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Proceedings of the National Academy of Sciences of the United States of America
Jan 06, 2009;106 (1): 97-102.

Accurate SHAPE-directed RNA structure determination.

Katherine E Deigan, Tian W Li, David H Mathews, Kevin M Weeks
Author Information
  1. Katherine E Deigan: Department of Chemistry, University of North Carolina, Chapel Hill, NC 27599-3290, USA.
PMID: 19109441 DOI: 10.1073/pnas.0806929106

Abstract

Almost all RNAs can fold to form extensive base-paired secondary structures. Many of these structures then modulate numerous fundamental elements of gene expression. Deducing these structure-function relationships requires that it be possible to predict RNA secondary structures accurately. However, RNA secondary structure prediction for large RNAs, such that a single predicted structure for a single sequence reliably represents the correct structure, has remained an unsolved problem. Here, we demonstrate that quantitative, nucleotide-resolution information from a SHAPE experiment can be interpreted as a pseudo-free energy change term and used to determine RNA secondary structure with high accuracy. Free energy minimization, by using SHAPE pseudo-free energies, in conjunction with nearest neighbor parameters, predicts the secondary structure of deproteinized Escherichia coli 16S rRNA (>1,300 nt) and a set of smaller RNAs (75-155 nt) with accuracies of up to 96-100%, which are comparable to the best accuracies achievable by comparative sequence analysis.

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Grants

  1. R01 AI068462/NIAID NIH HHS
  2. R01 GM076485/NIGMS NIH HHS
  3. GM076485/NIGMS NIH HHS
  4. AI068462/NIAID NIH HHS

MeSH Term

Computer Simulation
Escherichia coli
Models, Molecular
Nucleic Acid Conformation
RNA
RNA, Bacterial
RNA, Ribosomal, 16S
Software
Thermodynamics

Chemicals

RNA, Bacterial
RNA, Ribosomal, 16S
RNA
Journal Article Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S.
Article has an altmetric score of 43

Word Cloud

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