Literature DB >> 27402765

Blind tests of RNA nearest-neighbor energy prediction.

Fang-Chieh Chou1, Wipapat Kladwang1, Kalli Kappel2, Rhiju Das3.   

Abstract

The predictive modeling and design of biologically active RNA molecules requires understanding the energetic balance among their basic components. Rapid developments in computer simulation promise increasingly accurate recovery of RNA's nearest-neighbor (NN) free-energy parameters, but these methods have not been tested in predictive trials or on nonstandard nucleotides. Here, we present, to our knowledge, the first such tests through a RECCES-Rosetta (reweighting of energy-function collection with conformational ensemble sampling in Rosetta) framework that rigorously models conformational entropy, predicts previously unmeasured NN parameters, and estimates these values' systematic uncertainties. RECCES-Rosetta recovers the 10 NN parameters for Watson-Crick stacked base pairs and 32 single-nucleotide dangling-end parameters with unprecedented accuracies: rmsd of 0.28 kcal/mol and 0.41 kcal/mol, respectively. For set-aside test sets, RECCES-Rosetta gives rmsd values of 0.32 kcal/mol on eight stacked pairs involving G-U wobble pairs and 0.99 kcal/mol on seven stacked pairs involving nonstandard isocytidine-isoguanosine pairs. To more rigorously assess RECCES-Rosetta, we carried out four blind predictions for stacked pairs involving 2,6-diaminopurine-U pairs, which achieved 0.64 kcal/mol rmsd accuracy when tested by subsequent experiments. Overall, these results establish that computational methods can now blindly predict energetics of basic RNA motifs, including chemically modified variants, with consistently better than 1 kcal/mol accuracy. Systematic tests indicate that resolving the remaining discrepancies will require energy function improvements beyond simply reweighting component terms, and we propose further blind trials to test such efforts.

Entities:  

Keywords:  RNA helix; blind prediction; ensemble prediction; simulated tempering; thermodynamics

Mesh:

Substances:

Year:  2016        PMID: 27402765      PMCID: PMC4968729          DOI: 10.1073/pnas.1523335113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  41 in total

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5.  Thermodynamic characterization of naturally occurring RNA tetraloops.

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6.  Free energy profile of RNA hairpins: a molecular dynamics simulation study.

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4.  Deciphering nucleotide modification-induced structure and stability changes.

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Authors:  Zhichao Miao; Ryszard W Adamiak; Maciej Antczak; Robert T Batey; Alexander J Becka; Marcin Biesiada; Michał J Boniecki; Janusz M Bujnicki; Shi-Jie Chen; Clarence Yu Cheng; Fang-Chieh Chou; Adrian R Ferré-D'Amaré; Rhiju Das; Wayne K Dawson; Feng Ding; Nikolay V Dokholyan; Stanisław Dunin-Horkawicz; Caleb Geniesse; Kalli Kappel; Wipapat Kladwang; Andrey Krokhotin; Grzegorz E Łach; François Major; Thomas H Mann; Marcin Magnus; Katarzyna Pachulska-Wieczorek; Dinshaw J Patel; Joseph A Piccirilli; Mariusz Popenda; Katarzyna J Purzycka; Aiming Ren; Greggory M Rice; John Santalucia; Joanna Sarzynska; Marta Szachniuk; Arpit Tandon; Jeremiah J Trausch; Siqi Tian; Jian Wang; Kevin M Weeks; Benfeard Williams; Yi Xiao; Xiaojun Xu; Dong Zhang; Tomasz Zok; Eric Westhof
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6.  Blind prediction of noncanonical RNA structure at atomic accuracy.

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7.  The Rosetta All-Atom Energy Function for Macromolecular Modeling and Design.

Authors:  Rebecca F Alford; Andrew Leaver-Fay; Jeliazko R Jeliazkov; Matthew J O'Meara; Frank P DiMaio; Hahnbeom Park; Maxim V Shapovalov; P Douglas Renfrew; Vikram K Mulligan; Kalli Kappel; Jason W Labonte; Michael S Pacella; Richard Bonneau; Philip Bradley; Roland L Dunbrack; Rhiju Das; David Baker; Brian Kuhlman; Tanja Kortemme; Jeffrey J Gray
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Review 8.  Macromolecular modeling and design in Rosetta: recent methods and frameworks.

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  9 in total

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