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Literature DB >> 15860779

A benchmark of multiple sequence alignment programs upon structural RNAs.

Paul P Gardner¹, Andreas Wilm, Stefan Washietl.

Abstract

To date, few attempts have been made to benchmark the alignment algorithms upon nucleic acid sequences. Frequently, sophisticated PAM or BLOSUM like models are used to align proteins, yet equivalents are not considered for nucleic acids; instead, rather ad hoc models are generally favoured. Here, we systematically test the performance of existing alignment algorithms on structural RNAs. This work was aimed at achieving the following goals: (i) to determine conditions where it is appropriate to apply common sequence alignment methods to the structural RNA alignment problem. This indicates where and when researchers should consider augmenting the alignment process with auxiliary information, such as secondary structure and (ii) to determine which sequence alignment algorithms perform well under the broadest range of conditions. We find that sequence alignment alone, using the current algorithms, is generally inappropriate <50-60% sequence identity. Second, we note that the probabilistic method ProAlign and the aging Clustal algorithms generally outperform other sequence-based algorithms, under the broadest range of applications.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
RNA, Untranslated
RNA

Year: 2005 PMID： 15860779 PMCID： PMC1087786 DOI： 10.1093/nar/gki541

Source DB: PubMed Journal: Nucleic Acids Res ISSN： 0305-1048 Impact factor: 16.971

43 in total

A benchmark of multiple sequence alignment programs upon structural RNAs.

1. BAliBASE (Benchmark Alignment dataBASE): enhancements for repeats, transmembrane sequences and circular permutations.

2. BAliBASE: a benchmark alignment database for the evaluation of multiple alignment programs.

3. Evolutionary HMMs: a Bayesian approach to multiple alignment.

4. Expanded sequence dependence of thermodynamic parameters improves prediction of RNA secondary structure.

5. Pairwise local structural alignment of RNA sequences with sequence similarity less than 40%.

6. Fast and reliable prediction of noncoding RNAs.

7. Predicting a set of minimal free energy RNA secondary structures common to two sequences.

8. A probabilistic model for the evolution of RNA structure.

9. Accelerated probabilistic inference of RNA structure evolution.

10. A comprehensive comparison of comparative RNA structure prediction approaches.

1. LocARNA-P: accurate boundary prediction and improved detection of structural RNAs.

2. Mind the gaps: progress in progressive alignment.

3. Exploring genomic dark matter: a critical assessment of the performance of homology search methods on noncoding RNA.

4. Comparative genomics beyond sequence-based alignments: RNA structures in the ENCODE regions.

Review 5. Origin, Evolution, and Loss of Bacterial Small RNAs.

6. The RNA structure alignment ontology.

7. Analysis and classification of RNA tertiary structures.

8. Specific alignment of structured RNA: stochastic grammars and sequence annealing.

9. Prediction of interacting single-stranded RNA bases by protein-binding patterns.

10. R-PASS: A Fast Structure-based RNA Sequence Alignment Algorithm.