ConSite: web-based prediction of regulatory elements using cross-species comparison

doi:10.1093/nar/gkh372

. 2004 Jul 1;32(Web Server issue):W249-52.

doi: 10.1093/nar/gkh372.

ConSite: web-based prediction of regulatory elements using cross-species comparison

Albin Sandelin¹, Wyeth W Wasserman, Boris Lenhard

Affiliations

PMID: 15215389
PMCID: PMC441510
DOI: 10.1093/nar/gkh372

ConSite: web-based prediction of regulatory elements using cross-species comparison

Albin Sandelin et al. Nucleic Acids Res. 2004.

. 2004 Jul 1;32(Web Server issue):W249-52.

doi: 10.1093/nar/gkh372.

Authors

Albin Sandelin¹, Wyeth W Wasserman, Boris Lenhard

Affiliation

¹ Center for Genomics and Bioinformatics, Karolinska Institutet, Berzelius väg 35, s-17177 Stockholm, Sweden.

PMID: 15215389
PMCID: PMC441510
DOI: 10.1093/nar/gkh372

Abstract

ConSite is a user-friendly, web-based tool for finding cis-regulatory elements in genomic sequences. Predictions are based on the integration of binding site prediction generated with high-quality transcription factor models and cross-species comparison filtering (phylogenetic footprinting). By incorporating evolutionary constraints, selectivity is increased by an order of magnitude as compared to single-sequence analysis. ConSite offers several unique features, including an interactive expert system for retrieving orthologous regulatory sequences. Programming modules and biological databases that form the foundation of the ConSite service are freely available to the research community. ConSite is available at http:/www.phylofoot.org/consite.

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Figures

**Figure 1**
ConSite analysis schema and output formats. Pairs of promoter sequences can either be submitted directly or (for human/mouse) be retrieved by an interactive search (a). Sequences are aligned and analyzed for TFBS using a set of TF models chosen by the user (b). Results can be visualized as a graphical conservation plot (c), as an annotated alignment (d) or in tabular form (e). Individual TFBS and corresponding TF model can be displayed in pop-up windows using sequence logos (f).

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References

1. Aparicio S., Morrison,A., Gould,A., Gilthorpe,J., Chaudhuri,C., Rigby,P., Krumlauf,R. and Brenner,S. (1995) Detecting conserved regulatory elements with the model genome of the Japanese puffer fish, Fugu rubripes. Proc. Natl Acad. Sci. USA, 92, 1684–1688. - PMC - PubMed
1. Bagheri-Fam S., Ferraz,C., Demaille,J., Scherer,G. and Pfeifer,D. (2001) Comparative genomics of the SOX9 region in human and Fugu rubripes: conservation of short regulatory sequence elements within large intergenic regions. Genomics, 78, 73–82. - PubMed
1. Christensen T.H., Prentice,H., Gahlmann,R. and Kedes,L. (1993) Regulation of the human cardiac/slow-twitch troponin C gene by multiple, cooperative, cell-type-specific, and MyoD-responsive elements. Mol. Cell Biol., 13, 6752–6765. - PMC - PubMed
1. Gumucio D.L., Heilstedt-Williamson,H., Gray,T.A., Tarle,S.A., Shelton,D.A., Tagle,D.A., Slightom,J.L., Goodman,M. and Collins,F.S. (1992) Phylogenetic footprinting reveals a nuclear protein which binds to silencer sequences in the human gamma and epsilon globin genes. Mol. Cell Biol., 12, 4919–4929. - PMC - PubMed
1. Wasserman W.W. and Krivan,W. (2003) In silico identification of metazoan transcriptional regulatory regions. Naturwissenschaften, 90, 156–166. - PubMed

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[1] Aparicio S., Morrison,A., Gould,A., Gilthorpe,J., Chaudhuri,C., Rigby,P., Krumlauf,R. and Brenner,S. (1995) Detecting conserved regulatory elements with the model genome of the Japanese puffer fish, Fugu rubripes. Proc. Natl Acad. Sci. USA, 92, 1684–1688. - PMC - PubMed

[2] Aparicio S., Morrison,A., Gould,A., Gilthorpe,J., Chaudhuri,C., Rigby,P., Krumlauf,R. and Brenner,S. (1995) Detecting conserved regulatory elements with the model genome of the Japanese puffer fish, Fugu rubripes. Proc. Natl Acad. Sci. USA, 92, 1684–1688. - PMC - PubMed

[3] Bagheri-Fam S., Ferraz,C., Demaille,J., Scherer,G. and Pfeifer,D. (2001) Comparative genomics of the SOX9 region in human and Fugu rubripes: conservation of short regulatory sequence elements within large intergenic regions. Genomics, 78, 73–82. - PubMed

[4] Bagheri-Fam S., Ferraz,C., Demaille,J., Scherer,G. and Pfeifer,D. (2001) Comparative genomics of the SOX9 region in human and Fugu rubripes: conservation of short regulatory sequence elements within large intergenic regions. Genomics, 78, 73–82. - PubMed

[5] Christensen T.H., Prentice,H., Gahlmann,R. and Kedes,L. (1993) Regulation of the human cardiac/slow-twitch troponin C gene by multiple, cooperative, cell-type-specific, and MyoD-responsive elements. Mol. Cell Biol., 13, 6752–6765. - PMC - PubMed

[6] Christensen T.H., Prentice,H., Gahlmann,R. and Kedes,L. (1993) Regulation of the human cardiac/slow-twitch troponin C gene by multiple, cooperative, cell-type-specific, and MyoD-responsive elements. Mol. Cell Biol., 13, 6752–6765. - PMC - PubMed

[7] Gumucio D.L., Heilstedt-Williamson,H., Gray,T.A., Tarle,S.A., Shelton,D.A., Tagle,D.A., Slightom,J.L., Goodman,M. and Collins,F.S. (1992) Phylogenetic footprinting reveals a nuclear protein which binds to silencer sequences in the human gamma and epsilon globin genes. Mol. Cell Biol., 12, 4919–4929. - PMC - PubMed

[8] Gumucio D.L., Heilstedt-Williamson,H., Gray,T.A., Tarle,S.A., Shelton,D.A., Tagle,D.A., Slightom,J.L., Goodman,M. and Collins,F.S. (1992) Phylogenetic footprinting reveals a nuclear protein which binds to silencer sequences in the human gamma and epsilon globin genes. Mol. Cell Biol., 12, 4919–4929. - PMC - PubMed

[9] Wasserman W.W. and Krivan,W. (2003) In silico identification of metazoan transcriptional regulatory regions. Naturwissenschaften, 90, 156–166. - PubMed

[10] Wasserman W.W. and Krivan,W. (2003) In silico identification of metazoan transcriptional regulatory regions. Naturwissenschaften, 90, 156–166. - PubMed

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ConSite: web-based prediction of regulatory elements using cross-species comparison

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ConSite: web-based prediction of regulatory elements using cross-species comparison

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