Nature Communications (May 2023)

Co-crystal structures of the fluorogenic aptamer Beetroot show that close homology may not predict similar RNA architecture

  • Luiz F. M. Passalacqua,
  • Mary R. Starich,
  • Katie A. Link,
  • Jiahui Wu,
  • Jay R. Knutson,
  • Nico Tjandra,
  • Samie R. Jaffrey,
  • Adrian R. Ferré-D’Amaré

DOI
https://doi.org/10.1038/s41467-023-38683-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Beetroot is a homodimeric in vitro selected RNA that binds and activates DFAME, a conditional fluorophore derived from GFP. It is 70% sequence-identical to the previously characterized homodimeric aptamer Corn, which binds one molecule of its cognate fluorophore DFHO at its interprotomer interface. We have now determined the Beetroot-DFAME co-crystal structure at 1.95 Å resolution, discovering that this RNA homodimer binds two molecules of the fluorophore, at sites separated by ~30 Å. In addition to this overall architectural difference, the local structures of the non-canonical, complex quadruplex cores of Beetroot and Corn are distinctly different, underscoring how subtle RNA sequence differences can give rise to unexpected structural divergence. Through structure-guided engineering, we generated a variant that has a 12-fold fluorescence activation selectivity switch toward DFHO. Beetroot and this variant form heterodimers and constitute the starting point for engineered tags whose through-space inter-fluorophore interaction could be used to monitor RNA dimerization.