Literature DB >> 32531203

FARFAR2: Improved De Novo Rosetta Prediction of Complex Global RNA Folds.

Andrew Martin Watkins1, Ramya Rangan2, Rhiju Das3.   

Abstract

Predicting RNA three-dimensional structures from sequence could accelerate understanding of the growing number of RNA molecules being discovered across biology. Rosetta's Fragment Assembly of RNA with Full-Atom Refinement (FARFAR) has shown promise in community-wide blind RNA-Puzzle trials, but lack of a systematic and automated benchmark has left unclear what limits FARFAR performance. Here, we benchmark FARFAR2, an algorithm integrating RNA-Puzzle-inspired innovations with updated fragment libraries and helix modeling. In 16 of 21 RNA-Puzzles revisited without experimental data or expert intervention, FARFAR2 recovers native-like structures more accurate than models submitted during the RNA-Puzzles trials. Remaining bottlenecks include conformational sampling for >80-nucleotide problems and scoring function limitations more generally. Supporting these conclusions, preregistered blind models for adenovirus VA-I RNA and five riboswitch complexes predicted native-like folds with 3- to 14 Å root-mean-square deviation accuracies. We present a FARFAR2 webserver and three large model archives (FARFAR2-Classics, FARFAR2-Motifs, and FARFAR2-Puzzles) to guide future applications and advances.
Copyright © 2020 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  RNA; blind prediction; fragment assembly; homology modeling; structure prediction

Mesh:

Year:  2020        PMID: 32531203      PMCID: PMC7415647          DOI: 10.1016/j.str.2020.05.011

Source DB:  PubMed          Journal:  Structure        ISSN: 0969-2126            Impact factor:   5.006


  81 in total

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2.  Structure of the parallel duplex of poly(A) RNA: evaluation of a 50 year-old prediction.

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3.  Ab initio RNA folding by discrete molecular dynamics: from structure prediction to folding mechanisms.

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Journal:  RNA       Date:  2008-05-02       Impact factor: 4.942

4.  Consistent global structures of complex RNA states through multidimensional chemical mapping.

Authors:  Clarence Yu Cheng; Fang-Chieh Chou; Wipapat Kladwang; Siqi Tian; Pablo Cordero; Rhiju Das
Journal:  Elife       Date:  2015-06-02       Impact factor: 8.140

5.  Sampling Native-like Structures of RNA-Protein Complexes through Rosetta Folding and Docking.

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Journal:  Structure       Date:  2018-11-08       Impact factor: 5.006

6.  Optimization of RNA 3D structure prediction using evolutionary restraints of nucleotide-nucleotide interactions from direct coupling analysis.

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Journal:  Nucleic Acids Res       Date:  2017-06-20       Impact factor: 16.971

7.  Atomic accuracy in predicting and designing noncanonical RNA structure.

Authors:  Rhiju Das; John Karanicolas; David Baker
Journal:  Nat Methods       Date:  2010-02-28       Impact factor: 28.547

8.  Automated 3D structure composition for large RNAs.

Authors:  Mariusz Popenda; Marta Szachniuk; Maciej Antczak; Katarzyna J Purzycka; Piotr Lukasiak; Natalia Bartol; Jacek Blazewicz; Ryszard W Adamiak
Journal:  Nucleic Acids Res       Date:  2012-04-26       Impact factor: 16.971

9.  Structure-based insights into self-cleavage by a four-way junctional twister-sister ribozyme.

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Journal:  Nat Commun       Date:  2017-10-30       Impact factor: 14.919

10.  RNA-Puzzles toolkit: a computational resource of RNA 3D structure benchmark datasets, structure manipulation, and evaluation tools.

Authors:  Marcin Magnus; Maciej Antczak; Tomasz Zok; Jakub Wiedemann; Piotr Lukasiak; Yang Cao; Janusz M Bujnicki; Eric Westhof; Marta Szachniuk; Zhichao Miao
Journal:  Nucleic Acids Res       Date:  2020-01-24       Impact factor: 16.971
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  26 in total

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2.  FebRNA: An automated fragment-ensemble-based model for building RNA 3D structures.

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5.  rna-tools.online: a Swiss army knife for RNA 3D structure modeling workflow.

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7.  Pairing a high-resolution statistical potential with a nucleobase-centric sampling algorithm for improving RNA model refinement.

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8.  Cryo-EM and antisense targeting of the 28-kDa frameshift stimulation element from the SARS-CoV-2 RNA genome.

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9.  Supramolecular Cylinders Target Bulge Structures in the 5' UTR of the RNA Genome of SARS-CoV-2 and Inhibit Viral Replication*.

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Review 10.  Developments in solution-state NMR yield broader and deeper views of the dynamic ensembles of nucleic acids.

Authors:  Bei Liu; Honglue Shi; Hashim M Al-Hashimi
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