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The Journal of General Physiology, Vol 48, 163-179, Copyright © 1964 by The Rockefeller University Press

ARTICLE

The Effects of Various Ions on Resting and Spike Potentials of Barnacle Muscle Fibers

Susumu Hagiwara 1, Shiko Chichibu 2, and Ken-ichi Naka 1

1 From the Department of Zoology and Brain Research Institute, University of California, Los Angeles.
2 From the Department of Zoology and Brain Research Institute, University of California, Los Angeles. Dr. Chichibu is on leave from the Department of Physiology, Tohoku University School of Medicine, Sendai, Japan.

Dr. Naka's present address is the Physiological Laboratory, University of Cambridge, England

Effects of monovalent cations and some anions on the electrical properties of the barnacle muscle fiber membrane were studied when the intra- or extracellular concentrations of those ions were altered by longitudinal intra-cellular injection. The resting potential of the normal fiber decreases linearly with increase of logarithm of [K+]out and the decrement for a tenfold increase in [K+]out is 58 mv when the product, [K+]out ·[Cl-]out, is kept constant. It also decreases with decreasing [K+]in but is always less than expected theoretically. The deviation becomes larger as [K+]in increases and the resting potential finally starts to decrease with increasing [K+]in for [K+]in > 250 mM. When the internal K+ concentration is decreased the overshoot of the spike potential increases and the time course of the spike potential becomes more prolonged. In substituting for the internal K+, Na+ and sucrose affect the resting and spike potentials similarly. Some organic cations (guanidine, choline, tris, and TMA) behave like sucrose while some other organic cations (TEA, TPA, and TBA) have a specific effect and prolong the spike potential if they are applied intracellularly or extracellularly. In all cases the active membrane potential increases linearly with the logarithm of [Ca++]out/[K+]in and the increment is about 29 mv for tenfold increase in this ratio. The fiber membrane is permeable to Cl- and other smaller anions (Br- and I-) but not to acetate- and larger anions (citrate-, sulfate-, and methanesulfonate-).

Submitted on April 27, 1964


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