193.174.19.232<HTML><HEAD><TITLE>Abstract: W. I. Karain (2017)</TITLE></HEAD><BODY BGCOLOR="#EEDFCC"><p>
<small> BMC Bioinformatics, 18(1), 525p.  (2017) <a href="http://dx.doi.org/10.1186/s12859-017-1943-y" target="_blank">DOI:10.1186/s12859-017-1943-y</a></small
><h2>Detecting transitions in protein dynamics using a recurrence quantification analysis based bootstrap method</h2>
<strong>W. I. Karain</strong><br>
<hr><p><b>Background</b><br>Proteins undergo conformational transitions over different time scales. These transitions are closely intertwined with the protein's function. Numerous standard techniques such as principal component analysis are used to detect these transitions in molecular dynamics simulations. In this work, we add a new method that has the ability to detect transitions in dynamics based on the recurrences in the dynamical system. It combines bootstrapping and recurrence quantification analysis. We start from the assumption that a protein has a "baseline" recurrence structure over a given period of time. Any statistically significant deviation from this recurrence structure, as inferred from complexity measures provided by recurrence quantification analysis, is considered a transition in the dynamics of the protein.<br>br><b>Results</b><br>We apply this technique to a 132 ns long molecular dynamics simulation of the &beta;-Lactamase Inhibitory Protein BLIP. We are able to detect conformational transitions in the nanosecond range in the recurrence dynamics of the BLIP protein during the simulation. The results compare favorably to those extracted using the principal component analysis technique.<br><br><b>Conclusions</b><br>The recurrence quantification analysis based bootstrap technique is able to detect transitions between different dynamics states for a protein over different time scales. It is not limited to linear dynamics regimes, and can be generalized to any time scale. It also has the potential to be used to cluster frames in molecular dynamics trajectories according to the nature of their recurrence dynamics. One shortcoming for this method is the need to have large enough time windows to insure good statistical quality for the recurrence complexity measures needed to detect the transitions.</p>
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