Molecular Dynamics Study of Gating in the Mechanosensitive Channel of Small Conductance MscS

doi:10.1529/biophysj.104.046045

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BIOPHYSICAL THEORY AND MODELING

Molecular Dynamics Study of Gating in the Mechanosensitive Channel of Small Conductance MscS

Marcos Sotomayor ¹ and Klaus Schulten ²^*

¹ University of Illinois at Urbana Champaign
² University of Illinois 3143 Beckman Institute

^* To whom correspondence should be addressed. E-mail: kschulte{at}ks.uiuc.edu.

Submitted on May 14, 2004
Revised on June 27, 2004
Accepted on 20 August 2004

Abstract
Mechanosensitive channels are a class of ubiquitous membraneproteins gated by mechanical strain in the cellular membrane.MscS, the mechanosensitive channel of small conductance, isfound in the inner membrane of E. coli and its crystallographicstructure in an open form has been recently solved. By meansof molecular dynamics simulations we studied the stability ofthe channel conformation suggested by crystallography in a fullysolvated lipid (POPC) bilayer, the combined system encompassing224,340 atoms. When restraining the backbone of the protein,the channel remained in the open form and the simulation revealedintermittent permeation of water molecules through the channel.Abolishing the restraints under constant pressure conditionslead to spontaneous closure of the transmembrane channel, whileabolishing the restraints when surface tension (20 dyn/cm) wasapplied lead to channel widening. The large balloon-shaped cytoplasmicdomain of MscS exhibited spontaneous diffusion of ions throughits side openings. Interaction between the transmembrane domainand the cytoplasmic domain of MscS was observed and involvedformation of salt bridges between residues ASP62 and ARG128;this interaction may be essential for the gating of MscS. K+and Cl- ions showed distinctively different distributions inand around the channel.

Key Words: Ion channel, Lipid bilayer, Membrane proteins, Patch Clamp

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				A. Anishkin, B. Akitake, and S. Sukharev Characterization of the Resting MscS: Modeling and Analysis of the Closed Bacterial Mechanosensitive Channel of Small Conductance Biophys. J., February 15, 2008; 94(4): 1252 - 1266. [Abstract] [Full Text] [PDF]

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				G. R. Meyer, J. Gullingsrud, K. Schulten, and B. Martinac Molecular Dynamics Study of MscL Interactions with a Curved Lipid Bilayer Biophys. J., September 1, 2006; 91(5): 1630 - 1637. [Abstract] [Full Text] [PDF]

				W. Treptow and M. Tarek Molecular Restraints in the Permeation Pathway of Ion Channels Biophys. J., August 1, 2006; 91(3): L26 - L28. [Abstract] [Full Text] [PDF]

				S. A. Spronk, D. E. Elmore, and D. A. Dougherty Voltage-Dependent Hydration and Conduction Properties of the Hydrophobic Pore of the Mechanosensitive Channel of Small Conductance Biophys. J., May 15, 2006; 90(10): 3555 - 3569. [Abstract] [Full Text] [PDF]

				M. Sotomayor, T. A. van der Straaten, U. Ravaioli, and K. Schulten Electrostatic Properties of the Mechanosensitive Channel of Small Conductance MscS Biophys. J., May 15, 2006; 90(10): 3496 - 3510. [Abstract] [Full Text] [PDF]

				B. Corry An Energy-Efficient Gating Mechanism in the Acetylcholine Receptor Channel Suggested by Molecular and Brownian Dynamics Biophys. J., February 1, 2006; 90(3): 799 - 810. [Abstract] [Full Text] [PDF]

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				A. Anishkin and S. Sukharev Explicit Channel Conductance: Can It Be Computed? Biophys. J., June 1, 2005; 88(6): 3742 - 3743. [Full Text] [PDF]

				W. Grajkowski, A. Kubalski, and P. Koprowski Surface Changes of the Mechanosensitive Channel MscS upon Its Activation, Inactivation, and Closing Biophys. J., April 1, 2005; 88(4): 3050 - 3059. [Abstract] [Full Text] [PDF]

				B. Akitake, A. Anishkin, and S. Sukharev The "Dashpot" Mechanism of Stretch-dependent Gating in MscS J. Gen. Physiol., January 31, 2005; 125(2): 143 - 154. [Abstract] [Full Text] [PDF]