Institute for Frontier Life and Medical Sciences, Kyoto University

Seminar

  • No.1314 ケミカルバイオロジーから読み解く  ヒト高病原性ウイルスの細胞内複製機構
    Date: March. 16, (Mon.) 2020 16:00~17:00

    Room: Seminar Room,1st floor of Bldg. No.1 of Institute for Frontier Life and Medical Science, Kyoto University
    Speaker: (Japanese) 浦田 秀造 博士 長崎大学・感染症共同研究拠点・熱帯医学研究所  
    Title: ケミカルバイオロジーから読み解く 
    ヒト高病原性ウイルスの細胞内複製機構
  • No.1313 HTLV-1 Molecular Pathogenesis: From Hbz to CTCF
    Date: February. 5, (Wed.) 2020 16:00~17:00

    Room: Seminar Room,1st floor of Bldg. No.2 of Institute for Frontier Life and Medical Science, Kyoto University
    Speaker: Dr. Patrick Green
        The Ohio State University


    Title: HTLV-1 Molecular Pathogenesis: From Hbz to CTCF
  • “An in vitro model to evaluate skeletal muscle cell function: myokine secretion and satellite cell myogenesis”
    Date: Feb. 3, 2020 15:30~
    Room: Conference Room (134), 1st Floor, Bldg. #1 of Institute for Frontier Life and Medical Sciences, Kyoto University
    Speaker: 古市 泰郎 博士
    首都大学東京 ヘルスプロモーションサイエンス学域
    運動分子生物学研究室
    Title: “An in vitro model to evaluate skeletal muscle cell function:
    myokine secretion and satellite cell myogenesis”
  • No.1312 How does HTLV-1 hide? Dynamics of HTLV-1 transcriptional latency and reactivation
    Date: January. 27, (Mon.) 2020 15:00~16:00

    Room: Seminar Room,1st floor of Bldg. No.2 of Institute for Frontier Life and Medical Science, Kyoto University
    Speaker: Dr. Charles R M Bangham
        Imperial College London
    Title: How does HTLV-1 hide? Dynamics of HTLV-1 transcriptional latency and reactivation
  • Modelling membrane-bound cellular organelles with non-equilibrium dynamics
    Date: Jan. 7,(Tue.)2020 10:30~12:00
    Room: Seminar Room104, 1st Floor, Bldg. #2 of Institute for Frontier Life and Medical Sciences, Kyoto University
    Speaker: Dr. Pierre Sens
    CNRS / Institut Curie
    Paris, France
    Title: Modelling membrane-bound cellular organelles with non-equilibrium dynamics
  • ErbBシグナル伝達系の不均一応答に関する網羅的数理モデルの構築
    Date: Jan. 6,(Mon.)2020 13:30~
    Room: Seminar Room107, 1st Floor, Bldg. #2 of Institute for Frontier Life and Medical Sciences, Kyoto University
    Speaker: Hiroaki Imoto
    Laboratory of Cell Systems Institute for Protein Research, Osaka University
    Title: ErbBシグナル伝達系の不均一応答に関する網羅的数理モデルの構築
  • Symmetry Breaking of Biological Cells
    Date: Dec. 2,(Mon.)2019 13:30~15:00
    Room: Seminar Room104, 1st Floor, Bldg. #2 of Institute for Frontier Life and Medical Sciences, Kyoto University
    Speaker: Prof. Frank Jülicher
    Max Planck Institut
    für Physik komplexer Systeme
    Dresden, Germany
    Title: Symmetry Breaking of Biological Cells
  • Theoretical Biology Seminar
    Date: Nov. 29,(Fri.)2019 13:30~
    Room: Seminar Room104, 1st Floor, Bldg. #2 of Institute for Frontier Life and Medical Sciences, Kyoto University
    Speaker:
    Title: (Japanese) 葉の幅の制御から分裂組織制御まで:
    渓流沿い植物から始まったストーリー
  • No.1311 ジャポニカス分裂酵母に見つかった36時間の転写変動周期を持つ温度応答
    Date: November. 20, (Wed.) 2019 15:00~16:30

    Room: Seminar Room 104,1st floor of Bldg. No.2 of Institute for Frontier Life and Medical Science, Kyoto University
    Speaker: 仁木 宏典 博士
      国立遺伝学研究所 遺伝形質研究系 微生物機能研究室
      教授
    Title: ジャポニカス分裂酵母に見つかった36時間の転写変動周期を持つ温度応答
  • No. 1308 (Lecture 1) Post-transcriptional Regulation of the E. coli General Stress Response / (Lecture 2) A novel ribosome rescue mechanism in Bacillus subtilis
    Date: November 8, (Fri) 2019 ( Lecture 1)13:30~14:50 (Lecture2)15:00~15:45
    Room: Seminar Room 104 , 1st floor, Bldg. #2 of Institute for Frontier Life and Medical Sciences ,Kyoto University
    Speaker: (Lecture 1)Susan Gottesman, Ph. D.
    Co-chief, Laboratory of Molecular Biology
    National Cancer Institute, National Institutes of Health (NCI/NIH)
    (Lecture 2) Shinobu Chiba, Ph. D.
    Professor, Faculty of Life Sciences and Institute for Protein Dynamics, Kyoto Sangyo University
    Title:
    (Lecture 1) Post-transcriptional Regulation of the E. coli
        General Stress Response
    (Lecture 2) A novel ribosome rescue mechanism in
    Bacillus subtilis