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PASTAA: identifying transcription factors associated with sets of co-regulated genes

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Zeitschriftentitel: Bioinformatics
Personen und Körperschaften: Roider, Helge G., Manke, Thomas, O'Keeffe, Sean, Vingron, Martin, Haas, Stefan A.
In: Bioinformatics, 25, 2009, 4, S. 435-442
Format: E-Article
Sprache: Englisch
veröffentlicht:
Oxford University Press (OUP)
Schlagwörter:
Computational Mathematics
Computational Theory and Mathematics
Computer Science Applications
Molecular Biology
Biochemistry
Statistics and Probability
author_facet Roider, Helge G.
Manke, Thomas
O'Keeffe, Sean
Vingron, Martin
Haas, Stefan A.
Roider, Helge G.
Manke, Thomas
O'Keeffe, Sean
Vingron, Martin
Haas, Stefan A.
author Roider, Helge G.
Manke, Thomas
O'Keeffe, Sean
Vingron, Martin
Haas, Stefan A.
spellingShingle Roider, Helge G.
Manke, Thomas
O'Keeffe, Sean
Vingron, Martin
Haas, Stefan A.
Bioinformatics
PASTAA: identifying transcription factors associated with sets of co-regulated genes
Computational Mathematics
Computational Theory and Mathematics
Computer Science Applications
Molecular Biology
Biochemistry
Statistics and Probability
author_sort roider, helge g.
spelling Roider, Helge G. Manke, Thomas O'Keeffe, Sean Vingron, Martin Haas, Stefan A. 1367-4811 1367-4803 Oxford University Press (OUP) Computational Mathematics Computational Theory and Mathematics Computer Science Applications Molecular Biology Biochemistry Statistics and Probability http://dx.doi.org/10.1093/bioinformatics/btn627 <jats:title>Abstract</jats:title> <jats:p>Motivation: A major challenge in regulatory genomics is the identification of associations between functional categories of genes (e.g. tissues, metabolic pathways) and their regulating transcription factors (TFs). While, for a limited number of categories, the regulating TFs are already known, still for many functional categories the responsible factors remain to be elucidated.</jats:p> <jats:p>Results: We put forward a novel method (PASTAA) for detecting transcriptions factors associated with functional categories, which utilizes the prediction of binding affinities of a TF to promoters. This binding strength information is compared to the likelihood of membership of the corresponding genes in the functional category under study. Coherence between the two ranked datasets is seen as an indicator of association between a TF and the category. PASTAA is applied primarily to the determination of TFs driving tissue-specific expression. We show that PASTAA is capable of recovering many TFs acting tissue specifically and, in addition, provides novel associations so far not detected by alternative methods. The application of PASTAA to detect TFs involved in the regulation of tissue-specific gene expression revealed a remarkable number of experimentally supported associations. The validated success for various datasets implies that PASTAA can directly be applied for the detection of TFs associated with newly derived gene sets.</jats:p> <jats:p>Availability: The PASTAA source code as well as a corresponding web interface is freely available at http://trap.molgen.mpg.de</jats:p> <jats:p>Contact: roider@molgen.mpg.de</jats:p> <jats:p>Supplementary information: Supplementary data are available at Bioinformatics online.</jats:p> PASTAA: identifying transcription factors associated with sets of co-regulated genes Bioinformatics
doi_str_mv 10.1093/bioinformatics/btn627
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title PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_unstemmed PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_full PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_fullStr PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_full_unstemmed PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_short PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_sort pastaa: identifying transcription factors associated with sets of co-regulated genes
topic Computational Mathematics
Computational Theory and Mathematics
Computer Science Applications
Molecular Biology
Biochemistry
Statistics and Probability
url http://dx.doi.org/10.1093/bioinformatics/btn627
publishDate 2009
physical 435-442
description <jats:title>Abstract</jats:title> <jats:p>Motivation: A major challenge in regulatory genomics is the identification of associations between functional categories of genes (e.g. tissues, metabolic pathways) and their regulating transcription factors (TFs). While, for a limited number of categories, the regulating TFs are already known, still for many functional categories the responsible factors remain to be elucidated.</jats:p> <jats:p>Results: We put forward a novel method (PASTAA) for detecting transcriptions factors associated with functional categories, which utilizes the prediction of binding affinities of a TF to promoters. This binding strength information is compared to the likelihood of membership of the corresponding genes in the functional category under study. Coherence between the two ranked datasets is seen as an indicator of association between a TF and the category. PASTAA is applied primarily to the determination of TFs driving tissue-specific expression. We show that PASTAA is capable of recovering many TFs acting tissue specifically and, in addition, provides novel associations so far not detected by alternative methods. The application of PASTAA to detect TFs involved in the regulation of tissue-specific gene expression revealed a remarkable number of experimentally supported associations. The validated success for various datasets implies that PASTAA can directly be applied for the detection of TFs associated with newly derived gene sets.</jats:p> <jats:p>Availability: The PASTAA source code as well as a corresponding web interface is freely available at http://trap.molgen.mpg.de</jats:p> <jats:p>Contact:  roider@molgen.mpg.de</jats:p> <jats:p>Supplementary information:  Supplementary data are available at Bioinformatics online.</jats:p>
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author Roider, Helge G., Manke, Thomas, O'Keeffe, Sean, Vingron, Martin, Haas, Stefan A.
