Capacitance of the Surface and Transverse Tubular Membrane of Frog Sartorius Muscle Fibers

doi:10.1085/jgp.53.3.265

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Capacitance of the Surface and Transverse Tubular Membrane of Frog Sartorius Muscle Fibers

Peter W. Gage ¹ and Robert S. Eisenberg ¹

¹ From the Department of Physiology, Duke University, Durham, North Carolina 27706.

Dr. Gage's present address is Department of Physiology, University of New South Wales, Kensington, Australia. Dr. Eisenberg's present address is Department of Physiology, University of California at Los Angeles, Los Angeles, California 90024

The passive electrical properties of glycerol-treated musclefibers, which have virtually no transverse tubules, were determined.Current was passed through one intracellular microelectrodeand the time course and spatial distribution of the resultingpotential displacement measured with another. The results wereanalyzed by using conventional cable equations. The membraneresistance of fibers without tubules was 3759 ± 331 ohm-cm²and the internal resistivity 192 ohm-cm. Both these figuresare essentially the same as those found in normal muscle fibers.The capacitance of the fibers without tubules is strikinglysmaller than normal, being 2.24 ± 0.14 µF/cm². Measurementswere also made of the passive electrical properties of fibersin a Ringer solution containing 400 mM glycerol (which is usedin the preparation of glycerol-treated fibers). The membraneresistance and capacitance are essentially normal, but the internalresistivity is somewhat reduced. These results show that glycerolin this concentration does not directly affect the membranecapacitance. Thus, the figure for the capacitance of glycerol-treatedfibers, which agrees well with previous estimates made by differenttechniques, represents the capacitance of the outer membraneof the fiber. Estimates of the capacitance per unit area ofthe tubular membrane are made and the significance of the differencebetween the figures for the capacitance of the surface and tubularmembrane is discussed.

Submitted on October 25, 1968

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