Updated on 2022/04/13

写真a

 
 
Organization
Graduate School of Science Assistant Professor
Graduate School
Graduate School of Science
Undergraduate School
School of Science Department of Biological Science
Title
Assistant Professor

Degree 1

  1. 博士(理学) ( 2016.2   名古屋大学 ) 

Research Interests 2

  1. 糖鎖 AGP

  2. 植物ペプチドホルモン 情報伝達  

Research History 5

  1. Nagoya University   Assistant Professor

    2021.9

  2. Nagoya University   Designated assistant professor

    2021.1 - 2021.8

  3. Nagoya University   Researcher

    2014.4 - 2020.12

  4. 自然科学研究機構 基礎生物学研究所   研究員

    2011.4 - 2014.3

  5. Nagoya University   Researcher

    2003.4 - 2011.3

 

Papers 20

  1. Shoot-to-root mobile CEPD-like 2 integrates shoot nitrogen status to systemically regulate nitrate uptake in Arabidopsis. Invited Reviewed

    R. Ota, Y. Ohkubo, Y.Yamashita, M. Ogawa-Ohnishi, Y. Matsubayashi.

    Nat Commun.   Vol. 11   page: 641   2020

  2. PLENTY, a hydroxyproline O-arabinosyltransferase, negatively regulates root nodule symbiosis in Lotus japonicus. Invited Reviewed

    E. Yoro, H. Nishida, M. Ogawa-Ohnishi, C. Yoshida, T. Suzaki, Y. Matsubayashi, M. Kawaguchi.

    J Exp Bot   Vol. 70   page: 507 - 517   2019

  3. Pectin RG-I rhamnosyltransferases represent a novel plant-specific glycosyltransferase family. Invited Reviewed

    Y. Takenaka, K. Kato, M. Ogawa-Ohnishi, K. Tsuruhama, H. Kajiura, K. Yagyu, A. Takeda, Y. Takeda, T. Kunieda, I Hara-Nishimura, T. Kuroha, K. Nishitani, Y. Matsubayashi, T. Ishimizu.

    Nat Plants   Vol. 4   page: 669 - 676   2018

  4. A peptide hormone required for Casparian strip diffusion barrier formation in Arabidopsis roots. Invited Reviewed

    T. Nakayama, H. Shinohara, M. Tanaka, K. Baba, M. Ogawa-Ohnishi, Y. Matsubayashi.

    Science   Vol. 355   page: 284 - 286   2017

  5. Shoot-to-root mobile polypeptides involved in systemic regulation of nitrogen acquisition. Invited Reviewed

    Y. Ohkubo, M. Tanaka, R. Tabata, M. Ogawa-Ohnishi, Y. Matsubayashi.

    Nat Plants   Vol. 3   page: 17029   2017

  6. A cascade of arabinosyltransferases controls shoot meristem size in tomato. Invited Reviewed

    C. Xu, K.L. Liberatore, C.A. MacAlister, Z. Huang, Y.H. Chu, K. Jiang, C. Brooks, M. Ogawa-Ohnishi, G. Xiong, M. Pauly, J. Van Eck, Y. Matsubayashi, E. van der Knaap and Z.B. Lippman

