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Sci. STKE, 24 June 2003
Vol. 2003, Issue 188, p. re10
[DOI: 10.1126/stke.2003.188.re10]
REVIEWS
Voltage-Gated K Channels
Clay M. Armstrong*
Department of Physiology, University of Pennsylvania, Philadelphia, PA 19104-6085, USA.
Abstract:
Ion channels and the electrical properties they confer on cells are involved in every human characteristic that distinguishes us from the stones in a field. Every perception, thought, movement, and heartbeat depends on electrical signals generated by the activity of ion channels. Early views of the relationship between channel structure and function have undergone substantial modification following the cloning of various ion channels and the determination of the structure of a simple bacterial K channel, the KcsA channel. This review focuses on the relationship between the structure and function of voltage-dependent K channels, covering the molecular bases of channel selectivity, conduction, and gating. The evolution of ion channels in bacteria is discussed, as well as the basis of channel selectivity and conduction in the KcsA channel. More complex channels have evolved molecular "gatekeepers," allowing them to respond to appropriate stimuli by opening, closing, and inactivating.
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Stefan H. Heinemann and Toshinori Hoshi (29 August 2006) Sci. STKE2006 (350), pe33.
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Richard Horn (25 October 2005) Sci. STKE2005 (307), pe50.
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EDITORIAL GUIDES
Elizabeth M. Adler, Nancy R. Gough, and L. Bryan Ray (24 June 2003) Sci. STKE2003 (188), eg9.
[DOI: 10.1126/stke.2003.188.eg9] |Full Text »|PDF »
THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
Molecular Template for a Voltage Sensor in a Novel K+ Channel. III. Functional Reconstitution of a Sensorless Pore Module from a Prokaryotic Kv Channel.
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Vertebrate Membrane Proteins: Structure, Function, and Insights from Biophysical Approaches.
A Quantitative Description of KcsA Gating I: Macroscopic Currents.
S. Chakrapani, J. F Cordero-Morales, and E. Perozo (2007)
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The Role of Distal S6 Hydrophobic Residues in the Voltage-dependent Gating of CaV2.3 Channels.
A. Raybaud, E.-E. Baspinar, F. Dionne, Y. Dodier, R. Sauve, and L. Parent (2007)
J. Biol. Chem.
282, 27944-27952
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Hydrophobic Interface between Two Regulators of K+ Conductance Domains Critical for Calcium-dependent Activation of Large Conductance Ca2+-activated K+ Channels.
H.-J. Kim, H.-H. Lim, S.-H. Rho, S. H. Eom, and C.-S. Park (2006)
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281, 38573-38581
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Multifunctional Potassium Channels: Electrical Switches and Redox Enzymes, All in One.
