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The conformational space of RNase P RNA in solution

Yun-Tzai Lee, Maximilia Frazão de Souza Degenhardt, Ilias Skeparnias, Hermann F. Degenhardt, Yuba R. Bhandari, Ping Yu, Jason R. Stagno, Lixin Fan, Jinwei Zhang, Yun‐Xing Wang

2024Nature20 citationsDOIOpen Access PDF

Abstract

Abstract RNA conformational diversity has fundamental biological roles 1–5 , but direct visualization of its full conformational space in solution has not been possible using traditional biophysical techniques. Using solution atomic force microscopy, a deep neural network and statistical analyses, we show that the ribonuclease P (RNase P) RNA adopts heterogeneous conformations consisting of a conformationally invariant core and highly flexible peripheral structural elements that sample a broad conformational space, with amplitudes as large as 20–60 Å in a multitude of directions, with very low net energy cost. Increasing Mg 2+ drives compaction and enhances enzymatic activity, probably by narrowing the conformational space. Moreover, analyses of the correlations and anticorrelations between spatial flexibility and sequence conservation suggest that the functional roles of both the structure and dynamics of key regions are embedded in the primary sequence. These findings reveal the structure–dynamics basis for the embodiment of both enzymatic precision and substrate promiscuity in the RNA component of the RNase P. Mapping the conformational space of the RNase P RNA demonstrates a new general approach to studying RNA structure and dynamics.

Topics & Concepts

RNase PRNAChemistryRibonucleaseRNase HMolecular dynamicsTransfer RNABiophysicsBiological systemPhysicsCrystallographyBiologyComputational chemistryBiochemistryGeneRNA and protein synthesis mechanismsProtein Structure and DynamicsHeat shock proteins research
The conformational space of RNase P RNA in solution | Litcius