研究キーワード (9件):
Biomass plants (poplar, Erianthus)
, Iron deficiency
, Genomic breeding
, Plant Biotechnology
, Physiology and molecular biology of plants
, Plant nutrition
, Biofortification
, Iron excess
, イネ
競争的資金等の研究課題 (4件):
2021 - 2024 イネの鉄過剰応答の制御機構の解明と鉄過剰耐性能の付与
2022 - 2023 鉄・亜鉛栄養に関わる遺伝子を改変したイネの栄養価の強化
2018 - 2020 イネの鉄過剰耐性に関わる遺伝子の機能解析と鉄過剰耐性イネの作出
2014 - 2016 Analysis of molecular mechanisms of iron excess in rice and producing iron excess tolerant rice
論文 (20件):
Yusuke Kakei, Hiroshi Masuda, Naoko K. Nishizawa, Hiroyuki Hattori, May Sann Aung. Elucidation of Novel cis-Regulatory Elements and Promoter Structures Involved in Iron Excess Response Mechanisms in Rice Using a Bioinformatics Approach. Frontiers in Plant Sciences. 2021. 12:660303
Motofumi Suzuki, Atsumi Urabe, Sayaka Sasaki, Ryo Tsugawa, Satoshi Nishio, Haruka Mukaiyama, Yoshiko Murata, Hiroshi Masuda, May Sann Aung, Akane Mera, et al. Development of a mugineic acid family phytosiderophore analog as an iron fertilizer. Nature communications. 2021. 12. 1. 1558-1558
May Sann Aung, Hiroshi Masuda. How does rice defend against excess iron?: Physiological and molecular mechanisms. Frontiers in Plant Science. 2020. 11:1102
Hiroshi Masuda, May Sann Aung, Takanori Kobayashi, Hamada, Takeshi, Naoko K Nishizawa. Enhancement of iron acquisition in rice by the mugineic acid synthase gene with ferric iron reductase and OsIRO2 confers tolerance in submerged and nonsubmerged calcareous soils. Frontiers in Plant Science. 2019. 10. 10:1179
May Sann Aung, Hiroshi Masuda, Tomoko Nozoye, Takanori Kobayashi, Jong-Seong Jeon, Gynheung An, Naoko K Nishizawa. Nicotianamine Synthesis by OsNAS3 Is Important for Mitigating Iron Excess Stress in Rice. Frontiers in Plant Science. 2019. 10:660. 660-660
Boosting crop nutrition to improve lives
Science Impact Ltd 2020
Iron Biofortification: The Gateway to Overcoming Hidden Hunger.
Springer, Cham. 2020
「ムギネ酸研究の軌跡」第二版(森敏. 西澤直子編)
2014
講演・口頭発表等 (19件):
Exploration of iron excess-responsive novel cis-regulatory elements and promoter structures in rice by bioinformatics approaches
(2021)
Nicotianamine synthase, OsNAS3, mitigates iron excess in rice
(17th International Symposium on Rice Functional Genomics (ISRFG), Taipei, TAIWAN 2019)
Iron biofortification of rice by introduction of GmFerritin, HvNAS1, OsYSL2 and mugeinic acid synthase gene (IDS3) with rice OsALS as a marker gene
(65th Japanese Society of Soil Science and Plant Nutrition (JSSPN), Shizuoka, JAPAN 2019)
Iron toxicity in rice: Physiological and transcriptomic analysis in various rice tissues
(16th International Symposium on Rice Functional Genomics (ISRFG), Tokyo, JAPAN 2018)