Rchr
J-GLOBAL ID:200901001057343553
Update date: Feb. 01, 2024
Nishimura Mikio
ニシムラ ミキオ | Nishimura Mikio
Affiliation and department:
Job title:
Special Resercher
Research field (1):
Plants: molecular biology and physiology
Research keywords (1):
Organelle Dynamics
Research theme for competitive and other funds (54):
- 2014 - 2018 Analysis on molecular mechanism of protein transport to peroxisomes
- 2016 - 2018 Development of novel protein synthesis system to produce active hepatitis B virus (HBV)-POL that contributes to the drug discovery
- 2012 - 2017 The plant cell wall as information processing system
- 2013 - 2016 Molecular mechanisms underlining the formation of endoplasmic reticulum (ER) bodies in plants
- 2010 - 2016 Molecular mechanism on environmental sensing of plants by organelle interaction
- 2010 - 2016 Environmental sensing of plants: Signal perception, processing and cellular responses
- 2009 - 2014 Development of New CO2-Fixation-Promoting Technology for Increasing Bio-Material Production
- 2008 - 2010 Analysis on peroxisome biogenesis factors in higher plants
- 2008 - 2010 Comprehensive analyses on novel functions of plant peroxisomes
- 2009 - Advanced Scholarship for Young Investigators
- 2007 - 2008 種子の脂肪性およびデンプン性を決定する分子機構の解析
- 2004 - 2008 Organelle Differentiation as the Strategy for Environmental Adaptation in Plants
- 2004 - 2008 Organelle Differentiation as the Strategy for Environmental Adaptation in Plants
- 2006 - 2007 Studies on novel functions of plant peroxisomes
- 2004 - 2005 小胞体由来のオルガネラにみられるタンパク質集積機構
- 2003 - 2005 Reversibility of peroxisomal differentiation in higher plants.
- 1998 - 2003 Integral Studies on Vacuolar Function for Strategy of Plant Survival
- 2001 - 2002 Mechanism on Novel Thylakoid Membrane Transport
- 1998 - 2002 Developmental Changes of Membrane Proteins for Vacuolar Differentiation in Plants
- 2000 - 2001 Molecular Mechanisms of the Microbody Transition in Higher Plants
- 1996 - 2001 Molecular Mechanisms on Reversible Transformation of Organelles in Plant Cell Differentiation
- 1997 - 2000 Intracellular Communication Mechanism for Organization of Photosynthetic Functions through Plant Body
- 1997 - 2000 Molecular Basis for Organization of Photosynthetic Functions through Plant Body
- 1998 - 1999 Regulatory Mechanism on Gene Expression of Alternative Splicing in Plants
- 1997 - 1999 MOLECULAR MECHANISMS ON THE REVERSIBLE MICROBODY TRANITION
- 1996 - 1997 Analysis on
- 1996 - 1996 Stress Responses of Photosynthetic Organisms
- 1996 - 1996 Functional Regulation on Photosynthesis in Plants
- 1995 - 1996 Reversibility of Functional Transformation of Microbodies
- 1995 - 1995 Structure and Function of Molecular Chaperons in Higher Plant Cells
- 1992 - 1995 Molecular Mechanism of Damage and Repair Processes in Photosynthesis
- 1994 - 1994 高等植物細胞における分子シャペロンの構造と機能
- 1994 - 1994 植物ペルオキシゾーム蛋白質局在化の分子機構
- 1993 - 1993 高等植物細胞における分子シャペロンの構造と役割
- 1993 - 1993 液胞タンパク質のプロセシングに着目した機能性食品設計法の開発
- 1993 - 1993 植物ペルオキシゾーム蛋白質局在化の分子機構
- 1992 - 1993 Molecular Mechanisms Underlying Differentiation of Microbodies.
- 1992 - 1993 液胞タンパク質のプロセシングに着目した機能性食品設計法の開発
- 1992 - 1993 植物ペルオキシゾーム蛋白質局在化の分子機構
- 1990 - 1992 シンク機能に基づく物質集積
- 1991 - 1991 光合成の環境応答の分子機構
- 1991 - 1991 マイクロボディ細胞内共生説の検討
- 1991 - 1991 植物パ-オキシゾ-ム蛋白質局在化の分子機構
- 1991 - 1991 シンク機能に基づく物質集積
- 1990 - 1991 Dynamic aspects of microbody transition in pumpkin cotyledons.
- 1990 - 1990 シンク機能に基づく物質集積
- 1989 - 1989 光によるグリオキシゾ-ム酵素分解系の誘導機構の解析
- 1988 - 1988 貯蔵蛋白質合成系の組織特異的発現機構
- 1988 - 1988 環境因子による形質発現調節機構の解析
- 1987 - 1988 Cell Biological Studies on Protein Body-Vacuole Transformation in Germinating Castor Bean Seedlings.
