Research theme for competitive and other funds (16):
2022 - 2025 軟骨細胞の時空間的な極性形成を規定する分子基盤の解明
2023 - 2024 生殖細胞系列の分化を支えるセルトリ細胞の極性化メカニズムの解明
2021 - 2022 骨組織を作り出す新たな細胞極性形成メカニズムの解明
2019 - 2022 神経回路構築の基盤となるニューロンの新たな極性化メカニズムの解明
2019 - 2022 骨格形成の基盤となる新たな細胞極性形成メカニズムの解明
2019 - 2020 神経回路の構築を司るニューロンの新たな極性化メカニズムの解明
2019 - 2020 骨格形成の基盤となる細胞極性形成メカニズムの解明
2015 - 2018 Elucidating the mechanism of the Wnt/PCP signaling pathway by the genome editing technology
2016 - 2017 Map7D2による神経細胞の極性形成制御機構
2013 - 2016 微小管ダイナミクスに依存した細胞極性制御システムの解明
2013 - 2015 「場」依存的な微小管動態制御機構の破綻に伴う発がんメカニズム
2012 - 2014 Tumorigenesis triggered by the misregulation of cell polarity associated with cell cycle
2012 - 2013 細胞周期と協調した上皮極性の形成機構
2010 - 2012 Tumorigenesis triggered by the misregulation of the Wnt signaling pathways in mitosis
2009 - 2010 紡錘体チェックポイントとWntシグナル経路の細胞周期に応じたクロストーク
2006 - 2007 Sgt1の動原体形成に関する解析
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Papers (21):
Koji Kikuchi, Masaki Arata. The interplay between Wnt signaling pathways and microtubule dynamics. In Vitro Cellular & Developmental Biology - Animal. 2024
Saori Yoshimura, Ryuki Shimada, Koji Kikuchi, Soichiro Kawagoe, Hironori Abe, Sakie Iisaka, Sayoko Fujimura, Kei-ichiro Yasunaga, Shingo Usuki, Naoki Tani, et al. Atypical heat shock transcription factor HSF5 is critical for male meiotic prophase under non-stress conditions. bioRxiv. 2023
Koji Kikuchi, Yasuhisa Sakamoto, Akiyoshi Uezu, Hideyuki Yamamoto, Kei-ichiro Ishiguro, Kenji Shimamura, Taro Saito, Shin-ichi Hisanaga, Hiroyuki Nakanishi. Map7D2 and Map7D1 facilitate microtubule stabilization through distinct mechanisms in neuronal cells. Life Science Alliance. 2022. 5. 8. e202201390
Yasuhisa Sakamoto, Akiyoshi Uezu, Koji Kikuchi, Shiro Suetsugu, Hiroyuki Nakanishi. Activation of Nedd4L Ubiquitin Ligase by FCHO2-generated Membrane Curvature. bioRxiv. 2022
JAPAN SOCIETY FOR CELL BIOLOGY
, THE JAPANESE BIOCHEMICAL SOCIETY
, THE MOLECULAR BIOLOGY SOCIETY OF JAPAN
, JAPANESE SOCIETY OF DEVELOPMENTAL BIOLOGISTS