Bioenergetics, structure and function of energy transducing systems
Takayuki Ozawa, Sergio Papa
Japan Scientific Societies Press, 1987 - Science - 325 pages
This book is based on the International Symposium on Bioenergetics held in Nagoya, Japan in 1986, and summarizes the recent progress in the field of bioenergetics with emphasis on the structure - function relationship in the mitochondrial energy transducing complexes. Part 1 of this book explains the structure and function of oxidative phosphorylation systems, describing recent progress in purification and characterization of the components of the energy transducing system. Part 2 compiles the molecular biological approaches in energy transducing systems, dealing with the organization of the genes for biological components. Part 3 is devoted to the reappraisal of hypotheses on the mechanism of energy transduction, discussing the function of the energy transducing systems on the basis of current information on their structure presented in the previous parts.
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The NADHUQ Oxidoreductase System of Escherichia coli
The Lateral Diffusion of Ubiquinone in the Inner Mitochondrial
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a-subunit amino acid amino acid residues amino acid sequence antimycin ATP hydrolysis ATP synthase ATPase azido-Q bacteriorhodopsin bcx complex binding Biochem Biol Biophys bovine catalytic cell centre Chem chemiosmotic chloroplast coli concentration containing cytochrome a3 cytochrome c reductase cytochrome cx DCCD diffusion dimeric electron transfer Energy Transducing Systems enzyme FEBS Lett fraction gene H+-ATPase hydrophobic inhibition inhibitor inner membrane interaction iron-sulfur protein isolated kinetic lipid mechanism membrane potential membrane proteins mitochondrial molecular weight molecule mutant myxothiazol N-terminal NADH nucleotide oligomycin olil oxidative phosphorylation oxygen Ozawa Paracoccus peptides phospholipid polypeptide polypeptide chain precursor proteolipid proton pumping proton translocation purified Q-binding protein reaction receptor redox reduction of cytochrome region respiratory chain rhodopsin segments Structure and Function substrate subunit subunit 9 synthesis transducin transmembrane turnover ubiquinol-cytochrome c reductase ubiquinone uncoupling vacuolar membrane vesicles yeast