Elfar Torarinsson1, Jakob H Havgaard, Jan Gorodkin. 1. Division of Genetics and Bioinformatics, IBHV and Center for Bioinformatics, University of Copenhagen, Frederiksberg C, Denmark.
Abstract
MOTIVATION: An apparent paradox in computational RNA structure prediction is that many methods, in advance, require a multiple alignment of a set of related sequences, when searching for a common structure between them. However, such a multiple alignment is hard to obtain even for few sequences with low sequence similarity without simultaneously folding and aligning them. Furthermore, it is of interest to conduct a multiple alignment of RNA sequence candidates found from searching as few as two genomic sequences. RESULTS: Here, based on the PMcomp program, we present a global multiple alignment program, foldalignM, which performs especially well on few sequences with low sequence similarity, and is comparable in performance with state of the art programs in general. In addition, it can cluster sequences based on sequence and structure similarity and output a multiple alignment for each cluster. Furthermore, preliminary results with local datasets indicate that the program is useful for post processing foldalign pairwise scans. AVAILABILITY: The program foldalignM is implemented in JAVA and is, along with some accompanying PERL scripts, available at http://foldalign.ku.dk/
MOTIVATION: An apparent paradox in computational RNA structure prediction is that many methods, in advance, require a multiple alignment of a set of related sequences, when searching for a common structure between them. However, such a multiple alignment is hard to obtain even for few sequences with low sequence similarity without simultaneously folding and aligning them. Furthermore, it is of interest to conduct a multiple alignment of RNA sequence candidates found from searching as few as two genomic sequences. RESULTS: Here, based on the PMcomp program, we present a global multiple alignment program, foldalignM, which performs especially well on few sequences with low sequence similarity, and is comparable in performance with state of the art programs in general. In addition, it can cluster sequences based on sequence and structure similarity and output a multiple alignment for each cluster. Furthermore, preliminary results with local datasets indicate that the program is useful for post processing foldalign pairwise scans. AVAILABILITY: The program foldalignM is implemented in JAVA and is, along with some accompanying PERL scripts, available at http://foldalign.ku.dk/
Authors: Elfar Torarinsson; Zizhen Yao; Eric D Wiklund; Jesper B Bramsen; Claus Hansen; Jørgen Kjems; Niels Tommerup; Walter L Ruzzo; Jan Gorodkin Journal: Genome Res Date: 2007-12-20 Impact factor: 9.043
Authors: Ebbe S Andersen; Allan Lind-Thomsen; Bjarne Knudsen; Susie E Kristensen; Jakob H Havgaard; Elfar Torarinsson; Niels Larsen; Christian Zwieb; Peter Sestoft; Jørgen Kjems; Jan Gorodkin Journal: RNA Date: 2007-09-05 Impact factor: 4.942
Authors: Roman R Stocsits; Harald Letsch; Jana Hertel; Bernhard Misof; Peter F Stadler Journal: Nucleic Acids Res Date: 2009-09-01 Impact factor: 16.971