Litcius/Paper detail

Base-Stacking Heterogeneity in RNA Resolved by Fluorescence-Detected Circular Dichroism Spectroscopy

Julia R. Widom, Janson E. Hoeher

2022The Journal of Physical Chemistry Letters10 citationsDOIOpen Access PDF

Abstract

RNA plays a critical role in many biological processes, and the structures it adopts are intimately linked to those functions. Among many factors that contribute to RNA folding, van der Waals interactions between adjacent nucleobases stabilize structures in which the bases are stacked on top of one another. Here, we utilize fluorescence-detected circular dichroism spectroscopy (FDCD) to investigate base-stacking heterogeneity in RNA labeled with the fluorescent adenine analogue 2-aminopurine (2-AP). Comparison of standard (transmission-detected) CD and FDCD spectra reveals that in dinucleotides, 2-AP fluorescence is emitted almost exclusively by unstacked molecules. In a trinucleotide, some fluorescence is emitted by a population of stacked and highly quenched molecules, but more than half originates from a minor ∼10% population of unstacked molecules. The combination of FDCD and standard CD measurements reveals the prevalence of stacked and unstacked conformational subpopulations as well as their relative fluorescence quantum yields.

Topics & Concepts

StackingFluorescenceCircular dichroismNucleobaseChemistryPopulationMoleculeRNAFluorescence spectroscopyCrystallographyvan der Waals forceSpectroscopyFolding (DSP implementation)StereochemistryBiophysicsDNABiochemistryBiologyOrganic chemistryQuantum mechanicsElectrical engineeringGeneDemographyEngineeringPhysicsSociologyDNA and Nucleic Acid ChemistryRNA and protein synthesis mechanismsProtein Structure and Dynamics