Semiautomated improvement of RNA alignments

Ebbe Sloth Andersen; Allan Lind-Thomsen; Bjarne Knudsen; Susie E. Kristensen; Jakob Hull Havgaard; Elfar Torarinsson; Niels Larsen; Christian Zwieb; Peter Sestoft; Jørgen Kjems; Jan Gorodkin

doi:10.1261/rna.215407

Semiautomated improvement of RNA alignments

Ebbe Sloth Andersen, Allan Lind-Thomsen, Bjarne Knudsen, Susie E. Kristensen, Jakob Hull Havgaard, Elfar Torarinsson, Niels Larsen, Christian Zwieb, Peter Sestoft, Jørgen Kjems, Jan Gorodkin

35 Citationer (Scopus)

Abstract

We have developed a semiautomated RNA sequence editor (SARSE) that integrates tools for analyzing RNA alignments. The editor highlights different properties of the alignment by color, and its integrated analysis tools prevent the introduction of errors when doing alignment editing. SARSE readily connects to external tools to provide a flexible semiautomatic editing environment. A new method, Pcluster, is introduced for dividing the sequences of an RNA alignment into subgroups with secondary structure differences. Pcluster was used to evaluate 574 seed alignments obtained from the Rfam database and we identified 71 alignments with significant prediction of inconsistent base pairs and 102 alignments with significant prediction of novel base pairs. Four RNA families were used to illustrate how SARSE can be used to manually or automatically correct the inconsistent base pairs detected by Pcluster: the mir-399 RNA, vertebrate telomase RNA (vert-TR), bacterial transfer-messenger RNA (tmRNA), and the signal recognition particle (SRP) RNA. The general use of the method is illustrated by the ability to accommodate pseudoknots and handle even large and divergent RNA families. The open architecture of the SARSE editor makes it a flexible tool to improve all RNA alignments with relatively little human intervention. Online documentation and software are available at (http://sarse.ku.dk).

Originalsprog	Engelsk
Tidsskrift	RNA: A publication of the RNA Society
Vol/bind	13
Udgave nummer	11
Sider (fra-til)	1850-1859
Antal sider	10
ISSN	1355-8382
DOI	https://doi.org/10.1261/rna.215407
Status	Udgivet - 2007

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title = "Semiautomated improvement of RNA alignments",

abstract = "We have developed a semiautomated RNA sequence editor (SARSE) that integrates tools for analyzing RNA alignments. The editor highlights different properties of the alignment by color, and its integrated analysis tools prevent the introduction of errors when doing alignment editing. SARSE readily connects to external tools to provide a flexible semiautomatic editing environment. A new method, Pcluster, is introduced for dividing the sequences of an RNA alignment into subgroups with secondary structure differences. Pcluster was used to evaluate 574 seed alignments obtained from the Rfam database and we identified 71 alignments with significant prediction of inconsistent base pairs and 102 alignments with significant prediction of novel base pairs. Four RNA families were used to illustrate how SARSE can be used to manually or automatically correct the inconsistent base pairs detected by Pcluster: the mir-399 RNA, vertebrate telomase RNA (vert-TR), bacterial transfer-messenger RNA (tmRNA), and the signal recognition particle (SRP) RNA. The general use of the method is illustrated by the ability to accommodate pseudoknots and handle even large and divergent RNA families. The open architecture of the SARSE editor makes it a flexible tool to improve all RNA alignments with relatively little human intervention. Online documentation and software are available at (http://sarse.ku.dk).",

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author = "Andersen, {Ebbe Sloth} and Allan Lind-Thomsen and Bjarne Knudsen and Kristensen, {Susie E.} and Havgaard, {Jakob Hull} and Elfar Torarinsson and Niels Larsen and Christian Zwieb and Peter Sestoft and J{\o}rgen Kjems and Jan Gorodkin",

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TY - JOUR

T1 - Semiautomated improvement of RNA alignments

AU - Andersen, Ebbe Sloth

AU - Lind-Thomsen, Allan

AU - Knudsen, Bjarne

AU - Kristensen, Susie E.

AU - Havgaard, Jakob Hull

AU - Torarinsson, Elfar

AU - Larsen, Niels

AU - Zwieb, Christian

AU - Sestoft, Peter

AU - Kjems, Jørgen

AU - Gorodkin, Jan

PY - 2007

Y1 - 2007

N2 - We have developed a semiautomated RNA sequence editor (SARSE) that integrates tools for analyzing RNA alignments. The editor highlights different properties of the alignment by color, and its integrated analysis tools prevent the introduction of errors when doing alignment editing. SARSE readily connects to external tools to provide a flexible semiautomatic editing environment. A new method, Pcluster, is introduced for dividing the sequences of an RNA alignment into subgroups with secondary structure differences. Pcluster was used to evaluate 574 seed alignments obtained from the Rfam database and we identified 71 alignments with significant prediction of inconsistent base pairs and 102 alignments with significant prediction of novel base pairs. Four RNA families were used to illustrate how SARSE can be used to manually or automatically correct the inconsistent base pairs detected by Pcluster: the mir-399 RNA, vertebrate telomase RNA (vert-TR), bacterial transfer-messenger RNA (tmRNA), and the signal recognition particle (SRP) RNA. The general use of the method is illustrated by the ability to accommodate pseudoknots and handle even large and divergent RNA families. The open architecture of the SARSE editor makes it a flexible tool to improve all RNA alignments with relatively little human intervention. Online documentation and software are available at (http://sarse.ku.dk).

AB - We have developed a semiautomated RNA sequence editor (SARSE) that integrates tools for analyzing RNA alignments. The editor highlights different properties of the alignment by color, and its integrated analysis tools prevent the introduction of errors when doing alignment editing. SARSE readily connects to external tools to provide a flexible semiautomatic editing environment. A new method, Pcluster, is introduced for dividing the sequences of an RNA alignment into subgroups with secondary structure differences. Pcluster was used to evaluate 574 seed alignments obtained from the Rfam database and we identified 71 alignments with significant prediction of inconsistent base pairs and 102 alignments with significant prediction of novel base pairs. Four RNA families were used to illustrate how SARSE can be used to manually or automatically correct the inconsistent base pairs detected by Pcluster: the mir-399 RNA, vertebrate telomase RNA (vert-TR), bacterial transfer-messenger RNA (tmRNA), and the signal recognition particle (SRP) RNA. The general use of the method is illustrated by the ability to accommodate pseudoknots and handle even large and divergent RNA families. The open architecture of the SARSE editor makes it a flexible tool to improve all RNA alignments with relatively little human intervention. Online documentation and software are available at (http://sarse.ku.dk).

KW - Former LIFE faculty

KW - RNA structural alignment

KW - RNA secondary structure

KW - SARSE

U2 - 10.1261/rna.215407

DO - 10.1261/rna.215407

M3 - Journal article

C2 - 17804647

SN - 1355-8382

VL - 13

SP - 1850

EP - 1859

JO - RNA

JF - RNA

IS - 11

ER -

Semiautomated improvement of RNA alignments

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