Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.

Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.

The TAF6δ pathway of apoptosis can dictate life versus death decisions independently of the status of p53 tumor suppressor. TAF6δ is an inducible pro-apoptotic subunit of the general RNA polymerase II (Pol II) transcription factor TFIID. Alternative splice site choice of TAF6δ has been shown to be a...

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Main Authors: Catherine Kamtchueng, Marie-Éve Stébenne, Aurélie Delannoy, Emmanuelle Wilhelm, Hélène Léger, Arndt G Benecke, Brendan Bell
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4099370?pdf=render
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spelling doaj-9a08489e2f19422498f8cf24848193912020-11-25T01:23:39ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0197e10239910.1371/journal.pone.0102399Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.Catherine KamtchuengMarie-Éve StébenneAurélie DelannoyEmmanuelle WilhelmHélène LégerArndt G BeneckeBrendan BellThe TAF6δ pathway of apoptosis can dictate life versus death decisions independently of the status of p53 tumor suppressor. TAF6δ is an inducible pro-apoptotic subunit of the general RNA polymerase II (Pol II) transcription factor TFIID. Alternative splice site choice of TAF6δ has been shown to be a pivotal event in triggering death via the TAF6δ pathway, yet nothing is currently known about the mechanisms that promote TAF6δ splicing. Furthermore the transcriptome impact of the gain of function of TAF6δ versus the loss of function of the major TAF6α splice form remains undefined. Here we employ comparative microarray analysis to show that TAF6δ drives a transcriptome profile distinct from that resulting from depletion of TAF6α. To define the cis-acting RNA elements responsible for TAF6δ alternative splicing we performed a mutational analysis of a TAF6 minigene system. The data point to several new RNA elements that can modulate TAF6δ and also reveal a role for RNA secondary structure in the selection of TAF6δ.http://europepmc.org/articles/PMC4099370?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Catherine Kamtchueng
Marie-Éve Stébenne
Aurélie Delannoy
Emmanuelle Wilhelm
Hélène Léger
Arndt G Benecke
Brendan Bell
spellingShingle Catherine Kamtchueng
Marie-Éve Stébenne
Aurélie Delannoy
Emmanuelle Wilhelm
Hélène Léger
Arndt G Benecke
Brendan Bell
Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
PLoS ONE
author_facet Catherine Kamtchueng
Marie-Éve Stébenne
Aurélie Delannoy
Emmanuelle Wilhelm
Hélène Léger
Arndt G Benecke
Brendan Bell
author_sort Catherine Kamtchueng
title Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
title_short Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
title_full Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
title_fullStr Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
title_full_unstemmed Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.
title_sort alternative splicing of taf6: downstream transcriptome impacts and upstream rna splice control elements.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description The TAF6δ pathway of apoptosis can dictate life versus death decisions independently of the status of p53 tumor suppressor. TAF6δ is an inducible pro-apoptotic subunit of the general RNA polymerase II (Pol II) transcription factor TFIID. Alternative splice site choice of TAF6δ has been shown to be a pivotal event in triggering death via the TAF6δ pathway, yet nothing is currently known about the mechanisms that promote TAF6δ splicing. Furthermore the transcriptome impact of the gain of function of TAF6δ versus the loss of function of the major TAF6α splice form remains undefined. Here we employ comparative microarray analysis to show that TAF6δ drives a transcriptome profile distinct from that resulting from depletion of TAF6α. To define the cis-acting RNA elements responsible for TAF6δ alternative splicing we performed a mutational analysis of a TAF6 minigene system. The data point to several new RNA elements that can modulate TAF6δ and also reveal a role for RNA secondary structure in the selection of TAF6δ.
url http://europepmc.org/articles/PMC4099370?pdf=render
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