H%2b ion modulation of C-type inactivation of Shaker K%2b channels

The participation of an extracellular loop in C-type inactivation of voltage-gated K%2b channels was investigated. A wild-type phenylalanine (at position 425) between the fifth putative transmembrane segment (S5) and the pore region of the Shaker K%2b channel was mutated to a histidine and the functional consequences of protonating the imidizole group of the histidine were examined. C-type inactivation of both wild-type and mutant channels was sensitive to external pH over the range of 5.2-8. The pH dependence of wild- type channels was characterized by an apparent pK value of 5.0. The inactivation kinetics of F425H mutant channels had a pH dependence with a pK of 5.8 - in addition to the pH dependence of the wild-type channels. Moreover, at pH 7 and 8 the voltage dependence of C-type inactivation kinetics was manifest only in the F425H mutant channels. C-type inactivation in wild-type channels involves a chemical group with a low pK. Taken together, these results suggest that residues located in the extracellular S5-pore loop of the Shaker K%2b channel participate in C-type inactivation.

Effect of external pH on inactivation kinetics; Oocytes; Point mutation; Slow inactivation; Two-electrode voltage clamp phenylalanine; potassium ion; animal cell; article; binding kinetics; cell kinetics; channel gating; frog; ion conductance; nonhuman; oocyte; pH measurement; potassium transport; priority journal; reaction analysis; voltage clamp

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