Kodama Yutaka

コダマユタカ | Kodama Yutaka

Affiliation and department：
Job title： Professor
Homepage URL (2)： http://c-bio.mine.utsunomiya-u.ac.jp/kodama/ , https://c-bio.mine.utsunomiya-u.ac.jp/kodama/yutakakodama/

Research field (3)： Applied molecular and cellular biology , Plants: molecular biology and physiology , Molecular biology

Research keywords (4)： Microscopy , Chloroplast , Organelle , Imaging

Research theme for competitive and other funds (5)：

2020 - 2025 不規則な環境変動に応答した気孔開度と花成の制御機構
2020 - 2025 Multi-layered regulatory system of plant resilience under fluctuating environment
2018 - 2022 植物細胞の低温感知部位の解明:低温センサー蛋白質フォトトロピンの細胞内局在
2014 - 2017 Screening for genes involved in the cold-induced organelle relocation using a T-DNA insertion library of the liverwort Marchantia polymorpha
2011 - 2012 Intracellular dynamics of plant cell under cold conditions

Papers (95)：

Satoyuki Hirano, Minoru Noguchi, Chonprakun Thagun, Haruki Nishio, Yutaka Kodama. Levels of photoactivated phototropin modulate signal transmission during the chloroplast accumulation response. Plant, Cell & Environment. 2024. 47. 8. 3215-3226
Daisy Kiprono, Chonprakun Thagun, Yutaka Kodama. Light-dependent chloroplast relocation in wild strawberry ( <i>Fragaria vesca</i> ). Plant Signaling & Behavior. 2024. 19. 1. 2342744
Kazuya Ishikawa, Yutaka Kodama. Bilirubin distribution in plants at the subcellular and tissue levels. Plant and Cell Physiology. 2024. 65. 5. 762-769
Keiko Midorikawa, Yutaka Kodama. A tool for live-cell confocal imaging of temperature-dependent organelle dynamics. Microscopy. 2024
Lee-Kien Yong, Issei Keino, Yui Kanna, Minoru Noguchi, Mami Fujisawa, Yutaka Kodama. Functional comparison of phototropin from the liverworts Apopellia endiviifolia and Marchantia polymorpha. Photochemistry and Photobiology. 2024. 100. 3. 782-792

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MISC (14)：

石川一也, 児玉豊. オルガネラグルー技術による植物メタボロームの人為操作. 生物物理. 2023. 63. 5. 247-251
市川晋太郎, 児玉豊. 葉緑体同士の相互作用を人工的に誘発するオルガネラグルー技術の開発. 光合成研究. 2023. 33. 1
市川晋太郎, 児玉豊. 糊で貼り合わせたような複数の葉緑体. 光合成研究. 2022. 32. 3. 190
坂田桃子, 児玉豊. タイムゲート法と光変換型蛍光タンパク質とを組み合わせた細胞内タンパク質局在過程の追跡. Plant Morphology. 2020. 32. 27-30
児玉豊. 植物はどうやって温度を感じるのか. 生物工学. 2019. 97. 6. 352-352

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Lectures and oral presentations (27)：

葉緑体を視る・操る
(The 25th Plant Organelle Workshop 2023)
フォトトロピンの温度感知を介した葉緑体運動スイッチング
(第84回日本植物学会大会(名古屋・オンライン) 2020)
Temperature perception by phototropin to optimize chloroplast positioning
(The Cold Spring Harbor-Asia Conference Plant Cell & Developmental Biology 2019)
低温誘導性の葉緑体運動:青色光受容体フォトトロピンは温度受容体である
(山口大学セミナー 2019)
低温誘導性の葉緑体配置を制御する温度センサーの発見
(日本作物学会第247回講演会 2019)

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Professional career (1)：

Ph.D. (Nara Institute of Science and Technology)

Work history (7)：

2021/03 - 現在 Utsunomiya University Center for Bioscience Reseach & Education Full Professor
2014/04 - 2021/02 Utsunomiya University Center for Bioscience Reseach & Education Associate Professor
2011/04 - 2014/03 Utsunomiya University Center for Bioscience Reseach & Education Assistant Professor
2010/04 - 2011/03 RIKEN JSPS fellow
2009/04 - 2010/03 Purdue University TOYOBO fellow

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Awards (8)：

2019/04 - Ministry of Education, Culture, Sports, Science and Technology Young Scientists' Prize
2019/03 - The Japanese Society of Plant Physiologists Young Investigator Award
2017/08 - The Japanese Society for Plant Cell and Molecular Biology (Currently known as "The Japanese Society for Plant Biotechnology") Award for Young Scientists
2014/04 - The Japan Science Society Sasakawa Scientific Research Award
2013/11 - The Foundation of Agricultural Sciences of Japan Japan Prize in Agricultural Sciences, Achievement Award for Young Scientists

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Association Membership(s) (4)：

THE MOLECULAR BIOLOGY SOCIETY OF JAPAN , THE BOTANICAL SOCIETY OF JAPAN , JAPANESE SOCIETY FOR PLANT BIOTECHNOLOGY , THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS

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