Berlin 2024 – scientific programme
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BP: Fachverband Biologische Physik
BP 27: Single Molecule Biophysics
BP 27.6: Talk
Thursday, March 21, 2024, 10:45–11:00, H 0112
FRET-guided integrative modelling of (ribo-)nucleic acids — Fabio D. Steffen1, Felix Erichson2, and •Richard Börner2 — 1University of Zurich, Zurich, Switzerland — 2Laserinstitut Hochschule Mittweida, Mittweida University of Applied Sciences, Mittweida, Germany
The functional diversity of RNA is encoded in their innate conformational heterogeneity. The combination of single-molecule spectroscopy and computational modeling offers new opportunities to map structural transitions within ribonucleic acid ensembles. Here, we describe a framework to harmonize single-molecule FRET measurements with molecular dynamics simulations and de novo structure prediction. Using either all-atom or implicit fluorophore modeling we recreate FRET experiments in silico, visualize the underlying structural dynamics and quantify the simulated reaction coordinates. Using multiple accessible-contact volumes (multi-ACV) as a post-hoc scoring method for fragment-assembly in Rosetta FarFar2, we demonstrate that FRET effectively refines de novo RNA structure prediction without the need of explicit dye labeling in silico. We benchmark our FRET-assisted modeling approach on double-labeled DNA strands and validate it against an intrinsically dynamic Mn(II)-binding riboswitch and a Mg(II)-sensitif ribosomal RNA tertiary contact. We show that already one FRET coordinate, i. e., describing the assembly of a four-way junction and the GAAA binding to a kissing loop, allows to recapitulate the global fold of both, the riboswitch and the tertiary contact, and to significantly reduce the de novo generated structure ensemble.
Keywords: smFRET; RNA; de novo modelling; integrative modelling; MD simulation