Rchr
J-GLOBAL ID:201401095432158836   Update date: Jun. 04, 2021

Furuichi Naotaka

フルイチ ナオタカ | Furuichi Naotaka
Affiliation and department:
Homepage URL  (1): https://kaken.nii.ac.jp/d/r/50238664.ja.html
Research field  (1): Plants: molecular biology and physiology
Research keywords  (17): アルタナル酸 ,  サプレッサー ,  疾病菌 ,  抵抗性 ,  プロトンポンプ ,  ジャガイモ ,  情報受容 ,  ジャガイモ疫病菌 ,  グルカン ,  プロトンATPase ,  エリシター ,  キナーゼ ,  疫病菌 ,  [H^+]ATPase ,  植物病原菌 ,  植物毒素 ,  ソラナピロン
Research theme for competitive and other funds  (2):
  • 1999 - 2001 Study of the role of phototoxins in toxin-induced symptom development
  • 1993 - 1994 ANALYSIS OF THE REGULATION GENE FOR HYPERSENSITIIVITY OF PLANT AND ANALYSIS OF SIGNAL TRUNSDUCTION IN PLANT CELL
Papers (14):
  • Naotaka Furuichi Kazutoshi, Yokokawa Koji Ohnishi, Masatoshi Ohta. The Binding of Ca2+-Dependent Protein Kinase to the Suppressor of Potato Late Blight Pathogen Proved by Fluorescence Correlation Spectroscopy (FCCS)Inhibits the NADPH Oxidase and Active Oxygen Generation in Potato Cell. Journal of Plant Pathology & Microbiology. 2015. s4
  • Naotaka Furuichi. Over the Suppressor from Phytophthora infestans Single Molecule Signaling in Hypersensitive Cell Death of Host Cell against Ca2+-Dependent Protein Kinases. Journal of Plant Pathology & Microbiology. 2015. 06. 08
  • Naotaka Furuichi. PiPE, a Phytophthora-associated PAMPS from P. infestans, Binds to a Ca2+-Dependent Protein Kinase (CDPK) in Potato for the Induction of Hypersensitive Reaction. Journal of Clinical & Experimental Pathology. 2014. 04. 01
  • Naotaka Furuichi. Host Selective Toxins and Suppressor Effector from Plant Pathogens Regulate Ca2+ -Dependent Protein Kinase in the Plant Cell. Journal of Plant Pathology & Microbiology. 2012. 03. 01
  • Iwase, Y., Honma, S., Matsuzaki, M., Miyakawa, Y., Kanno, T., Ishii, K., Furuichi, N., Furukawa, K., Horigome, T. A fully automated phosphopeptide purification system for large-scale phosphoproteome analysis. Journal of Biochemistry. 2010. 147. 5. 689-696
more...
MISC (40):
  • 古市尚高, 太田雅寿. ジャガイモ疫病サプレッサーシグナル伝達機構:一分子シグナル伝達機構の解析. 日本植物生理学会年会(Web). 2019. 60th
  • 古市尚高, 横川和俊, 太田雅寿. ジャガイモ活性酸素生成遺伝子(Rboh)の発現と疫病菌PiPEエリシターによる誘導. 北陸病害虫研究会報. 2011. 60
  • 古市尚高, 横川和俊, 岡本久一, 太田雅寿. 疫病菌PiPエリシターおよびサプレッサーはジャガイモ細胞CDPKキナーゼに働きその活性を制御し細胞死の誘導および阻害を示す. 植物微生物研究会研究交流会講演要旨集. 2010. 19th
  • 古市尚高, 古市尚高, 岡村久一, 堀米恒好, 太田雅寿. 疫病菌エリシターによるジャガイモの防御反応:宿主CDPKキナーゼを介した過敏感反応の誘導機構. 北陸病害虫研究会報. 2010. 59
  • 古市尚高, 古市尚高, 横川和俊, 太田雅寿, 岡村久一, 市原民耿. トマトCa2+-依存型タンパク質キナーゼはAlternaria solaniの生成するHSTであるアルタナル酸により活性制御を受ける. 植物微生物研究会研究交流会講演要旨集. 2009. 18th
more...
Patents (4):
Books (1):
  • 植物病原菌の抵抗性反応抑制遺伝子の解明および宿主細胞の情報受容機構の解析
    [古市尚高] 1995
Work history (6):
  • 2014/09 - 現在 University of Nevada Department of Biochemistry and Molecular Biology Professor
  • 1999/04 - 2018/03 Niigata University Faculty of Agriculture
  • 2014/06 - 2014/07 University of Oregon, Portland, OR, USA. Department of Plant Molecular Biology. Professor
  • 2004/05 - 2004/06 University of Tubingen Department of Biology Professor
  • 2003/09 - 2004/04 Uhta State University Department of Biology Professor
Show all
Awards (3):
  • 2002/09 - Intelligent Cosmos Science Foundation Intelligent Cosmso Research and Development Prize Explanations of Plant Defence System
  • 1984/04 - Award of Promotion of Young Scientist
  • 1982/04 - Japanese Society of Plant Pathology Award of Promotion of Young Scientist Explanations of Plant Defence System, US-Japan Seminer
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