%0 Journal Article %A Kalli Kappel %A Kaiming Zhang %A Zhaoming Su %A Wipapat Kladwang %A Shanshan Li %A Grigore Pintilie %A Ved V. Topkar %A Ramya Rangan %A Ivan N. Zheludev %A Andrew M. Watkins %A Joseph D. Yesselman %A Wah Chiu %A Rhiju Das %T Ribosolve: Rapid determination of three-dimensional RNA-only structures %D 2019 %R 10.1101/717801 %J bioRxiv %P 717801 %X The discovery and design of biologically important RNA molecules is dramatically outpacing three-dimensional structural characterization. To address this challenge, we present Ribosolve, a hybrid method integrating moderate-resolution cryo-EM maps, chemical mapping, and Rosetta computational modeling, and demonstrate its application to thirteen previously unknown 119-to 338-nucleotide protein-free RNA-only structures: full-length Tetrahymena ribozyme, hc16 ligase with and without substrate, full-length V. cholerae and F. nucleatum glycine riboswitch aptamers with and without glycine, Mycobacterium SAM-IV riboswitch with and without S-adenosylmethionine, and computer-designed spinach-TTR-3, eterna3D-JR_1, and ATP-TTR-3 with and without AMP. Blind challenges, prospective compensatory mutagenesis, internal controls, and simulation benchmarks validate the Ribosolve models and establish that modeling convergence is quantitatively predictive of model accuracy. These results demonstrate that RNA-only 3D structure determination can be rapid and routine. %U https://www.biorxiv.org/content/biorxiv/early/2019/07/31/717801.full.pdf