author_facet Roider, Helge G., Manke, Thomas, O'Keeffe, Sean, Vingron, Martin, Haas, Stefan A., Roider, Helge G., Manke, Thomas, O'Keeffe, Sean, Vingron, Martin, Haas, Stefan A.
author_sort roider, helge g.
container_issue 4
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description <jats:title>Abstract</jats:title> <jats:p>Motivation: A major challenge in regulatory genomics is the identification of associations between functional categories of genes (e.g. tissues, metabolic pathways) and their regulating transcription factors (TFs). While, for a limited number of categories, the regulating TFs are already known, still for many functional categories the responsible factors remain to be elucidated.</jats:p> <jats:p>Results: We put forward a novel method (PASTAA) for detecting transcriptions factors associated with functional categories, which utilizes the prediction of binding affinities of a TF to promoters. This binding strength information is compared to the likelihood of membership of the corresponding genes in the functional category under study. Coherence between the two ranked datasets is seen as an indicator of association between a TF and the category. PASTAA is applied primarily to the determination of TFs driving tissue-specific expression. We show that PASTAA is capable of recovering many TFs acting tissue specifically and, in addition, provides novel associations so far not detected by alternative methods. The application of PASTAA to detect TFs involved in the regulation of tissue-specific gene expression revealed a remarkable number of experimentally supported associations. The validated success for various datasets implies that PASTAA can directly be applied for the detection of TFs associated with newly derived gene sets.</jats:p> <jats:p>Availability: The PASTAA source code as well as a corresponding web interface is freely available at http://trap.molgen.mpg.de</jats:p> <jats:p>Contact:  roider@molgen.mpg.de</jats:p> <jats:p>Supplementary information:  Supplementary data are available at Bioinformatics online.</jats:p>
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spelling Roider, Helge G. Manke, Thomas O'Keeffe, Sean Vingron, Martin Haas, Stefan A. 1367-4811 1367-4803 Oxford University Press (OUP) Computational Mathematics Computational Theory and Mathematics Computer Science Applications Molecular Biology Biochemistry Statistics and Probability http://dx.doi.org/10.1093/bioinformatics/btn627 <jats:title>Abstract</jats:title> <jats:p>Motivation: A major challenge in regulatory genomics is the identification of associations between functional categories of genes (e.g. tissues, metabolic pathways) and their regulating transcription factors (TFs). While, for a limited number of categories, the regulating TFs are already known, still for many functional categories the responsible factors remain to be elucidated.</jats:p> <jats:p>Results: We put forward a novel method (PASTAA) for detecting transcriptions factors associated with functional categories, which utilizes the prediction of binding affinities of a TF to promoters. This binding strength information is compared to the likelihood of membership of the corresponding genes in the functional category under study. Coherence between the two ranked datasets is seen as an indicator of association between a TF and the category. PASTAA is applied primarily to the determination of TFs driving tissue-specific expression. We show that PASTAA is capable of recovering many TFs acting tissue specifically and, in addition, provides novel associations so far not detected by alternative methods. The application of PASTAA to detect TFs involved in the regulation of tissue-specific gene expression revealed a remarkable number of experimentally supported associations. The validated success for various datasets implies that PASTAA can directly be applied for the detection of TFs associated with newly derived gene sets.</jats:p> <jats:p>Availability: The PASTAA source code as well as a corresponding web interface is freely available at http://trap.molgen.mpg.de</jats:p> <jats:p>Contact: roider@molgen.mpg.de</jats:p> <jats:p>Supplementary information: Supplementary data are available at Bioinformatics online.</jats:p> PASTAA: identifying transcription factors associated with sets of co-regulated genes Bioinformatics
spellingShingle Roider, Helge G., Manke, Thomas, O'Keeffe, Sean, Vingron, Martin, Haas, Stefan A., Bioinformatics, PASTAA: identifying transcription factors associated with sets of co-regulated genes, Computational Mathematics, Computational Theory and Mathematics, Computer Science Applications, Molecular Biology, Biochemistry, Statistics and Probability
title PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_full PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_fullStr PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_full_unstemmed PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_short PASTAA: identifying transcription factors associated with sets of co-regulated genes
title_sort pastaa: identifying transcription factors associated with sets of co-regulated genes
title_unstemmed PASTAA: identifying transcription factors associated with sets of co-regulated genes
topic Computational Mathematics, Computational Theory and Mathematics, Computer Science Applications, Molecular Biology, Biochemistry, Statistics and Probability
url http://dx.doi.org/10.1093/bioinformatics/btn627