Phytopathology Research (Jul 2024)
Unraveling the phosphorylation landscape: a leap forward in understanding the rice blast fungus pathogenicity
Abstract
Abstract The rice blast fungus Magnaporthe oryzae stands as a formidable adversary to one of the world’s most important crops, rice, which feeds over half of the global population. Its ability to rapidly evolve and adapt underscores the urgent need for a comprehensive understanding of its infection strategies. In a large-scale study published in Cell, Cruz-Mireles et al. (Cell 187:2557-73, 2024) utilized phosphoproteomics to globally map the phosphorylation landscape during the infection-related development by M. oryzae, identifying 2062 activated phosphoproteins carrying 8005 phosphosites. A subset of these phosphosites were conserved in the proteins of diverse fungal pathogens and appeared to be associated with biotrophic and hemibiotrophic infection. Thirty-two of these phosphoproteins are regulated by pathogenicity mitogen-activated kinase 1 (Pmk1), a central component of the MAPK signaling pathway, including VTi 1–2 suppressor, whose regulation by Pmk1 is essential for rice blast disease. Together, this global phosphorylation atlas offers a rich tapestry of potential therapeutic targets for developing green agrochemicals to control fungal diseases of plants.
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