論文リスト

石島,井上福岡佐藤

石島

[論文]

  1. Nobuhiko Kato, Akihiko Ishijima, Takehiko Inaba, Fumimasa Nomura, Shuichi Takeda and Kingo Takiguchi, Effects of Lipid Composition and Solution Conditions on the Mechanical Properties of Membrane Vesicles, Membranes, 5(1), 22-47 (2015)
  2. Tatsuya Shima, Takahiro Muraoka, Tsutomu Hamada, Masamune Morita, Masahiro Takagi, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Akihiko Ishijima, Yuki Omata, Takashi Yamashita and Kazushi Kinbara, Micrometer-Size Vesicle Formation Triggered by UV Light, Langmuir, 30, 7289–7295 (2014).
  3. Takashi Sagawa, Yu Kikuchi, Yuichi Inoue, Hiroto Takahashi, Takahiro Muraoka, Kazushi Kinbara, Akihiko Ishijima, Hajime Fukuoka. Single-Cell E. coli Response to an Instantaneously Applied Chemotactic Signal. Biophysical Journal, 107, 730–739 (2014).
  4. Masaaki K. Sato,Masaya Toda,Naoki Inomata,Hisataka Maruyama,Yuko Okamatsu-Ogura,Fumihito Arai,Takahito Ono, Akihiko Ishijima and Yuichi Inoue. Temperature Changes in Brown Adipocytes Detected with a Bimaterial Microcantilever .Biophysical Journal, 106, 2458–2464 (2014).
  5. Hajime Fukuoka, Takashi Sagawa, Yuichi Inoue, Hiroto Takahashi, and Akihiko Ishijima. Direct Imaging of Intracellular Signaling Components That Regulate Bacterial Chemotaxis. Science Signaling, 319, ra32, (2014)
  6. Yoshiyuki Sowa, Michio Homma, Akihiko Ishijima, and Richard M. Berry. Hybrid-fuel bacterial flagellar motors in Escherichia coli. Proc Natl Acad Sci U S A., 111, :3436-41 (2014)
  7. Yuichi Inoue, Matthew A.B. Baker, Hajime Fukuoka, Hiroto Takahashi, Richard M. Berry, Akihiko Ishijima. Temperature Dependences of Torque Generation and Membrane Voltage in the Bacterial Flagellar Motor. Biophysical Journal, 105, 2801–2810 (2013).
  8. Masayoshi Nishiyama, Yoshiyuki Sowa, Yoshifumi Kimura, Michio Homma, Akihiko Ishijima and Masahide Terazima. High Hydrostatic Pressure Induces Counterclockwise to Clockwise Reversals of the Escherichia coli Flagellar Motor. Journal of Bacteriology, 8, 1809-1814 (2013)
  9. Hajime Fukuoka, Yuichi Inoue, Akihiko Ishijima. Coordinated regulation of multiple flagellar motors by the Escherichia coli chemotaxis system. BIOPHYSICS,8,59-66(2012.3)
  10. Masaaki K. Sato, Takashi Ishihara, Hiroto Tanaka, Akihiko Ishijima and Yuichi Inoue, (2012). Velocity-Dependent Actomyosin ATPase Cycle Revealed by In Vitro Motility Assay with Kinetic Analysis. Biophysical Journal, 103, 711-718.
  11. Naoki Inomata, Masaya Toda, Masaaki Sato, Akihiko Ishijima, and Takahito Ono, (2012). Pico calorimeter for detection of heat produced in an individual brown fat cell. Appl. Phys. Lett. 100, 154104
  12. Shun Terasawa, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Hiroto Takahashi and Akihiko Ishijima, (2011). Coordinated Reversal of Flagellar Motors on a Single Escherichia coli Cell, Biophysical Journal, 100, 2193-2200.
  13. Matthew A. B. Baker, Yuichi Inoue, Kuniaki Takeda, Akihiko Ishijima and Richard M. Berry, (2011). Two methods of temperature control for single-molecule measurements. European Biophysics Journal, 5, 651-660.
  14. Akihiko Ishijima, Hajime Fukuoka, and Yuichi Inoue, (2010). Verification of Single-Molecule Imaging and Single-Molecule Measurements. Journal of Robotics and Mechatronics, 5, 568-578.
  15. Okuro, K., Kinbara, K., Takeda, K., Inoue, Y., Ishijima, A. & Aida, T. (2010). Adhesion Effects of a Guanidinium Ion Appended Dendritic "Molecular Glue" on the ATP-Driven Sliding Motion of Actomyosin. Angew Chem Int Ed Engl. 49, 3030-3033.
