K+ conduction phenomena applicable to the low frequency impedance of squid axon
- 1 December 1979
- journal article
- research article
- Published by Springer Nature in The Journal of Membrane Biology
- Vol. 46 (1) , 1-25
- https://doi.org/10.1007/bf01959972
Abstract
The observation of peaking in power spectra of K current noise in squid axon (Fishman, H.M., Moore, L.E., Poussart, D.J.M. 1975,J. Membrane Biol. 24:305) led to the calculation of a low frequency K conduction feature in the impedance (admittance) which was confirmed (Fishman, H.M., Poussart, D.J.M., Moore, L.E. & Siebenga, E., 1977,J. Membrane Biol. 32:255). This paper analyzes two physical phenomena, one within and the other outside of the excitable membrane, that might account for the low frequency impedance (admittance) feature. The accumulation of potassium ions in a space outside the axon in conjunction with diffusion through the Schwann cell layer produces a low-frequency mode that is similar in some respects to that observed experimentally. Alternatively, a hypothetical inactivation process, with a voltage-dependent time constant, associated with conduction in potassium channels gives a better account of the data. Either or both of these phenomena could be involved in producing the low-frequency impedance behavior in the squid axon.This publication has 18 references indexed in Scilit:
- K+ Conduction description from the low frequency impedance and admittance of squid axonThe Journal of Membrane Biology, 1977
- Potassium-Ion conduction noise in squid axon membraneThe Journal of Membrane Biology, 1975
- Potassium ion accumulation in a periaxonal space and its effect on the measurement of membrane potassium ion conductanceThe Journal of Membrane Biology, 1973
- The effect of potassium diffusion through the Schwann cell layer on potassium conductance of the squid axonThe Journal of Membrane Biology, 1973
- Diffusion polarization at lipid bilayer membranesRadiation and Environmental Biophysics, 1971
- The Effects of External Potassium and Long Duration Voltage Conditioning on the Amplitude of Sodium Currents in the Giant Axon of the Squid, Loligo pealei The Journal of general physiology, 1969
- The Influence of External Potassium on the Inactivation of Sodium Currents in the Giant Axon of the Squid, Loligo pealei The Journal of general physiology, 1969
- Slow Changes of Potassium Permeability in the Squid Giant AxonBiophysical Journal, 1966
- Theoretical Stability Properties of a Space-Clamped AxonBiophysical Journal, 1962
- Characterization of the Membranes in the Giant Nerve Fiber of the SquidThe Journal of general physiology, 1960