A Mathematical Analysis of RNA Structural Motifs in Viruses

A Mathematical Analysis of RNA Structural Motifs in Viruses

RNA stem-loop structures play an important role in almost every step of the viral replication cycle. In this contribution, a mathematical analysis is performed on a large dataset of RNA secondary structure elements in the coding regions of viruses by using topological indices that capture the Laplac...

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Main Authors: Alexander Churkin, Franziska Totzeck, Rami Zakh, Marina Parr, Tamir Tuller, Dmitrij Frishman, Danny Barash
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Mathematics
Subjects:
RNA graph representation
Laplacian eigenvalues
topological indices
folding energy
mutational robustness
Online Access:https://www.mdpi.com/2227-7390/9/6/585
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spelling doaj-ebe6142140624131983d08f63ac36b802021-03-11T00:01:00ZengMDPI AGMathematics2227-73902021-03-01958558510.3390/math9060585A Mathematical Analysis of RNA Structural Motifs in VirusesAlexander Churkin0Franziska Totzeck1Rami Zakh2Marina Parr3Tamir Tuller4Dmitrij Frishman5Danny Barash6Department of Software Engineering, Sami Shamoon College of Engineering, Beer-Sheva 8410501, IsraelDepartment of Bioinformatics, Wissenschaftszentrum Weihenstephan, Technische Universität München, Maximus-von-Imhof-Forum 3, D-85354 Freising, GermanyDepartment of Computer Science, Ben-Gurion University, Beer-Sheva 8410501, IsraelDepartment of Bioinformatics, Wissenschaftszentrum Weihenstephan, Technische Universität München, Maximus-von-Imhof-Forum 3, D-85354 Freising, GermanyDepartment of Biomedical Engineering, Tel-Aviv University, Tel-Aviv 6997801, IsraelDepartment of Bioinformatics, Wissenschaftszentrum Weihenstephan, Technische Universität München, Maximus-von-Imhof-Forum 3, D-85354 Freising, GermanyDepartment of Computer Science, Ben-Gurion University, Beer-Sheva 8410501, IsraelRNA stem-loop structures play an important role in almost every step of the viral replication cycle. In this contribution, a mathematical analysis is performed on a large dataset of RNA secondary structure elements in the coding regions of viruses by using topological indices that capture the Laplacian eigenvalues of the associated RNA graph representations and thereby enable structural classification, supplemented by folding energy and mutational robustness. The application of such an analysis for viral RNA structural motifs is described, being able to extract structural categories such as stem-loop structures of different sizes according to the tree-graph representation of the RNA structure, in our attempt to find novel functional motifs. While the analysis is carried on a large dataset of viral RNA structures, it can be applied more generally to other data that involve RNA secondary structures in biological agents.https://www.mdpi.com/2227-7390/9/6/585RNA graph representationLaplacian eigenvaluestopological indicesfolding energymutational robustness
collection DOAJ
language English
format Article
sources DOAJ
author Alexander Churkin
Franziska Totzeck
Rami Zakh
Marina Parr
Tamir Tuller
Dmitrij Frishman
Danny Barash
spellingShingle Alexander Churkin
Franziska Totzeck
Rami Zakh
Marina Parr
Tamir Tuller
Dmitrij Frishman
Danny Barash
A Mathematical Analysis of RNA Structural Motifs in Viruses
Mathematics
RNA graph representation
Laplacian eigenvalues
topological indices
folding energy
mutational robustness
author_facet Alexander Churkin
Franziska Totzeck
Rami Zakh
Marina Parr
Tamir Tuller
Dmitrij Frishman
Danny Barash
author_sort Alexander Churkin
title A Mathematical Analysis of RNA Structural Motifs in Viruses
title_short A Mathematical Analysis of RNA Structural Motifs in Viruses
title_full A Mathematical Analysis of RNA Structural Motifs in Viruses
title_fullStr A Mathematical Analysis of RNA Structural Motifs in Viruses
title_full_unstemmed A Mathematical Analysis of RNA Structural Motifs in Viruses
title_sort mathematical analysis of rna structural motifs in viruses
publisher MDPI AG
series Mathematics
issn 2227-7390
publishDate 2021-03-01
description RNA stem-loop structures play an important role in almost every step of the viral replication cycle. In this contribution, a mathematical analysis is performed on a large dataset of RNA secondary structure elements in the coding regions of viruses by using topological indices that capture the Laplacian eigenvalues of the associated RNA graph representations and thereby enable structural classification, supplemented by folding energy and mutational robustness. The application of such an analysis for viral RNA structural motifs is described, being able to extract structural categories such as stem-loop structures of different sizes according to the tree-graph representation of the RNA structure, in our attempt to find novel functional motifs. While the analysis is carried on a large dataset of viral RNA structures, it can be applied more generally to other data that involve RNA secondary structures in biological agents.
topic RNA graph representation
Laplacian eigenvalues
topological indices
folding energy
mutational robustness
url https://www.mdpi.com/2227-7390/9/6/585
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