  16. Fukuoka, H., Inoue, Y., Terasawa, S., Takahashi, H. & Ishijima, A. Exchange of rotor components in functioning bacterial flagellar motor. (2010). Biochem Biophys Res Commun 394, 130-5.
  17. Nishiyama, S., Ohno, S., Ohta, N., Inoue, Y., Fukuoka, H., Ishijima, A. & Kawagishi, I. Thermosensing function of the Escherichia coli redox sensor Aer. (2010). J Bacteriol 192, 1740-3.
  18. Fukuoka H, Wada T, Kojima S, Ishijima A, Homma, (2009). Sodium-dependent dynamic assembly of membrane complexes in sodium-driven flagellar motors. M. Mol Microbiol. 71, 825-35.
  19. Umeda, T., Inaba, T., Ishijima, A., Takiguchi, K. & Hotani, H. (2008). Formation and maintenance of tubular membrane projections: Experiments and numerical calculations. Biosystems. 93, 115-119
  20. Inoue, Y., Lo, C. J., Fukuoka, H., Takahashi, H., Sowa, Y., Pilizota, T., Wadhams, G. H., Homma, M., Berry, R. M. & Ishijima, A. (2008). Torque-speed relationships of Na+-driven chimeric flagellar motors in Escherichia coli. J Mol Biol 376, 1251-9.
  21. Fukuoka, H., Sowa, Y., Kojima, S., Ishijima, A. & Homma, M. (2007). Visualization of functional rotor proteins of the bacterial flagellar motor in the cell membrane. J Mol Biol 367, 692-701.
  22. Yamamoto K, Shimada K, Ito K, Hamada S, Ishijima A, Tsuchiya T, Tazawa M. (2006). Chara myosin and the energy of cytoplasmic streaming. Plant Cell Physiol. 47, 1427-1431.
  23. Atsuko Hikikoshi Iwane, Hiroto Tanaka, Sayuri Morimoto, Akihiko Ishijima and Toshio Yanagida. (2005), The neck domain of myosin II primarily regulates the actomyosin kinetics, not the stepsize. Journal of Molecular Biology 353, 213-221.
  24. Sowa, Y., Rowe, A., Leake, M., Yakushi, T., Homma, M., Ishijima, A., and Berry, R. (2005). Direct observation of steps in rotation of the bacterial flagellar motor. Nature 437, 916-919.
  25. Inaba, T., Ishijima, A., Honda, M., Nomura, F., Takiguchi, K. & Hotani, H. (2005). Formation and maintenance of tubular membrane projections require mechanical force, but their elongation and shortening do not require additional force. Journal of Molecular Biology 348, 325-333.
  26. Hotani, H., Inaba, T., Nomura, F., Takeda, S., Takiguchi, K., Itoh, T. J., Umeda, T. & Ishijima, A. (2003). Mechanical analyses of morphological and topological transformation of liposomes. Biosystems 71, 93-100.
  27. Kimura, Y., Toyoshima, N., Hirakawa, N., Okamoto, K. & Ishijima, A. (2003). A kinetic mechanism for the fast movement of Chara myosin. Journal of Molecular Biology 328, 939-950.
  28. Sowa, Y., Hotta, H., Homma, M. & Ishijima, A. (2003). Torque-speed relationship of the Na+-driven flagellar motor of Vibrio alginolyticus. Journal of Molecular Biology 327, 1043-1051.
  29. Nomura, F., Honda, M., Takeda, S., Inaba, T., Takiguchi, K., Itoh, T. J., Ishijima, A., Umeda, T. & Hotani, H. (2002). Morphological and topological transformation of membrane vesicles. Journal of Biological Physics 28, 225-235.
  30. Yorimitsu, T., Sowa, Y., Ishijima, A., Yakushi, T. & Homma, M. (2002). The systematic substitutions around the conserved charged residues of the cytoplasmic loop of Na+-driven flagellar motor component PomA. Journal of Molecular Biology 320, 403-413.
  31. Ishii, Y., Ishijima, A. & Yanagid, T. (2002). Coupling between chemical and mechanical events and conformation of single protein molecules. Results Probl Cell Differ 36, 87-105.
  32. Ishijima, A. & Yanagida, T. (2001). Single molecule nanobioscience. Trends Biochem Sci 26, 438-44.
