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Anisotropic coarse-grained statistical potentials improve the ability to identify native-like protein structures

Chemical Physics 2016-09-08 v1 Statistical Mechanics Biological Physics Computational Physics Biomolecules

Abstract

We present a new method to extract distance and orientation dependent potentials between amino acid side chains using a database of protein structures and the standard Boltzmann device. The importance of orientation dependent interactions is first established by computing orientational order parameters for proteins with alpha-helical and beta-sheet architecture. Extraction of the anisotropic interactions requires defining local reference frames for each amino acid that uniquely determine the coordinates of the neighboring residues. Using the local reference frames and histograms of the radial and angular correlation functions for a standard set of non-homologue protein structures, we construct the anisotropic pair potentials. The performance of the orientation dependent potentials was studied using a large database of decoy proteins. The results demonstrate that the new distance and orientation dependent residue-residue potentials present a significantly improved ability to recognize native folds from a set of native and decoy protein structures.

Keywords

Cite

@article{arxiv.physics/0302009,
  title  = {Anisotropic coarse-grained statistical potentials improve the ability to identify native-like protein structures},
  author = {N. -V. Buchete and J. E. Straub and D. Thirumalai},
  journal= {arXiv preprint arXiv:physics/0302009},
  year   = {2016}
}

Comments

Submitted to "The Journal of Chemical Physics"