Antje Wolf scite author profile

With improvements in computer speed and algorithm efficiency, MD simulations are sampling larger amounts of molecular and biomolecular conformations. Being able to qualitatively and quantitatively sift these conformations into meaningful groups is a difficult and important task, especially when considering the structure-activity paradigm. Here we present a study that combines two popular techniques, principal component (PC) analysis and clustering, for revealing major conformational changes that occur in molecular dynamics (MD) simulations. Specifically, we explored how clustering different PC subspaces effects the resulting clusters versus clustering the complete trajectory data. As a case example, we used the trajectory data from an explicitly solvated simulation of a bacteria’s L11·23S ribosomal subdomain, which is a target of thiopeptide antibiotics. Clustering was performed, using K-means and average-linkage algorithms, on data involving the first two to the first five PC subspace dimensions. For the average-linkage algorithm we found that data-point membership, cluster shape, and cluster size depended on the selected PC subspace data. In contrast, K-means provided very consistent results regardless of the selected subspace. Since we present results on a single model system, generalization concerning the clustering of different PC subspaces of other molecular systems is currently premature. However, our hope is that this study illustrates a) the complexities in selecting the appropriate clustering algorithm, b) the complexities in interpreting and validating their results, and c) by combining PC analysis with subsequent clustering valuable dynamic and conformational information can be obtained.Electronic supplementary materialThe online version of this article (doi:10.1007/s00894-012-1563-4) contains supplementary material, which is available to authorized users.

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Binding of the respiratory chain inhibitor ametoctradin to the mitochondrialbc₁complex

Fehr

Wolf

Stammler

2015

Pest. Manag. Sci.

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The binding mode of ametoctradin differs from other agricultural fungicides such as cyazofamid and the strobilurins. This explains the lack of cross-resistance with strobilurins and related inhibitors, where resistance is mainly caused by G143A amino acid exchange. Accordingly, mixtures or alternating applications of these fungicides and ametoctradin can help to minimise the risk of the emergence of new resistant isolates.

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Respiration Inhibitors: Complex II

Stammler¹,

Wolf

Glaettli

et al. 2015

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Antje Wolf

Principal component and clustering analysis on molecular dynamics data of the ribosomal L11·23S subdomain

Binding of the respiratory chain inhibitor ametoctradin to the mitochondrialbc₁complex

Respiration Inhibitors: Complex II

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Antje Wolf

Principal component and clustering analysis on molecular dynamics data of the ribosomal L11·23S subdomain

Binding of the respiratory chain inhibitor ametoctradin to the mitochondrialbc1complex

Respiration Inhibitors: Complex II

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Binding of the respiratory chain inhibitor ametoctradin to the mitochondrialbc₁complex