Search Results - "Kodama, Sayo"

Niemann-Pick Type C Proteins Are Required for Sterol Transport and Appressorium-Mediated Plant Penetration of Colletotrichum orbiculare by Kodama, Sayo, Kajikawa, Naoki, Fukada, Fumi, Kubo, Yasuyuki

“…Many biotrophic and hemibiotrophic fungal pathogens use appressoria to directly penetrate the host plant surface. In the cucumber anthracnose fungus…”
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Colletotrichum orbiculare MTF4 Is a Key Transcription Factor Downstream of MOR Essential for Plant Signal-Dependent Appressorium Development and Pathogenesis by Kodama, Sayo, Nishiuchi, Takumi, Kubo, Yasuyuki

“…The cucumber anthracnose fungus Colletotrichum orbiculare forms a specialized infection structure, called an appressorium. Appressorium differentiation relies…”
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Plant surface signal sensing and infection-related morphogenesis of Colletotrichum orbiculare by Kodama, Sayo, Bissaro, Bastien, Berrin, Jean-Guy, Kubo, Yasuyuki

“…Several plant pathogenic fungi including Colletotrichum species form specialized cells called appressoria to directly penetrate the intact cuticles of their…”
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Plant pathogenic fungi Colletotrichum and Magnaporthe share a common G₁ phase monitoring strategy for proper appressorium development by Fukada, Fumi, Kodama, Sayo, Nishiuchi, Takumi, Kajikawa, Naoki, Kubo, Yasuyuki

“…To breach the plant cuticle, many plant pathogenic fungi differentiate specialized infection structures (appressoria). In Colletotrichum orbiculare (cucumber…”
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The morphogenesis-related NDR kinase pathway of Colletotrichum orbiculare is required for translating plant surface signals into infection-related morphogenesis and pathogenesis by Kodama, Sayo, Ishizuka, Junya, Miyashita, Ito, Ishii, Takaaki, Nishiuchi, Takumi, Miyoshi, Hideto, Kubo, Yasuyuki

“…Plant infection by pathogenic fungi involves the differentiation of appressoria, specialized infection structures, initiated by fungal sensing and responding…”
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Development of the infection strategy of the hemibiotrophic plant pathogen, Colletotrichum orbiculare, and plant immunity by Kubo, Yasuyuki, Harata, Ken, Kodama, Sayo, Fukada, Fumi

“…The hemibiotrophic fungus Colletotrichum orbiculare forms appressoria as infection structures and primarily establishes biotrophic infection in cucumber…”
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Tandem metalloenzymes gate plant cell entry by pathogenic fungi by Bissaro, Bastien, Kodama, Sayo, Nishiuchi, Takumi, Díaz-Rovira, Anna Maria, Hage, Hayat, Ribeaucourt, David, Haon, Mireille, Grisel, Sacha, Simaan, A Jalila, Beisson, Fred, Forget, Stephanie M, Brumer, Harry, Rosso, Marie-Noëlle, Guallar, Victor, O'Connell, Richard, Lafond, Mickaël, Kubo, Yasuyuki, Berrin, Jean-Guy

“…Global food security is endangered by fungal phytopathogens causing devastating crop production losses. Many of these pathogens use specialized appressoria…”
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Plant pathogenic fungi Colletotrichum and Magnaporthe share a common G 1 phase monitoring strategy for proper appressorium development by Fukada, Fumi, Kodama, Sayo, Nishiuchi, Takumi, Kajikawa, Naoki, Kubo, Yasuyuki

“…To breach the plant cuticle, many plant pathogenic fungi differentiate specialized infection structures (appressoria). In Colletotrichum orbiculare (cucumber…”
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Lipid droplets in the pheromone glands of bombycids: Effects of larval diet on their size and pheromone titer by Fujii, Takeshi, Kodama, Sayo, Ishikawa, Yukio, Yamamoto, Masanobu, Sakurai, Takeshi, Fónagy, Adrien

“…[Display omitted] •Lipid droplets (LDs) in pheromone glands (PGs) store fatty acid pheromone precursors.•Fatty acid content in the larval diet affected LD size…”
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The disordered C-terminal tail of fungal LPMOs from phytopathogens mediates protein dimerization and impacts plant penetration by Tamburrini, Ketty C, Kodama, Sayo, Grisel, Sacha, Haon, Mireille, Nishiuchi, Takumi, Bissaro, Bastien, Kubo, Yasuyuki, Longhi, Sonia, Berrin, Jean-Guy

“…Lytic polysaccharide monooxygenases (LPMOs) are monocopper enzymes that oxidatively degrade various polysaccharides, such as cellulose. Despite extensive…”
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