Common Mechanism of Pore Opening Shared by Five Different Potassium Channels

doi:10.1529/biophysj.105.080093

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BIOPHYSICAL THEORY AND MODELING

Common Mechanism of Pore Opening Shared by Five Different Potassium Channels

Indira H Shrivastava ¹ and Ivet Bahar ²^*

¹ University of Pittsburgh
² University of Pittsburgh

^* To whom correspondence should be addressed. E-mail: bahar{at}ccbb.pitt.edu.

Submitted on January 4, 2006
Revised on February 5, 2006
Accepted on 14 February 2006

Abstract
A fundamental question associated with the function of ion channelsis the conformational changes that allow for reversibly opening/occludingthe pore through which the cations permeate. The recently elucidatedcrystal structures of potassium channels reveal similar structuralmotifs at their pore-forming regions, suggesting that they sharea common gating mechanism. The validity of this hypothesis isexplored by analyzing the collective dynamics of five knownK+ channel structures. Normal mode analysis using GaussianNetwork Model (GNM) strikingly reveals that all five structuresdisplay the same intrinsic motions at their pore-forming regiondespite the differences in their sequences, structures and activationmechanisms. Superposition of the most cooperative mode profilesshows that the identified common mechanism is a global cork-screwlike counter-rotation of extracellular (EC) and the cytoplasmic(CP) regions, leading to the opening of the CP end of the pore.A second cooperative mode shared by all five K+ channels isthe extension of the EC and/or CP ends via alternating anticorrelatedfluctuations of pairs of diagonally opposite monomers. Residuesacting as hinges/anchors in both modes are highly conservedacross the members of the family of K+ channel proteins, consistentwith their presently disclosed critical mechanical role in poregating.

Key Words: Gaussian network model, gating mechanism, normal mode analysis, pore opening, potassium channels, protein dynamics

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