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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 10$aBioenergetics 3 /$fDavid G. Nicholls, Stuart J. Ferguson
205   $a[3rd ed.].
210   $aSan Diego, Calif. $cAcademic Press$dc2002
215   $a1 online resource (331 p.)
300   $aDescription based upon print version of record.
311   $a0-12-518121-3 
320   $aIncludes bibliographical references (p. [271]-281) and index.
327   $aFront Cover; Bioenergetics 3; Copyright Page; CONTENTS; Preface; Note to the reader; Glossary; CHAPTER 1. CHEMIOSMOTIC ENERGY TRANSDUCTION; 1.1 Introduction; 1.2 The chemiosmotic theory: fundamentals; 1.3 The basic morphology of energy-transducing membranes; 1.4 Overview; CHAPTER 2. ION TRANSPORT ACROSS ENERGY-CONSERVING MEMBRANES; 2.1 Introduction; 2.2 The classification of ion transport; 2.3 Bilayer-mediated transport; 2.4 Protein-catalysed transport; 2.5 Swelling and the co-ordinate movement of ions across membranes; CHAPTER 3. QUANTITATIVE BIOENERGETICS: THE MEASUREMENT OF DRIVING FORCES
327   $a3.1 Introduction3.2 Gibbs energy and displacement from equilibrium; 3.3 Oxidation-reduction (redox) potentials; 3.4 Ion electrochemical potential differences; 3.5 Photons; 3.6 Bioenergetic interconversions and thermodynamic constraints on their stoichiometries; 3.7 The equilibrium distributions of ions, weak acids and weak bases; 3.8 Membrane potentials, diffusion potentials, Donnan potentials and surface potentials; CHAPTER 4. THE CHEMIOSMOTIC PROTON CIRCUIT; 4.1 Introduction; 4.2 The measurement of protonmotive force; 4.3 The stoichiometry of proton extrusion by the respiratory chain
327   $a4.4 The stoichiometry of proton uptake by the ATP synthase4.5 Proton current and respiratory control; 4.6 Proton conductance; 4.7 Mitochondria1 respiration rate and metabolic control analysis; 4.8 Overall parameters of energy transduction; 4.9 Reversed electron transfer and the proton circuit driven by ATP hydrolysis; 4.10 ATP synthesis driven by an artificial protonmotive force; 4.11 Kinetic competence of ?p in the proton circuit; 4.12 Light-dependent ATP synthesis by bovine heart ATP synthase; CHAPTER 5. RESPIRATORY CHAINS; 5.1 Introduction
327   $a5.2 Components of the mitochondria1 respiratory chain5.3 The sequence of redox carriers in the respiratory chain; 5.4 The mechanism of electron transfer; 5.5 Proton translocation by the respiratory chain: 'loops', ' conformational pumps' or both?; 5.6 Complex I (NADH-UQ oxidoreductase); 5.7 Delivering electrons to ubiquinone without proton translocation; 5.8 Ubiquinone and complex III (bc1 or UQ-CYT c oxidoreductase); 5.9 Cytochrome c and complex IV (cytochrome c oxidase;  ferrocytochrome c: O2 oxidoreductase)
327   $a5.10 Overall proton and charge movements catalysed by the respiratory chain: correlation with the P/O ratio5.11 Superoxide production by complexes I and III; 5.12 Oxidative stress; 5.13 The nicotinamide nucleotide transhydrogenase; 5.14 Electron transport in mitochondria of non-mammalian cells; 5.15 Bacterial respiratory chains; CHAPTER 6. PHOTOSYNTHETIC GENERATORS OF PROTONMOTIVE FORCE; 6.1 Introduction; 6.2 The light reaction of photosynthesis in Rhodobacter sphaeroides and related organisms; 6.3 The generation by illumination or respiration of ?p in photosynthetic bacteria
327   $a6.4 The electron-transfer and light-capture pathway in green plants and algae
330   $aThis new edition of Bioenergetics presents a clear and up-to-date explanation of the chemiosmotic theory and covers mitochondria, bacteria, and chloroplasts. It takes account of the many newly determined structures, such as ATP synthase and the two photosystems of photosynthesis, that provide molecular insight into chemiosmotic energy transduction. This edition includes additional color figures of protein structures and many newly drawn illustrations designed to enable the reader to grasp the fundamental insights that are derived from knowing the structure. Every chapter has been extens
517 3 $aBioenergetics three
606   $aBioenergetics
606   $aBiological transport, Active
615  0$aBioenergetics.
615  0$aBiological transport, Active.
676   $a572/.43
700   $aNicholls$b David G$091445
701   $aFerguson$b S. J$g(Stuart John),$f1949-$091446
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910827532703321
996   $aBioenergetics 3$93983590
997   $aUNINA