Correcting pervasive errors in RNA crystallography through enumerative
  structure prediction

AT Brunger; DJ Mandell; F DiMaio; F DiMaio; Fang-Chieh Chou; J Praznikar; JA Cruz; JJ Headd; JS Richardson; KS Keating; M Forconi; MD Winn; N Ban; P Gendron; P Sripakdeevong; Parin Sripakdeevong; PD Adams; PV Afonine; R Das; R Das; Rhiju Das; RJ Read; Sergey M Dibrov; SM Dibrov; Thomas Hermann; VB Chen; VB Chen; X Wang

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Correcting pervasive errors in RNA crystallography through enumerative structure prediction

Authors: AT Brunger
DJ Mandell
F DiMaio
F DiMaio
Fang-Chieh Chou
J Praznikar
JA Cruz
JJ Headd
JS Richardson
KS Keating
M Forconi
MD Winn
N Ban
P Gendron
P Sripakdeevong
Parin Sripakdeevong
PD Adams
PV Afonine
R Das
R Das
Rhiju Das
RJ Read
Sergey M Dibrov
SM Dibrov
Thomas Hermann
VB Chen
VB Chen
X Wang
Publication date: 2 December 2012
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

Three-dimensional RNA models fitted into crystallographic density maps exhibit pervasive conformational ambiguities, geometric errors and steric clashes. To address these problems, we present enumerative real-space refinement assisted by electron density under Rosetta (ERRASER), coupled to Python-based hierarchical environment for integrated 'xtallography' (PHENIX) diffraction-based refinement. On 24 data sets, ERRASER automatically corrects the majority of MolProbity-assessed errors, improves the average Rfree factor, resolves functionally important discrepancies in noncanonical structure and refines low-resolution models to better match higher-resolution models

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info:doi/10.1038%2Fnmeth.2262

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