Mechanism of Functional Expression of F1-ATPase
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This book presents a new view of the mechanism of functional expression of ATP-driven motors (proteins or protein complexes). It is substantially different from the prevailing idea that the motor converts chemical energy to mechanical work. To facilitate understanding, the differences between the new and prevailing views are explained using many illustrations. The book is of interest to those who are not convinced of the notion of chemo-mechanical coupling. The claims presented are the following: The system, which comprises not only the motor but also water, does no mechanical work during the ...
This book presents a new view of the mechanism of functional expression of ATP-driven motors (proteins or protein complexes). It is substantially different from the prevailing idea that the motor converts chemical energy to mechanical work. To facilitate understanding, the differences between the new and prevailing views are explained using many illustrations. The book is of interest to those who are not convinced of the notion of chemo-mechanical coupling. The claims presented are the following: The system, which comprises not only the motor but also water, does no mechanical work during the ATP hydrolysis cycle; a protein is moved or a protein in the complex is rotated by the entropic force generated by water. The highlight of the explanation in the book is that the mechanism of unidirectional rotation of the central shaft in F1-ATPase is discussed in detail on the basis of this new view. The hydration entropy of each beta subunit to which a specific chemical compound (ATP,ADP and Pi, Pi, or nothing) is bound, the hydration entropy of the 3beta3 complex, and the dependence of the hydration entropy of F1-ATPase on the orientation of the Gamma subunit play essential roles.
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