  33. Ishii, Y., Ishijima, A. & Yanagida, T. (2001). Single molecule nanomanipulation of biomolecules. Trends Biotechnol 19, 211-6.
  34. Yanagida, T., Esaki, S., Iwane, A. H., Inoue, Y., Ishijima, A., Kitamura, K., Tanaka, H. & Tokunaga, M. (2000). Single-motor mechanics and models of the myosin motor. Philos Trans R Soc Lond B Biol Sci 355, 441-7.
  35. Tanaka, H., Ishijima, A., Honda, M., Saito, K. & Yanagida, T. (1998). Orientation dependence of displacements by a single one-headed myosin relative to the actin filament. Biophysical Journal 75, 1886-1894.
  36. Ishijima, A., Kojima, H., Funatsu, T., Tokunaga, M., Higuchi, H., Tanaka, H. & Yanagida, T. (1998). Simultaneous observation of individual ATPase and mechanical events by a single myosin molecule during interaction with actin. Cell 92, 161-171.
  37. West, J. M., Higuchi, H., Ishijima, A. & Yanagida, T. (1996). Modification of the bi-directional sliding movement of actin filaments along native thick filaments isolated from a clam. Journal of Muscle Research and Cell Motility 17, 637-646.
  38. Tsuda, Y., Yasutake, H., Ishijima, A. & Yanagida, T. (1996). Torsional rigidity of single actin filaments and actin-actin bond breaking force under torsion measured directly by in vitro micromanipulation. Proceedings of the National Academy of Sciences of the United States of America 93, 12937-12942.
  39. Ishijima, A., Kojima, H., Higuchi, H., Harada, Y., Funatsu, T. & Yanagida, T. (1996). Multiple- and single-molecule analysis of the actomyosin motor by nanometer piconewton manipulation with a microneedle: Unitary steps and forces. Biophysical Journal 70, 383-400.
  40. Ishijima, A., Harada, Y., Kojima, H., Funatsu, T., Higuchi, H. & Yanagida, T. (1994). Single-Molecule Analysis of the Actomyosin Motor Using Nano-Manipulation. Biochemical and Biophysical Research Communications 199, 1057-1063.
  41. Kojima, H., Ishijima, A. & Yanagida, T. (1994). Direct Measurement of Stiffness of Single Actin-Filaments with and without Tropomyosin by in-Vitro Nanomanipulation. Proceedings of the National Academy of Sciences of the United States of America 91, 12962-12966.
  42. Itakura, S., Yamakawa, H., Toyoshima, Y. Y., Ishijima, A., Kojima, T., Harada, Y., Yanagida, T., Wakabayashi, T. & Sutoh, K. (1993). Force-Generating Domain of Myosin Motor. Biochemical and Biophysical Research Communications 196, 1504-1510.
  43. Johara, M., Toyoshima, Y. Y., Ishijima, A., Kojima, H., Yanagida, T. & Sutoh, K. (1993). Charge-Reversion Mutagenesis of Dictyostelium Actin to Map the Surface Recognized by Myosin during Atp-Driven Sliding Motion. Proceedings of the National Academy of Sciences of the United States of America 90, 2127-2131.
  44. Yanagida, T., Harada, Y. & Ishijima, A. (1993). Nano-manipulation of actomyosin molecular motors in vitro: a new working principle. Trends Biochem Sci 18, 319-24.
  45. Tanaka, Y., Ishijima, A. & Ishiwata, S. (1992). Super Helix Formation of Actin-Filaments in an Invitro Motile System. Biochimica Et Biophysica Acta 1159, 94-98.
  46. Ishijima, A., Doi, T., Sakurada, K. & Yanagida, T. (1991). Sub-Piconewton Force Fluctuations of Actomyosin Invitro. Nature 352, 301-306.
  47. Higuchi, H., Funatsu, T., Ishijima, A., Okamura, N. & Ishiwata, S. (1986). Accumulated Strain Mechanism for Length Determination of Thick Filaments in Skeletal-Muscle.1. Experimental Bases. Journal of Muscle Research and Cell Motility 7, 491-500.

