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Compaction of RNA Duplexes in the Cell**

Alberto Collauto, Sören von Bülow, Dnyaneshwar B. Gophane, Subham Saha, Lukas S. Stelzl, Gerhard Hummer, Snorri Th. Sigurdsson, Thomas F. Prisner

2020Angewandte Chemie International Edition48 citationsDOIOpen Access PDF

Abstract

The structure and flexibility of RNA depends sensitively on the microenvironment. Using pulsed electron-electron double-resonance (PELDOR)/double electron-electron resonance (DEER) spectroscopy combined with advanced labeling techniques, we show that the structure of double-stranded RNA (dsRNA) changes upon internalization into Xenopus laevis oocytes. Compared to dilute solution, the dsRNA A-helix is more compact in cells. We recapitulate this compaction in a densely crowded protein solution. Atomic-resolution molecular dynamics simulations of dsRNA semi-quantitatively capture the compaction, and identify non-specific electrostatic interactions between proteins and dsRNA as a possible driver of this effect.

Topics & Concepts

RNA silencingRNAXenopusBiophysicsElectron paramagnetic resonanceHelix (gastropod)ChemistryCompactionResonance (particle physics)Nucleic acid structureCell biologyNanotechnologyPhysicsMaterials scienceBiologyNuclear magnetic resonanceBiochemistryRNA interferenceAtomic physicsGeneSnailComposite materialEcologyElectron Spin Resonance StudiesRNA regulation and diseaseRNA and protein synthesis mechanisms
Compaction of RNA Duplexes in the Cell** | Litcius