Characterization of Binding Sites of Eukaryotic Transcription Factors

To explore the nature of eukaryotic transcription factor (TF) binding sites and determine how they differ from surrounding DNA sequences, we examined four features associated with DNA binding sites: G+C content, pattern complexity, palindromic structure, and Markov sequence ordering. Our analysis of the reg- ulatory motifs obtained from the TRANSFAC database, using yeast intergenic sequences as background, revealed that these four features show variable enrich- ment in motif sequences. For example, motif sequences were more likely to have palindromic structure than were background sequences. In addition, these fea- tures were tightly localized to the regulatory motifs, indicating that they are a property of the motif sequences themselves and are not shared by the general pro- moter “environment” in which the regulatory motifs reside. By breaking down the motif sequences according to the TF classes to which they bind, more specific associations were identified. Finally, we found that some correlations, such as G+C content enrichment, were species-specific, while others, such as complexity enrichment, were universal across the species examined. The quantitative analysis provided here should increase our understanding of protein-DNA interactions and also help facilitate the discovery of regulatory motifs through bioinformatics.