Research field (3):
Nanobioscience
, Cell biology
, Biophysics
Research keywords (5):
cellular slime mold
, chemotaxis
, self-organization
, signal transduction
, Single Molecule Biology
Research theme for competitive and other funds (10):
2021 - 2027 Fluctuation and signal integration dynamics in hierarchical molecular system of living cells
2019 - 2024 Elucidation of gradient sensing mechanism in chemotactic signaling system
2015 - 2021 Development of MULTUM-PALM and its application to cell membrane biology
2013 - 2018 細胞内1分子スクリーニングシステムの開発
2015 - 2017 Comprehensive analysis and prediction of diffusional mobility of membrane proteins in living cells
2010 - 2016 Cross-talk between moving cells and microenvironment as a basis of emerging order in multicellular system
2010 - 2015 Spontaneous signal generation in motile cells and its physiological significance
2010 - 2015 細胞運動の自発的なゆらぎを利用した柔軟な環境応答の分子メカニズム
2007 - 2013 細胞における確率的分子情報処理のゆらぎ解析
2003 - 2007 Single molecule analysis of chemotactic signaling system
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Papers (151):
Satomi Matsuoka, Koji Iwamoto, Da Young Shin, Masahiro Ueda. Spontaneous signal generation by an excitable system for cell migration. Frontiers in Cell and Developmental Biology. 2024. 12
Miri Takayama, Sakura Maeda, Daisuke Watanabe, Kazutoshi Takebayashi, Michio Hiroshima, Masahiro Ueda. Cholesterol suppresses spontaneous activation of EGFR-mediated signal transduction. Biochemical and biophysical research communications. 2024. 704. 149673-149673
Tatsat Banerjee, Satomi Matsuoka, Debojyoti Biswas, Yuchuan Miao, Dhiman Sankar Pal, Yoichiro Kamimura, Masahiro Ueda, Peter N Devreotes, Pablo A Iglesias. A dynamic partitioning mechanism polarizes membrane protein distribution. Nature communications. 2023. 14. 1. 7909-7909
Koji Iwamoto, Satomi Matsuoka, Masahiro Ueda. RasGEFX triggers spontaneous Ras excitation with RasGEFB/M/U for random cell migration. 2023
Tsunenori Ouchida, Haruka Maeda, Yuka Akamatsu, Megumi Maeda, Shinji Takamatsu, Jumpei Kondo, Ryo Misaki, Yoshihiro Kamada, Masahiro Ueda, Keiji Ueda, et al. The specific core fucose-binding lectin Pholiota squarrosa lectin (PhoSL) inhibits hepatitis B virus infection in vitro. Scientific reports. 2023. 13. 1. 6175-6175