2014
DOI: 10.3390/ijms15021767
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Atomistic Monte Carlo Simulation of Lipid Membranes

Abstract: Biological membranes are complex assemblies of many different molecules of which analysis demands a variety of experimental and computational approaches. In this article, we explain challenges and advantages of atomistic Monte Carlo (MC) simulation of lipid membranes. We provide an introduction into the various move sets that are implemented in current MC methods for efficient conformational sampling of lipids and other molecules. In the second part, we demonstrate for a concrete example, how an atomistic loca… Show more

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Cited by 5 publications
(5 citation statements)
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References 151 publications
(228 reference statements)
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“…Based on this observation, we can say that longer simulations are needed to equilibrate the POPE than DPPC bilayers, but in both cases, 50 ns was enough to observe the interactions' formation. Similar results were obtained for the DPPC bilayer by Wustner et al [48], where the results come from Monte Carlo simulations of the bilayer self-organization. They present there the methods as a good indicator of equilibration of the system.…”
Section: Resultssupporting
confidence: 86%
See 1 more Smart Citation
“…Based on this observation, we can say that longer simulations are needed to equilibrate the POPE than DPPC bilayers, but in both cases, 50 ns was enough to observe the interactions' formation. Similar results were obtained for the DPPC bilayer by Wustner et al [48], where the results come from Monte Carlo simulations of the bilayer self-organization. They present there the methods as a good indicator of equilibration of the system.…”
Section: Resultssupporting
confidence: 86%
“…The mean value in angular brackets is an average of all positions of atoms i and j in Cartesian space (separately for the x, y, and z coordinates) calculated for a given time. The assumption needed for this computation is that fluctuations are normally distributed around the mean, allowing the covariances to be estimated from a multidimensional Gaussian distribution [48]. Otherwise, the covariance matrix does not yield all information tied to the cross-correlation of the data, and other measures such as higher-order moments or cumulants can be beneficial in a more detailed research.…”
Section: Methodsmentioning
confidence: 99%
“…where A is a matrix which describes the advancement of the system from image x k to image x k+1 . This matrix resembles the Koopman or transfer operator for measurements g(x k ) = x k [29]. For the analysis of 3D microscopy and two-photon polarimetry data, one replaces ∆t by ∆z and ∆θ, respectively.…”
Section: Analysis Of Mp and Sted Microscopy Data By Dynamic Mode Deco...mentioning
confidence: 99%
“…However, methods such as configw [ 111 ] and hybrid MC [ 112 ]. as well as more complex MC moves have made the simulation of lipid bilayer systems possible using MC methods [ 113 ]. The main barriers for adoption of these new MC methods is the difficulty in implementing these algorithms and the lack of available open-source and easy-to-use software for such simulations.…”
Section: Atomistic Molecular Simulation Of Stratum Corneum Lipidsmentioning
confidence: 99%