Research theme for competitive and other funds (11):
2022 - 2025 紅藻スサビノリにおけるエチレン前駆物質による炭素・窒素代謝バランスの制御
2019 - 2022 エチレン前駆物質による紅藻スサビノリの有性生殖の制御機構に関する研究
2020 - 2021 アミノ酸添加による有用海藻類の健全かつ効率的な種苗生産技術の開発
2020 - 2021 岩海苔の安定的な増養殖を目指した胞子形成および放出機構の解明
2019 - 2020 北方系海藻の通年収穫を目的とした陸上栽培技術の開発
2016 - 2019 Elucidation of the ethylene response mechanism of Pyropia yezoensis for production of useful varieties of nori seaweed
2018 - 2019 「次世代型アカモク養殖を目指したビックデータ構築と種苗生産の確立
2015 - 2016 海苔の有用品種作出に向けた紅藻スサビノリにおける高温応答機構の解明
2011 - 2012 褐藻シオミドロの性分化と成熟機構の解明
2009 - 2010 多細胞真核生物における世代交代の多様化を制御する分子機構の研究
雌雄異株アマノリ属を用いた海産紅藻類における性決定機構の解明
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Papers (33):
Shinnosuke Ueda, Hiroyuki Mizuta, Toshiki Uji. Development of Chromatin Immunoprecipitation for the Analysis of Histone Modifications in Red Macroalga Neopyropia yezoensis (Rhodophyta). Molecular biotechnology. 2022
Toshiki Uji, Hiroyuki Mizuta. 1-Aminocyclopropane-1-carboxylic acid and its analogs alleviate heat stress damage in the marine red alga Neopyropia yezoensis (Rhodophyta). JOURNAL OF APPLIED PHYCOLOGY. 2022. 34. 3. 1527-1536
Toshiki Uji, Takuya Kandori, Shiho Konishi, Hiroyuki Mizuta. Phospholipase D activation is required for 1-aminocyclopropane 1-carboxylic acid signaling during sexual reproduction in the marine red alga Neopyropia yezoensis (Rhodophyta). BMC plant biology. 2022. 22. 1. 181-181
Sayaka Kominami, Hiroyuki Mizuta, Toshiki Uji. Transcriptome Profiling in the Marine Red Alga Neopyropia yezoensis Under Light/Dark Cycle. Marine biotechnology (New York, N.Y.). 2022. 24. 2. 393-407
Toshiki Uji, Hiroyuki Mizuta. The role of plant hormones on the reproductive success of red and brown algae. Frontiers in plant science. 2022. 13. 1019334-1019334
宇治利樹. The regulatory mechanisms of sexual reproduction in red alage-the focus on the role of 1-aminocylopropane-1-carboxylic acid in Bangiaceae-. 藻類. 2021. 69. 1
樋口淳也, 河合俊郎, 宇治利樹, 今井圭理. Crustaceans and fishes collected with drifting algae from off the Pacific coast of Tohoku region. 北海道大学水産科学研究彙報(Web). 2021. 71. 1
Emergence of Ectocarpus as a model system to study the evolution of complex multicellularity in the brown algae. In: "Evolutionary transitions to multicellular life"
Springer, pp 153-162, (2015)
Transient gene expression systems in Porphyra yezoensis: establishment, application and limitation.Porphyra yezoensis: Frontiers in Physiological and Molecular Biological Research.
New York: Nova Science Publishers, pp 93-117. (2012)
Transient transformation of red algal cells: Breakthrough toward genetic transformation of marine crop Porphyra species.
Works (2):
Research on the Use of Reproductive Mechanisms in Red Algae
Toshiki UJI 2020 - 現在