RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures

RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures

Abstract Background Computational RNA 3D structure prediction and modeling are rising as complementary approaches to high-resolution experimental techniques for structure determination. They often apply to substitute or complement them. Recently, researchers’ interests have directed towards in silic...

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Main Authors: Maciej Antczak, Tomasz Zok, Maciej Osowiecki, Mariusz Popenda, Ryszard W. Adamiak, Marta Szachniuk
Format: Article
Language:English
Published: BMC 2018-08-01
Series:BMC Bioinformatics
Subjects:
RNA 3D structure
Nucleoside modeling
3D structure refinement
Online Access:http://link.springer.com/article/10.1186/s12859-018-2317-9
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spelling doaj-7477060bad8d4e9681d2bb08e0a453dc2020-11-25T00:13:43ZengBMCBMC Bioinformatics1471-21052018-08-0119111110.1186/s12859-018-2317-9RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structuresMaciej Antczak0Tomasz Zok1Maciej Osowiecki2Mariusz Popenda3Ryszard W. Adamiak4Marta Szachniuk5Institute of Computing Science & European Centre for Bioinformatics and Genomics, Poznan University of TechnologyInstitute of Computing Science & European Centre for Bioinformatics and Genomics, Poznan University of TechnologyDepartment of Biology, Adam Mickiewicz UniversityInstitute of Bioorganic Chemistry, Polish Academy of SciencesInstitute of Computing Science & European Centre for Bioinformatics and Genomics, Poznan University of TechnologyInstitute of Computing Science & European Centre for Bioinformatics and Genomics, Poznan University of TechnologyAbstract Background Computational RNA 3D structure prediction and modeling are rising as complementary approaches to high-resolution experimental techniques for structure determination. They often apply to substitute or complement them. Recently, researchers’ interests have directed towards in silico methods to fit, remodel and refine RNA tertiary structure models. Their power lies in a problem-specific exploration of RNA conformational space and efficient optimization procedures. The aim is to improve the accuracy of models obtained either computationally or experimentally. Results Here, we present RNAfitme, a versatile webserver tool for remodeling of nucleobase- and nucleoside residue conformations in the fixed-backbone RNA 3D structures. Our approach makes use of dedicated libraries that define RNA conformational space. They have been built upon torsional angle characteristics of PDB-deposited RNA structures. RNAfitme can be applied to reconstruct full-atom model of RNA from its backbone; remodel user-selected nucleobase/nucleoside residues in a given RNA structure; predict RNA 3D structure based on the sequence and the template of a homologous molecule of the same size; refine RNA 3D model by reducing steric clashes indicated during structure quality assessment. RNAfitme is a publicly available tool with an intuitive interface. It is freely accessible at http://rnafitme.cs.put.poznan.pl/ Conclusions RNAfitme has been applied in various RNA 3D remodeling scenarios for several types of input data. Computational experiments proved its efficiency, accuracy, and usefulness in the processing of RNAs of any size. Fidelity of RNAfitme predictions has been thoroughly tested for RNA 3D structures determined experimentally and modeled in silico.http://link.springer.com/article/10.1186/s12859-018-2317-9RNA 3D structureNucleoside modeling3D structure refinement
collection DOAJ
language English
format Article
sources DOAJ
author Maciej Antczak
Tomasz Zok
Maciej Osowiecki
Mariusz Popenda
Ryszard W. Adamiak
Marta Szachniuk
spellingShingle Maciej Antczak
Tomasz Zok
Maciej Osowiecki
Mariusz Popenda
Ryszard W. Adamiak
Marta Szachniuk
RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
BMC Bioinformatics
RNA 3D structure
Nucleoside modeling
3D structure refinement
author_facet Maciej Antczak
Tomasz Zok
Maciej Osowiecki
Mariusz Popenda
Ryszard W. Adamiak
Marta Szachniuk
author_sort Maciej Antczak
title RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
title_short RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
title_full RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
title_fullStr RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
title_full_unstemmed RNAfitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone RNA structures
title_sort rnafitme: a webserver for modeling nucleobase and nucleoside residue conformation in fixed-backbone rna structures
publisher BMC
series BMC Bioinformatics
issn 1471-2105
publishDate 2018-08-01
description Abstract Background Computational RNA 3D structure prediction and modeling are rising as complementary approaches to high-resolution experimental techniques for structure determination. They often apply to substitute or complement them. Recently, researchers’ interests have directed towards in silico methods to fit, remodel and refine RNA tertiary structure models. Their power lies in a problem-specific exploration of RNA conformational space and efficient optimization procedures. The aim is to improve the accuracy of models obtained either computationally or experimentally. Results Here, we present RNAfitme, a versatile webserver tool for remodeling of nucleobase- and nucleoside residue conformations in the fixed-backbone RNA 3D structures. Our approach makes use of dedicated libraries that define RNA conformational space. They have been built upon torsional angle characteristics of PDB-deposited RNA structures. RNAfitme can be applied to reconstruct full-atom model of RNA from its backbone; remodel user-selected nucleobase/nucleoside residues in a given RNA structure; predict RNA 3D structure based on the sequence and the template of a homologous molecule of the same size; refine RNA 3D model by reducing steric clashes indicated during structure quality assessment. RNAfitme is a publicly available tool with an intuitive interface. It is freely accessible at http://rnafitme.cs.put.poznan.pl/ Conclusions RNAfitme has been applied in various RNA 3D remodeling scenarios for several types of input data. Computational experiments proved its efficiency, accuracy, and usefulness in the processing of RNAs of any size. Fidelity of RNAfitme predictions has been thoroughly tested for RNA 3D structures determined experimentally and modeled in silico.
topic RNA 3D structure
Nucleoside modeling
3D structure refinement
url http://link.springer.com/article/10.1186/s12859-018-2317-9
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