Resolving distance variations by single-molecule FRET and EPR spectroscopy using rotamer libraries.
Journal
Biophysical journal
ISSN: 1542-0086
Titre abrégé: Biophys J
Pays: United States
ID NLM: 0370626
Informations de publication
Date de publication:
02 11 2021
02 11 2021
Historique:
received:
26
02
2021
revised:
09
07
2021
accepted:
13
09
2021
pubmed:
19
9
2021
medline:
16
11
2021
entrez:
18
9
2021
Statut:
ppublish
Résumé
Förster resonance energy transfer (FRET) and electron paramagnetic resonance (EPR) spectroscopy are complementary techniques for quantifying distances in the nanometer range. Both approaches are commonly employed for probing the conformations and conformational changes of biological macromolecules based on site-directed fluorescent or paramagnetic labeling. FRET can be applied in solution at ambient temperature and thus provides direct access to dynamics, especially if used at the single-molecule level, whereas EPR requires immobilization or work at cryogenic temperatures but provides data that can be more reliably used to extract distance distributions. However, a combined analysis of the complementary data from the two techniques has been complicated by the lack of a common modeling framework. Here, we demonstrate a systematic analysis approach based on rotamer libraries for both FRET and EPR labels to predict distance distributions between two labels from a structural model. Dynamics of the fluorophores within these distance distributions are taken into account by diffusional averaging, which improves the agreement with experiment. Benchmarking this methodology with a series of surface-exposed pairs of sites in a structured protein domain reveals that the lowest resolved distance differences can be as small as ∼0.25 nm for both techniques, with quantitative agreement between experimental and simulated transfer efficiencies within a range of ±0.045. Rotamer library analysis thus establishes a coherent way of treating experimental data from EPR and FRET and provides a basis for integrative structural modeling, including studies of conformational distributions and dynamics of biological macromolecules using both techniques.
Identifiants
pubmed: 34536387
pii: S0006-3495(21)00755-4
doi: 10.1016/j.bpj.2021.09.021
pmc: PMC8595751
pii:
doi:
Substances chimiques
Fluorescent Dyes
0
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
4842-4858Commentaires et corrections
Type : CommentIn
Informations de copyright
Copyright © 2021 Biophysical Society. Published by Elsevier Inc. All rights reserved.
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