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Original Article

^a From the Howard Hughes Medical Institute and Department of Molecular and Cellular Physiology, Stanford University School of Medicine, Stanford, California 94305
Howard Hughes Medical Institute and Department of Molecular and Cellular Physiology, Beckman Center B-171, Stanford University School of Medicine, Stanford, CA 94305-5426.Fax: 650-725-4463;

raldrich{at}leland.stanford.edu

The best-known Shaker allele of Drosophila with a novel gating phenotype, Sh⁵, differs from the wild-type potassium channel by a point mutation in the fifth membrane-spanning segment (S5) (Gautam, M., and M.A. Tanouye. 1990. Neuron. 5:67–73; Lichtinghagen, R., M. Stocker, R. Wittka, G. Boheim, W. Stühmer, A. Ferrus, and O. Pongs. 1990. EMBO [Eur. Mol. Biol. Organ.] J. 9:4399–4407) and causes a decrease in the apparent voltage dependence of opening. A kinetic study of Sh⁵ revealed that changes in the deactivation rate could account for the altered gating behavior (Zagotta, W.N., and R.W. Aldrich. 1990. J. Neurosci. 10:1799–1810), but the presence of intact fast inactivation precluded observation of the closing kinetics and steady state activation. We studied the Sh⁵ mutation (F401I) in ShB channels in which fast N-type inactivation was removed, directly confirming this conclusion. Replacement of other phenylalanines in S5 did not result in substantial alterations in voltage-dependent gating. At position 401, valine and alanine substitutions, like F401I, produce currents with decreased apparent voltage dependence of the open probability and of the deactivation rates, as well as accelerated kinetics of opening and closing. A leucine residue is the exception among aliphatic mutants, with the F401L channels having a steep voltage dependence of opening and slow closing kinetics. The analysis of sigmoidal delay in channel opening, and of gating current kinetics, indicates that wild-type and F401L mutant channels possess a form of cooperativity in the gating mechanism that the F401A channels lack. The wild-type and F401L channels' entering the open state gives rise to slow decay of the OFF gating current. In F401A, rapid gating charge return persists after channels open, confirming that this mutation disrupts stabilization of the open state. We present a kinetic model that can account for these properties by postulating that the four subunits independently undergo two sequential voltage-sensitive transitions each, followed by a final concerted opening step. These channels differ primarily in the final concerted transition, which is biased in favor of the open state in F401L and the wild type, and in the opposite direction in F401A. These results are consistent with an activation scheme whereby bulky aromatic or aliphatic side chains at position 401 in S5 cooperatively stabilize the open state, possibly by interacting with residues in other helices.

Key Words: gating current • ion channel • site-directed mutagenesis • activation • cooperativity

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This article has been cited by other articles:

				F. T. Horrigan and R. W. Aldrich Allosteric Voltage Gating of Potassium Channels II: Mslo Channel Gating Charge Movement in the Absence of Ca2+ J. Gen. Physiol., August 1, 1999; 114(2): 305 - 336. [Abstract] [Full Text] [PDF]

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