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BMC Biophysics

, 9:4

First Online: 21 April 2016Received: 17 December 2015Accepted: 21 March 2016DOI: 10.1186-s13628-016-0029-y

Cite this article as: Kynast, P., Derreumaux, P. & Strodel, B. BMC Biophys 2016 9: 4. doi:10.1186-s13628-016-0029-y

Abstract

BackgroundKnowing the binding site of protein–protein complexes helps understand their function and shows possible regulation sites. The ultimate goal of protein–protein docking is the prediction of the three-dimensional structure of a protein–protein complex. Docking itself only produces plausible candidate structures, which must be ranked using scoring functions to identify the structures that are most likely to occur in nature.

MethodsIn this work, we rescore rigid body protein–protein predictions using the optimized potential for efficient structure prediction OPEP, which is a coarse-grained force field. Using a force field based on continuous functions rather than a grid-based scoring function allows the introduction of protein flexibility during the docking procedure. First, we produce protein–protein predictions using ZDOCK, and after energy minimization via OPEP we rank them using an OPEP-based soft rescoring function. We also train the rescoring function for different complex classes and demonstrate its improved performance for an independent dataset.

ResultsThe trained rescoring function produces a better ranking than ZDOCK for more than 50 % of targets, rising to over 70 % when considering only enzyme-inhibitor complexes.

ConclusionsThis study demonstrates for the first time that energy functions derived from the coarse-grained OPEP force field can be employed to rescore predictions for protein–protein complexes.

KeywordsProtein–protein docking Coarse graining Rescoring Flexible docking  Download fulltext PDF



Autor: Philipp Kynast - Philippe Derreumaux - Birgit Strodel

Fuente: https://link.springer.com/







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