Ion transport /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: Smith, Kline & French Research Symposium on Ion Transport
Otros Autores: Keeling, David (Editor ), Benham Chris (Editor )
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: London : Academic Press, [1989]
Temas:
Bacteria > Morphology > Congresses.
Bacterial cell walls > Congresses.
Cell membranes > Congresses.
Ions > Congresses.
Biological transport > Congresses.
Ion exchange.
Biological Transport > physiology
Ion Channels > physiology
Ion Exchange
Bact�eries > Morphologie > Congr�es.
Bact�eries > Paroi cellulaire > Congr�es.
Membrane cellulaire > Congr�es.
Ions > Congr�es.
Transport biologique > Congr�es.
�Echange d'ions.
SCIENCE > Life Sciences > Anatomy & Physiology.
Ion exchange
Bacteria > Morphology
Bacterial cell walls
Biological transport
Cell membranes
Ions
Ions.
Transport biologique.
Canaux ioniques.
Membrane cellulaire.
Ionentransport
Kongress
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Cambridge (1989)
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Ion Transport; Copyright Page; Contributors; Foreword; Table of Contents; Introduction; PART 1: P-type Cation Pumps; Chapter 1. Extracytosolic Functional Domains of the H+, K+-ATPase Complex; 1 Introduction; 2 Results; 3 Discussion; Acknowledgements; References; Chapter 2. The Mechanism of Cation Transport by the Na+, K+-ATPase; 1 Introduction; 2 The transport mechanism; 3 Cation occlusion; 4 Cation selectivity; 5 Trans effects of Na+; 6 Cation slippage fluxes; 7 Electrogenic potentials; 8 Effects of voltage on the pump; 9 The structure of the cation-binding sites.
  • 10 Future directionsAcknowledgements; References; Chapter 3 .The Nucleotide-binding Site of the Plasma-membrane H+-ATPase of Neurospora crassa: A Comparison with other P-type ATPases; 1 Introduction; 2 Nucleotide binding; 3 Sequence comparisons; 4 Structure of the nucleotide-binding site; Acknowledgements; References; PART 2: Ion Channels and their Modulation; Chapter 4. Voltage-gated Sodium Channels since 1952; 1 Introduction; 2 Distribution; 3 Molecular Structure; 4 Gating; 5 Selectivity filter and pore; 6 Modulated receptors; 7 Conclusion; Acknowledgements; References.
  • Chapter 5. Single Potassium Channels in Drosophila Nerve and Muscle1 Introduction; 2 Advantages of Drosophila as a system for the study of ion channels; 3 Tissue culture systems; 4 A1 channels; 5 A2 channels; 6 KD channels; 7 K1 channels; 8 Ko channels; 9 KST channel; 10 Shaker differential splicing does not explain the diversity of channel types; Acknowledgement; References; Chapter 6. Calcium Channels: Properties and Modulation; 1 Introduction; 2 Ca2+ channel selectivity; 3 Ca2+ channel gating; 4 Ca2+ channel modulation; Acknowledgements; References.
  • Chapter 7. Calcium Channels in Mammalian Sympathetic Neurons and PC12 Cells1 Introduction; 2 Results and discussion; Acknowledgements; References; Chapter 8. Voltage-dependent Calcium Channels of Smooth Muscle Cells; 1 Introduction; 2 Inward current; 3 Conclusions; Acknowledgements; References; Chapter 9. Modulation of Calcium and other Channels by G Proteins: Implications for the Control of Synaptic Transmission; 1 Introduction; 2 Modulation of Ca2+ channels by G protein activation; 3 Evidence for G proteins coupling to K+ channels.

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