Maeda Kayo | Erato Maeda Pjt Jst:riken Spring-8 Center
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概要
関連著者
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Maeda Kayo
Erato Maeda Pjt Jst:riken Spring-8 Center
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Maeda Kayo
科学技術振興機構 Erato型研究
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Maeda Kayo
Riken Harima Institute At Spring8
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Maeda Yuichiro
Erato Maeda Pjt Jst:riken Spring-8 Center:nagoya Univ.
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Maeda Y
Kagoshima Univ. Health Serv. Center Kagoshima
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Maeda Yuichiro
Erato Actin Filament Dynamics Project:dev Biol Science Graduate School Of Science Nagoya Univ
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MAEDA Yuichiro
Riken Harima Institute at Spring8
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Maeda Yuichiro
Structural Biology Research Center Nagoya University:erato Actin Filament Dynamics Project Jst Co Ri
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Sano Ken-Ichi
The Cancer Inst.
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Miki Masao
Department of Applied Chemistry and Biotechnology, Graduate School of Engineering, Fukui University
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Miki M
Fukui Univ. Fukui
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Miki Masao
Department Of Applied Chemistry And Biotechnology Faculty Of Engineering University Of Fukui
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Sano Ken-ichi
International Institute For Advanced Research Matsushita Electric Industrial Co. Ltd.
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Maeda Yuichiro
ERATO Maeda PJT, JST
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Maeda Kayo
Erato Actin Filament Dynamics Project
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Oda Toshiro
Erato Maeda Pjt Jst:riken Spring-8 Center
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Maeda Yuichiro
Erato 'actin Filament Dynamics Project':div Biol Sci Graduate School Of Science Nagoya Uni
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HAI Hong
Department of Applied Chemistry and Biotechnology, Fukui University
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Hai Hong
Department Of Applied Chemistry And Biotechnology Fukui University
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KIMURA Chieko
Department of Applied Chemistry and Biotechnology, Fukui University
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Kimura C
Department Of Applied Chemistry And Biotechnology Fukui University
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Iwasa Mitsusada
ERATO Maeda PJT, JST
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Oda Toshiro
ERATO Maeda PJT, JST
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Fujiwara Satoru
Quantum Beam Science Directorate, Japan Atomic Energy Agency
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Matsumoto Fumiko
Quantum Beam Science Directorate, Japan Atomic Energy Agency
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Miki Masao
Department Of Applied Chemistry And Biotechnology Fukui University
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Poggesi Corrado
Department Of Physiology Science University Of Florence
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MAEDA Kayo
International Institute for Advanced Research, Matsushita Electric Industrial Co., Ltd.,
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Sano Ken-Ichi
RIKEN, ASI
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Sano Ken-ichi
Riken Asi
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Maeda Yuichiro
Erato Actin Filament Dynamics Project
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MAEDA Yuichiro
International Institute for Advanced Research, Matsushita Electric Industrial Co., Ltd.
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Maeda Y
Iwaki Meisei Univ. Iwaki
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Iwasa Mitsusada
Erato 'actin Filament Dynamics Project'
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Iwasa Mitsusada
Erato Maeda Pjt Jst:riken Spring-8 Center
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SANO Ken
International Institute for Advanced Research, Central Research Laboratories, Matsushita Electric In
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ODA Toshiro
International Institute for Advanced Research, Central Research Laboratories, Matsushita Electric In
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Piroddi Nicoletta
Department of Physiology science, University of Florence
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Belus Alexandra
Department of Physiology science, University of Florence
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Scellini Beatrice
Department of Physiology science, University of Florence
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Tesi Chiara
Department of Physiology science, University of Florence
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Tesi Chiara
Department Of Physiology Science University Of Florence
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Fujiwara Satoru
Quantum Beam Science Directorate Japan Atomic Energy Agency
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Matsumoto Fumiko
Quantum Beam Science Directorate Japan Atomic Energy Agency
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Belus Alexandra
Department Of Physiology Science University Of Florence
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Piroddi Nicoletta
Department Of Physiology Science University Of Florence
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Scellini Beatrice
Department Of Physiology Science University Of Florence
著作論文
- 2P-149 心筋症の原因となるTnT変異が単一筋原繊維の生理的機能に及ぼす影響(筋肉(筋蛋白質・収縮),第46回日本生物物理学会年会)
- 1P234 An establishment and analysis of recombinant wild-type and mutant human cardiac actins.(8. Muscle contraction and muscle protein,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- Ca^ - and S1-Induced Movement of Troponin T on Reconstituted Skeletal Muscle Thin Filaments Obeserved by Fluorescence Energy Transfer Spectroscopy
- Ca^and S1-Induced Movement of Troponin T on Mutant Thin Filaments Reconstituted with Functionally Deficient Mutant Tropomyosin
- Ca^ - and S1-Induced Conformational Changes of Reconstituted Skeletal Muscle Thin Filaments Observed by Fluorescence Energy Transfer Spectroscopy : Structural Evidence for Three States of Thin Filament
- The Effect of Single Residue Substitutions of Serine-283 on the Strength of Head-to-Tail Interaction and Actin Binding Properties of Rabbit Skeletal Muscle α-Tropomyosin