2014
DOI: 10.1261/rna.044321.114
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High-throughput mutate-map-rescue evaluates SHAPE-directed RNA structure and uncovers excited states

Abstract: The three-dimensional conformations of noncoding RNAs underpin their biochemical functions but have largely eluded experimental characterization. Here, we report that integrating a classic mutation/rescue strategy with high-throughput chemical mapping enables rapid RNA structure inference with unusually strong validation. We revisit a 16S rRNA domain for which SHAPE (selective 2 ′ -hydroxyl acylation with primer extension) and limited mutational analysis suggested a conformational change between apo-and holo-r… Show more

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Cited by 58 publications
(103 citation statements)
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“…A total of 33 of these 34 helices matched the crystallographic or conventional structure available in the literature, and none of these cases involved register shifts that have been problems in prior methods (2,7). Despite the observation of other weak signals in these data that do not correspond to helices (Fig.…”
Section: Resultsmentioning
confidence: 87%
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“…A total of 33 of these 34 helices matched the crystallographic or conventional structure available in the literature, and none of these cases involved register shifts that have been problems in prior methods (2,7). Despite the observation of other weak signals in these data that do not correspond to helices (Fig.…”
Section: Resultsmentioning
confidence: 87%
“…Despite these advances, the accuracy of RNA structure inference through chemical mapping and sequencing remains under question (3)(4)(5)(6)(7)(8). For example, models of the 9-kb HIV-1 RNA genome have been repeatedly revised with updates to the selective 2′-OH acylation by primer extension (SHAPE) protocol, data processing, and computational assumptions (2,(9)(10)(11), and the majority of this RNA's helices remain uncertain.…”
mentioning
confidence: 99%
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“…The information content of chemical mapping is therefore low. Until recently, expert intuition and ad hoc manual comparison of chemical mapping data with phylogenetic information and computational methods have been necessary to integrate chemical data into structure models, sometimes leading to significant errors (Anokhina et al 2013;Dai et al 2008;Deigan et al 2009;Hang et al 2015;Levitt, 1969;Robart et al 2014;Sergiev et al 2001;Tian et al 2014;Whirl-Carrillo et al 2002).…”
Section: Prelude: 1d Rna Chemical Mappingmentioning
confidence: 99%
“…These experiments raise the prospect of nucleotide-resolution structural portraits of all RNAs being transcribed in an organism -the 'RNA structurome'. Nevertheless, when tested through independent experiments, de novo models derived from chemical mapping and computational modeling have not always given consistently accurate structures, even on small domains folded into well-defined states and probed in vitro (Deigan et al 2009;Kladwang et al 2011c;Leonard et al 2013;Tian et al 2014). These issues can be traced to the poor information content of chemical mapping measurements, which typically give single or few measurements per nucleotide, compared with high-resolution technologies such as crystallography, NMR, or cryo-electron microscopy, which can return datasets with ten or more measurements per nucleotide.…”
Section: Introductionmentioning
confidence: 99%