Edidin Michael | Department of Biology, The Johns Hopkins University
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概要
関連著者
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Edidin Michael
Department of Biology, The Johns Hopkins University
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Edidin Michael
Department Of Biology The Johns Hopkins University
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Suzuki Kenichi
Institute For Integrated Cell-material Sciences (icems) Institute For Frontier Medical Sciences Kyot
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Kusumi Akihiro
Institute For Integrated Cell-material Sciences (icems) And Institute For Frontier Medical Sciences
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Fujiwara Takahiro
Institute For Integrated Cell-material Sciences (icems) And Institute For Frontier Medical Sciences
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Suzuki Kenichi
Institute For Integrated Cell-material Sciences (icems) And Institute For Frontier Medical Sciences
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Kusumi Akihiro
Membrane Mechanisms Project International Cooperative Research Project (icorp) Japan Science And Tec
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Fujiwara Takahiro
Icorp-jst:icems Kyoto University
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Fujiwara Takahiro
Institute For Integrated Cell Material Sciences (icems):institute For Frontier Medical Sciences Kyot
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Kusumi Akihiro
Membrane Mechanisms Project Icorp-jst Institute For Integrated Cell-material Sciences(icems) Institu
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Fujiwara Takahiro
Membrane Mechanisms Project International Cooperative Research Project (icorp) Japan Science And Tec
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Kusumi Akihiro
Institute For Integrated Cell-material Science (icems) Institute For Frontier Medical Sciences Kyoto
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Kusumi Akihiro
Institute For Frontier Medical Sciences Kyoto University:institute For Integrated Cell-material Scie
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Fujiwara Takahiro
Institute For Integrated Cell-material Sciences (icems) Kyoto University
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Kusumi Akihiro
Institute For Integrated Cell-material Sciences (icems) And Institute For Frontier Medical Sciences
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Edidin Michael
The Johns Hopkins University
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Fujiwara Takahiro
Membrane Mechanisms Project, ICORP-JST, Institute for Integrated Cell-Material Science (iCeMS), Inst
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Kusumi Akihiro
Membrane Mechanisms Project, ICORP-JST, Institute for Integrated Cell-Material Science (iCeMS), Inst
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Suzuki Kenichi
Membrane Mechanisms Project, ICORP-JST
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Ritchie Ken
Membrane Mechanisms Project, ICORP-JST, Institute for Frontier Medical Sciences, Kyoto University
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Hirano Hidemi
Membrane Mechanisms Project, ICORP-JST, Institute for Frontier Medical Sciences, Kyoto University
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Suzuki Kenichi
ERATO・JST
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Sanematsu Fumiyuki
Nagoya University
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Fujiwara Takahiro
ERATO・JST
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Kusumi Akihiro
ERATO・JST
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Ritchie Ken
Membrane Mechanisms Project Icorp-jst Institute For Frontier Medical Sciences Kyoto University
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Hirano Hidemi
Membrane Mechanisms Project Icorp-jst Institute For Frontier Medical Sciences Kyoto University
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Kusumi Akihiro
Membrane Mechanisms Project International Cooperative Research Project (icorp)-japan Science Technol
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Kusumi Akihiro
Membrane Mechanisms Project Icorp-jst Kyoto Univ.
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BODNAR Andrea
Cell Biophysical Research Group of the Hungarian Academy of Sciences, University of Debrecen, Medica
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BACSO Zsolt
Department of Biophysics and Cell Biology, University of Debrecen, Medical Faculty
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JENEI Attila
Department of Biophysics and Cell Biology, University of Debrecen, Medical Faculty
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JOVIN Thomas
Department of Molecular Biology, Max-Planck Institute for Biophysical Chemistry
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DAMJANOVICH Sandor
Cell Biophysical Research Group of the Hungarian Academy of Sciences, University of Debrecen, Medica
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MATKO Janos
Department of Biophysics and Cell Biology, University of Debrecen, Medical Faculty
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Matko Janos
Department Of Biophysics And Cell Biology University Of Debrecen Medical Faculty
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Bacso Zsolt
Department Of Biophysics And Cell Biology University Of Debrecen Medical Faculty
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Jovin Thomas
Department Of Molecular Biology Max-planck Institute For Biophysical Chemistry
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Jenei Attila
Department Of Biophysics And Cell Biology University Of Debrecen Medical Faculty
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Bodnar Andrea
Cell Biophysical Research Group Of The Hungarian Academy Of Sciences University Of Debrecen Medical
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Damjanovich Sandor
Cell Biophysical Research Group Of The Hungarian Academy Of Sciences University Of Debrecen Medical
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Suzuki Kenichi
Presto-jst:icems Kyoto University
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Fujiwara Takahiro
Membrane Mechanisms Project Icorp-jst Institute For Integrated Cell-material Science (icems) Institu
著作論文
- S1e1-5 Raft and non-raft molecules undergo very similar diffusion in the time scales between 25 microseconds and 2.5 seconds(S1-e1: "Unraveling the membrane microdomains using new biophysical tools",Symposia,Abstract,Meeting Program of EABS & BSJ 2006)
- S3B5 Stimulation-induced formation of transient but stabilized rafts.(Single Molecure Dynamics and Reactions)
- Class I HLA oligomerization at the surface of B cells is controlled by exogenous β_2-microglobulin : implications in activation of cytotoxic T lymphocytes