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2′-19F labelling of ribose in RNAs: a tool to analyse RNA/protein interactions by NMR in physiological conditions

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posted on 2024-03-15, 10:39 authored by Hesna Kara, Alexander Axer, Frederick W Muskett, Carlos J Bueno-Alejo, Vasileios Paschalis, Andrea Taladriz-Sender, Sumera Tubasum, Marina Santana Vega, Zhengyun Zhao, Alasdair W Clark, Andrew J Hudson, Ian EperonIan Eperon, Glenn A Burley, Cyril DominguezCyril Dominguez
Protein-RNA interactions are central to numerous cellular processes. In this work, we present an easy and straightforward NMR-based approach to determine the RNA binding site of RNA binding proteins and to evaluate the binding of pairs of proteins to a single-stranded RNA (ssRNA) under physiological conditions, in this case in nuclear extracts. By incorporation of a 19F atom on the ribose of different nucleotides along the ssRNA sequence, we show that, upon addition of an RNA binding protein, the intensity of the 19F NMR signal changes when the 19F atom is located near the protein binding site. Furthermore, we show that the addition of pairs of proteins to a ssRNA containing two 19F atoms at two different locations informs on their concurrent binding or competition. We demonstrate that such studies can be done in a nuclear extract that mimics the physiological environment in which these protein-ssRNA interactions occur. Finally, we demonstrate that a trifluoromethoxy group (-OCF3) incorporated in the 2′ribose position of ssRNA sequences increases the sensitivity of the NMR signal, leading to decreased measurement times, and reduces the issue of RNA degradation in cellular extracts.

Funding

How do RNA-binding proteins control splice site selection?

Biotechnology and Biological Sciences Research Council

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History

Author affiliation

College of Life Sciences/Molecular & Cell Biology

Version

  • VoR (Version of Record)

Published in

Frontiers in Molecular Biosciences

Volume

11

Pagination

1325041

Publisher

Frontiers Media SA

issn

2296-889X

eissn

2296-889X

Copyright date

2024

Available date

2024-03-15

Spatial coverage

Switzerland

Language

eng

Deposited by

Professor Cyril Dominguez

Deposit date

2024-03-14

Data Access Statement

The raw data supporting the conclusion of this article will be made available by the authors, without undue reservation.

Rights Retention Statement

  • No

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