Fluorogenic aptamers resolve the flexibility of RNA junctions using orientation-dependent FRET

  1. Peter J Unrau1
  1. 1 Simon Fraser University;
  2. 2 NIH;
  3. 3 University of Meunster;
  4. 4 National Institutes of Health;
  5. 5 Aarhus University
  1. * Corresponding author; email: robert.trachman{at}nih.gov

Abstract

To further understand the transcriptome, new tools capable of measuring folding, interactions, and localization of RNA are needed. Although Förster resonance energy transfer (FRET) is an angle- and distance-dependent phenomenon, the majority of FRET measurements have been used to report distances, by assuming rotationally averaged donor-acceptor pairs. Angle-dependent FRET measurements have proven challenging for nucleic acids due to the difficulties in incorporating fluorophores rigidly into local substructures in a biocompatible manner. Some genetically encodable fluorescence turn-on RNA aptamer tags have the potential to orient their cognate fluorophores with respect to local RNA structure, and thus may serve to report angular-resolved FRET. Here, we use the fluorescent aptamers Broccoli and Mango-III as donor and acceptor, respectively, to measure the angular dependence of FRET. Joining the two fluorescent aptamers by a helix of variable length allowed systematic rotation of the acceptor fluorophore relative to the donor. FRET oscillated in a sinusoidal manner as a function of helix length, consistent with simulated data generated from models of oriented fluorophores separated by an inflexible helix. Analysis of the orientation-dependence of FRET allowed us to demonstrate the structural rigidification of the NiCo riboswitch upon transition metal-ion binding. This application of fluorescence turn-on aptamers opens the way to improved structural interpretation of ensemble and single-molecule FRET measurements of RNA.

Keywords

  • Received October 28, 2020.
  • Accepted December 20, 2020.

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