    Nature Genet.   Vol. 47   page: 784 - 792   2015

  7. Identification of three potent hydroxyproline O-galactsyltransferases in Arabidopsis Invited Reviewed

    M. Ogawa-Ohnishi and Y. Matsubayashi

    Plant J.   Vol. 81   page: 736 - 746   2015

  8. Identification of three hydroxyproline O-arabinosyltransferases in Arabidopsis thaliana Invited Reviewed

    M. Ogawa-Ohnishi, W. Matsushita and Y. Matsubayashi

    Nature Chem. Biol.   Vol. 9   page: 726 - 730   2013

     More details

    Authorship:Lead author  

  9. Secreted peptide signals required for maintenance of root stem cell niche in Arabidopsis. Invited Reviewed

    Y. Matsuzaki, M. Ogawa-Ohnishi, A. Mori and Y. Matsubayashi

    Science   Vol. 329   page: 1065 - 1067   2010

  10. A glycopeptide regulating stem cell fate in Arabidopsis thaliana Invited Reviewed

    K. Ohyama, H. Shinohara, M. Ogawa-Ohnishi and Y. Matubayashi

    Nature Chem. Biol.   Vol. 5   page: 578 - 580   2009

  11. Identification of tyrosylprotein sulfotransferase in Arabidopsis. Invited Reviewed

    R. Komori, Y. Amano, M. Ogawa-Ohnishi and Y. Matsubayashi

    Proc. Natl Acad. Sci. USA   Vol. 106   page: 15067 - 15072   2009

  12. Arabidopsis CLV3 peptide directly binds CLV1 ectodomain. Invited Reviewed

    M. Ogawa, H. Shinohara, Y. Sakagami and Y. Matsubayashi

    Science   Vol. 319   page: 294   2008

     More details

    Authorship:Lead author  

  13. Non-cell-autonomous control of vascular stem cell fate by a CLE peptide/receptor system. Invited Reviewed

    Y. Hirakawa, H. Shinohara, Y. Kondo, A. Inoue, I. Nakanomyo, M. Ogawa, S. Sawa, K. Ohashi-Ito, Y. Matsubayashi and H. Fukuda

    Proc. Natl Acad. Sci. USA   Vol. 105   page: 15208 - 15213   2008

  14. Identification of a biologically active, small, secreted peptide in Arabidopsis by in silico gene screening, followed by LC-MS-based structure analysis. Invited Reviewed

    K. Ohyama, M. Ogawa and Y. Matsubayashi

    Plant J.   Vol. 55   page: 152 - 160   2008

  15. Identification of ligand binding site of phytosulfokine receptor by on column photoaffinity labeling. Invited Reviewed

    H. Shinohara, M. Ogawa, Y. Sakagami and Y. Matsubayashi

    J. Biol. Chem.   Vol. 282   page: 124 - 131   2007

  16. Tyrosine-sulfated glycopeptide involved in cellular proliferation and expansion in Arabidopsis. Invited Reviewed

    Y. Amano, H. Tsubouch, H. Shinohara, M. Ogawa and Y. Matsubayashi

    Proc. Natl Acad. Sci. USA   Vol. 104   page: 18333 - 18338   2007

  17. Disruption and overexpression of Arabidopsis phytosulfokine receptor gene affects cellular longevity and potential for growth. Invited Reviewed

    Y .Matsubayashi, M. Ogawa, H. Kihara, M. Niwa and Y. Sakagami

    Plant Physol.   Vol. 142   page: 45 - 53   2006

  18. Further analogues of plant peptide hormone phytosulfokine-a and their biological evalution. Invited Reviewed

    A. Bahyrycz, Y. Matsubayashi, M. Ogawa, Y. Sakagami and D. Konopinska

    J. Pept. Sci.   Vol. 11   page: 589 - 592   2005

  19. Plant peptide hormone phytosulfokine: synthesis of new analogues and their biological evalution. Invited Reviewed

    A. Bahyrycz, Y. Matsubayashi, M. Ogawa, Y. Sakagami and D. Konopinska

    J. Pept. Sci.   Vol. 10   page: 462 - 469   2004

  20. An LRR receptor kinase involved in perception of a peptide plant hormone, phytosulfokine. Invited Reviewed

    Y. Matsubayashi, M. Ogawa, A. Morita and Y. Sakagami

    Science   Vol. 296   page: 1470 - 1472   2002

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KAKENHI (Grants-in-Aid for Scientific Research) 1

  1. 糖転移酵素変異株を用いた植物におけるアラビノガラクタンプロテインの新規機能探索

    Grant number:21K20653  2021.4 - 2023.3

    2021年度 研究活動スタート支援

    大西 真理

      More details

    Authorship:Principal investigator  Grant type:Competitive

    Grant amount:\3120000 ( Direct Cost: \2400000 、 Indirect Cost:\720000 )

    アラビノガラクタンプロテイン(Arabinogalactan protein : AGP)は植物特有の細胞外プロテオグリカンファミリーであり,植物の形態形成や生殖過程,情報伝達など様々な重要なプロセスに関与している.AGPはその重量の90%が複雑な構造を持つ糖鎖であり,この糖鎖が分子機能に重要であると考えられているが,機能的重複性が高い上,糖鎖特有の多様性・不均一性のため解析が非常に困難であり,これまでのAGP変異株等を用いた解析で明らかとなった分子機能は極めて限定的である.
    本研究では近年申請者が同定したAGP糖鎖付加の第一段階を担う糖転移酵素群Hydroxyproline O-galactosyltransferases (HPGT1, HPGT2, HPGT3)の多重変異株をツールとして用い,これまでの解析方法では顕在化されてこなかった新たなAGPの分子機能の解明を目的とする.