Current topics in membranes and transport. Volume 7 /

CURR TOPICS IN MEMBRANES & TRANSPORT V7.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Bronner, Felix, Kleinzeller, Arno�st
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Academic Press, 1975.
Colección:Current topics in membranes and transport ; 7.
Temas:
Cell membranes.
Biological transport.
Cell Membrane
Biological Transport
Membrane cellulaire.
Transport biologique.
SCIENCE > Life Sciences > Cell Biology.
Biological transport
Cell membranes
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Current Topics in Membranes and Transport, Volume 7; Copyright Page; Contents; List of Contributors; Contents of Previous Volumes; Chapter 1. Ion Transport in Plant Cells; I. Introduction; II. Potassium-Sodium Regulation; III. Active H+ Extrusion; IV. Salt Accumulation in the Vacuole; V. Comparison with Animal Cells; References; Chapter 2. H+ Ion Transport and Energy Transduction in Chloroplasts; I. Introduction; II. Chloroplast Structure and Ion Fluxes; III. Electron Transport; IV. Proton Fluxes across Chloroplast Thylakoid Membranes
  • V. The Proton Gradient and Energy TransductionVI. Interpretations of H+/ATP Ratio Data; VII. Are There Different Sites of ATP Synthesis?; VIII. Membrane Potential and the Energized State; IX. On the Mechanism of Energy Transduction; X. A Molecular Approach for Measuring Conformational Changes; References; Chapter 3. The Present State of the Carrier Hypothesis; I. Evolution of the Question; II. Specific Problems in Formal Application of Carrier Models; III. Alternative Frameworks for Interpretation of Biological Solute Distribution and Translocation
  • IV. Evaluation of Present Position and Future ProspectsReferences; Chapter 4. Ion Transport and Short-Circuit Technique; I. Introduction; II. Analysis of Ionic Transport on the Basis of a Simple Conceptual Model; III. Implications of the Short-Circuiting Technique with a More Realistic Circuit; IV. Effect of a Diffusion Barrier with a Resistance Comparable to That of the Cell Layer; V. A Comparison of the Simple Ussing-Zerahn Circuit with a More Realistic Circuit
  • VI. The Heinz-Durbin Use of the Short-Circuit Technique for Elucidation of the Molecular Mechanism of HCl Formation by the Gastric MucosaVII. Fallacy of Concluding that an Ion Is Passive if Its Net Transport Is Zero under Short-Circuit Conditions; VIII. Fallacy of Concluding that an Ion Is Passive if It Obeys the Flux-Ratio Equation; IX. Prediction of the Short-Circuit Current from the Open-Circuit PD and Resistance; Appendix A: Role of Water Drag on Ion Transport; Appendix B: The Electrodiffusion Equations and Ion Transport; Appendix C: Electrogenic Pumps
  • Appendix D: Problem of Using Short-Circuit Technique on Tissues with High Secretory Rates and/or Complicated GeometryReferences; Subject Index

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