RNAscClust: Clustering RNA sequences using structure conservation and graph based motifs

Milad Miladi; Alexander Junge; Fabrizio Costa; Stefan E. Seemann; Jakob Hull Havgaard; Jan Gorodkin; Rolf Backofen

doi:10.1093/bioinformatics/btx114

RNAscClust: Clustering RNA sequences using structure conservation and graph based motifs

Milad Miladi, Alexander Junge, Fabrizio Costa, Stefan E. Seemann, Jakob Hull Havgaard, Jan Gorodkin, Rolf Backofen^*

^*Corresponding author for this work

Disease Systems Biology Program

20 Citations (Scopus)

56 Downloads (Pure)

Abstract

Motivation: Clustering RNA sequences with common secondary structure is an essential step towards studying RNA function. Whereas structural RNA alignment strategies typically identify common structure for orthologous structured RNAs, clustering seeks to group paralogous RNAs based on structural similarities. However, existing approaches for clustering paralogous RNAs, do not take the compensatory base pair changes obtained from structure conservation in orthologous sequences into account. Results: Here, we present RNAscClust, the implementation of a new algorithm to cluster a set of structured RNAs taking their respective structural conservation into account. For a set of multiple structural alignments of RNA sequences, each containing a paralog sequence included in a structural alignment of its orthologs, RNAscClust computes minimum free-energy structures for each sequence using conserved base pairs as prior information for the folding. The paralogs are then clustered using a graph kernel-based strategy, which identifies common structural features. We show that the clustering accuracy clearly benefits from an increasing degree of compensatory base pair changes in the alignments.

Original language	English
Journal	Bioinformatics
Volume	33
Issue number	14
Pages (from-to)	2089-2096
Number of pages	8
ISSN	1367-4803
DOIs	https://doi.org/10.1093/bioinformatics/btx114
Publication status	Published - 2017

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RNAscClust: clustering RNA sequences using structure conservation and graph based motifsFinal published version, 426 KBLicence: CC BY-NC

Cite this

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title = "RNAscClust: Clustering RNA sequences using structure conservation and graph based motifs",

abstract = "Motivation: Clustering RNA sequences with common secondary structure is an essential step towards studying RNA function. Whereas structural RNA alignment strategies typically identify common structure for orthologous structured RNAs, clustering seeks to group paralogous RNAs based on structural similarities. However, existing approaches for clustering paralogous RNAs, do not take the compensatory base pair changes obtained from structure conservation in orthologous sequences into account. Results: Here, we present RNAscClust, the implementation of a new algorithm to cluster a set of structured RNAs taking their respective structural conservation into account. For a set of multiple structural alignments of RNA sequences, each containing a paralog sequence included in a structural alignment of its orthologs, RNAscClust computes minimum free-energy structures for each sequence using conserved base pairs as prior information for the folding. The paralogs are then clustered using a graph kernel-based strategy, which identifies common structural features. We show that the clustering accuracy clearly benefits from an increasing degree of compensatory base pair changes in the alignments.",

author = "Milad Miladi and Alexander Junge and Fabrizio Costa and Seemann, {Stefan E.} and Havgaard, {Jakob Hull} and Jan Gorodkin and Rolf Backofen",

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T2 - Clustering RNA sequences using structure conservation and graph based motifs

AU - Miladi, Milad

AU - Junge, Alexander

AU - Costa, Fabrizio

AU - Seemann, Stefan E.

AU - Havgaard, Jakob Hull

AU - Gorodkin, Jan

AU - Backofen, Rolf

PY - 2017

Y1 - 2017

N2 - Motivation: Clustering RNA sequences with common secondary structure is an essential step towards studying RNA function. Whereas structural RNA alignment strategies typically identify common structure for orthologous structured RNAs, clustering seeks to group paralogous RNAs based on structural similarities. However, existing approaches for clustering paralogous RNAs, do not take the compensatory base pair changes obtained from structure conservation in orthologous sequences into account. Results: Here, we present RNAscClust, the implementation of a new algorithm to cluster a set of structured RNAs taking their respective structural conservation into account. For a set of multiple structural alignments of RNA sequences, each containing a paralog sequence included in a structural alignment of its orthologs, RNAscClust computes minimum free-energy structures for each sequence using conserved base pairs as prior information for the folding. The paralogs are then clustered using a graph kernel-based strategy, which identifies common structural features. We show that the clustering accuracy clearly benefits from an increasing degree of compensatory base pair changes in the alignments.

AB - Motivation: Clustering RNA sequences with common secondary structure is an essential step towards studying RNA function. Whereas structural RNA alignment strategies typically identify common structure for orthologous structured RNAs, clustering seeks to group paralogous RNAs based on structural similarities. However, existing approaches for clustering paralogous RNAs, do not take the compensatory base pair changes obtained from structure conservation in orthologous sequences into account. Results: Here, we present RNAscClust, the implementation of a new algorithm to cluster a set of structured RNAs taking their respective structural conservation into account. For a set of multiple structural alignments of RNA sequences, each containing a paralog sequence included in a structural alignment of its orthologs, RNAscClust computes minimum free-energy structures for each sequence using conserved base pairs as prior information for the folding. The paralogs are then clustered using a graph kernel-based strategy, which identifies common structural features. We show that the clustering accuracy clearly benefits from an increasing degree of compensatory base pair changes in the alignments.

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RNAscClust: Clustering RNA sequences using structure conservation and graph based motifs

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