Analysis of the membrane capacity in frog muscle

Abstract

1. The membrane capacity (C_f) was determined from the conduction velocity and the time constant of the foot of the action potential in frog's skeletal muscle. 2. In normal fibres C_f was 2·6 μF/cm², and the value was almost constant over a range of diameter from 55 to 140 μ. 3. In fibres, in which the transverse tubular system was disconnected from the surface by the glycerol treatment, C_f was 0·9 μF/cm² and was fairly constant over a range of diameter from 60 to 130 μ. The low frequency capacity in glycerol‐treated fibres was 1·9 μF/cm². 4. These results as well as those obtained at low frequencies were consistent with the electrical model proposed by Adrian, Chandler & Hodgkin (1969). 5. Analysis in terms of the model and of Peachey's (1965) data on tubular dimensions led to the following quantitative conclusions. The capacities of the surface membrane (C_S) and of the tubular wall (C_W) are both about 1 μF/cm². The conductances of the surface membrane (G_S) and tubular wall (G_W) are ca. 0·11 and 0·03 mmho/cm², respectively. The conductivity of the luminal fluid in the tubules is ca. 6 mmho/cm.