Personnel Information

写真a

SATO Keisuke


Job title

Assistant Professor

Mail Address

keisuke.sato.nana@tmd.ac.jp

Graduating School 【 display / non-display

  • The University of Tokyo, Faculty of Agriculture, 2004.03, Graduated

Graduate School 【 display / non-display

  • The University of Tokyo, Doctor's Course, 2009.03, Completed

Degree 【 display / non-display

  • Agricultural Science, The University of Tokyo

Campus Career 【 display / non-display

  • 2012.07
    -
    2018.03
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Cognitive and Behavioral Medicine, Neuroanatomy and Cellular Neurobiology, Assistant Professor
  • 2018.04
    -
    2024.09
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Cognitive and Behavioral Medicine, Neuroanatomy and Cellular Neurobiology, Assistant Professor
  • 2024.10
    -
    Now
    Institute of Science Tokyo, -, Graduate Schools, Cognitive and Behavioral Medicine, Department of Neuroanatomy and Cellular Neurobiology, Assistant Professor

External Career 【 display / non-display

  • 2009.06
    -
    2012.06
    University of Manchester, Faculty of Life Sciences, Research Associate

Research Areas 【 display / non-display

  • Cell biology

Qualification Acquired 【 display / non-display

  • Usual Car License (first kind)

 

Published Papers & Misc 【 display / non-display

  1. Nori Nakai, Keisuke Sato, Masahiko Kawagishi, Hiromasa Ka, Kenta Saito, Sumio Terada. Development of nanobody-based POLArIS orientation probes enabled multi-color/multi-target orientation imaging in living cells. Biochemical and biophysical research communications. 2021.08; 565 50-56. ( PubMed, DOI )

  2. Ayana Sugizaki, Keisuke Sato, Kazuyoshi Chiba, Kenta Saito, Masahiko Kawagishi, Yuri Tomabechi, Shalin B Mehta, Hirokazu Ishii, Naoki Sakai, Mikako Shirouzu, Tomomi Tani, Sumio Terada. POLArIS, a versatile probe for molecular orientation, revealed actin filaments associated with microtubule asters in early embryos Proceedings of the National Academy of Sciences of the United States of America. 2021.03; 118 (11): ( PubMed, DOI )

  3. Nakai N, Sato K, Tani T, Saito K, Sato F, Terada S. Genetically encoded orientation probes for F-actin for fluorescence polarization microscopy. Microscopy (Oxford, England). 2019.07; 68 (5): 359-368. ( PubMed, DOI )

  4. Peristera Roboti, Keisuke Sato, Martin Lowe. The golgin GMAP-210 is required for efficient membrane trafficking in the early secretory pathway. Journal of Cell Science. 2015.04; 128 (8): 1595-1606. ( PubMed, DOI )

  5. Keisuke Sato, Peristera Roboti, Alexander A Mironov, Martin Lowe. Coupling of vesicle tethering and Rab binding is required for in vivo functionality of the golgin GMAP-210. Mol. Biol. Cell. 2015.02; 26 (3): 537-553. ( PubMed, DOI )

  6. Keisuke Sato, Martin Lowe. Golgi Apparatus Molecular Life Sciences. 2014.06; 1-28. ( DOI )

  7. Sato Keisuke, Noda Yoichi, Yoda Koji. Kei1: a novel subunit of inositolphosphorylceramide synthase, essential for its enzyme activity and Golgi localization. Mol Biol Cell. 2009.10; 20 (20): 4444-4457. ( PubMed, DOI )

  8. Nakamata Kosuke, Kurita Tomokazu, Bhuiyan M Shah Alam, Sato Keisuke, Noda Yoichi, Yoda Koji. KEG1/YFR042w encodes a novel Kre6-binding endoplasmic reticulum membrane protein responsible for beta-1,6-glucan synthesis in Saccharomyces cerevisiae. J Biol Chem. 2007.11; 282 (47): 34315-34324. ( PubMed, DOI )

  9. Sato Keisuke, Noda Yoichi, Yoda Koji. Pga1 is an essential component of Glycosylphosphatidylinositol-mannosyltransferase II of Saccharomyces cerevisiae. Mol Biol Cell. 2007.09; 18 (9): 3472-3485. ( PubMed, DOI )

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Conference Activities & Talks 【 display / non-display

