Genome-wide in Silico Identification of New Conserved and Functional Retinoic Acid Receptor Response Elements (Direct Repeats Separated by 5 bp)

The nuclear retinoic acid receptors interact with specific retinoic acid (RA) response elements (RAREs) located in the promoters of target genes to orchestrate transcriptional networks involved in cell growth and differentiation. Here we describe a genome-wide in silico analysis of consensus DR5 RAR...

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Veröffentlicht in:	The Journal of biological chemistry 2011-09, Vol.286 (38), p.33322-33334
Hauptverfasser:	Lalevée, Sébastien, Anno, Yannick N., Chatagnon, Amandine, Samarut, Eric, Poch, Olivier, Laudet, Vincent, Benoit, Gerard, Lecompte, Odile, Rochette-Egly, Cécile
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Schlagworte:	Animals Base Pairing - genetics Base Sequence Cell Line, Tumor Computational Biology - methods Computer Modeling Computer Science Conserved Sequence - genetics Evolution, Molecular Gene Expression Regulation - drug effects Gene Regulation Genome - genetics Humans Life Sciences Mice Molecular Sequence Data Nuclear Receptors Nuclear Retinoic Acid Receptors Phylogeny Protein Binding - drug effects Receptors, Retinoic Acid - genetics Repetitive Sequences, Nucleic Acid - genetics Response Elements Response Elements - genetics Retinoid Sequence Alignment Transcription Promoter Transcription Target Genes Tretinoin - pharmacology Zebrafish - genetics
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container_title	The Journal of biological chemistry
container_volume	286
creator	Lalevée, Sébastien Anno, Yannick N. Chatagnon, Amandine Samarut, Eric Poch, Olivier Laudet, Vincent Benoit, Gerard Lecompte, Odile Rochette-Egly, Cécile
description	The nuclear retinoic acid receptors interact with specific retinoic acid (RA) response elements (RAREs) located in the promoters of target genes to orchestrate transcriptional networks involved in cell growth and differentiation. Here we describe a genome-wide in silico analysis of consensus DR5 RAREs based on the recurrent RGKTSA motifs. More than 15,000 DR5 RAREs were identified and analyzed for their localization and conservation in vertebrates. We selected 138 elements located ±10 kb from transcription start sites and gene ends and conserved across more than 6 species. We also validated the functionality of these RAREs by analyzing their ability to bind retinoic acid receptors (ChIP sequencing experiments) as well as the RA regulation of the corresponding genes (RNA sequencing and quantitative real time PCR experiments). Such a strategy provided a global set of high confidence RAREs expanding the known experimentally validated RAREs repertoire associated to a series of new genes involved in cell signaling, development, and tumor suppression. Finally, the present work provides a valuable knowledge base for the analysis of a wider range of RA-target genes in different species. Retinoic acid (RA) receptors regulate gene expression through binding-specific response elements (RAREs). A collection of new DR5 RAREs located ±10 kb from TSSs and conserved among 6 vertebrates species or more has been amassed. We provide a wider knowledge base for analyzing RA target genes. The RA response of the conserved target genes differs between species and tissues.
doi_str_mv	10.1074/jbc.M111.263681
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Here we describe a genome-wide in silico analysis of consensus DR5 RAREs based on the recurrent RGKTSA motifs. More than 15,000 DR5 RAREs were identified and analyzed for their localization and conservation in vertebrates. We selected 138 elements located ±10 kb from transcription start sites and gene ends and conserved across more than 6 species. We also validated the functionality of these RAREs by analyzing their ability to bind retinoic acid receptors (ChIP sequencing experiments) as well as the RA regulation of the corresponding genes (RNA sequencing and quantitative real time PCR experiments). Such a strategy provided a global set of high confidence RAREs expanding the known experimentally validated RAREs repertoire associated to a series of new genes involved in cell signaling, development, and tumor suppression. Finally, the present work provides a valuable knowledge base for the analysis of a wider range of RA-target genes in different species. Retinoic acid (RA) receptors regulate gene expression through binding-specific response elements (RAREs). A collection of new DR5 RAREs located ±10 kb from TSSs and conserved among 6 vertebrates species or more has been amassed. We provide a wider knowledge base for analyzing RA target genes. 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Here we describe a genome-wide in silico analysis of consensus DR5 RAREs based on the recurrent RGKTSA motifs. More than 15,000 DR5 RAREs were identified and analyzed for their localization and conservation in vertebrates. We selected 138 elements located ±10 kb from transcription start sites and gene ends and conserved across more than 6 species. We also validated the functionality of these RAREs by analyzing their ability to bind retinoic acid receptors (ChIP sequencing experiments) as well as the RA regulation of the corresponding genes (RNA sequencing and quantitative real time PCR experiments). Such a strategy provided a global set of high confidence RAREs expanding the known experimentally validated RAREs repertoire associated to a series of new genes involved in cell signaling, development, and tumor suppression. Finally, the present work provides a valuable knowledge base for the analysis of a wider range of RA-target genes in different species. 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Here we describe a genome-wide in silico analysis of consensus DR5 RAREs based on the recurrent RGKTSA motifs. More than 15,000 DR5 RAREs were identified and analyzed for their localization and conservation in vertebrates. We selected 138 elements located ±10 kb from transcription start sites and gene ends and conserved across more than 6 species. We also validated the functionality of these RAREs by analyzing their ability to bind retinoic acid receptors (ChIP sequencing experiments) as well as the RA regulation of the corresponding genes (RNA sequencing and quantitative real time PCR experiments). Such a strategy provided a global set of high confidence RAREs expanding the known experimentally validated RAREs repertoire associated to a series of new genes involved in cell signaling, development, and tumor suppression. Finally, the present work provides a valuable knowledge base for the analysis of a wider range of RA-target genes in different species. Retinoic acid (RA) receptors regulate gene expression through binding-specific response elements (RAREs). A collection of new DR5 RAREs located ±10 kb from TSSs and conserved among 6 vertebrates species or more has been amassed. We provide a wider knowledge base for analyzing RA target genes. The RA response of the conserved target genes differs between species and tissues.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>21803772</pmid><doi>10.1074/jbc.M111.263681</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-7134-3217</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animals Base Pairing - genetics Base Sequence Cell Line, Tumor Computational Biology - methods Computer Modeling Computer Science Conserved Sequence - genetics Evolution, Molecular Gene Expression Regulation - drug effects Gene Regulation Genome - genetics Humans Life Sciences Mice Molecular Sequence Data Nuclear Receptors Nuclear Retinoic Acid Receptors Phylogeny Protein Binding - drug effects Receptors, Retinoic Acid - genetics Repetitive Sequences, Nucleic Acid - genetics Response Elements Response Elements - genetics Retinoid Sequence Alignment Transcription Promoter Transcription Target Genes Tretinoin - pharmacology Zebrafish - genetics
title	Genome-wide in Silico Identification of New Conserved and Functional Retinoic Acid Receptor Response Elements (Direct Repeats Separated by 5 bp)
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