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[解説]

  1. 石島秋彦,井上裕一,福岡創,田中裕人,非侵襲・可視化技術ハンドブック,第7章1分子可視化と操作,第3節生体1分子操作・計測,716-731
  2. 稲葉岳彦,石島秋彦,滝口金吾,宝谷紘一,液晶,Vol.10.No.3,映像化された二次元液晶膜小胞の動的性質,2006
  3. 石島秋彦,井上裕一,バイオニクス,8,9月号,2006:現場で役立つバイオイメージング・光ピンセット
  4. 石島秋彦,榊裕之監修,科学立国日本を築く,282-290,2006:光トラップによる一分子計測と生体分子モーターへの応用
  5. 西山雅祥,曽和義幸,石島秋彦,物性研究,85-2(2月号),593-621,2006:生物分子モーターのステップ計測と運動解析
  6. 石島秋彦 井上裕一,バイオニクス8月号,2006:現場で役立つバイオイメージング,光ピンセット(基礎編)
  7. 石島秋彦 井上裕一,バイオニクス9月号,2006:現場で役立つバイオイメージング,光ピンセット(応用編)
  8. 石島秋彦,図解 高分子新素材のすべて,142-145, 2005:生体高分子メカニクス
  9. 石島秋彦,マイクロマシン, 617-620, 2002:生体リニアモーター,回転モーターの運動メカニズム
  10. 石島秋彦,小嶋寛明,田中裕人,生物物理,Vol.39,No.2,76-80,1999:生体分子1個の化学反応と力学反応の同時計測
  11. 石島秋彦,小嶋寛明,田中裕人,応用物理:ナノ領域の光の生物への応用,―生体分子1個の化学反応と力学反応の同時計測―
  12. 石島秋彦,小嶋寛明,徳永万喜洋,蛋白質核酸酵素,43,1365-1371,1998:生体分子機能の1分子イメージング
  13. 樋口秀男,石島秋彦,生物物理から見た生命像3,日本生物物理学会編集,吉岡書店 (1997):ナノピコスペースのイメージング
  14. 石島秋彦,光学,Vol.26, 9, 474-480 (1997):生体分子1個のイメージング,ナノ操作
  15. Harada, Y., Ishijima, A., Funatsu, T., Tokunaga, M., Higuchi, H. and T. Yanagida, Methods in Cell Biology Vol.298, Academic Press:Single molecule imaging and nano-manipulation of biomolecules.
  16. Yanagida, T., Ishijima, A., Saitoh, K. and Y. Harada, "Mechanism of Myofilament Sliding in Muscle Contraction"(H. Sugi eds.), Plenum Publishing Co. (New York) Adv. Exp. Med. Biol. 332, 339-349 (1993):Coupling between ATPase and force generation attachment-detachment cycles of actomyosin in vitro.
  17. 石島秋彦、柳田敏雄 パリティ Vol.07 No.02, 54 57 (1992) :見えてきた生体分子の動き.
  18. 石島秋彦、原田慶恵、柳田敏雄 計測と制御 Vol.29 No.12, 1123 1130 (1990) :0.1nm分解能で生体分子エンジン1つの動きを計測する

