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Molecular simulations of gram-negative bacterial membranes: a vignette of some recent successes

Molecular simulations of gram-negative bacterial membranes: a vignette of some recent successes
Molecular simulations of gram-negative bacterial membranes: a vignette of some recent successes
In the following review we use recent examples from the literature to discuss progress in the area of atomistic and coarse-grained molecular dynamics simulations of selected bacterial membranes and proteins, with a particular focus on Gram-negative bacteria. As structural biology continues to provide increasingly high-resolution data on the proteins that reside within these membranes, simulations have an important role to play in linking these data with the dynamical behavior and function of these proteins. In particular, in the last few years there has been significant progress in addressing the issue of biochemical complexity of bacterial membranes such that the heterogeneity of the lipid and protein components of these membranes are now being incorporated into molecular-level models. Thus, in future we can look forward to complementary data from structural biology and molecular simulations combining to provide key details of structure-dynamics-function relationships in bacterial membranes.
0006-3495
461-468
Parkin, Jamie
5ddf8295-1355-4c4f-b8c2-cd1a828374dd
Chavent, Matthieu
84aa9c81-9edc-4845-8df8-eb3f4ef8a9a3
Khalid, Syma
90fbd954-7248-4f47-9525-4d6af9636394
Parkin, Jamie
5ddf8295-1355-4c4f-b8c2-cd1a828374dd
Chavent, Matthieu
84aa9c81-9edc-4845-8df8-eb3f4ef8a9a3
Khalid, Syma
90fbd954-7248-4f47-9525-4d6af9636394

Parkin, Jamie, Chavent, Matthieu and Khalid, Syma (2015) Molecular simulations of gram-negative bacterial membranes: a vignette of some recent successes. Biophysical Journal, 109 (3), 461-468. (doi:10.1016/j.bpj.2015.06.050).

Record type: Article

Abstract

In the following review we use recent examples from the literature to discuss progress in the area of atomistic and coarse-grained molecular dynamics simulations of selected bacterial membranes and proteins, with a particular focus on Gram-negative bacteria. As structural biology continues to provide increasingly high-resolution data on the proteins that reside within these membranes, simulations have an important role to play in linking these data with the dynamical behavior and function of these proteins. In particular, in the last few years there has been significant progress in addressing the issue of biochemical complexity of bacterial membranes such that the heterogeneity of the lipid and protein components of these membranes are now being incorporated into molecular-level models. Thus, in future we can look forward to complementary data from structural biology and molecular simulations combining to provide key details of structure-dynamics-function relationships in bacterial membranes.

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More information

Accepted/In Press date: 24 June 2015
Published date: 4 August 2015
Organisations: Computational Systems Chemistry

Identifiers

Local EPrints ID: 395513
URI: http://eprints.soton.ac.uk/id/eprint/395513
DOI: doi:10.1016/j.bpj.2015.06.050
ISSN: 0006-3495
PURE UUID: f3271ac8-4817-436c-a13f-0639b2506f2d
ORCID for Syma Khalid: ORCID iD orcid.org/0000-0002-3694-5044

Catalogue record

Date deposited: 31 May 2016 14:40
Last modified: 15 Mar 2024 03:29

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Contributors

Author: Jamie Parkin
Author: Matthieu Chavent
Author: Syma Khalid ORCID iD

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