Current topics in membrane and transport Volume 27, The role of membranes in cell growth and differentiation /

CURR TOPICS IN MEMBRANES & TRANSPORT V27.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Kleinzeller, Arno�st, Mandel, Lazaro J., Benos, Dale J.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego : Academic Press, 1986.
Colección:Current topics in membranes and transport ; 27.
Temas:
Cell differentiation.
Cell membranes.
Cell Differentiation
Cell Membrane
Cellules > Diff�erenciation.
Membrane cellulaire.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Current Topics in Membranes and Transport; Copyright Page; Contents; Preface; Yale Membrane Transport Processes Volumes; Part I: Description of Ion Transport Systems in Activated Cells; Chapter 1. Mitogens and Ion Fluxes; I . Introduction and Historical Perspective; II. Ion Transport and pH Regulation in Cells; III. Changes in Cell Membrane Voltage-Role in the Action of Growth Factors; IV. Effect of Mitogens on Ion Fluxes and Intracellular pH; V. Modulation of the Mitogenic Response by Protein Kinase C; VI. Summary and Perspectives; VII. Appendix: Measurement of Intracellular pH
  • Note Added in ProofReferences; Part II: Triggers for Increased Transport during Activation; Chapter 4. External Triggers of Ion Transport Systems: Fertilization, Growth, and Hormone Systems; I. Introduction; II. Ionic Responses to Fertilization; III. Serum and Growth Factor Activation of Ionic Transport Systems in Cultured Cells and Lymphocytes; IV. Hormonal Stimulation of Ion Transport and Hormone Secretion; V. Concluding Remarks; References; Chapter 5. Early Stimulation of Na+-H+ Antiport, Na+-K+ Pump Activity, and Ca2+ Fluxes in Fibroblast Mitogenesis; I. Introduction
  • II. Ionic Responses Elicited by Growth Factors in Quiescent CellsIII. Protein Kinases and Ion Fluxes; IV. Calcium Fluxes; V. Conclusions and Perspectives; References; Chapter 6. Volume-Sensitive Ion Fluxes in Amphiuma Red Blood Cells: General Principles Governing Na-H and K-H Exchange Transport and Cl-HCO3 Exchange Coupling; I. Introduction: The Role of Alkali Metal-H Exchange in Cell Regulatory Processes; II. Thermodynamic Principles of lon Transport: Electroneutral versus Conductive Alkali Metal Ion Fluxes; III. Volume-Sensitive Ion Fluxes in Amphiuma Red Blood Cells
  • IV. Ca2+-Dependent Alkali Metal Ion Flux in Amphiuma Red Blood CellsV. The Nature of Net Na Flux by Amphiuma Red Blood Cells in Hyperosmotic Media; VI. Cl-HCO3 Exchange and Its Functional Relationship to Alkali Metal-H Exchange, Alkali Metal-Cl Cotransport, and Parallel Alkali Metal and H or Cl Conductance Pathways; VII. Activation and Control of Alkali Metal-H Exchange in Amphiuma Red Blood Cells; VIII. Summary; References; Part III: Consequences of the Alterations in Ion Transport Observed during Activation

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