Marcos Sotomayor, Valeria Vasquez, Eduardo Perozo, and Klaus Schulten.
Ion conduction through MscS as determined by electrophysiology and
simulation.
Biophysical Journal, 92:886-902, 2007.
(PMC: 1779981)
SOTO2007
The mechanosensitive channel of small conductance (MscS) is a membrane protein thought to act as a safety valve in bacteria, regulating the release of ions and small solutes when gated by membrane tension under challenging osmotic conditions. The influence of voltage on channel activation and the functional state depicted by the available crystal structure of MscS remain debated. Therefore, in an effort to relate electrophysiological measurements on MscS and properties of the MscS crystal conformation, we report here MscS's response to voltage and pressure as determined by patch-clamp experiments, as well as MscS electrostatics and transport properties as determined through all-atom molecular dynamics simulations of the protein embedded in a lipid bilayer, a 224,000-atom system. The experiments reveal that MscS is a slightly anion selective channel with a conductance of 1nS, activated by pressure and inactivated in a voltage-dependent manner. On the other hand, the simulations, covering over 200 nanoseconds and including biasing electrostatic potentials, show that MscS restrained to the crystal conformation exhibits low conductance; unrestrained it increases the channel radius upon application of a large electrostatic bias and exhibits then ion conduction that matches experimentally determined conductances. The simulated conductance stems mainly from Cl ions.
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