  1. 佐藤啓介,中井紀,齊藤健太,川岸将彦,谷知己,寺田純雄. 蛍光偏光顕微鏡による収縮環形成過程におけるアクトミオシン動態解析. APPW2025 2025.03.19 Chiba, Japan

  2. 後藤真理子,姜ヨハネ,石田裕也,佐藤啓介,寺田純雄. 蛍光偏光イメージングによる筋芽細胞の融合過程におけるF-actin動態の解析. APPW2025 2025.03.18 Chiba, Japan

  3. 飯田穀,川原月,佐藤啓介,寺田純雄. 蛍光偏光顕微鏡観察を目的とした簡便かつ汎用的標識法の開発. APPW2025 2025.03.17 Chiba, Japan

  4. 佐藤 啓介,杉﨑 綾奈,山崎 結那,鎌田 勝彦,久野 玉雄,桂 一茂,千葉 和義,白水 美香子,寺田 純雄. 構造情報に基づく高汎用性 F-actin配向プローブ POLArISact_omniの開発とヒトデ 卵母細胞アクチン動態解析への応用. 第76回 日本細胞生物学会大会 2024.07.18 茨城県つくば市

  5. 佐藤 啓介,杉﨑 綾奈,鎌田 勝彦,久野 玉雄,桂 一茂,白水 美香子,寺田 純雄. F-actin配向プローブPOLArISactとF-actin複合体のクライオ電子顕微鏡解析と、それに基づく改良型POLArISactの開発. 第128回日本解剖学会総会・ 全国学術集会 2023.03.20

  6. Keisuke Sato, Nori Nakai-Kadowaki, Ayana Sugizaki, Kazuyoshi Chiba, Kenta Saito, Masahiko Kawagishi, Yuri Tomabechi, Shalin B. Mehta, Hirokazu Ishii, Naoki Sakai, Hiromasa Ka, Mikako Shirouzu, Tomomi Tani, Sumio Terada. Development of POLArIS, a versatile probe for multi-color/multi-target orientation imaging in living cells. Cell Bio 2022 2022.12.04 Washington, DC

  7. Nori Nakai, Keisuke Sato, Tomomi Tani, Masahiko Kawagishi, Hiromasa Ka, Kenta Saito, Sumio Terada. EXPANDED REPERTOIRE OF POLARIS, A VERSATILE FLUORESCENT PROBE FOR MOLECULAR ORIENTATION. Biophysical Society 66th Annual Meeting 2022.02.23 USA

  8. 佐藤啓介, 杉﨑 綾奈, 齊藤 健太, Shalin B. Mehta, 白水 美香子, 谷 知己, 寺田 純雄. F-actin特異的分子配向プローブPOLArISactの開発と評価. 第126回日本解剖学会総会・全国学術集会 2021.03.29 オンライン開催

  9. 杉﨑 綾奈,佐藤 啓介,千葉 和義,川岸 将彦,寺田 純雄. ヒトデ初期発生の有糸分裂においてアクチン繊維は微小管星状体と関連して放射状に伸長する. 第126回日本解剖学会総会・全国学術集会 2021.03.29 オンライン開催

  10. Nori Nakai, Fumiya Sato, Keisuke Sato, Tomomi Tani, Sumio Terada. Development of genetically-encoded actin probes for fluorescence polarization microscopy. . ASCB/EMBO 2018 Meeting 2018.12.10 San Diego, CA, USA

  11. Nori Nakai, Fumiya Sato, Keisuke Sato, Tomomi Tani, Sumio Terada. Development of genetically-encoded actin probes for fluorescence polarization microscopy. Joint Annual Meeting of 70th JSCB and 51st JSDB 2018.06.08 Tokyo, Japan

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Others 【 display / non-display

  • A new polarized fluorescent probe for revealing architectural dynamics of living cells,2021.05

    AAAS EurekAlert! The Global Source for Science News

  • The Stars Align: New Imaging Technology Reveals Architecture in Dividing Starfish Cells,2021.04

    Seeing how the building blocks of cells align over time is important for understanding how cells are built, move, grow and divide. Recently, researchers from Japan collaborated with imaging scientists at the Marine Biological Laboratory (MBL) to develop a new cellular probe, POLArIS, that allows real-time imaging of molecular orientations in live cells.
    The study, led by researchers at Tokyo Medical and Dental University (TMDU), was published in Proceedings of the National Academy of Sciences.