PLoS Pathogens (Jan 2023)

Verticillium dahliae Vta3 promotes ELV1 virulence factor gene expression in xylem sap, but tames Mtf1-mediated late stages of fungus-plant interactions and microsclerotia formation.

  • Isabel Maurus,
  • Rebekka Harting,
  • Cornelia Herrfurth,
  • Jessica Starke,
  • Alexandra Nagel,
  • Lennart Mohnike,
  • Ying-Yu Chen,
  • Kerstin Schmitt,
  • Emmanouil Bastakis,
  • Marian T Süß,
  • Miriam Leonard,
  • Kai Heimel,
  • Oliver Valerius,
  • Ivo Feussner,
  • James W Kronstad,
  • Gerhard H Braus

DOI
https://doi.org/10.1371/journal.ppat.1011100
Journal volume & issue
Vol. 19, no. 1
p. e1011100

Abstract

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Verticillium transcription activator of adhesion 3 (Vta3) is required for plant root colonization and pathogenicity of the soil-borne vascular fungus Verticillium dahliae. RNA sequencing identified Vta3-dependent genetic networks required for growth in tomato xylem sap. Vta3 affects the expression of more than 1,000 transcripts, including candidates with predicted functions in virulence and morphogenesis such as Egh16-like virulence factor 1 (Elv1) and Master transcription factor 1 (Mtf1). The genes encoding Elv1 and Mtf1 were deleted and their functions in V. dahliae growth and virulence on tomato (Solanum lycopersicum) plants were investigated using genetics, plant infection experiments, gene expression studies and phytohormone analyses. Vta3 contributes to virulence by promoting ELV1 expression, which is dispensable for vegetative growth and conidiation. Vta3 decreases disease symptoms mediated by Mtf1 in advanced stages of tomato plant colonization, while Mtf1 induces the expression of fungal effector genes and tomato pathogenesis-related protein genes. The levels of pipecolic and salicylic acids functioning in tomato defense signaling against (hemi-) biotrophic pathogens depend on the presence of MTF1, which promotes the formation of resting structures at the end of the infection cycle. In summary, the presence of VTA3 alters gene expression of virulence factors and tames the Mtf1 genetic subnetwork for late stages of plant disease progression and subsequent survival of the fungus in the soil.