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A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.

This paper explores the role and biophysical expression of the equivalent electrical circuit model as it applies to ionic conductances across the paracellular shunt, apical membrane, and basolateral membrane of the Ambystoma renal proximal tubule. Information about such conductances may be experimen...

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Detalles Bibliográficos
Autor principal: Bock, J. F.
Formato: Texto
Lenguaje:English
Publicado: Yale Journal of Biology and Medicine 1990
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2589410/
https://www.ncbi.nlm.nih.gov/pubmed/1709315
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author Bock, J. F.
author_facet Bock, J. F.
author_sort Bock, J. F.
collection PubMed
description This paper explores the role and biophysical expression of the equivalent electrical circuit model as it applies to ionic conductances across the paracellular shunt, apical membrane, and basolateral membrane of the Ambystoma renal proximal tubule. Information about such conductances may be experimentally determined through transepithelial voltage and intracellular voltage measurements. The equivalent electrical circuit model has been applied extensively by investigators to define ion channels and transport mechanisms in the salamander proximal tubule. A comprehensive discussion of all known ionic conductance and transport pathways as well as pH-regulatory functions of contributory symports/antiports is examined in the Ambystoma proximal tubule. This paper explores renal physiological principles and serves as a companion to: Bock JF, Boulpaep EL: Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: Transepithelial potential measurements.
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spelling pubmed-25894102008-11-28 A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation. Bock, J. F. Yale J Biol Med Research Article This paper explores the role and biophysical expression of the equivalent electrical circuit model as it applies to ionic conductances across the paracellular shunt, apical membrane, and basolateral membrane of the Ambystoma renal proximal tubule. Information about such conductances may be experimentally determined through transepithelial voltage and intracellular voltage measurements. The equivalent electrical circuit model has been applied extensively by investigators to define ion channels and transport mechanisms in the salamander proximal tubule. A comprehensive discussion of all known ionic conductance and transport pathways as well as pH-regulatory functions of contributory symports/antiports is examined in the Ambystoma proximal tubule. This paper explores renal physiological principles and serves as a companion to: Bock JF, Boulpaep EL: Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: Transepithelial potential measurements. Yale Journal of Biology and Medicine 1990 /pmc/articles/PMC2589410/ /pubmed/1709315 Text en
spellingShingle Research Article
Bock, J. F.
A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title_full A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title_fullStr A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title_full_unstemmed A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title_short A discussion of Ambystoma kidney tubule ion channels, transporters, and pH regulation.
title_sort discussion of ambystoma kidney tubule ion channels, transporters, and ph regulation.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2589410/
https://www.ncbi.nlm.nih.gov/pubmed/1709315
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