Litcius/Paper detail

Membrane permeability of small molecules from unbiased molecular dynamics simulations

Andreas Krämer, An Ghysels, Eric Wang, Richard M. Venable, Jeffery B. Klauda, Bernard R. Brooks, Richard W. Pastor

2020The Journal of Chemical Physics70 citationsDOIOpen Access PDF

Abstract

Permeation of many small molecules through lipid bilayers can be directly observed in molecular dynamics simulations on the nano- and microsecond timescale. While unbiased simulations provide an unobstructed view of the permeation process, their feasibility for computing permeability coefficients depends on various factors that differ for each permeant. The present work studies three small molecules for which unbiased simulations of permeation are feasible within less than a microsecond, one hydrophobic (oxygen), one hydrophilic (water), and one amphiphilic (ethanol). Permeabilities are computed using two approaches: counting methods and a maximum-likelihood estimation for the inhomogeneous solubility diffusion (ISD) model. Counting methods yield nearly model-free estimates of the permeability for all three permeants. While the ISD-based approach is reasonable for oxygen, it lacks precision for water due to insufficient sampling and results in misleading estimates for ethanol due to invalid model assumptions. It is also demonstrated that simulations using a Langevin thermostat with collision frequencies of 1/ps and 5/ps yield oxygen permeabilities and diffusion constants that are lower than those using Nosé-Hoover by statistically significant margins. In contrast, permeabilities from trajectories generated with Nosé-Hoover and the microcanonical ensemble do not show statistically significant differences. As molecular simulations become more affordable and accurate, calculation of permeability for an expanding range of molecules will be feasible using unbiased simulations. The present work summarizes theoretical underpinnings, identifies pitfalls, and develops best practices for such simulations.

Topics & Concepts

Molecular dynamicsPermeationMicrosecondThermostatWater modelChemistryWork (physics)Monte Carlo methodChemical physicsPermeability (electromagnetism)Statistical physicsDiffusionMoleculeMembraneThermodynamicsBiological systemComputational chemistryPhysicsMathematicsStatisticsOrganic chemistryBiologyAstronomyBiochemistrySpectroscopy and Quantum Chemical StudiesProtein Structure and DynamicsLipid Membrane Structure and Behavior