Issue 27, 2024

Influence of ion and hydration atmospheres on RNA structure and dynamics: insights from advanced theoretical and computational methods

Abstract

RNA, a highly charged biopolymer composed of negatively charged phosphate groups, defies electrostatic repulsion to adopt well-defined, compact structures. Hence, the presence of positively charged metal ions is crucial not only for RNA's charge neutralization, but they also coherently decorate the ion atmosphere of RNA to stabilize its compact fold. This feature article elucidates various modes of close RNA–ion interactions, with a special emphasis on Mg2+ as an outer-sphere and inner-sphere ion. Through examples, we highlight how inner-sphere chelated Mg2+ stabilizes RNA pseudoknots, while outer-sphere ions can also exert long-range electrostatic interactions, inducing groove narrowing, coaxial helical stacking, and RNA ring formation. In addition to investigating the RNA's ion environment, we note that the RNA's hydration environment is relatively underexplored. Our study delves into its profound interplay with the structural dynamics of RNA, employing state-of-the-art atomistic simulation techniques. Through examples, we illustrate how specific ions and water molecules are associated with RNA functions, leveraging atomistic simulations to identify preferential ion binding and hydration sites. However, understanding their impact(s) on the RNA structure remains challenging due to the involvement of large length and long time scales associated with RNA's dynamic nature. Nevertheless, our contributions and recent advances in coarse-grained simulation techniques offer insights into large-scale structural changes dynamically linked to the RNA ion atmosphere. In this connection, we also review how different cutting-edge computational simulation methods provide a microscopic lens into the influence of ions and hydration on RNA structure and dynamics, elucidating distinct ion atmospheric components and specific hydration layers and their individual and collective impacts.

Graphical abstract: Influence of ion and hydration atmospheres on RNA structure and dynamics: insights from advanced theoretical and computational methods

Article information

Article type
Feature Article
Submitted
14 Dez 2023
Accepted
08 Mrz 2024
First published
19 Mrz 2024

Chem. Commun., 2024,60, 3624-3644

Influence of ion and hydration atmospheres on RNA structure and dynamics: insights from advanced theoretical and computational methods

R. Sarkar, A. Mainan and S. Roy, Chem. Commun., 2024, 60, 3624 DOI: 10.1039/D3CC06105A

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