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Acta Crystallogr D Biol Crystallogr. 2008 Apr;64(Pt 4):383-96. doi: 10.1107/S090744490800070X. Epub 2008 Mar 19.

Exploring structural variability in X-ray crystallographic models using protein local optimization by torsion-angle sampling.

Author information

1
The Scripps Research Institute, La Jolla, CA 92037, USA.

Abstract

Modeling structural variability is critical for understanding protein function and for modeling reliable targets for in silico docking experiments. Because of the time-intensive nature of manual X-ray crystallographic refinement, automated refinement methods that thoroughly explore conformational space are essential for the systematic construction of structurally variable models. Using five proteins spanning resolutions of 1.0-2.8 A, it is demonstrated how torsion-angle sampling of backbone and side-chain libraries with filtering against both the chemical energy, using a modern effective potential, and the electron density, coupled with minimization of a reciprocal-space X-ray target function, can generate multiple structurally variable models which fit the X-ray data well. Torsion-angle sampling as implemented in the Protein Local Optimization Program (PLOP) has been used in this work. Models with the lowest R(free) values are obtained when electrostatic and implicit solvation terms are included in the effective potential. HIV-1 protease, calmodulin and SUMO-conjugating enzyme illustrate how variability in the ensemble of structures captures structural variability that is observed across multiple crystal structures and is linked to functional flexibility at hinge regions and binding interfaces. An ensemble-refinement procedure is proposed to differentiate between variability that is a consequence of physical conformational heterogeneity and that which reflects uncertainty in the atomic coordinates.

PMID:
18391405
PMCID:
PMC2631124
DOI:
10.1107/S090744490800070X
[Indexed for MEDLINE]
Free PMC Article

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