Molecular bioenergetics, electron

Introduction to the Molecular Bioenergetics of Electron, Proton, and Energy Transfer... 

Molecular bioenergetics simulations of electron, proton, and energy transfer / Ralph A. Wheeler, editor sponsored by the ACS Division of Computers in Chemistry. 

The study of bioenergetics involves the study of (1) the processes by which reduced nicotinamide and flavin nucleotides, generated primarily from the oxidation of carbohydrates (Chap. 11) and lipids (Chap. 13), are oxidized ultimately by molecular oxygen via the mitochondrial electron-transport chain, and (2) the mechanism by which this oxidation is coupled to ATP synthesis. The synthesis of ATP in this way is referred to as oxidative phosphorylation, in contrast to phosphorylation of ADP via soluble enzymes. The latter involves intermediate phosphate derivatives of the substrate and is known as substrate-level phosphorylation (Chap. 11). 

This volume grew out of an American Chemical Society (ACS) symposium titled Bioenergetics. The ACS Division of Computers in Chemistry sponsored the symposium, whose goal was to bring together scientists from different disciplines to discuss current achievements and future directions in molecular-level simulations of electron and proton transfer. This volume provides a sampling of recently developed simulation methods, as well as their applications to prototypical biochemical systems such as the photosynthetic reaction center and bacteriorhodopsin. 

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