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Current topics in bioenergetics. Vol. 6 /
Current Topics in Bioenergetics.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York ; London :
Academic Press,
1977.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Current Topics in Bioenergetics; Copyright Page; Table of Contents; List of Contributors; Preface; Contents of Previous Volumes; Chapter 1. Energy Balance in Muscle Contraction: A Biochemical Approach; I. Introduction; II. Energy Stores and ~P Pools; III. Myothermic Methods and Energy Balance; IV. Myothermal Observations Concerning Energy Balance; V. Restoration of Chemical Energy Pools; VI. A Biochemical Model of Energy Balance; VII. Epilogue; References; Chapter 2. Transport in Membrane Vesicles Isolated from the Mammalian Kidney and Intestine; I. Introduction.
- II. Ultrastructure and Biochemical Composition of the MembranesIII. Transport of D-Glucose by Membrane Vesicles; IV. Transport of Amino Acids by Membrane Vesicles; V. Transport of Ions by Membrane Vesicles; References; Chapter 3. Membranes and Energy Transduction in Bacteria; I. The Revolution in Membrane Biology; II. Bacterial Energy Economy; III. Proton-Translocating Pathways; IV. The Work of Transport; V. Chemical Work: Phosphorylation and Reduction; VI. The Work of Movement; VII. Coupling and Uncoupling; Addendum; References; Chapter 4. Proton Translocation in Chloroplasts.
- I. IntroductionII. Photosynthetic Electron Transport, Photophosphorylation, and the Topography of the Chloroplast Membrane; III. Native and Artificial Energy Conservation (P/e2 Ratios); IV. Light-Driven Proton Uptake; V. Light-Driven Membrane Potential; VI. Phenomena Related to the Electrochemical Proton Potential; VII. Proton Translocation by the ATP-Forming Complex; VIII. The Competence of the Electrochemical Proton Potential for Energy Transmission; IX. Regulatory Functions of the Electrochemical Proton Potential and Conformational Changes.
- X. Models for the Mechanism of Proton TranslocationXI. Conclusion; References; Chapter 5. The Use of lonophores and Channel Formers in the Study of the Function of Biological Membranes; I. Introduction; II. lonophores; III. Channel Formers; IV. Use of lonophores for Monovalent Cations and Channel Formers in Mitochondria, Chloroplasts, and Chromatophores; V. lonophores for Divalent Cations in Biological Membranes; VI. Isolation and Characterization of lonophores from Animal Membranes; VII. Antibiotics as Models of Channels or Carriers in Biological Membranes; VIII. Conclusions; References.
- Chapter 6. Mitochondrial Calcium TransportI. Introduction; II. Phases in the Development of the Study of Mitochondrial Calcium Transport; III. An Analysis of the Calcium Transport System; IV. The Control of Mitochondrial Calcium Transport; V. The Physiological Role of Mitochondrial Calcium Transport; VI. Concluding Remarks; References; Subject Index.