A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ

A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ

<p>Abstract</p> <p>Background</p> <p>Bioinformatic analyses of expression control sequences in promoters of co-expressed or functionally related genes enable the discovery of common regulatory sequence motifs that might be involved in co-ordinated gene expression. By st...

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Main Authors: Roepcke Stefan, Stahlberg Silke, Klein Holger, Schulz Marcel H, Theobald Lars, Gohlke Sabrina, Vingron Martin, Walther Diego J
Format: Article
Language:English
Published: BMC 2011-12-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/12/624
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spelling doaj-151b0d2b2e0b467a93a772f494e137b32020-11-25T02:28:17ZengBMCBMC Genomics1471-21642011-12-0112162410.1186/1471-2164-12-624A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQRoepcke StefanStahlberg SilkeKlein HolgerSchulz Marcel HTheobald LarsGohlke SabrinaVingron MartinWalther Diego J<p>Abstract</p> <p>Background</p> <p>Bioinformatic analyses of expression control sequences in promoters of co-expressed or functionally related genes enable the discovery of common regulatory sequence motifs that might be involved in co-ordinated gene expression. By studying promoter sequences of the human ribosomal protein genes we recently identified a novel highly specific Localized Tandem Sequence Motif (LTSM). In this work we sought to identify additional genes and LTSM-binding proteins to elucidate potential regulatory mechanisms.</p> <p>Results</p> <p>Genome-wide analyses allowed finding a considerable number of additional LTSM-positive genes, the products of which are involved in translation, among them, translation initiation and elongation factors, and 5S rRNA. Electromobility shift assays then showed specific signals demonstrating the binding of protein complexes to LTSM in ribosomal protein gene promoters. Pull-down assays with LTSM-containing oligonucleotides and subsequent mass spectrometric analysis identified the related multifunctional nucleotide binding proteins NonO and SFPQ in the binding complex. Functional characterization then revealed that LTSM enhances the transcriptional activity of the promoters in dependency of the distance from the transcription start site.</p> <p>Conclusions</p> <p>Our data demonstrate the power of bioinformatic analyses for the identification of biologically relevant sequence motifs. LTSM and the here found LTSM-binding proteins NonO and SFPQ were discovered through a synergistic combination of bioinformatic and biochemical methods and are regulators of the expression of a set of genes of the translational apparatus in a distance-dependent manner.</p> http://www.biomedcentral.com/1471-2164/12/624
collection DOAJ
language English
format Article
sources DOAJ
author Roepcke Stefan
Stahlberg Silke
Klein Holger
Schulz Marcel H
Theobald Lars
Gohlke Sabrina
Vingron Martin
Walther Diego J
spellingShingle Roepcke Stefan
Stahlberg Silke
Klein Holger
Schulz Marcel H
Theobald Lars
Gohlke Sabrina
Vingron Martin
Walther Diego J
A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
BMC Genomics
author_facet Roepcke Stefan
Stahlberg Silke
Klein Holger
Schulz Marcel H
Theobald Lars
Gohlke Sabrina
Vingron Martin
Walther Diego J
author_sort Roepcke Stefan
title A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
title_short A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
title_full A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
title_fullStr A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
title_full_unstemmed A tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins NonO and SFPQ
title_sort tandem sequence motif acts as a distance-dependent enhancer in a set of genes involved in translation by binding the proteins nono and sfpq
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2011-12-01
description <p>Abstract</p> <p>Background</p> <p>Bioinformatic analyses of expression control sequences in promoters of co-expressed or functionally related genes enable the discovery of common regulatory sequence motifs that might be involved in co-ordinated gene expression. By studying promoter sequences of the human ribosomal protein genes we recently identified a novel highly specific Localized Tandem Sequence Motif (LTSM). In this work we sought to identify additional genes and LTSM-binding proteins to elucidate potential regulatory mechanisms.</p> <p>Results</p> <p>Genome-wide analyses allowed finding a considerable number of additional LTSM-positive genes, the products of which are involved in translation, among them, translation initiation and elongation factors, and 5S rRNA. Electromobility shift assays then showed specific signals demonstrating the binding of protein complexes to LTSM in ribosomal protein gene promoters. Pull-down assays with LTSM-containing oligonucleotides and subsequent mass spectrometric analysis identified the related multifunctional nucleotide binding proteins NonO and SFPQ in the binding complex. Functional characterization then revealed that LTSM enhances the transcriptional activity of the promoters in dependency of the distance from the transcription start site.</p> <p>Conclusions</p> <p>Our data demonstrate the power of bioinformatic analyses for the identification of biologically relevant sequence motifs. LTSM and the here found LTSM-binding proteins NonO and SFPQ were discovered through a synergistic combination of bioinformatic and biochemical methods and are regulators of the expression of a set of genes of the translational apparatus in a distance-dependent manner.</p>
url http://www.biomedcentral.com/1471-2164/12/624
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