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Your search keyword '"A. Tawada"' showing total 74 results
Start Over Author "A. Tawada" Publisher biophysical society of japan
74 results on '"A. Tawada"'

1. Fluctuation of actin sliding over myosin thick filaments in vitro

Author

Yasuhiro Imafuku, Katsuhisa Tawada, Naoki Noda, and Akira Yamada

Subjects
Protein filament, Crystallography, Smooth muscle, Myosin, Isotonic, Biophysics, macromolecular substances, Isometric exercise, Biology, Actin
Abstract

It is customarily thought that myosin motors act as independent force-generators in both isotonic unloaded shortening as well as isometric contraction of muscle. We tested this assumption regarding unloaded shortening, by analyzing the fluctuation of the actin sliding movement over long native thick filaments from molluscan smooth muscle in vitro. This analysis is based on the prediction that the effective diffusion coefficient of actin, a measure of the fluctuation, is proportional to the inverse of the number of myosin motors generating the sliding movement of an actin filament, hence proportional to the inverse of the actin length, when the actions of the motors are stochastic and statistically independent. Contrary to this prediction, we found the effective diffusion coefficient to be virtually independent of, and thus not proportional to, the inverse of the actin length. This result shows that the myosin motors are not independent force-generators when generating the continuous sliding movement of actin in vitro and that the sliding motion is a macroscopic manifestation of the cooperative actions of the microscopic ensemble motors.

Published
2005
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2. Mechanics of Single Molecular Motors and Chemical Thermodynamics of ATP Hydrolysis Catalyzed by Them

Author

Katsuhisa Tawada

Subjects
Chemical thermodynamics, ATP hydrolysis, Chemistry, General equation, Molecular motor, Kinesin, Thermodynamics, Catalysis
Abstract

A single processive and tightly-coupled molecular motor such as kinesin performs mechanical work by using the heat absorbed by the motor from the surroundings upon catalyzing spontaneously occurring ATP hydrolysis. This is a conclusion derived from a thermodynamic analysis of the mechano-chemical cycle of such single molecular motors together with an equation that relates work done by single molecular motors to the thermodynamics of ATP hydrolysis catalyzed by the motors. Analysis of motor models based on the thermodynamic approach leads to a general equation depicting the stepping motion of such molecular motors as a biased random walk.

Published
2003
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3. Protein motors and protein friction

Author

Katsuhisa Tawada

Subjects
Force generation, Quantitative Biology::Biomolecules, integumentary system, Chemistry, Quantitative Biology::Molecular Networks, Thermal fluctuations, A protein, Quantitative Biology::Subcellular Processes, Mechanism (engineering), Crystallography, ATP hydrolysis, Biophysics, human activities, Brownian motion
Abstract

Protein friction is generated by the "reversible" interaction between a protein motor and its corresponding cytofilament when there is a relative movement between them. The protein friction is proportional to the sliding velocity and>x10 of solvent friction. A protein friction model is explained. The model is consistent with the characteristics of the in vitro sliding movement induced by protein motors, including the velocity-limiting mechanism, and those of the Brownian movement of cytofilaments induced by the motors. The model implies possible involvement of thermal fluctuations of the motor protein-structure in the mechanism of the sliding force generation, which is coupled with the cytofilament-activated ATP hydrolysis by the motors.

Published
1992
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