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Unveiling Inherent Degeneracies in Determining Population-Weighted Ensembles of Interdomain Orientational Distributions Using NMR Residual Dipolar Couplings: Application to RNA Helix Junction Helix Motifs.

A growing number of studies employ time-averaged experimental data to determine dynamic ensembles of biomolecules. While it is well-known that different ensembles can satisfy experimental data to within error, the extent and nature of these degeneracies, and their impact on the accuracy of the ensem... Full description

Journal Title: The journal of physical chemistry. B July 30, 2015, Vol.119(30), pp.9614-9626
Main Author: Yang, Shan
Other Authors: Al-Hashimi, Hashim M
Format: Electronic Article Electronic Article
Language: English
Subjects:
RNA
ID: E-ISSN: 1520-5207 ; DOI: 10.1021/acs.jpcb.5b03859
Link: http://search.proquest.com/docview/1700686475/?pq-origsite=primo
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title: Unveiling Inherent Degeneracies in Determining Population-Weighted Ensembles of Interdomain Orientational Distributions Using NMR Residual Dipolar Couplings: Application to RNA Helix Junction Helix Motifs.
format: Article
creator:
  • Yang, Shan
  • Al-Hashimi, Hashim M
subjects:
  • Base Sequence–Chemistry
  • Entropy–Genetics
  • Magnetic Resonance Spectroscopy–Genetics
  • Models, Molecular–Genetics
  • Nucleic Acid Conformation–Genetics
  • Nucleotide Motifs–Genetics
  • RNA–Genetics
  • RNA
ispartof: The journal of physical chemistry. B, July 30, 2015, Vol.119(30), pp.9614-9626
description: A growing number of studies employ time-averaged experimental data to determine dynamic ensembles of biomolecules. While it is well-known that different ensembles can satisfy experimental data to within error, the extent and nature of these degeneracies, and their impact on the accuracy of the ensemble determination remains poorly understood. Here, we use simulations and a recently introduced metric for assessing ensemble similarity to explore degeneracies in determining ensembles using NMR residual dipolar couplings (RDCs) with specific application to A-form helices in RNA. Various target ensembles were constructed representing different domain-domain orientational distributions that are confined to a topologically restricted (
language: eng
source:
identifier: E-ISSN: 1520-5207 ; DOI: 10.1021/acs.jpcb.5b03859
fulltext: fulltext
issn:
  • 15205207
  • 1520-5207
url: Link


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titleUnveiling Inherent Degeneracies in Determining Population-Weighted Ensembles of Interdomain Orientational Distributions Using NMR Residual Dipolar Couplings: Application to RNA Helix Junction Helix Motifs.
creatorYang, Shan ; Al-Hashimi, Hashim M
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ispartofThe journal of physical chemistry. B, July 30, 2015, Vol.119(30), pp.9614-9626
identifierE-ISSN: 1520-5207 ; DOI: 10.1021/acs.jpcb.5b03859
subjectBase Sequence–Chemistry ; Entropy–Genetics ; Magnetic Resonance Spectroscopy–Genetics ; Models, Molecular–Genetics ; Nucleic Acid Conformation–Genetics ; Nucleotide Motifs–Genetics ; RNA–Genetics ; RNA
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descriptionA growing number of studies employ time-averaged experimental data to determine dynamic ensembles of biomolecules. While it is well-known that different ensembles can satisfy experimental data to within error, the extent and nature of these degeneracies, and their impact on the accuracy of the ensemble determination remains poorly understood. Here, we use simulations and a recently introduced metric for assessing ensemble similarity to explore degeneracies in determining ensembles using NMR residual dipolar couplings (RDCs) with specific application to A-form helices in RNA. Various target ensembles were constructed representing different domain-domain orientational distributions that are confined to a topologically restricted (<10%) conformational space. Five independent sets of ensemble averaged RDCs were then computed for each target ensemble and a "sample and select" scheme used to identify degenerate ensembles that satisfy RDCs to within experimental uncertainty. We find that ensembles with different ensemble sizes and that can differ significantly from the target ensemble (by as much as ∑Ω ∼ 0.4 where ∑Ω varies between 0 and 1 for maximum and minimum ensemble similarity, respectively) can satisfy the ensemble averaged RDCs. These deviations increase with the number of unique conformers and breadth of the target distribution, and result in significant uncertainty in determining conformational entropy (as large as 5 kcal/mol at T = 298 K). Nevertheless, the RDC-degenerate ensembles are biased toward populated regions of the target ensemble, and capture other essential features of the distribution, including the shape. Our results identify ensemble size as a major source of uncertainty in determining ensembles and suggest that NMR interactions such as RDCs and spin relaxation, on their own, do not carry the necessary information needed to determine conformational entropy at a useful level of precision. The framework introduced here provides a general approach for exploring degeneracies in ensemble determination for different types of experimental data.
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