The oscillatory behavior of the cephalopod giant axons in response to an applied current has been established by previous investigators. In the study reported here the relationship between the familiar "RC" electrotonic response and the oscillatory behavior is examined experimentally and shown to be dependent on the membrane potential. Computations based on the three-current system which was inferred from electrical measurements by Hodgkin and Huxley yield subthreshold responses in good agreement with experimental data. The point which is developed explicitly is that since the three currents, in general, have nonzero resting values and two currents, the "Na" system and the "K" system, are controlled by voltage-dependent time-variant conductances, the subthreshold behavior of the squid axon in the small-signal range can be looked upon as arising from phenomenological inductance or capacitance. The total phenomenological impedance as a function of membrane potential is derived by linearizing the empirically fitted equations which describe the time-variant conductances. At the resting potential the impedance consists of three structures in parallel, namely, two series RL elements and one series RC element. The true membrane capacitance acts in parallel with the phenomenological elements, to give a total impedance which is, in effect, a parallel R, L, C system with a "natural frequency" of oscillation. At relatively hyperpolarized levels the impedance "degenerates" to an RC system.
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1 April 1970
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April 01 1970
Subthreshold Behavior and Phenomenological Impedance of the Squid Giant Axon
A. Mauro,
A. Mauro
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
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F. Conti,
F. Conti
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
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F. Dodge,
F. Dodge
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
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R. Schor
R. Schor
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
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A. Mauro
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
F. Conti
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
F. Dodge
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
R. Schor
From The Rockefeller University, New York 10021, Laboratory of Cybernetics and Biophysics of the CNR, Camogli, Italy, and the IBM Watson Research Center, Yorktown Heights, New York 10598
Received:
June 14 1969
Online ISSN: 1540-7748
Print ISSN: 0022-1295
Copyright © 1970 by The Rockefeller University Press
1970
J Gen Physiol (1970) 55 (4): 497–523.
Article history
Received:
June 14 1969
Citation
A. Mauro, F. Conti, F. Dodge, R. Schor; Subthreshold Behavior and Phenomenological Impedance of the Squid Giant Axon . J Gen Physiol 1 April 1970; 55 (4): 497–523. doi: https://doi.org/10.1085/jgp.55.4.497
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