Akio Togashi scite author profile

Akio Togashi

3Publications

20Citation Statements Received

93Citation Statements Given

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Nagoya University

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Coupling of Lever Arm Swing and Biased Brownian Motion in Actomyosin

et al. 2014

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An important unresolved problem associated with actomyosin motors is the role of Brownian motion in the process of force generation. On the basis of structural observations of myosins and actins, the widely held lever-arm hypothesis has been proposed, in which proteins are assumed to show sequential structural changes among observed and hypothesized structures to exert mechanical force. An alternative hypothesis, the Brownian motion hypothesis, has been supported by single-molecule experiments and emphasizes more on the roles of fluctuating protein movement. In this study, we address the long-standing controversy between the lever-arm hypothesis and the Brownian motion hypothesis through in silico observations of an actomyosin system. We study a system composed of myosin II and actin filament by calculating free-energy landscapes of actin-myosin interactions using the molecular dynamics method and by simulating transitions among dynamically changing free-energy landscapes using the Monte Carlo method. The results obtained by this combined multi-scale calculation show that myosin with inorganic phosphate (Pi) and ADP weakly binds to actin and that after releasing Pi and ADP, myosin moves along the actin filament toward the strong-binding site by exhibiting the biased Brownian motion, a behavior consistent with the observed single-molecular behavior of myosin. Conformational flexibility of loops at the actin-interface of myosin and the N-terminus of actin subunit is necessary for the distinct bias in the Brownian motion. Both the 5.5–11 nm displacement due to the biased Brownian motion and the 3–5 nm displacement due to lever-arm swing contribute to the net displacement of myosin. The calculated results further suggest that the recovery stroke of the lever arm plays an important role in enhancing the displacement of myosin through multiple cycles of ATP hydrolysis, suggesting a unified movement mechanism for various members of the myosin family.

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3P-144 Free energy landscape of the interaction between actin and myosin underlying the sliding movement of the myosin head(Molecular motor,The 47th Annual Meeting of the Biophysical Society of Japan)

et al. 2009

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These results suggest that the flagellaT motor ofBactltus subttbs ]]iebumabl} gcneTateg torque by the electrostatic interactaon between the rotoi and the stator 3P 1 41 tn wtro motihty assay ic tst6 ua4sfiOfiti finM The tuiming tendenLy o{ thL microtubule dnven by the dynein subspeeies c Yngi Shitaka (1) Kazuhire Oiwa (1) Hiroaki KoJim" (1) ((l) National JnformattonandComniunicanons7lechnotosy) axoiiemdllnstittste tij We exammed the turnmg tendenLy of the miLrotabule dnven bv the axonemal inner arm dy"ein subspLuLs L m in-tro motility assdiy We found thdt the mTLrotubule tLnd to tuin to the nght with the angular uelocity ef O O16 r idts in the hTgh d}nem densTty Londition (2000 moleculei"m2) This tendency ib deLredsed by lowcnng the d)nem suTface density These observationg suggLst

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1P187 Free energy landscape of the interaction between actin and myosin underlying the sliding movement of the myosin head(Molecular motor,The 48th Annual Meeting of the Biophysical Society of Japan)

et al. 2010

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Akio Togashi

Coupling of Lever Arm Swing and Biased Brownian Motion in Actomyosin

3P-144 Free energy landscape of the interaction between actin and myosin underlying the sliding movement of the myosin head(Molecular motor,The 47th Annual Meeting of the Biophysical Society of Japan)

1P187 Free energy landscape of the interaction between actin and myosin underlying the sliding movement of the myosin head(Molecular motor,The 48th Annual Meeting of the Biophysical Society of Japan)

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