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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 117, 2019 - Issue 9-12: Dieter Cremer Memorial Issue
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Dieter Cremer Memorial

REDAN: relative entropy-based dynamical allosteric network model

Hongyu ZhouDepartment of Chemistry, Southern Methodist University, Dallas, TX, USAView further author information
&
Peng TaoDepartment of Chemistry, Southern Methodist University, Dallas, TX, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-2488-0239View further author information
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Pages 1334-1343 | Received 27 Aug 2018, Accepted 25 Oct 2018, Published online: 11 Nov 2018
 
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ABSTRACT

Protein allostery is ubiquitous phenomena that are important for cellular signalling processes. Despite extensive methodology development, a quantitative model is still needed to accurately measure protein allosteric response upon external perturbation. Here, we introduced the relative entropy concept from information theory as a quantitative metric to develop a method for measurement of the population shift with regard to protein structure during allosteric transition. This method is referred to as relative entropy-based dynamical allosteric network (REDAN) model. Using this method, protein allostery could be evaluated at three mutually dependent structural levels: allosteric residues, allosteric pathways, and allosteric communities. All three levels are carried out using rigorous searching algorithms based on relative entropy. Application of the REDAN model on the second PDZ domain (PDZ2) in the human PTP1E protein provided metric-based insight into its allostery upon peptide binding.

GRAPHICAL ABSTRACT

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Funding

This work was supported by National Institutes of Health [grant number GM122013]. Computational time was generously provided by Southern Methodist University’s Center for Scientific Computation.

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