Biophysical Journal 45: 153-163 (1984)
© 1984 the Biophysical Society

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Single-channel acetylcholine receptor kinetics.

ABSTRACT

The temporal relationships among junctional acetylcholine receptor single-channel currents have been examined to probe the mechanism of channel activation. We have presented an analytical approach, termed single-channel ensemble analysis, that allows one to estimate the kinetic transition rate constants for channel-opening and closing as well as the rate of leaving the specific doubly-liganded, closed state from which opening occurs. This approach may be applied to data produced by any number of independent channels as long as the probability of channel opening is low, a condition that is experimentally verifiable. The method has been independently validated using simulated single-channel data generated by computer from one or 100 hypothetical channels. Typical experimental values for the transition rate constants estimated from acetylcholine-activated single channels at the garter snake neuromuscular junction were: opening = 1,200 s-1, closing = 455 s-1, back rate for leaving the doubly-liganded, closed state = 3,200 s-1 at a transmembrane potential of -92 mV at room temperature. Each of these three rate constants was voltage dependent, with the closing rate decreasing e-fold for 173 mV of hyperpolarization, the opening rate increasing e-fold for 78 mV, and the unbinding rate increasing e-fold for 105 mV. The channel-closing rate was agonist dependent, being greater at all potentials for channels activated with carbamylcholine than for channels activated with acetylcholine. However, the single-channel conductance and reversal potential were the same for these two agonists.

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