Tokuraku Kiyotaka | Miyakonojo National College of Technology
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概要
関連著者
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Tokuraku Kiyotaka
Miyakonojo National College of Technology
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Tokuraku Kiyotaka
Miyakonojo National Collage Of Technology
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Uyeda Taro
National Institute of Advanced Industrial Science and Technology
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Uyeda Taro
National Inst. Advanced Industrial Sci. And Technol.
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Matsushima Kazuyuki
Department of Biological Sciences, Faculty of Science, Kanagawa University
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Demizu Noriyuki
Miyakonojo National College of Technology
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Noguchi Taro
National Institute of Advanced Industrial Science and Technology
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Toya Ryo
miyakonojo national collage of technology
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Kurogi Rika
University of Miyazaki
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Matsushima Kazuyuki
Department Of Biological Sciences Faculty Of Science-city Kanagawa University
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Nishie Makiko
Department Of Chemical Science And Engineering Miyakonojo National College Of Technology
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Noguchi Taro
Department Of Chemical Science And Engineering Miyakonojo National College Of Technology
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Kotani Susumu
Kanagawa Univ. Kanagawa Jpn
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Noguchi Taro
Miyakonojo National College of Technology
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Nishie Makiko
Miyakonojo National College of Technology
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Matsushima Kazuyuki
Kanagawa University
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Matsushima K
Department Of Biological Sciences Faculty Of Science-city Kanagawa University
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Tokuraku K
Department Of Chemical Science And Engineering Miyakonojo National College Of Technology
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Marquardt Meg
University of Nebraska Medical Center
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Ikezu Tsuneya
University of Nebraska Medical Center
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Matsushima Kazuyuki
Dept. Of Biological Sci. Univ. Of Kanagawa
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Tokuraku Kiyotaka
Dept. Of Chem. Sci. And Eng. Miyakonojo Nat. Col. Of Tech.
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Kotani S
Kanagawa Univ. Kanagawa
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Kotani Susumu
Department Of Biological Sciences Faculty Of Science Kanagawa University
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Kotani Susumu
Kanagawa Univ.
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Noguchi Taro
Miyakonojo Nation. Col. Tech.
著作論文
- 1P152 コフィリンの結合を協同的に阻害するG146Vアクチンミュータントへのヘビーメロミオシンの結合(筋肉(筋蛋白質・収縮),第48回日本生物物理学会年会)
- 3P-129 アクチンフィラメントへのミオシンの協同的結合はアクチン-ミオシン-ADP-Pi状態で起こる(分子モーター,第47回日本生物物理学会年会)
- 1P-263 量子ドットを用いたベータアミロイドペプチド凝集のイメージング(バイオイメージング,第47回日本生物物理学会年会)
- 1P322 A microtubule-associated protein 4 specific five-repeat isoform inhibits kinesin-driven microtubule gliding(10. Cytoskeleton,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)