Fukudome Mitsutaka

フクドメミツタカ | Fukudome Mitsutaka

Affiliation and department：

Research field (2)： Molecular biology , Plant nutrition, soil science

Research keywords (6)： environmental stress tolerance , Reactive Sulfur Species , nitric oxide , plant hemoglobin, phytoglobin , Signal molecule , root nodule symbiosis

Research theme for competitive and other funds (8)：

2023 - 2027 瀬戸内海の物質循環を協調的に支える微生物群の解明
2024 - 2025 鹿児島県産落花生「郷の香」の最適な共生根粒菌の単離
2023 - 2024 香川県の農地と作物に適した有用土壌微生物の単離 <有用土壌微生物の農業利用への効果とリスクの評価>
2021 - 2024 Elucidation of the mechanism of cooperative sulfur metabolism between Lotus japonicus and Mesorhizobium loti.
2020 - 2024 窒素固定共生のリコンストラクション

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Papers (10)：

Mitsutaka Fukudome, Toshiki Uchiumi. Regulation of nitric oxide by phytoglobins in Lotus japonicus is involved in mycorrhizal symbiosis with Rhizophagus irregularis. Plant Science. 2024. 340. 111984
Mitsutaka Fukudome, Haruka Ishizaki, Yuta Shimokawa, Tomoko Mori, Nahoko Uchi-Fukudome, Kamolchanok Umnajkitikorn, Ei-ichi Murakami, Toshiki Uchiumi, Masayoshi Kawaguchi. Reactive Sulfur Species Produced by Cystathionine γ-lyase Function in the Establishment of Mesorhizobium loti-Lotus japonicus Symbiosis. Microbes and Environments. 2023. 38. 3. n/a-n/a
Mitsutaka Fukudome, Yuta Shimokawa, Shun Hashimoto, Yusuke Maesako, Nahoko Uchi-Fukudome, Kota Niihara, Ken-ichi Osuki, Toshiki Uchiumi. Nitric Oxide Detoxification by Mesorhizobium loti Affects Root Nodule Symbiosis with Lotus japonicus. Microbes and Environments. 2021. 36. 3. n/a-n/a
Kamolchanok Umnajkitikorn, Mitsutaka Fukudome, Toshiki Uchiumi, Neung Teaumroong. Elevated Nitrogen Priming Induced Oxinitro-Responses and Water Deficit Tolerance in Rice. Plants. 2021. 10. 2. 381-381
Mitsutaka Fukudome, Hazuki Shimada, Nahoko Uchi, Ken-ichi Osuki, Haruka Ishizaki, Ei-ichi Murakami, Masayoshi Kawaguchi, Toshiki Uchiumi. Reactive Sulfur Species Interact with Other Signal Molecules in Root Nodule Symbiosis in Lotus japonicus. Antioxidants. 2020. 9. 2. 145-145

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MISC (2)：

福留光挙. 活性分子種の制御による根粒共生の強化. KNBC NEWS. 2022. 263. 20-20
福留光挙. 活性分子種の制御による根粒共生の強化. 調査月報. 2022. 421. 34-34

Books (1)：

ヘムタンパク質の科学 : 生理機能の理解とその展開に向けて
エヌ・ティー・エス 2022 ISBN:9784860437787

Lectures and oral presentations (53)：

BradyrhizobiumとFrankiaに対する非マメ科植物の応答
(植物微生物研究会第33回研究交流会 2024)
The cysteinyl-tRNA synthetase of the Mesorhizobium loti functions
(2024)
Role of cysteinyl-tRNA synthetase in root nodule symbiosis
(The 3rd Trilateral Symposium on Sustainability - Strategies for Climate Action and Mitigation of Climate Change Impacts - 2024)
ヤコグサのクラス1植物ヘモグロビンの葉での役割
(第73回九州沖縄植物学会 2024)
Role of cysteinyl-tRNA synthetase of Mesorhizobium loti in root nodule symbiosis with Lotus japonicus
(2024)

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Education (3)：

2016 - 2019 Kagoshima University Graduate School of Science and Engineering
2014 - 2016 Kagoshima University Graduate School of Science and Engineering Chemistry and Bioscience Course
2010 - 2014 Kagoshima University

Professional career (1)：

博士(理学) (鹿児島大学)

Work history (5)：

2024/04 - 現在 Kagoshima University
2021/10 - 2024/03 Kagawa University Faculty of Agriculture Department of Applied Biological Science
2020/04 - 2021/09 Japan Society for the Promotion of Science
2019/04 - 2020/03 Japan Society for the Promotion of Science
2018/04 - 2019/03 Japan Society for the Promotion of Science

Awards (4)：

2024/01 - The 6th Asian-Pacific Conference on Plant-Microbe Symbiosis and Nitrogen Fixation Poster Presentation Award (2nd Prize) Function of cysteinyl-tRNA synthetase of Mesorhizobium loti in root nodule symbiosis
2021/12 - 日本土壌肥料学会関西支部講演会優秀発表賞根粒菌の一酸化窒素制御がマメ科植物との根粒共生に及ぼす影響~hmp遺伝子の導入による根粒菌のNO制御能強化は根粒共生の強化に寄与するか~
2021/08 - Microbes and Environments Most Valuable Paper of The Year 2020 in Microbes and Environments Mechanisms of Rice Endophytic Bradyrhizobial Cell Differentiation and Its Role in Nitrogen Fixation
2020/09 - Microbes and Environments Most Valuable Paper of The Year 2019 in Microbes and Environments Antimicrobial Activities of Cysteine-rich Peptides Specific to Bacteriocytes of the Pea Aphid Acyrthosiphon pisum

Association Membership(s) (4)：

日本植物学会 , 日本植物生理学会 , 九州沖縄植物学会 , Japanese Society of Plant Microbe Interactions

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