- 1987 - 1987 貯蔵蛋白質合成系の組織特異的発見機構
- 1987 - 1987 環境因子による形質発現調節機構の解析
- 1986 - 1986 環境因子による形質発現調節機構の解析
- 1980 - 1980 光呼吸における緑葉ミトコンドリアの役割
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Papers (341):
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Masatake Kanai, Masaya Sugiyama, Maki Kondo, Kenji Yamada, Mikio Nishimura, Shoji Mano. Fusing the 3'UTR of seed storage protein genes leads to massive recombinant protein accumulation in seeds. Scientific reports. 2023. 13. 1. 12217-12217
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Shino Goto-Yamada, Kazusato Oikawa, Yasuko Hayashi, Shoji Mano, Kenji Yamada, Mikio Nishimura. Pexophagy in plants: a mechanism to remit cells from oxidative damage caused under high-intensity light. Autophagy. 2023. 1-3
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Kazusato Oikawa, Shino Goto-Yamada, Yasuko Hayashi, Daisuke Takahashi, Yoshitaka Kimori, Michitaro Shibata, Kohki Yoshimoto, Atsushi Takemiya, Maki Kondo, Kazumi Hikino, et al. Pexophagy suppresses ROS-induced damage in leaf cells under high-intensity light. Nature communications. 2022. 13. 1. 7493-7493
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Shoji Mano, Yasuko Hayashi, Kazumi Hikino, Masayoshi Otomo, Masatake Kanai, Mikio Nishimura. Ubiquitin-conjugating activity by PEX4 is required for efficient protein transport to peroxisomes in Arabidopsis thaliana. The Journal of biological chemistry. 2022. 298. 6. 102038-102038
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Shino Goto-Yamada, Kazusato Oikawa, Katsuyuki T. Yamato, Masatake Kanai, Kazumi Hikino, Mikio Nishimura, Shoji Mano. Image-Based Analysis Revealing the Molecular Mechanism of Peroxisome Dynamics in Plants. Frontiers in Cell and Developmental Biology. 2022. 10
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MISC (37):
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Goto-Yamada, S, K. Oikawa, Y. Hayashi, S. Mano, K. Yamada, M. Nishimura. Cover Illustration and the explanation of the Autophagy. Autophagy. 2023. 19. 5
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Nishimura M. Testimonials for Pioneer Member Harry Beevers. Web site of ASPB/Pioneer Testimonials. 2022
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Joyard J, H. K. LichtenthalerMN a short tribute. Tribute Roland Douce, 1939-2018. Photosynthesis Res. 2019. 141. 2. 131-142
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Hayashi, Y, Takagi, T, Nishimura, M. Cover Illustration and the explanation of the CYTOLOGIA. Cytologia. 2018. 83. 2. 123-124
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Nishimura M, Chairperson of the JSPP Awards Committee. Winners and selection process for 2017 JSPP Awards and young investigator award. JSPP Newsletter. 2017. 52. 13-15
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Patents (5):
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植物体の種子における目的タンパク質の発現
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植物体の種子における目的タンパク質の発現
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ERボディ形成能を有する遺伝子およびその利用
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フザリウム毒抵抗性形質転換植物
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植物の発芽を抑制する方法、および発芽が抑制された形質転換植物
Books (80):
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シロイヌナズナエコタイプの低温馴化及び凍結体制におけるスクリーニング
低温生物工学会誌 2: 161-164 2017
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植物細胞内の代謝を効率化させるオルガネラ相互作用
応用糖質科学 6: 172-175 2016
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植物細胞
植物学の百科事典 丸善出版 p. 374-375 2016
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光合成辞典担当項目update
光合成辞典オンライン,日本光合成学会 on line 2015
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知られざる植物細胞の世界
基礎生物学研究所一般公開講演会 pp 1-2 2013
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Lectures and oral presentations (65):
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Pexophagy suppresses ROS-induced damage in leaf cells under high-intensity light
(First NIBB Seminar to Introduce Research Results (on line) Okazaki, Japan 2023)
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Plant peroxisome is a dynamic organelle in organelle interaction.
(Jagiellonian Univ.-Konan Univ. Bilateral Meeting on Plant Organelle Dynamics, Krakow, Poland, Aug. 2018 2018)
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Extension of oil biosynthesis during the mid-phase of seed maturation increases seed oil in Arabidopsis thaliana.
(EUROBIOTECH 2017, Krakow, Poland, Sept. 2017 2017)
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Roles of LON protease and autophagy in the peroxisome quality control.
