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Literature DB >> 5581907

In vitro techniques for avoiding edge damage in studies of frog skin.

Abstract

Frog skins mounted between chambers without compression, with a liquid insulator and a tissue adhesive, were studied in vitro. Since voltage and electrical resistance per unit area were unchanged by a tenfold decrease in area of skin studied, it is concluded that these mounting techniques do not produce edge damage and consequently provide a means for study of the skin in its absence.

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Year: 1971 PMID： 5581907 DOI： 10.1126/science.173.3992.146

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

37 in total

1. Transient potassium fluxes in toad skin.

Authors: W A Varanda; F Lacaz-Vieira
Journal: J Membr Biol Date: 1979-09 Impact factor: 1.843

2. Methods for stable recording of short-circuit current in a Na+-transporting epithelium.

Authors: Veronika Gondzik; Mouhamed S Awayda
Journal: Am J Physiol Cell Physiol Date: 2011-03-30 Impact factor: 4.249

3. Tissue electroporation. Observation of reversible electrical breakdown in viable frog skin.

Authors: K T Powell; A W Morgenthaler; J C Weaver
Journal: Biophys J Date: 1989-12 Impact factor: 4.033

4. A method to quantify and correct for edge leaks in Ussing chambers.

Authors: G Kottra; G Weber; E Frömter
Journal: Pflugers Arch Date: 1989-11 Impact factor: 3.657

5. Effects of antidiuretic hormone upon electrical potential and resistance of apical and basolateral membranes of frog skin.

Authors: W Nagel
Journal: J Membr Biol Date: 1978-09-18 Impact factor: 1.843

10. Electrical properties of amphibian urinary bladder epithelia. I. Inverse relationship between potential difference and resistance in tightly mounted preparations.

Authors: J T Higgins; L Cesaro; B Gebler; E Frömter
Journal: Pflugers Arch Date: 1975-07-09 Impact factor: 3.657

In vitro techniques for avoiding edge damage in studies of frog skin.

1. Transient potassium fluxes in toad skin.

2. Methods for stable recording of short-circuit current in a Na+-transporting epithelium.

3. Tissue electroporation. Observation of reversible electrical breakdown in viable frog skin.

4. A method to quantify and correct for edge leaks in Ussing chambers.

5. Effects of antidiuretic hormone upon electrical potential and resistance of apical and basolateral membranes of frog skin.

6. Na+ transport by rabbit urinary bladder, a tight epithelium.

7. Electrical properties of renal collecting duct principal cell epithelium in tissue culture.

8. Urea permeability of mammalian inner medullary collecting duct system and papillary surface epithelium.

9. Interaction between sodium and chloride transport in bovine tracheal epithelium.

10. Electrical properties of amphibian urinary bladder epithelia. I. Inverse relationship between potential difference and resistance in tightly mounted preparations.