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Literature DB >> 731679

Physiology of transport regulation.

Abstract

The regulation of biological transport is discussed on the basis of studies on sodium transport through amphibian skin. The following types of regulation are briefly considered: 1) Hormonal regulation 2) Regulation of Na entry by apparent or real saturation of entry path by outside Na 3) Regulation of Na transport by changes in resistance to the counter ion (mostly chloride) 4) Role of cellular Na concentration which may act both by controlling the passive entry of Na and by influencing the pumping rate. 5) Dependence of Na entry upon cell volume. It is shown that a moderate osmotic swelling of ouabain-poisoned skins leads to excessive swelling of the whole epithelium when NaCl is present on the outside. This indicates that cell swelling leads to opening of the Na channels, but it also indicates coupling between the different layers of the epithelium.

Entities: Chemical

Mesh：

Substances：

Year: 1978 PMID： 731679 DOI： 10.1007/bf02025995

Source DB: PubMed Journal: J Membr Biol ISSN： 0022-2631 Impact factor: 1.843

28 in total

1. The nature of the frog skin potential.

Authors: V KOEFOED-JOHNSEN; H H USSING
Journal: Acta Physiol Scand Date: 1958-06-02

2. A characteristic response of the isolated frog skin potential to neurohypophysial principles and its relation to the transport of sodium and water.

Authors: F A FUHRMAN; H H USSING
Journal: J Cell Comp Physiol Date: 1951-08

3. Quantitative relationship between active sodium transport, expansion of endoplasmic reticulum and specialized vacuoles ("scalloped sacs") in the outermost living cell layer of the frog skin epithelium (Rana temporaria)

Authors: C L Voûte; K Mollgård; H H Ussing
Journal: J Membr Biol Date: 1975 Impact factor: 1.843

1. Sodium flux in the apical membrane of the toad skin: aspects of its regulation and the importance of the ionic strength of the outer solution upon the reversibility of amiloride inhibition.

Authors: F Lacaz-Vieira
Journal: J Membr Biol Date: 1986 Impact factor: 1.843

Physiology of transport regulation.

1. The nature of the frog skin potential.

2. A characteristic response of the isolated frog skin potential to neurohypophysial principles and its relation to the transport of sodium and water.

3. Quantitative relationship between active sodium transport, expansion of endoplasmic reticulum and specialized vacuoles ("scalloped sacs") in the outermost living cell layer of the frog skin epithelium (Rana temporaria)

4. The influence of the corticotropic hormone from ox on the active salt uptake in the axolotl.

5. Active transport of sodium as the source of electric current in the short-circuited isolated frog skin.

6. Chloride flux via a shunt pathway in frog skin: apparent exchange diffusion.

7. Salt transport across isolated frog skin.

8. Chloride transport across isolated frog skin.

9. Current-voltage curve of sodium channels and concentration dependence of sodium permeability in frog skin.

10. The effects of CO2 and hydrogen ions on active Na transport in the isolated frog skin.

1. Sodium flux in the apical membrane of the toad skin: aspects of its regulation and the importance of the ionic strength of the outer solution upon the reversibility of amiloride inhibition.

Review 2. Towards a molecular definition of mechanisms and pathways of membrane transport.

3. The sensitivity of apical Na+ permeability in frog skin to hypertonic stress.

4. Sodium-selective micro-electrode study of apical permeability in frog skin: effects of sodium, amiloride and ouabain.

5. The interaction of "K+-like" cations with the apical K+ channel in frog skin.