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Characterizing Protonation-Coupled Conformational Ensembles in RNA via pH-Differential Mutational Profiling with DMS Probing

Edgar M. Faison, Amrita Nallathambi, Qi Zhang

2023Journal of the American Chemical Society13 citationsDOI

Abstract

RNA molecules undergo conformational transitions in response to cellular and environmental stimuli. Site-specific protonation, a fundamental chemical property, can alter the conformational landscape of RNA to regulate their functions. However, characterizing protonation-coupled RNA conformational ensembles on a large scale remains challenging. Here, we present pH-differential mutational profiling (PD-MaP) with dimethyl sulfate probing for high-throughput detection of protonation-coupled conformational ensembles in RNA. We demonstrated this approach on microRNA-21 precursor (pre-miR-21) and recapitulated a previously discovered A + –G-coupled conformational ensemble. Additionally, we identified a secondary protonation event involving an A + –C mismatch. We validated the occurrence of both protonation-coupled ensembles in pre-miR-21 using NMR relaxation dispersion spectroscopy. Furthermore, the application of PD-MaP on a library of well-annotated human primary microRNAs uncovered widespread protonation-coupled conformational ensembles, suggesting their potentially broad functions in biology.

Topics & Concepts

ChemistryProtonationProfiling (computer programming)Differential (mechanical device)RNABiophysicsComputational biologyComputational chemistryBiochemistryGeneOrganic chemistryThermodynamicsIonBiologyComputer scienceOperating systemPhysicsRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing
Characterizing Protonation-Coupled Conformational Ensembles in RNA via pH-Differential Mutational Profiling with DMS Probing | Litcius