Details of microorganism genetic resources

Details of MAFF 240422
MAFF No.240422
CategoryFungus
Scientific nameColletotrichum orbiculare (Berkeley et Montagne) Arx
IdentifierH. Yasumori
SourceCucumis sativus L.
Site on the sourcediseased leaf
LocationJAPAN (KYOTO)
IsolatorH. Yasumori
DepositorY. Takano
Designation104-T
HistoryH. Yasumori
MediumPotato Sucrose Agar (Potato 200.0g for decoction, Sucrose 20.0g, Agar 17.0-20.0g, Distilled water 1000ml) pH 7.0
Temperature24℃
Time7days
HazardPathogenic (plant)
SequenceActin EF1-α GPDH ITS β-tubulin
PhotoMicrograph Micrograph Micrograph Micrograph Plate, face Plate, reverse
Reference
  • Damm, U., Baroncelli, R., Cai, L., Kubo, Y., O'Connell, R., Weir, B., Yoshino, K. and Cannon, P.F. (2010). Colletotrichum: species, ecology and interactions. IMA Fungus 1(2): 161-165. [10.5598/imafungus.2010.01.02.08]
  • Irieda, H. and Takano, Y. (2021). Epidermal chloroplasts are defense-related motile organelles equipped with plant immune components. Nature communications 12: 2739. [10.1038/s41467-021-22977-5]
  • Kuroyanagi, T., Bulasag, A., Fukushima, K., Suzuki, T., Tanaka, A., Camagna, M., Sato, I., Chiba, S., Ojika, M. and Takemoto, D. (2022). Botrytis cinerea identifies host plants via the recognition of antifungal capsidiol to induce expression of a specific detoxification gene. bioRxiv. [10.1101/2022.05.11.490027]
  • Otaka, J., Seo, S. and Nishimura, M. (2016). Lutein, a natural carotenoid, induces α-1,3-glucan accumulation on the cell wall surface of fungal plant pathogens. Molecules 21(8): 980. [10.3390/molecules21080980]
  • Sakaguchi, A., Tsuji, G. and Kubo, Y. (2010). A Yeast STE11 Homologue CoMEKK1 Is Essential for Pathogenesis-Related Morphogenesis in Colletotrichum orbiculare. Molecular Plant-Microbe Interactions 23(12): 1563-1572. [10.1094/MPMI-03-10-0051]
  • Sato, T., Moriwaki, J., Uzuhashi, S., Degawa, Y., Ono, T. and Nishimura, K. (2012). Molecular phylogenetic analyses and morphological re-examination of strains belonging to three rare Colletotrichum species in Japan. Microbial Resources and Systematics (Microbiology and Culture Collections) 28(2): 121-134. [jsmrs.jp]
  • Shimizu, M., Yazawa, S. and Ushijima, Y. (2009). A promising strain of endophytic Streptomyces sp. for biological control of cucumber anthracnose. Journal of General Plant Pathology 75(1): 27-36. [10.1007/s10327-008-0138-9]
  • Tanaka, S., Ishihama, N., Yoshioka, H., Huser, A., O’Connell, R., Tsuji, G., Tsuge, S. and Kubo, Y. (2009). The Colletotrichum orbiculare ssd1 mutant enhances Nicotiana benthamiana basal resistance by activating a mitogen-activated protein kinase pathway. The Plant Cell 21: 2517-2526. [10.1105/tpc.109.068023]
  • Tsushima, A., Narusaka, M., Gan, P., Kumakura, N., Hiroyama, R., Kato, N., Takahashi, S., Takano, Y., Narusaka, Y. and Shirasu, K. (2021). The conserved Colletotrichum spp. effector candidate CEC3 induces nuclear expansion and cell death in plants. Frontiers in Microbiology 12: 682155. [10.3389/fmicb.2021.682155]
  • Yasumori, H. (1962). Studies on some factors affecting conidial formation and fat and carbohydrate content in conidia of Colletotrichum lagenarium (Pass.) Ell. et Halst. Bulletin of the Shimane Agricultural College, A. 10: 26-31. [ir.lib.shimane-u.ac.jp]
  • Yokoyama, A., Izumitsu, K., Irie, T. and Suzuki, K. (2019). The homeobox transcription factor CoHox1 is required for the morphogenesis of infection hyphae in host plants and pathogenicity in Colletotrichum orbiculare. Mycoscience 60(2): 110-115. [10.1016/j.myc.2018.11.001]
  • Yokoyama, A., Izumitsu, K., Sumita, T., Tanaka, C., Irie, T. and Suzuki, K. (2018). Homeobox transcription factor CoHox3 is essential for appressorium formation in the plant pathogenic fungus Colletotrichum orbiculare. Mycoscience 59(5): 353-362. [10.1016/j.myc.2018.02.001]
  • 佐藤豊三 (2011). MAFF 240422(農業生物資源研究所、NIAS Genebank). Microbial Resources and Systematics (Microbiology and Culture Collections) 27(2): 99. [jsmrs.jp]
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