Comparative analysis of methods for representing and searching for transcription factor binding sites

Motivation: An important step in unravelling the transcriptional regulatory network of an organism is to identify, for each transcription factor, all of its DNA binding sites. Several approaches are commonly used in searching for a transcription factor's binding sites, including consensus seque...

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Bibliographic Details
Published in:Bioinformatics 2004-12, Vol.20 (18), p.3516-3525
Main Authors: Osada, Robert, Zaslavsky, Elena, Singh, Mona
Format: Article
Language:English
Subjects:
Algorithms
Benchmarking
Binding Sites
Biological and medical sciences
DNA, Bacterial - chemistry
DNA-Binding Proteins - chemistry
Escherichia coli
Escherichia coli - genetics
Escherichia coli - metabolism
Fundamental and applied biological sciences. Psychology
General aspects
Mathematics in biology. Statistical analysis. Models. Metrology. Data processing in biology (general aspects)
Protein Binding
Sequence Analysis, DNA - methods
Software
Software Validation
Transcription Factors - chemistry
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Summary:Motivation: An important step in unravelling the transcriptional regulatory network of an organism is to identify, for each transcription factor, all of its DNA binding sites. Several approaches are commonly used in searching for a transcription factor's binding sites, including consensus sequences and position-specific scoring matrices. In addition, methods that compute the average number of nucleotide matches between a putative site and all known sites can be employed. Such basic approaches can all be naturally extended by incorporating pairwise nucleotide dependencies and per-position information content. In this paper, we evaluate the effectiveness of these basic approaches and their extensions in finding binding sites for a transcription factor of interest without erroneously identifying other genomic sequences. Results: In cross-validation testing on a dataset of Escherichia coli transcription factors and their binding sites, we show that there are statistically significant differences in how well various methods identify transcription factor binding sites. The use of per-position information content improves the performance of all basic approaches. Furthermore, including local pairwise nucleotide dependencies within binding site models results in statistically significant performance improvements for approaches based on nucleotide matches. Based on our analysis, the best results when searching for DNA binding sites of a particular transcription factor are obtained by methods that incorporate both information content and local pairwise correlations. Availability: The software is available at http://compbio.cs.princeton.edu/bindsites
ISSN:1367-4803
1460-2059
1367-4811
DOI:10.1093/bioinformatics/bth438