The third leg: Molecular dynamics simulations of lipid binding proteins |
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Authors: | Woolf Thomas B. Tychko Michael |
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Affiliation: | (1) Department of Physiology, Johns Hopkins University, Baltimore, MD, USA |
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Abstract: | Molecular dynamics computer simulations can provide a third leg which balances the contributions of both structural biology and binding studies performed on the lipid binding protein family. In this context, these calculations help to establish a dialogue between all three communities, by relating experimental observables with details of structure. Working towards this connection is important, since experience has shown the difficulty of inferring thermodynamic properties from a single static conformation. The challenge is exemplified by ongoing attempts to interpret the impact of mutagenesis on structure and function (i.e. binding). A detailed atomic-level understanding of this system could be achieved with the support of all three legs, paving the way towards rational design of proteins with novel specificities. This paper provides an outline of the connections possible between experiment and theory concerning lipid binding proteins. |
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Keywords: | molecular dynamics LBP FABP structure-function protein-lipid interactions rational drug design |
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