Molecular dynamics (MD) simulations provide detailed atomistic insights into the behavior and structure of biomolecules, such as proteins. Proteins enable cellular functionality through intricate mechanisms. To effectively investigate these mechanisms, advanced sampling methods are essential to reduce computational demands. In this study, a novel computational approach concerning the comprehensive sampling of the cis/trans isomerization of the amino acid proline is presented. Furthermore, the molecular details of ligand binding and its impact on conformational changes in the substrate binding domain 2 of the GlnPQ importer from the Gram-positive bacterium Lactococcus lactis were investigated.
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Molecular dynamics (MD) simulations provide detailed atomistic insights into the behavior and structure of biomolecules, such as proteins. Proteins enable cellular functionality through intricate mechanisms. To effectively investigate these mechanisms, advanced sampling methods are essential to reduce computational demands. In this study, a novel computational approach concerning the comprehensive sampling of the cis/trans isomerization of the amino acid proline is presented. Furthermore, the mo...
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