Comparison of P-RnaPredict and mfold--algorithms for RNA secondary structure prediction

doi:10.1093/bioinformatics/btl043

Bioinformatics Advance Access originally published online on February 10, 2006
Bioinformatics 2006 22(8):934-942; doi:10.1093/bioinformatics/btl043

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Comparison of P-RnaPredict and mfold—algorithms for RNA secondary structure prediction

Kay C. Wiese ^* and Andrew Hendriks

School of Computing Science and InfoNet Media Centre, Simon Fraser University 15th Floor, Central City Tower, 13450 102nd Avenue, Surrey, BC, Canada V3T 5X3

^*To whom correspondence should be addressed.

Motivation: Ribonucleic acid is vital in numerous stages ofprotein synthesis; it also possesses important functional andstructural roles within the cell. The function of an RNA moleculewithin a particular organic system is principally determinedby its structure. The current physical methods available forstructure determination are time-consuming and expensive. Hence,computational methods for structure prediction are sought after.The energies involved by the formation of secondary structureelements are significantly greater than those of tertiary elements.Therefore, RNA structure prediction focuses on secondary structure.

Results: We present P-RnaPredict, a parallel evolutionary algorithmfor RNA secondary structure prediction. The speedup providedby parallelization is investigated with five sequences, anda dramatic improvement in speedup is demonstrated, especiallywith longer sequences. An evaluation of the performance of P-RnaPredictin terms of prediction accuracy is made through comparison with10 individual known structures from 3 RNA classes (5S rRNA,Group I intron 16S rRNA and 16S rRNA) and the mfold dynamicprogramming algorithm. P-RnaPredict is able to predict structureswith higher true positive base pair counts and lower false positivesthan mfold on certain sequences.

Availability: P-RnaPredict is available for non-commercial usage.Interested parties should contact Kay C. Wiese (wiese{at}cs.sfu.ca).

Contact: wiese{at}cs.sfu.ca

Received on November 4, 2005; revised on February 2, 2006; accepted on February 3, 2006

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