CCR5 RNA Pseudoknots: Residue and Site‐Specific Labeling correlate Internal Motions with microRNA Binding

Conformational dynamics of RNA molecules play a critical role in governing their biological functions. Measurements of RNA dynamic behavior sheds important light on sites that interact with their binding partners or cellular stimulators. However, such measurements using solution‐state NMR are diffic...

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Bibliographic Details
Published in:Chemistry : a European journal 2018-04, Vol.24 (21), p.5462-5468
Main Authors: Chen, Bin, Longhini, Andrew P., Nußbaumer, Felix, Kreutz, Christoph, Dinman, Jonathan D., Dayie, T. Kwaku
Format: Article
Language:English
Subjects:
Binding
CCR5 mRNA pseudoknot
CCR5 protein
Chemistry
Couplings
DNA probes
dynamics
Labeling
Line broadening
microRNA
MicroRNAs
MicroRNAs - chemistry
MicroRNAs - metabolism
miRNA
Models, Molecular
NMR
NMR spectroscopy
Nuclear magnetic resonance
Nuclear Magnetic Resonance, Biomolecular
Nucleotides
Perturbation methods
Receptors, CCR5 - genetics
Ribonucleic acid
RNA
RNA probes
RNA solid-phase synthesis
Solid phase synthesis
Solid-Phase Synthesis Techniques
Stimulators
Structure-function relationships
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Summary:Conformational dynamics of RNA molecules play a critical role in governing their biological functions. Measurements of RNA dynamic behavior sheds important light on sites that interact with their binding partners or cellular stimulators. However, such measurements using solution‐state NMR are difficult for large RNA molecules (>70 nt; nt=nucleotides) owing to severe spectral overlap, homonuclear 13C scalar couplings, and line broadening. Herein, a strategic combination of solid‐phase synthesis, site‐specific isotopic labeled phosphoramidites, and enzymatic ligation is introduced. This approach allowed the position‐specific insertion of isotopic probes into a 96 nt CCR5 RNA fragment. Accurate measurements of functional dynamics using the Carr–Purcell–Meiboom–Gill (CPMG) relaxation dispersion (RD) experiments enabled extraction of the exchange rates and populations of this RNA. NMR chemical shift perturbation analysis of the RNA/microRNA‐1224 complex indicated that A90‐C1′ of the pseudoknot exhibits similar changes in chemical shift observed in the excited state. This work demonstrates the general applicability of a NMR‐labeling strategy to probe functional RNA structural dynamics. Genes in a twist: A highly conserved pseudoknot element within the mRNA encoding human C‐C chemokine receptor type 5 self‐regulates gene expression through a translational recoding event. A residue/site‐specific labeling strategy was applied to insert isotopic probes into the pseudoknot. This approach enables unambiguous assignments of key residues involved in intermolecular interaction with miRNA‐1224 and results in accurate measurements of their dynamics at atomic resolution.
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201705948