Steady-State Coupling of Ion-Channel Conformations to a Transmembrane Ion Gradient
- 9 March 1990
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 247 (4947), 1208-1210
- https://doi.org/10.1126/science.2156338
Abstract
Under stationary conditions, opening and closing of single Torpedo electroplax chloride channels show that the number of transitions per unit time between inactivated and conducting states are unequal in opposite directions. This asymmetry, which increases with transmembrane electrochemical gradient for the chloride ion, violates the principle of microscopic reversibility and thus demonstrates that the channel-gating process is not at thermodynamic equilibrium. The results imply that the channel's conformational states are coupled to the transmembrane electrochemical gradient of the chloride ion.This publication has 11 references indexed in Scilit:
- Multiple-conductance channels activated by excitatory amino acids in cerebellar neuronsNature, 1987
- Some unexpected consequences of a simple physical mechanism for voltage-dependent gating in biological membranesBiophysical Journal, 1984
- Ion movement through gramicidin A channels. Single-channel measurements at very high potentialsBiophysical Journal, 1983
- Curare can open and block ionic channels associated with cholinergic receptorsNature, 1982
- Multiple conductance states of single acetylcholine receptor channels in embryonic muscle cellsNature, 1981
- Probes of the conduction process of a voltage-gated Cl- channel from Torpedo electroplax.The Journal of general physiology, 1981
- A VOLTAGE‐DEPENDENT CHLORIDE CONDUCTANCE CHANNEL FROM TORPEDO ELECTROPLAX MEMBRANE*Annals of the New York Academy of Sciences, 1980
- The anomalous rectification and cation selectivity of the membrane of a starfish egg cellThe Journal of Membrane Biology, 1974