cycle in as well as ex planta.
    Item Type: Article
    Keywords: velvet protein; Vel1; initial; plant root; colonization; conidia formation; xylem distribution; Verticillium wilt;
    Academic Unit: Faculty of Science and Engineering > Biology
    Item ID: 16217
    Identification Number: 10.1371/journal.pgen.1009434
    Depositing User: Ozgur Bayram
    Date Deposited: 04 Jul 2022 12:04
    Journal or Publication Title: PLOS Genetics
    Publisher: Public Library of Science
    Refereed: Yes
    Related URLs:
    URI: https://mural.maynoothuniversity.ie/id/eprint/16217
    Use Licence: This item is available under a Creative Commons Attribution Non Commercial Share Alike Licence (CC BY-NC-SA). Details of this licence are available here

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