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The genome sequence of the rice blast fungus Magnaporthe grisea |
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| Authors: | Dean Ralph A Talbot Nicholas J Ebbole Daniel J Farman Mark L Mitchell Thomas K Orbach Marc J Thon Michael Kulkarni Resham Xu Jin-Rong Pan Huaqin Read Nick D Lee Yong-Hwan Carbone Ignazio Brown Doug Oh Yeon Yee Donofrio Nicole Jeong Jun Seop Soanes Darren M Djonovic Slavica Kolomiets Elena Rehmeyer Cathryn Li Weixi Harding Michael Kim Soonok Lebrun Marc-Henri Bohnert Heidi Coughlan Sean Butler Jonathan Calvo Sarah Ma Li-Jun Nicol Robert Purcell Seth Nusbaum Chad Galagan James E Birren Bruce W |
| Affiliation: | Center for Integrated Fungal Research, North Carolina State University, Raleigh, North Carolina 27695, USA. Ralph_Dean@ncsu.edu |
| Abstract: | Magnaporthe grisea is the most destructive pathogen of rice worldwide and the principal model organism for elucidating the molecular basis of fungal disease of plants. Here, we report the draft sequence of the M. grisea genome. Analysis of the gene set provides an insight into the adaptations required by a fungus to cause disease. The genome encodes a large and diverse set of secreted proteins, including those defined by unusual carbohydrate-binding domains. This fungus also possesses an expanded family of G-protein-coupled receptors, several new virulence-associated genes and large suites of enzymes involved in secondary metabolism. Consistent with a role in fungal pathogenesis, the expression of several of these genes is upregulated during the early stages of infection-related development. The M. grisea genome has been subject to invasion and proliferation of active transposable elements, reflecting the clonal nature of this fungus imposed by widespread rice cultivation. |
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