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Ion Pumps

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Both eukaryotic and prokaryotic cells depend strongly on the function of ion pumps present in their membranes. The term ion pump, synonymous with active ion-transport system, refers to a membrane-associated protein that translocates ions uphill against an electrochemical potential gradient. Primary ion pumps utilize energy derived from chemical reactions or from the absorption of light, while secondary ion pumps derive the energy for uphill movement of one ionic species from the downhill movement of another species.
In the present volume, various aspects of ion pump structure, mechanism, and regulation are treated using mostly the ion-transporting ATPases as examples. One chapter has been devoted to a secondary ion pump, the Na+-Ca2+ exchanger, not only because of the vital role played by this transport system in regulation of cardiac contractility, but also because it exemplifies the interesting mechanistic and structural similarities between primary and secondary pumps.

Author(s): E. Edward Bittar and Jens Peter Andersen (Eds.)
Series: Advances in Molecular and Cell Biology 23, Part A
Edition: 1
Publisher: Elsevier Science
Year: 1997

Language: English
Pages: iii-xv, 1-248
Tags: Биологические дисциплины;Физиология животных;Нейрофизиология животных;

Content:
Edited by
Page iii

Copyright page
Page iv

List of Contributors
Pages ix-xi

Preface
Pages xiii-xv
Jens Peter Andersen

Reaction Mechanism of the Sarcoplasmic Reticulum Ca2+-ATPase Original Research Article
Pages 1-31
Herman Wolosker, Simone Engelender, Leopoldo de Meis

The ATP Binding Sites of P-Type ION Transport ATPases: Properties, Structure, Conformations, and Mechanism of Energy Coupling Original Research Article
Pages 33-99
David B. McIntosh

The Gastric H+-K+-ATPase Original Research Article
Pages 101-142
Jai Moo Shin, Denis Bayle, Krister Bamberg, George Sachs

Genetic Approaches to Structure-Function Analysis in the Yeast Plasma Membrane H+-ATPase Original Research Article
Pages 143-166
David S. Perlin, James E. Haber

Copper Homeostasis by Cpx-Type ATPases: The New Subclass of Heavy Metal P-Type ATPases Original Research Article
Pages 167-203
Marc Solioz

Isoform Diversity and Regulation of Organellar-Type Ca2+-Transport ATPases Original Research Article
Pages 205-248
Frank Wuytack, Luc Raeymaekers, Jan Eggermont, Ludo Van Den Bosch, Hilde Verboomen, Luc Mertens