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井上

  1. Tatsuya Shima, Takahiro Muraoka, Tsutomu Hamada, Masamune Morita, Masahiro Takagi, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Akihiko Ishijima, Yuki Omata, Takashi Yamashita and Kazushi Kinbara, Micrometer-Size Vesicle Formation Triggered by UV Light, Langmuir, 30, 7289–7295 (2014).
  2. Takashi Sagawa, Yu Kikuchi, Yuichi Inoue, Hiroto Takahashi, Takahiro Muraoka, Kazushi Kinbara, Akihiko Ishijima, Hajime Fukuoka. Single-Cell E. coli Response to an Instantaneously Applied Chemotactic Signal. Biophysical Journal, 107, 730–739 (2014).
  3. Masaaki K. Sato,Masaya Toda,Naoki Inomata,Hisataka Maruyama,Yuko Okamatsu-Ogura,Fumihito Arai,Takahito Ono, Akihiko Ishijima and Yuichi Inoue. Temperature Changes in Brown Adipocytes Detected with a Bimaterial Microcantilever .Biophysical Journal, 106, 2458–2464 (2014).
  4. Hajime Fukuoka, Takashi Sagawa, Yuichi Inoue, Hiroto Takahashi, and Akihiko Ishijima. Direct Imaging of Intracellular Signaling Components That Regulate Bacterial Chemotaxis. Science Signaling, 319, ra32, (2014)
  5. Yuichi Inoue, Matthew A.B. Baker, Hajime Fukuoka, Hiroto Takahashi, Richard M. Berry, Akihiko Ishijima. Temperature Dependences of Torque Generation and Membrane Voltage in the Bacterial Flagellar Motor. Biophysical Journal, 105, 2801–2810, (2013).
  6. Hajime Fukuoka, Yuichi Inoue, Akihiko Ishijima. Coordinated regulation of multiple flagellar motors by the Escherichia coli chemotaxis system. BIOPHYSICS,8,59-66(2012.3)
  7. Masaaki K. Sato, Takashi Ishihara, Hiroto Tanaka, Akihiko Ishijima and Yuichi Inoue, (2012). Velocity-Dependent Actomyosin ATPase Cycle Revealed by In Vitro Motility Assay with Kinetic Analysis. Biophysical Journal, 103, 711-718.
  8. Shun Terasawa, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Hiroto Takahashi and Akihiko Ishijim, (2011). Coordinated Reversal of Flagellar Motors on a Single Escherichia coli Cell, Biophysical Journal,100, 2193-2200.
  9. Matthew A. B. Baker, Yuichi Inoue, Kuniaki Takeda, Akihiko Ishijima and Richard M. Berry, (2011). Two methods of temperature control for single-molecule measurements. European Biophysics Journal, 5, 651-660.
  10. Akihiko Ishijima, Hajime Fukuoka, and Yuichi Inoue, (2010). Verification of Single-Molecule Imaging and Single-Molecule Measurements. Journal of Robotics and Mechatronics, 5, 568-578.
  11. Okuro, K., Kinbara, K., Takeda, K., Inoue, Y., Ishijima, A. & Aida, T. (2010). Adhesion Effects of a Guanidinium Ion Appended Dendritic "Molecular Glue" on the ATP-Driven Sliding Motion of Actomyosin. Angew Chem Int Ed Engl. 49, 3030-3033.
  12. Fukuoka, H., Inoue, Y., Terasawa, S., Takahashi, H. & Ishijima, A. Exchange of rotor components in functioning bacterial flagellar motor. (2010). Biochem Biophys Res Commun 394, 130-5.
  13. Nishiyama, S., Ohno, S., Ohta, N., Inoue, Y., Fukuoka, H., Ishijima, A. & Kawagishi, I. Thermosensing function of the Escherichia coli redox sensor Aer. (2010). J Bacteriol 192, 1740-3.
  14. Inoue, Y., Lo, C. J., Fukuoka, H., Takahashi, H., Sowa, Y., Pilizota, T., Wadhams, G. H., Homma, M., Berry, R. M. & Ishijima, A. (2008). Torque-speed relationships of Na+-driven chimeric flagellar motors in Escherichia coli. J Mol Biol 376, 1251-9.
  15. Inoue, Y. & Shingyoji, C. (2007). The roles of noncatalytic ATP binding and ADP binding in the regulation of dynein motile activity in flagella. Cell Motil Cytoskeleton 64, 690-704.
  16. Nishiyama, M., Muto, E., Inoue, Y., Yanagida, T. & Higuchi, H. (2001). Substeps within the 8-nm step of the ATPase cycle of single kinesin molecules. Nat Cell Biol 3, 425-8.
  17. Inoue, Y., Iwane, A. H., Miyai, T., Muto, E. & Yanagida, T. (2001). Motility of single one-headed kinesin molecules along microtubules. Biophys J 81, 2838-50.
  18. Yanagida, T., Esaki, S., Iwane, A. H., Inoue, Y., Ishijima, A., Kitamura, K., Tanaka, H. & Tokunaga, M. (2000). Single-motor mechanics and models of the myosin motor. Philos Trans R Soc Lond B Biol Sci 355, 441-7.
  19. Inoue, Y., Toyoshima, Y. Y., Iwane, A. H., Morimoto, S., Higuchi, H. & Yanagida, T. (1997). Movements of truncated kinesin fragments with a short or an artificial flexible neck. Proc Natl Acad Sci U S A 94, 7275-80.
  20. Higuchi, H., Muto, E., Inoue, Y. & Yanagida, T. (1997). Kinetics of force generation by single kinesin molecules activated by laser photolysis of caged ATP. Proc Natl Acad Sci U S A 94, 4395-400.

