A sodium channel gating model based on single channel, macroscopic ionic, and gating currents in the squid giant axon.

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A sodium channel gating model based on single channel, macroscopic ionic, and gating currents in the squid giant axon.

C A Vandenberg and F Bezanilla

Department of Biological Sciences, University of California, Santa Barbara 93106.

ABSTRACT

Sodium channel gating behavior was modeled with Markovian modelsfitted to currents from the cut-open squid giant axon in theabsence of divalent cations. Optimum models were selected withmaximum likelihood criteria using single-channel data, thenmodels were refined and extended by simultaneous fitting ofmacroscopic ionic currents, ON and OFF gating currents, andsingle-channel first latency densities over a wide voltage range.Best models have five closed states before channel opening,with inactivation from at least one closed state as well asthe open state. Forward activation rate constants increase withdepolarization, and deactivation rate constants increase withhyperpolarization. Rates of inactivation from the open or closedstates are generally slower than activation or deactivationrates and show little or no voltage dependence. Channels tendto reopen several times before inactivating. Macroscopic ratesof activation and inactivation result from a combination ofclosed, open and inactivated state transitions. At negativepotentials the time to first opening dominates the macroscopiccurrent due to slow activation rates compared with deactivationrates: channels tend to reopen rarely, and often inactivatefrom closed states before they reopen. At more positive potentials,the time to first opening and burst duration together producethe macroscopic current.

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				J. R. Clay Excitability of the Squid Giant Axon Revisited J Neurophysiol, August 1, 1998; 80(2): 903 - 913. [Abstract] [Full Text] [PDF]

				K. G. Klemic, D. M. Durand, and S. W. Jones Activation Kinetics of the Delayed Rectifier Potassium Current of Bullfrog Sympathetic Neurons J Neurophysiol, May 1, 1998; 79(5): 2345 - 2357. [Abstract] [Full Text] [PDF]