Search:
Tokushima UniversityGraduate School of Biomedical Sciences医学域先端医学教育研究プロジェクト
Tokushima UniversityGraduate School of Biomedical Sciences医学域Medical SciencePhysiological SciencesDepartment of Anatomy and Cell Biology
Tokushima UniversityFaculty of MedicineSchool of MedicineCourse of Integrated Brain SciencesAnatomy and Cell Biology
(Files for researchmap) [PDF manual] [Auto-propagate to researchmap]

Research

Field of Study

Subject of Study

Book / Paper

Et cetera, Workshop:

1. Naoki Komatsu, Tsukiji Shinya, Miyawaki Atsushi and Kenta Terai :
Chemogenetic mTORC1 activation regulates the cell cycle under hypoxia.,
2025 年度 徳島⼤学先端酵素学研究所シンポジウム, Aug. 2025.
2. Naoki Komatsu, Tsukiji Shinya, Miyawaki Atsushi and Kenta Terai :
Development of a chemogenetic tool for specific activation of mTORC1 in living cells,
Joint Meeting of JSCB 77th and JSDB 58th, Jul. 2025.
3. Naoki Komatsu, Tsukiji Shinya, Miyawaki Atsushi and Kenta Terai :
Development of a chemogenetic tool for temporal control of mTORC1 activity in living cells,
学術変⾰領域研究(A) 「⽣物を凌駕する無細胞分⼦システムの ボトムアップ構築学」 第 5 回領域会議, Apr. 2025.

Grants-in-Aid for Scientific Research (KAKEN Grants Database @ NII.ac.jp)

  • Unraveling the mechanism for keeping cellular homeostasis with temporal and specific control of mTORC1 activity. (Project/Area Number: 25K09622 )
  • Unraveling mTORC1 activity dynamics and its information processing in cell proliferation (Project/Area Number: 22K06230 )
  • Platform for light-inducible, biochemical labeling of ribosomes in living single cells for the novel single-cell analytics based on seamlessly connected live cell imaging and transcriptomics (Project/Area Number: 18K19313 )
  • Unraveling the working principle of MEK inhibitor resistance in cancer cells by artificial control of cell growth signal dynamics (Project/Area Number: 16K21109 )
  • The development of fundamental bioimaging technologies for comprehensive understanding (Project/Area Number: 15H05948 )
  • Quantitative analysis of MEK inhibitor resistance in cancer cells based on reconstitution of cell growth signaling (Project/Area Number: 26890015 )
  • Search by Researcher Number (30737440)