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The C olletotrichum graminicola striatin orthologue Str1 is necessary for anastomosis and is a virulence factor
Author(s) -
Wang ChihLi,
Shim WonBo,
Shaw Brian D.
Publication year - 2016
Publication title -
molecular plant pathology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.945
H-Index - 103
eISSN - 1364-3703
pISSN - 1464-6722
DOI - 10.1111/mpp.12339
Subject(s) - biology , conidiation , virulence , appressorium , mutant , microbiology and biotechnology , hypha , graminicola , genetics , pathogen , gene
Summary Striatin family proteins are key regulators in signalling pathways in fungi and animals. These scaffold proteins contain four conserved domains: a caveolin‐binding domain, a coiled‐coil motif and a calmodulin‐binding domain at the N‐terminus, and a WD‐repeat domain at the C‐terminus. Fungal striatin orthologues are associated with sexual development, hyphal growth and plant pathogenesis. In Fusarium verticillioides , the striatin orthologue Fsr1 promotes virulence in the maize stalk. The relationship between fungal striatins and pathogenicity remains largely unexplored. In this study, we demonstrate that the Colletotrichum graminicola striatin orthologue Str1 is required for full stalk rot and leaf blight virulence in maize. Pathogenicity assays show that the striatin mutant strain (Δ str1 ) produces functional appressoria, but infection and colonization are attenuated. Additional phenotypes of the Δ str1 mutant include reduced radial growth and compromised hyphal fusion. In comparison with the wild‐type, Δ str1 also shows a defect in sexual development and produces fewer and shorter conidia. Together with the fact that F . verticillioides fsr1 can complement Δ str1 , our results indicate that C. graminicola Str1 shares five phenotypes with striatin orthologues in other fungal species: hyphal growth, hyphal fusion, conidiation, sexual development and virulence. We propose that fungal striatins, like mammalian striatins, act as scaffolding molecules that cross‐link multiple signal transduction pathways.

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