Rchr
J-GLOBAL ID:201801010394656899
Update date: Feb. 01, 2024
Nagai Keisuke
Nagai Keisuke
Affiliation and department:
Job title:
Assistant Professor
Research field (1):
Plant genetics and breeding
Research theme for competitive and other funds (7):
Papers (27):
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Kanako Bessho-Uehara, Kengo Masuda, Diane R Wang, Rosalyn B Angeles-Shim, Keisuke Obara, Keisuke Nagai, Riri Murase, Shin-Ichiro Aoki, Tomoyuki Furuta, Kotaro Miura, et al. Regulator of Awn Elongation 3, an E3 ubiquitin ligase, is responsible for loss of awns during African rice domestication. Proceedings of the National Academy of Sciences of the United States of America. 2023. 120. 4. e2207105120
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Yoko Niimi, Keisuke Nagai, Motoyuki Ashikari, Yoko Mizuta. Deep Fluorescence Observation in Rice Shoots via Clearing Technology. Journal of visualized experiments : JoVE. 2022. 184
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Keisuke Nagai, Yusuke Kurokawa, Yoshinao Mori, Anzu Minami, Stefan Reuscher, Jianzhong Wu, Takashi Matsumoto, Motoyuki Ashikari. SNORKEL genes relating to flood tolerance were pseudogenized in normal cultivated rice. Plants. 2022. 11. 3. 376-376
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Yong-Gen Yin, Yoshinao Mori, Nobuo Suzui, Keisuke Kurita, Mitsutaka Yamaguchi, Yuta Miyoshi, Yuto Nagao, Motoyuki Ashikari, Keisuke Nagai, Naoki Kawachi. Noninvasive imaging of hollow structures and gas movement revealed the gas partial-pressure-gradient-driven long-distance gas movement in the aerenchyma along the leaf blade to submerged organs in rice. The New phytologist. 2021. 232. 5. 1974-1984
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Keisuke Nagai, Yoshinao Mori, Shin Ishikawa, Tomoyuki Furuta, Rico Gamuyao, Yoko Niimi, Tokunori Hobo, Moyuri Fukuda, Mikiko Kojima, Yumiko Takebayashi, et al. Antagonistic regulation of the gibberellic acid response during stem growth in rice. Nature. 2020. 584. 7819. 109-114
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MISC (10):
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Shuai Tong, Motoyuki Ashikari, Keisuke Nagai, Ole Pedersen. Can the wild perennial, rhizomatous rice species Oryza longistaminata be a candidate for de novo domestication?. Rice. 2023
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Keisuke Nagai, Motoyuki Ashikari. Molecular mechanism of internode elongation in rice. Breeding Science. 2023. 73. 2. 108-116
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Nagai Keisuke. Elucidation of molecular mechanism of internode elongation in rice. Breeding Research. 2022. advpub
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芦苅 基行, 永井 啓祐. イネの茎伸長による洪水耐性機構の分子メカニズム : 浮イネの茎伸長-Molecular Mechanism of Rice Stem Elongation against a Periodic Flood : Stem Elongation in Deepwater Rice. 化学と生物 : 日本農芸化学会会誌 : 生命・食・環境 / 日本農芸化学会 編. 2021. 59. 12. 586-597
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永井 啓祐. イネの茎伸長の開始を制御する2つのスイッチ因子の発見と農業的応用-Discovery of two switch factors controlling the initiation of internode elongation in rice and agronomic application-特集 最近の農林水産研究成果トピックス. JATAFFジャーナル = JATAFF journal : 農林水産技術. 2021. 9. 10. 7-11
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Lectures and oral presentations (27):
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Elucidation of water tolerant mechanism by gas permeability in rice node
(The 14th International Society of Plant Anaerobiosis Conference 2022)
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節間伸長促進因子SNORKEL-LIKEsの偽遺伝子化による水田イネ短稈化機構の解明
(日本育種学会 第141回講演会 2022)
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イネ節間伸長の分子機構の解明
(日本育種学会 第141回講演会 2022)
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イネ節間におけるジベレリンに応答した拮抗的伸長制御機構
(日本育種学会第139回講演会 2021)
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The regulation of phase transition in rice internode
(2021)
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Work history (4):
- 2019/04 - 現在 Nagoya University Bioscience and Biotechnology Center Assistant Professor
- 2017/04/01 - 2019/03/31 Nagoya University Bioscience and Biotechnology Center Development and Applied Division Assistant Professor
- 2017/04 - 2019/03 Nagoya University Bioscience and Biotechnology Center Development and Applied Division Assistant Professor
- 2012/06/01 - 2017/03/31 Nagoya University Bioscience and Biotechnology Center Fundamental and Incubation Division Designated assistant professor
Awards (1):
- 2021 - 日本育種学会 2021年度日本育種学会奨励賞 イネ節間伸長の分子機構解明
Association Membership(s) (4):
International society for plant low oxygen research
, 日本育種学会
, 日本植物生理学会
, 日本植物学会
