Role of the S3-S4 Linker in Shaker Potassium Channel Activation

doi:10.1085/jgp.109.2.191

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Article

Role of the S3-S4 Linker in Shaker Potassium Channel Activation

Rajesh Mathur, Jie Zheng, Yangyang Yan, and Fred J. Sigworth

From the Department of Cellular and Molecular Physiology, Yale University School of Medicine, New Haven, Connecticut 06520

Structural models of voltage-gated channels suggest that flexibilityof the S3-S4 linker region may be important in allowing theS4 region to undergo large conformational changes in its putativevoltage-sensing function. We report here the initial characterizationof 18 mutations in the S3-S4 linker of the Shaker channel, includingdeletions, insertions, charge changes, substitution of prolines,and chimeras replacing the 25-residue Shaker linker with 7-or 9-residue sequences from Shab, Shaw, or Shal. As measuredin Xenopus oocytes with a two-microelectrode voltage clamp,each mutant construct yielded robust currents. Changes in thevoltage dependence of activation were small, with activationvoltage shifts of 13 mV or less. Substitution of linkers fromthe slowly activating Shab and Shaw channels resulted in athree- to fourfold slowing of activation and deactivation. Itis concluded that the S3-S4 linker is unlikely to participatein a large conformational change during channel activation.The linker, which in some channel subfamilies has highly conservedsequences, may however be a determinant of activation kineticsin potassium channels, as previously has been suggested in thecase of calcium channels.

Key Words: potassium channel • mutagenesis • protein sequence • voltage clamp

Address correspondence to Fred J. Sigworth, Department of Cellularand Molecular Physiology, Yale School of Medicine, 333 Cedar Street, New Haven, CT 06520-8026. Fax: 203-785-4951; E-mail: fred.sigworth{at}yale.edu

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