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Statistical extraction of Drosophila cis-regulatory modules using exhaustive assessment of local word frequency.


ABSTRACT: Transcription regulatory regions in higher eukaryotes are often represented by cis-regulatory modules (CRM) and are responsible for the formation of specific spatial and temporal gene expression patterns. These extended, approximately 1 KB, regions are found far from coding sequences and cannot be extracted from genome on the basis of their relative position to the coding regions.To explore the feasibility of CRM extraction from a genome, we generated an original training set, containing annotated sequence data for most of the known developmental CRMs from Drosophila. Based on this set of experimental data, we developed a strategy for statistical extraction of cis-regulatory modules from the genome, using exhaustive analysis of local word frequency (LWF). To assess the performance of our analysis, we measured the correlation between predictions generated by the LWF algorithm and the distribution of conserved non-coding regions in a number of Drosophila developmental genes.In most of the cases tested, we observed high correlation (up to 0.6-0.8, measured on the entire gene locus) between the two independent techniques. We discuss computational strategies available for extraction of Drosophila CRMs and possible extensions of these methods.

SUBMITTER: Nazina AG 

PROVIDER: S-EPMC341902 | biostudies-other | 2003 Dec

REPOSITORIES: biostudies-other

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Statistical extraction of Drosophila cis-regulatory modules using exhaustive assessment of local word frequency.

Nazina Anna G AG   Papatsenko Dmitri A DA  

BMC bioinformatics 20031222


<h4>Background</h4>Transcription regulatory regions in higher eukaryotes are often represented by cis-regulatory modules (CRM) and are responsible for the formation of specific spatial and temporal gene expression patterns. These extended, approximately 1 KB, regions are found far from coding sequences and cannot be extracted from genome on the basis of their relative position to the coding regions.<h4>Results</h4>To explore the feasibility of CRM extraction from a genome, we generated an origin  ...[more]

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