(EUROBIOTECH 2017, Krakow, Poland, Sept. 2017 2017)
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Dynamics and the functional transition of plant peroxisomes under oxidative stress
(International Symposium of Biological Stress Responses. Sendai, March 21, 2017 2017)
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Education (4):
- 1973 - 1975 Nagoya University Graduate School of Agriculture, Doctoral Course Division of Agricultural Chemistry
- 1971 - 1973 Nagoya University Graduate School of Agriculture、Master Course Division of Agricultural Chemistry
- 1967 - 1971 Nagoya University School of Agricultural Sciences Division of Agricultural Chemistry
- 1964 - 1967 Nagoya Nishi High School
Professional career (1):
Work history (10):
- 2017/10 - 現在 Konan University Faculty of Science and Engineering
- 2004 - 2017/09 National Institutes of Natural Sciences National Institute for Basic Biology
- 1990 - 2014/03 The Graduate University for Advanced Studies [ SOKENDAI]
- 1990 - 2004 Okazaki National Institutes, National Institute for Basic Biology
- 1988 - 1990 Okazaki National Institutes, National Institute for Basic Biology
- 1987 - 1990 Kobe University Faculty of Science
- 1975 - 1987 Nagoya University School of Agricultural Sciences
- 1985/02 - 1985/08 France, CNRS Mudon and Grenoble Atomic Research Center Jan Daussant Lab. and Roland Douce Lab. Researcher for Japan-France Cooperative Program
- 1982/09 - 1982/12 Australia, University of Adelaide and CSIRO Adelaide Joe WIskich Lab. and Simon Robinson Lab. Researcher for Oversea Science Program
- 1977/05 - 1979/01 University of California, Santa Cruz,USA Harry Beevers Lab. Postdoctoral Fellows
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Committee career (15):
- 2020 - Hokkaido University, Graduate School of Life Science Member of External Evaluation Committee
- 2018 - 2019 the Ministry of Education、Culture, Sport ,Science and Technology Member of Selection Committee for Grani-in-Aid for Scientific Research on Innovative Areas
- 2006 - 2018 Editor of DNA Research
- 2015 - 2017 the Ministry of Education、Culture, Sport ,Science and Technology Member of Selection Committee for Grani-in-Aid for Scientific Research on Innovative Areas
- 2015 - 2015 Steering Committee Member of NEXT Science Program
- 2010 - 2014 JSPS Steering Selection Committee for the NEXT program
- 2009 - 2012 Member of JSPS Selection Committee for Grant-in Aid for Specially Promoted Research
- 2010 - 2011 Member of JSPS Selection Committee for Postdoctoral and Other Fellowships
- 2006 - 2007 Japanese Society of Plant Physiologists President
- 2000/01 - 2003/12 The Japanese Society of Plant Physiologists Editor in Chief of Plant Cell Physiology
- 2000 - 2001 JSPS Steering Committee Member of Millennium Projects on Plant Sciences
- 1999 - 2001 the Ministry of Science and Technology Steering Committee of the Ministry of Science and Technology
- 1999 - 2001 JSPS Member of JSPS Selection Committee for US-Japan Cooperative Program
- 1997 - 1998 Member of JSPS Selection Committee for Postdoctoral and Other Fellowships
- 1997 - the Ministry of Science and Technology Steering Committee Member of the Ministry of Science and Technology
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Awards (15):
- 2023/05 - Research.com 2023-Research.com Biology and Biochemistry in Japan Leader Award
- 2022/03 - Research Com. Top Scientists Ranking Mikio Nishimura is ranked #523 in the world ranking and also listed #25 in Japan among Top Scientists for 2022 in the area of Biology and Biochemistry.
- 2019 - Japanese Society of Plant Physiologists JSPP Plant Cell Physiology Award for the Paper of Excellence Plastidial folate prevents starch biosynthesis triggered by sugar influx into non-photosynthetic plastids of Arabidopsis.
- 2016 - Japanese Society for Plant Physiologists JSPP Plant Cell Physiology Award for the Paper of Excellence Chaperone and protease functions of LON protease 2 modulate the peroxisomal transition and degradation with autophagy.
- 2013 - Japanese Society of Plant Physiologists JSPP Award
- 2006 - Chunichi News Paper Co. Chunichi Cultural Awards Dynamism of Plant Organelle Function
- 2004 - Mitsubishi Foundation Research Fund Molecular Mechanisms on Reversible Organelle Transformation in Plants
- 2003 - Japanese Society of Plant Physiologists JSPP Plant Cell Physiology Award for the Paper of Excellence A proteinase-storing body that prepares for cell death or stresses in the epidermal cells of Arabidopsis.
- 1997 - Nissan Science Foundation Research Fund Molecular Mechanisms on Light Dependent Microbody Transition
- 1991 - Naito Science Foundation Naito Memorial Research Fund Membrane Transport of Peroxisomal Proteins in Plant Cells
- 1987 - The Agricultural Chemistry Society of Japan Research Fund Studies on Functional Transformation of Microbodies
- 1986 - Nissan Science Foundation Research Fund Cell Biological Studies on MIcrobody Transition
- 1984 - The Agricultural Chemical Society of Japan Encourage Prize for Young Scientist Cell Biological Studies on Plant Organelles
- 1982 - Ishida Science Foundation Research Fund Studies on role of leaf peroxisomes in photorespiration
- 1976 - Matsunaga Science Foundation 14th Matsunaga Science Fund Studies on Biosynthesis of RuDP C-ase using spinach protoplast system
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Association Membership(s) (1):
Japanese Society of Plant Physiologists