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福岡

  1. Tatsuya Shima, Takahiro Muraoka, Tsutomu Hamada, Masamune Morita, Masahiro Takagi, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Akihiko Ishijima, Yuki Omata, Takashi Yamashita and Kazushi Kinbara, Micrometer-Size Vesicle Formation Triggered by UV Light, Langmuir, 30, 7289–7295 (2014).
  2. Takashi Sagawa, Yu Kikuchi, Yuichi Inoue, Hiroto Takahashi, Takahiro Muraoka, Kazushi Kinbara, Akihiko Ishijima, Hajime Fukuoka. Single-Cell E. coli Response to an Instantaneously Applied Chemotactic Signal. Biophysical Journal, 107, 730–739 (2014).
  3. Hajime Fukuoka, Takashi Sagawa, Yuichi Inoue, Hiroto Takahashi, and Akihiko Ishijima. Direct Imaging of Intracellular Signaling Components That Regulate Bacterial Chemotaxis. Science Signaling, 319, ra32, (2014)
  4. Yuichi Inoue, Matthew A.B. Baker, Hajime Fukuoka, Hiroto Takahashi, Richard M. Berry, Akihiko Ishijima. Temperature Dependences of Torque Generation and Membrane Voltage in the Bacterial Flagellar Motor. Biophysical Journal, 105, 2801–2810.
  5. Hajime Fukuoka, Yuichi Inoue, Akihiko Ishijima. Coordinated regulation of multiple flagellar motors by the Escherichia coli chemotaxis system. BIOPHYSICS,8,59-66(2012.3)
  6. Shun Terasawa, Hajime Fukuoka, Yuichi Inoue, Takashi Sagawa, Hiroto Takahashi and Akihiko Ishijim, (2011). Coordinated Reversal of Flagellar Motors on a Single Escherichia coli Cell, Biophysical Journal, 4, 2193-2200.
  7. Akihiko Ishijima, Hajime Fukuoka, and Yuichi Inoue, (2010). Verification of Single-Molecule Imaging and Single-Molecule Measurements. Journal of Robotics and Mechatronics, 5, 568-578.
  8. Fukuoka, H., Inoue, Y., Terasawa, S., Takahashi, H. & Ishijima, A. Exchange of rotor components in functioning bacterial flagellar motor. (2010). Biochem Biophys Res Commun 394, 130-5.
  9. Nishiyama, S., Ohno, S., Ohta, N., Inoue, Y., Fukuoka, H., Ishijima, A. & Kawagishi, I. Thermosensing function of the Escherichia coli redox sensor Aer. (2010). J Bacteriol 192, 1740-3.
  10. Fukuoka H, Wada T, Kojima S, Ishijima A, Homma, (2009). Sodium-dependent dynamic assembly of membrane complexes in sodium-driven flagellar motors. M. Mol Microbiol. 71, 825-35.
  11. Fukuoka, H., Sowa, Y., Kojima, S., Ishijima, A. & Homma, M. (2007). Visualization of functional rotor proteins of the bacterial flagellar motor in the cell membrane. J Mol Biol 367, 692-701.
