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• W2334109837 endingPage "388" @default.
• W2334109837 startingPage "364" @default.
• W2334109837 abstract "Abstract The voltage sensitive domain (VSD) is a pivotal structure of voltage-gated ion channels (VGICs) and plays an essential role in the generation of electrochemical signals by neurons, striated muscle cells, and endocrine cells. The VSD is not unique to VGICs. Recent studies have shown that a VSD regulates a phosphatase. Similarly, H v 1, a voltage-sensitive protein that lacks an apparent pore domain, is a self-contained voltage sensor that operates as an H + channel. VSDs are formed by four transmembrane helices (S1–S4). The S4 helix is positively charged due to the presence of arginine and lysine residues. It is surrounded by two water crevices that extend into the membrane from both the extracellular and intracellular milieus. A hydrophobic septum disrupts communication between these water crevices thus preventing the permeation of ions. The septum is maintained by interactions between the charged residues of the S4 segment and the gating charge transfer center. Mutating the charged residue of the S4 segment allows the water crevices to communicate and generate gating pore or omega pore. Gating pore currents have been reported to underlie several neuronal and striated muscle channelopathies. Depending on which charged residue on the S4 segment is mutated, gating pores are permeant either at depolarized or hyperpolarized voltages. Gating pores are cation selective and seem to converge toward Eisenmann's first or second selectivity sequences. Most gating pores are blocked by guanidine derivatives as well as trivalent and quadrivalent cations. Gating pores can be used to study the movement of the voltage sensor and could serve as targets for novel small therapeutic molecules." @default.
• W2334109837 created "2016-06-24" @default.
• W2334109837 creator A5003069671 @default.
• W2334109837 creator A5005534121 @default.
• W2334109837 creator A5056466497 @default.
• W2334109837 date "2014-11-01" @default.
• W2334109837 modified "2023-10-17" @default.
• W2334109837 title "Molecular biology and biophysical properties of ion channel gating pores" @default.
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