Yoshikatsu Fujita scite author profile

Magnaporthe oryzae is the causal agent of rice blast disease, a devastating problem worldwide. This fungus has caused breakdown of resistance conferred by newly developed commercial cultivars. To address how the rice blast fungus adapts itself to new resistance genes so quickly, we examined chromosomal locations of AVR-Pita, a subtelomeric gene family corresponding to the Pita resistance gene, in various isolates of M. oryzae (including wheat and millet pathogens) and its related species. We found that AVR-Pita (AVR-Pita1 and AVR-Pita2) is highly variable in its genome location, occurring in chromosomes 1, 3, 4, 5, 6, 7, and supernumerary chromosomes, particularly in rice-infecting isolates. When expressed in M. oryzae, most of the AVR-Pita homologs could elicit Pita-mediated resistance, even those from non-rice isolates. AVR-Pita was flanked by a retrotransposon, which presumably contributed to its multiple translocation across the genome. On the other hand, family member AVR-Pita3, which lacks avirulence activity, was stably located on chromosome 7 in a vast majority of isolates. These results suggest that the diversification in genome location of AVR-Pita in the rice isolates is a consequence of recognition by Pita in rice. We propose a model that the multiple translocation of AVR-Pita may be associated with its frequent loss and recovery mediated by its transfer among individuals in asexual populations. This model implies that the high mobility of AVR-Pita is a key mechanism accounting for the rapid adaptation toward Pita. Dynamic adaptation of some fungal plant pathogens may be achieved by deletion and recovery of avirulence genes using a population as a unit of adaptation.

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Ustiloxins, antimitotic cydic peptides from false smut balls on rice panicles caused by Ustilaginoidea virens.

Koiso

et al. 1994

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Ustiloxins A (la), B (lb), C (lc), D (Id) and E (le), antimitotic peptides, have been isolated from the water extract offalse smut balls caused on the panicles of rice plant by a fungus Ustilaginoidea virens. The structure of lb was assigned from its spectral property and its aminoacid analysis in relation to la whose structure was determined previously by a conbination of X-ray crystallographic and amino acid analyses. Structures of lc and Id were elucidated by their spectroscopic data, specially based on their *H and 13C NMR spectra. Bioactivities of these compoundsagainst microtubule assembly as well as manmal, plant and fungal cells have been studied.The false smut balls growing parasitically on panicles of rice plant (in Japanese, Ina-kouji) are caused by a pathogen, Ustilaginoidea virens Cooke, Takahashi. It has been reported that the panicles suffered from this disease has poor crops and that occasional injection of such rice plants caused poisoning to the domestic animals.

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Mutation of an Arginine Biosynthesis Gene Causes Reduced Pathogenicity in Fusarium oxysporum f. sp. melonis

Namiki¹,

Matsunaga²,

Okuda³

et al. 2001

MPMI

243

158

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Restriction enzyme-mediated integration (REMI) mutagenesis was used to tag genes required for pathogenicity of Fusarium oxysporum f. sp. melonis. Of the 1,129 REMI transformants tested, 13 showed reduced pathogenicity on susceptible melon cultivars. One of the mutants, FMMP95-1, was an arginine auxotroph. Structural analysis of the tagged site in FMMP95-1 identified a gene, designated ARG1, which possibly encodes argininosuccinate lyase, catalyzing the last step for arginine biosynthesis. Complementation of FMMP95-1 with the ARG1 gene caused a recovery in pathogenicity, indicating that arginine auxotrophic mutation causes reduced pathogenicity in this pathogen.

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Ustiloxin: a phytotoxin and a mycotoxin from false smuth balls on rice panicles

Koiso

Natori

Iwasaki

et al. 1992

Tetrahedron Letters

118

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Multiple functional polymorphisms in a single disease resistance gene in rice enhance durable resistance to blast

Fukuoka

Yamamoto

Mizobuchi

et al. 2014

Sci Rep

109

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