フォトバイオイメージングイノベーションハブ:2008年度

  1. Ohsugi Y, Kinjo M.
    Multipoint fluorescence correlation spectroscopy with total internal reflection fluorescence microscope.
    J Biomed Opt., 14(1), 014030 (2009)

  2. Muto H, Kinjo M, Yamamoto KT.
    Fluorescence cross-correlation spectroscopy of plant proteins.
    Methods Mol Biol., 479, 203-15 (2009)

  3. Shimi T, Pfleghaar K, Kojima S, Pack CG, Solovei I, Goldman AE, Adam SA, Shumaker DK, Kinjo M, Cremer T, Goldman RD.
    The A- and B-type nuclear lamin networks: microdomains involved in chromatin organization and transcription.
    Genes Dev., 22(24), 3409-21 (2008)

  4. Takahashi Y, Nishimura J, Suzuki A, Ishibashi K, Kinjo M, Miyawaki A.
    Cross-talk-free fluorescence cross-correlation spectroscopy by the switching method.
    Cell Struct Funct., 33(1),143-50(2008)

  5. Noda Y, Horikawa S, Kanda E, Yamashita M, Meng H, Eto K, Li Y, Kuwahara M, Hirai K, Pack C, Kinjo M, Okabe S, Sasaki S.
    Reciprocal interaction with G-actin and tropomyosin is essential for aquaporin-2 trafficking.
    J Cell Biol., 182(3), 587-601(2008)

  6. Park H, Pack C, Kinjo M, Kaang BK.
    In Vivo Quantitative Analysis of PKA Subunit Interaction and cAMP level by Dual Color Fluorescence Cross Correlation Spectroscopy.
    Mol Cells., 26(1), 87-92(2008)

  7. Nakabayashi T, Nagao I, Kinjo M, Aoki Y, Tanaka M, Ohta N.
    Stress-induced environmental changes in a single cell as revealed by fluorescence lifetime imaging.
    Photochem Photobiol Sci., 7(6), 671-4(2008)

  8. Nakabayashi T, Wang HP, Kinjo M, Ohta N.
    Application of fluorescence lifetime imaging of enhanced green fluorescent protein to intracellular pH measurements.
    Photochem Photobiol Sci., 7(6), 668-70(2008)

  9. Nakagawa H., Ohira M., Hayashi S., Abe S., Saito S., Nagahori N., Monde K., Shinohara Y., Fujitani N., Kondo H., Akiyama S.-I., Nakagawara A., and Nishimura S.-I. 
    Alterations in the glycoform of cisplatin-resistant human carcinoma cells is caused by defects in the endoplasmic reticulum-associated degradation system
    Cancer Lett., 270, 295–301 (2008)

  1. 金城 政孝
    蛍光共鳴エネルギー移動
    蛋白質 核酸 酵素, 53(8), 929(2008).

  2. 金城 政孝
    蛍光相関分光法と蛍光相互相関分光法
    蛋白質 核酸 酵素, 53(8), 930(2008).

  3. 金城 政孝
    FRAP
    蛋白質 核酸 酵素, 53(8), 1051(2008).

  1. November 2008
    Sendai, Japan
    The Annual Meeting of the Spectroscopical Society of Japan
    Study of Mombrane-Binding Protein Dynamics with Fluorescence Correlation Spectroscopy
    Kinjo M.

  2. October 2008
    Seoul, Korea
    International Congress on Cell Biology
    Dybamic Aspects of Protein in Living Cell Investigated by Total Internal Reflection Fluourescence Correlation Spectroscopy
    Kinjo M.

  3. February, 2009
    Sapporo, Japan
    Recent Advances in Fluorescence Spectroscopic Methods for Biological and Chemical Systems
    Analysis of Intracellular Transactivation Process of Glucocorticoid Receptor UsingFluorescence Correlation Spectroscopy
    Mikuni S. and Kinjo M.

  4. January, 2009
    Sapporo, Japan
    10th Hokkaido University + Seoul National University joint symposium, “Imaging-Luminescent and Fluorescent Probing Technology”
    Analysis of intracellular diffusion of glucocorticoid receptor using Fluorescence Correlation Spectroscopy
    Mikuni S. and Kinjo M.

  1. 2008年12月
    浜松市
    第5回バイオオプティクス研究会
    「多点全反射蛍光相関装置による細胞測定」
    金城政孝

  2. 2008年10月
    つくば市
    第4回ライブセルイメージング講習会
    「FCSとFCCS」
    金城政孝

  3. 2008年9月
    盛岡市
    日本物理学会2008年秋季大会
    「蛍光相関分光法を用いた生命システムの解析」
    金城政孝

なし