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Literature DB >> 4778131

Reconstruction of the action potential of frog sartorius muscle.

Abstract

1. Propagated action potentials of striated muscle are calculated using an equivalent circuit that represents the transverse tubular system as a radial cable of sixteen elements. The membrane of the transverse tubules is assumed to have activatable ionic currents similar to those in the fibre surface.2. The configuration of the after-potential and the conduction velocity are best accounted for by postulating a resistance of about 150Omega cm(2) separating the extracellular fluid from the lumen of the transverse tubules at the edge of the fibre, and a density of sodium channels in the tubular wall about a twentieth of that in the fibre surface.3. Calculations with imposed voltage steps at the fibre surface suggest that the potential across the tubular membrane at the centre of the fibre is very far from clamped.4. Currents providing charge for the tubular capacity can give rise to substantial errors in estimating the zero-current potential of the ionic currents.

Mesh：

Substances：
Sodium
Potassium

Year: 1973 PMID： 4778131 PMCID： PMC1350735 DOI： 10.1113/jphysiol.1973.sp010380

Source DB: PubMed Journal: J Physiol ISSN： 0022-3751 Impact factor: 5.182

19 in total

Reconstruction of the action potential of frog sartorius muscle.

1. LINEAR ELECTRICAL PROPERTIES OF STRIATED MUSCLE FIBRES OBSERVED WITH INTRACELLULAR ELECTRODES.

2. Local activation of striated muscle fibres.

3. Observations on "detubulated" muscle fibres.

4. Sodium dependence of the inward spread of activation in isolated twitch muscle fibres of the frog.

5. Analysis of the membrane capacity in frog muscle.

6. The sarcoplasmic reticulum and transverse tubules of the frog's sartorius.

7. Inward spread of activation in vertebrate muscle fibres.

8. Radial spread of contraction in frog muscle fibres.

9. Theoretical effect of temperature on threshold in the Hodgkin-Huxley nerve model.

10. The role of sodium current in the radial spread of contraction in frog muscle fibers.

1. Cardiac glycosides inhibit detubulation in amphibian skeletal muscle fibres exposed to osmotic shock.

2. Relations between excitability and contractility in rat soleus muscle: role of the Na+-K+ pump and Na+/K+ gradients.

3. The effect of zinc ions on the gating of the delayed potassium conductance of frog sartorius muscle.

4. Charge movement in the membrane of striated muscle.

5. An improved vaseline gap voltage clamp for skeletal muscle fibers.

6. Normal conduction of surface action potentials in detubulated amphibian skeletal muscle fibres.

7. Persistent tubular conduction in vacuolated amphibian skeletal muscle following osmotic shock.

8. An equivalent circuit for small atrial trabeculae of frog.

9. Development of muscle-specific features in cultured frog embryonic skeletal myocytes.

10. Proceedings: Functional hyperaemia in soleus muscle of the cat.