Chapter
CHAPTER 1. CHEMIOSMOTIC ENERGY TRANSDUCTION
1.2 THE CHEMIOSMOTIC THEORY
1.3 THE MORPHOLOGY OF ENERGY-TRANSDUCING ORGANELLES
1.4 A BRIEF HISTORICAL BACKGROUND
1.5 MITCHELL'S POSTULATES
CHAPTER 2. ION TRANSPORT ACROSS ENERGY- CONSERVING MEMBRANES
2.2 THE CATEGORIZATION OF ION TRANSPORT
2.3 BILAYER-MEDIATED TRANSPORT
2.4 PROTEIN-CATALYSED TRANSPORT
2.5 THE CO-ORDINATE MOVEMENT OF IONS ACROSS MEMBRANES
CHAPTER 3. QUANTITATIVE BIOENERGETICS: THE MEASUREMENT OF DRIVING FORCES
3.2 GIBBS ENERGY AND DISPLACEMENT FROM EQUILIBRIUM
3.3 OXIDATION-REDUCTION (REDOX) POTENTIALS
3.4 ION ELECTROCHEMICAL POTENTIAL DIFFERENCES
3.6 BIOENERGETIC INTERCONVERSIONS AND THEIR STOICHIOMETRIES
3.7 EQUILIBRIUM DISTRIBUTIONS OF IONS, WEAK ACIDS AND WEAK BASES
3.8 DIFFUSION POTENTIALS, DONNAN POTENTIALS AND SURFACE POTENTIALS
CHAPTER 4. THE CHEMIOSMOTIC PROTON CIRCUIT
4.2 THE MEASUREMENT OF PROTONMOTIVE FORCE
4.3 THE STOICHIOMETRY OF PROTON EXTRUSION BY THE RESPIRATORY CHAIN
4.4 EXPERIMENTAL DETERMINATION OF H+/O RATIOS
4.5 THE STOICHIOMETRY OF PROTON UPTAKE BY THE ATP SYNTHASE
4.6 PROTON CURRENT, PROTON CONDUCTANCE AND RESPIRATORY CONTROL
4.8 THE MITOCHONDRIAL RESPIRATION RATE CAN BE CONTROLLED BY SEVERAL FACTORS
4.10 OVERALL PARAMETERS OF ENERGY TRANSDUCTION (P/O RATIOS)
4.11 REVERSED ELECTRON TRANSFER AND THE PROTON CIRCUIT DRIVEN BY ATP HYDROLYSIS
4.12 ATP SYNTHESIS DRIVEN BY AN ARTIFICIAL PROTONMOTIVE FORCE
4.13 KINETIC COMPETENCE OF THE PROTONMOTIVE FORCE TO SERVE AS THE ENERGY-TRANSDUCING INTERMEDIATE
CHAPTER 5. RESPIRATORY CHAINS
5.2 COMPONENTS OF THE MITOCHONDRIAL RESPIRATORY CHAIN
5.3 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' OR 'CONFORMATIONAL PUMPS'?
5.6 COMPLEX I (NADH-UQ OXIDOREDUCTASE)
5.7 COMPLEX II (SUCCINATE DEHYDROGENASE); ELECTRON-TRANSFERRING FLAVOPROTEIN AND α-GLYCEROPHOSPHATE DEHYDROGENASE
5.8 UBIQUINONE AND COMPLEX III (bc1 COMPLEX OR UQ-CYTOCHROME c OXIDOREDUCTASE)
5.9 CYTOCHOME c AND COMPLEX IV (CYTOCHROME c OXIDASE; FERROCYTOCHROME: O2 OXIDOREDUCTASE)
5.10 MITOCHONDRIAL ELECTRON TRANSPORT AND DISEASE
5.11 THE NICOTINAMIDE NUCLEOTIDE TRANSHYDROGENASE
5.12 ELECTRON TRANSPORT IN MITOCHONDRIA OF NON-MAMMALIAN CELLS
5.13 BACTERIAL RESPIRATORY CHAINS
CHAPTER 6. PHOTOSYNTHETIC GENERATORS OF PROTONMOTIVE FORCE
6.2 THE LIGHT REACTION OF BACTERIAL PHOTOSYNTHESIS
6.3 THE GENERATION BY ILLUMINATION OR RESPIRATION OF ∆p IN PURPLE BACTERIA
6.4 THE ELECTRON-TRANSFER AND LIGHT-CAPTURE PATHWAY IN GREEN PLANTS AND ALGAE
6.5 BACTERIORHODOPSIN AND THE PURPLE MEMBRANE OF HALOBACTERIA
CHAPTER 7. THE ATP SYNTHASE
7.3 THE SUBUNITS OF THE F1.Fo-ATP SYNTHASE (OR ATPase)
7.6 THE MECHANISM OF ATP SYNTHESIS
7.7 NON-THERMODYNAMIC REGULATION OF THE ATP SYNTHASE
CHAPTER 8. SECONDARY TRANSPORT
8.2 MITOCHONDRIAL MONOVALENT CATION CARRIERS
8.3 MITOCHONDRIAL Ca2+ TRANSPORT
8.4 MITOCHONDRIAL METABOLITE (ANION) CARRIERS
8.6 TRANSPORT (MOVEMENT) OF BACTERIAL CELLS
8.7 TRANSPORT OF MACROMOLECULES ACROSS MEMBRANES
CONNECTIONS TO MEMBRANES IN GENERAL
Bioenergetics 2
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