Visualizing RNA Structure Ensembles by Single-molecule Correlated Chemical Probing

Overview

Journal Curr Opin Struct Biol

Date 2024 Jul 18

PMID 39024941

Authors

J Winston Arney

Alain Laederach

Kevin M Weeks

Affiliations

Soon will be listed here.

Abstract

RNA molecules fold to form complex internal structures. Many of these RNA structures populate ensembles with rheostat-like properties, with each state having a distinct function. Until recently, analysis of RNA structures, especially within cells, was limited to modeling either a single averaged structure or computationally-modeled ensembles. These approaches obscure the intrinsic heterogeneity of many structured RNAs. Single-molecule correlated chemical probing (smCCP) strategies are now making it possible to measure and deconvolute RNA structure ensembles based on efficiently executed chemical probing experiments. Here, we provide an overview of fundamental single-molecule probing principles, review current ensemble deconvolution strategies, and discuss recent applications to diverse biological systems. smCCP is enabling a revolution in understanding how the plasticity of RNA structure is exploited in biological systems to respond to stimuli and alter gene function. The energetics of RNA ensembles are often subtle and a subset can likely be targeted to modulate disease-associated biological processes.

Citing Articles

Fingerprinting Tertiary Structure in Complex RNAs Using Single-Molecule Correlated Chemical Probing.

Tan A, Irving P, Koehn J, Jin S, Qiu D, Weeks K Biochemistry. 2024; 63(20):2648-2657.

PMID: 39359229 PMC: 11489888. DOI: 10.1021/acs.biochem.4c00343.

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