Current topics in membrane and transport Volume 12, Carriers and membrane transport proteins /

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CURR TOPICS IN MEMBRANES & TRANSPORT V12.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Bronner, Felix, Kleinzeller, Arno�st
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego : Academic Press, 1979.
Colección:Current topics in membranes and transport ; 12.
Temas:
Membranes (Biology)
Biological transport.
Membranes
Biological Transport
Membranes (Biologie)
Transport biologique.
Biological transport
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Current Topics in Membranes and Transport, Volume 12; Copyright Page; Contents; List of Contributors; Preface; Contents of Previous Volumes; Chapter 1. Isolation of Integral Membrane Proteins and Criteria for Identifying Carrier Proteins; I. Introduction; II. The Structure of Membrane Proteins in Relation to Isolation Techniques; III. Solubilization and Fractionation of Membrane Proteins; IV. Analytical Criteria for Assessing the Purity of Membrane Proteins; V. Criteria for the Identification of Transport Proteins; References; Chapter 2. The Carrier Mechanism; I. Introduction
  • II. Lipid-Soluble IonsIII. Carriers: The Kinetic Scheme; IV. Transport across Membranes of Differing Compositions; V. Interaction between Ions in Lipid Membranes; VI. Appendices; References; Chapter 3. The Light-Driven Proton Pump of Halobacterium halobium: Mechanism and Function; I. Introduction; II. Development and Structure of Bacteriorhodopsin and Purple Membrane; III. Mode of Action of Bacteriorhodopsin; IV. Light-Driven Proton Movement; V. Processes Driven by the Proton Pump; VI. Synthetic Membranes Containing Bacteriorhodopsin; VII. Conclusions; References
  • Chapter 4. Erythrocyte Anion Exchange and the Band 3 Protein: Transport Kinetics and Molecular StructureI. Introduction; II. History; III. Substrate Specificity; IV. Divalent Ion Transport: The Titratable Carrier Model; V. Substrate Inhibition; VI. Site of Inhibition and Structural Requirements for Inhibition by Various Probes; VII. Mechanism of Transport; VIII. Identification of Functional Ligands Involved in Transport; IX. Number of Sites and Turnover Number; X. Involvement of Band 3 in Other Membrane Functions
  • XI. Arrangement of Band 3 in the Membrane: Identification of Regions Involved in Anion TransportXII. Model for the Anion Transport System; XIII. Concluding Remarks; References; Chapter 5. The Use of Fusion Methods for the Microinjection of Animal Cells; I. Introduction; II. The Phenomenon of Membrane Fusion; III. Microinjection by Fusion with Loaded Erythrocyte Ghosts; IV. Microinjection by Fusion with Loaded Phospholipid Vesicles; V. The Use of Reassembled Sendai Virus as a Vehicle for the Introduction of Macromolecules into Animal Cells
  • VI . Transfer of Cell Constituents by Means of Karyoplasts, Cytoplasts, or MicrocellsVII. Direct Microinjection; VIII. Promotion of Uptake of Small Molecules by Extracellular ATP; IX. Advantages and Disadvantages of Different Microinjection Methods; X. Prospects for Microinjection; References; Subject Index

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