  12. Yakushi, T., Yang, J., Fukuoka, H., Homma, M. & Blair, D. F. (2006). Roles of charged residues of rotor and stator in flagellar rotation: comparative study using H+-driven and Na+-driven motors in Escherichia coli. J Bacteriol 188, 1466-72.
  13. Terashima, H., Fukuoka, H., Yakushi, T., Kojima, S. & Homma, M. (2006). The Vibrio motor proteins, MotX and MotY, are associated with the basal body of Na-driven flagella and required for stator formation. Mol Microbiol 62, 1170-80.
  14. Fukuoka, H., Yakushi, T., Kusumoto, A. & Homma, M. (2005). Assembly of motor proteins, PomA and PomB, in the Na+-driven stator of the flagellar motor. J Mol Biol 351, 707-17.
  15. Fukuoka, H., Yakushi, T. & Homma, M. (2004). Concerted effects of amino acid substitutions in conserved charged residues and other residues in the cytoplasmic domain of PomA, a stator component of Na+-driven flagella. J Bacteriol 186, 6749-58.
  16. Fukuoka, H., Homma, M. & Ichihara, S. (2003). Flagellum-independent trail formation of escherichia coli on semi-solid agar. Biosci Biotechnol Biochem 67, 1802-5.

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佐藤

  1. Masaaki K. Sato,Masaya Toda,Naoki Inomata,Hisataka Maruyama,Yuko Okamatsu-Ogura,Fumihito Arai,Takahito Ono, Akihiko Ishijima and Yuichi Inoue. Temperature Changes in Brown Adipocytes Detected with a Bimaterial Microcantilever .Biophysical Journal, 106, 2458–2464 (2014).
  2. Hayashi, K., Pack, C.G., Sato, M.K., Mouri, K., Kaizu, K., Takahashi, K. and Okada, Y. “Drag force and viscosity involved in organelle transport: Application of the fluctuation theorem” European Physical Journal E 36, 136 (2013)
  3. Masaaki K. Sato, Takashi Ishihara, Hiroto Tanaka, Akihiko Ishijima and Yuichi Inoue, (2012). Velocity-Dependent Actomyosin ATPase Cycle Revealed by In Vitro Motility Assay with Kinetic Analysis. Biophysical Journal, 103, 711-718.
  4. Naoki Inomata, Masaya Toda, Masaaki Sato, Akihiko Ishijima, and Takahito Ono, (2012). Pico calorimeter for detection of heat produced in an individual brown fat cell. Appl. Phys. Lett. 100, 154104
  5. Masaaki K. Sato, Masayuki Takahashi, and Michio Yazawa, (2007). Two Regions of the Tail Are Necessary for the Isoform-specific Functions of Nonmuscle Myosin IIB, Mol Biol Cell., 18, 1009-1017.

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