Ukai Yuko

ウカイユウコ | Ukai Yuko

Affiliation and department：
Research theme for competitive and other funds (1)：

2024 - 2027 根のカルス形成過程における細胞アイデンティティ変化の追跡

Papers (6)：

Yuko Ukai, Hiroki Taoka, Manaka Kamada, Yuko Wakui, Fumiyuki Goto, Kazuyoshi Kitazaki, Tomoko Abe, Akiko Hokura, Toshihiro Yoshihara, Hiroaki Shimada. Athyrium yokoscense, a cadmium-hypertolerant fern, exhibits two cadmium stress mitigation strategies in its roots and aerial parts. Journal of Plant Research. 2024. 137. 6. 1019-1031
Minato Uchiyama, Rika Fudaki, Takuya Kobayashi, Yoshiko Adachi, Yuko Ukai, Toshihiro Yoshihara, Hiroaki Shimada. Rice OsHAK5 is a major potassium transporter that functions in potassium uptake with high specificity but contributes less to cesium uptake. Bioscience, Biotechnology, and Biochemistry. 2022. 86. 11. 1599-1604
Yuko Ukai, Komaki Inoue, Manaka Kamada, Hiroshi Teramura, Shunsuke Yanagisawa, Kazuyoshi Kitazaki, Kazuhiro Shoji, Fumiyuki Goto, Keiichi Mochida, Toshihiro Yoshihara, et al. De novo transcriptome analysis reveals an unperturbed transcriptome under high cadmium conditions in the Cd-hypertolerant fern Athyrium yokoscense. Genes & Genetic Systems. 2020. 95. 2. 65-74
Tomohiko Hojo, Riko Kikuchi, Hiroyuki Waki, Fumihito Nishimura, Yuko Ukai, Eiji Akiyama. Effect of strain rate on the hydrogen embrittlement property of ultra high-strength low-alloy trip-aided steel. Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan. 2019. 105. 4. 33-41
Tomohiko Hojo, Riko Kikuchi, Hiroyuki Waki, Fumihito Nishimura, Yuko Ukai, Eiji Akiyama. Effect of Strain Rate on the Hydrogen Embrittlement Property of Ultra High-strength Low Alloy TRIP-aided Steel. ISIJ International. 2018. 58. 4. 751-759

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MISC (3)：

Tomohiko Hojo, Riko Kikuchi, Hiroyuki Waki, Fumihito Nishimura, Yuko Ukai, Eiji Akiyama. Erratum: EFfect of strain rate on the hydrogen embrittlement property of ultra high-strength low alloy trip-aided steel (ISIJ International (2018) 58:4 (751-759) DOI: 10.2355/isijinternational.ISIJINT-2017-576). ISIJ International. 2018. 58. 9. 1748-1749
森一樹, 菊池梨子, 北條智彦, 脇裕之, 西村文仁, 鵜飼優子. 超高強度TRIP型ベイニティックフェライト鋼板の耐水素脆化特性に及ぼす予ひずみ付与の影響. 日本材料学会学術講演会講演論文集. 2017. 66th
菊池梨子, 北條智彦, 脇裕之, 西村文仁, 大熊隆次, 鵜飼優子. 超高強度低合金TRIP鋼の水素脆化特性に及ぼすひずみ速度の影響. 材料とプロセス(CD-ROM). 2016. 29. 2

Lectures and oral presentations (9)：

植物の根先端部における標的プロトプラスト高速分取システム
(第29回ロボティクスシンポジア 2024)
High-speed Single Protoplast Pickup System Based on the Map of Protoplasts at Plant Root Tip
(34th 2023 International Symposium on Micro-NanoMechatronics and Human Science 2023)
植物の根の先端位置情報に基づく単一プロトプラスト高速分取システム
(第41回日本ロボット学会学術講演会 2023)
植物成長の自動監視のための深層学習に基づく根の長さ自動測定ツールの開発
(日本植物学会第87回大会 2023)
カドミウム耐性のあるシダ植物 Athyrium yokoscense は,根と地上部で 2 つのストレス軽減戦略を示す
(日本植物学会第87回大会 2023)

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Professional career (1)：

Doctor of Engineering (Tokyo University of Science)

Work history (3)：

2024/04 - 現在日本学術振興会特別研究員(PD)
2021/05 - 現在 Nagoya University Institute of Transformative Bio-Molecules
2015/04 - 2021/04 株式会社住化分析センター

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