Abstract

Rigid-body refinement is the constrained coordinate refinement of one or more groups of atoms that each move (rotate and translate) as a single body. The goal of this work was to establish an automatic procedure for rigid-body refinement which implements a practical compromise between runtime requirements and convergence radius. This has been achieved by analysis of a large number of trial refinements for 12 classes of random rigid-body displacements (that differ in magnitude of introduced errors), using both least-squares and maximum-likelihood target functions. The results of these tests led to a multiple-zone protocol. The final parameterization of this protocol was optimized empirically on the basis of a second large set of test refinements. This multiple-zone protocol is implemented as part of the phenix.refine program.

Keywords

Protocol (science)Convergence (economics)Rigid bodyRADIUSComputer scienceBasis (linear algebra)AlgorithmSet (abstract data type)GeometryMathematicsPhysicsClassical mechanics

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Publication Info

Year
2009
Type
article
Volume
42
Issue
4
Pages
607-615
Citations
55
Access
Closed

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Cite This

Pavel V. Afonine, Ralf W. Grosse‐Kunstleve, Alexandre Urzhumtsev et al. (2009). Automatic multiple-zone rigid-body refinement with a large convergence radius. Journal of Applied Crystallography , 42 (4) , 607-615. https://doi.org/10.1107/s0021889809023528

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DOI
10.1107/s0021889809023528