Rchr
J-GLOBAL ID:201801019270630465   Update date: Nov. 16, 2024

Kinoshita Atsuko

Kinoshita Atsuko
Research field  (1): Plants: molecular biology and physiology
Research keywords  (3): 形態形成 ,  植物発生学 ,  植物生理学
Research theme for competitive and other funds  (4):
  • 2024 - 2027 多細胞生物の柔軟な形態を支えるスピングラス的発生システム
  • 2022 - 2024 側生器官原基の形成周期と生長相転換にともなう変調
  • 2020 - 2023 単子葉植物受精卵の非対称分裂を制御する分子機構
  • 2011 - 2012 Functional analysis on CLV3 intracellular signaling in Arabidopsis
Papers (19):
  • Yilin Zhang, Daisuke Maruyama, Erika Toda, Atsuko Kinoshita, Takashi Okamoto, Nobutaka Mitsuda, Hironori Takasaki, Masaru Ohme Takagi. Transcriptome analyses uncover reliance of endosperm gene expression on Arabidopsis embryonic development. FEBS Letters. 2023
  • Kasidit Rattanawong, Narumi Koiso, Erika Toda, Atsuko Kinoshita, Mari Tanaka, Hiroyuki Tsuji, Takashi Okamoto. Regulatory functions of ROS dynamics via glutathione metabolism and glutathione peroxidase activity in developing rice zygote. The Plant journal : for cell and molecular biology. 2021. 108. 4. 1097-1115
  • Kurataka Otsuka, Akihito Mamiya, Mineko Konishi, Mamoru Nozaki, Atsuko Kinoshita, Hiroaki Tamaki, Masaki Arita, Masato Saito, Kayoko Yamamoto, Takushi Hachiya, et al. Temperature-dependent fasciation mutants provide a link between mitochondrial RNA processing and lateral root morphogenesis. eLife. 2021. 10
  • Atsuko Kinoshita, Alice Vayssières, René Richter, Qing Sang, Adrian Roggen, Annabel D van Driel, Richard S Smith, George Coupland. Regulation of shoot meristem shape by photoperiodic signaling and phytohormones during floral induction of Arabidopsis. eLife. 2020. 9
  • Atsuko Kinoshita, René Richter. Genetic and molecular basis of floral induction in Arabidopsis thaliana. Journal of Experimental Botany. 2020
more...
MISC (5):
  • Moeno Tezuka, Takashi Okamoto, Atsuko Kinoshita. Mechanism of axis formation during zygote development in rice. PLANT MORPHOLOGY. 2024. 36. 1. 31-37
  • 木下温子. Spatiotemporal pattern of bioactive substances based on imaging technique. 植物科学の最前線(Web). 2022. 13
  • 木下温子. Control of gibberellin metabolism and signaling during floral transition. 植物の生長調節. 2022. 57. 2. 114-122
  • 木下温子, 別役重之, 刑部祐里子, 篠崎和子, 福田裕穂, 澤進一郎. 茎頂分裂組織におけるCLV3シグナル受容機構の解析. 日本植物生理学会年会要旨集. 2011. 52nd. 196
  • Atsuko Kinoshita, Chie Kodera, Hiroo Fukuda, Shinichiro Sawa. Functional analysis of chemically synthesized CLV3 dodeca peptide. PLANT AND CELL PHYSIOLOGY. 2007. 48. S54-S54
Lectures and oral presentations  (29):
  • Production of hybrids and amphidiploids between cultivated rice and closely and distantly related wild Oryza to cultivated species by in vitro fertilization
    (育種学研究 2023)
  • 単子葉植物の発生から考える多細胞生物の極性獲得機構
    (日本植物学会大会研究発表記録(CD-ROM) 2023)
  • イネin vitro受精卵の発生過程における細胞運命決定機構の解析
    (日本植物学会大会研究発表記録(CD-ROM) 2022)
  • 種子形成における胚が制御する胚乳特異的遺伝子発現
    (日本植物学会大会研究発表記録(CD-ROM) 2022)
  • シロイヌナズナclavata変異体における花芽分裂組織決定遺伝子の発現パターン解析
    (日本植物学会大会研究発表記録(CD-ROM) 2022)
more...
Association Membership(s) (2):
THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS ,  THE BOTANICAL SOCIETY OF JAPAN
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