Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.

Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.

Yeast Npl3 is a highly abundant, nuclear-cytoplasmic shuttling, RNA-binding protein, related to metazoan SR proteins. Reported functions of Npl3 include transcription elongation, splicing and RNA 3' end processing. We used UV crosslinking and analysis of cDNA (CRAC) to map precise RNA binding s...

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Main Authors: Rebecca K Holmes, Alex C Tuck, Chenchen Zhu, Hywel R Dunn-Davies, Grzegorz Kudla, Sandra Clauder-Munster, Sander Granneman, Lars M Steinmetz, Christine Guthrie, David Tollervey
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-12-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC4687934?pdf=render
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spelling doaj-e24c2b5e4ec94d2a8f9c71541404b6f02020-11-25T01:53:32ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042015-12-011112e100573510.1371/journal.pgen.1005735Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.Rebecca K HolmesAlex C TuckChenchen ZhuHywel R Dunn-DaviesGrzegorz KudlaSandra Clauder-MunsterSander GrannemanLars M SteinmetzChristine GuthrieDavid TollerveyYeast Npl3 is a highly abundant, nuclear-cytoplasmic shuttling, RNA-binding protein, related to metazoan SR proteins. Reported functions of Npl3 include transcription elongation, splicing and RNA 3' end processing. We used UV crosslinking and analysis of cDNA (CRAC) to map precise RNA binding sites, and strand-specific tiling arrays to look at the effects of loss of Npl3 on all transcripts across the genome. We found that Npl3 binds diverse RNA species, both coding and non-coding, at sites indicative of roles in both early pre-mRNA processing and 3' end formation. Tiling arrays and RNAPII mapping data revealed 3' extended RNAPII-transcribed RNAs in the absence of Npl3, suggesting that defects in pre-mRNA packaging events result in termination readthrough. Transcription readthrough was widespread and frequently resulted in down-regulation of neighboring genes. We conclude that the absence of Npl3 results in widespread 3' extension of transcripts with pervasive effects on gene expression.http://europepmc.org/articles/PMC4687934?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Rebecca K Holmes
Alex C Tuck
Chenchen Zhu
Hywel R Dunn-Davies
Grzegorz Kudla
Sandra Clauder-Munster
Sander Granneman
Lars M Steinmetz
Christine Guthrie
David Tollervey
spellingShingle Rebecca K Holmes
Alex C Tuck
Chenchen Zhu
Hywel R Dunn-Davies
Grzegorz Kudla
Sandra Clauder-Munster
Sander Granneman
Lars M Steinmetz
Christine Guthrie
David Tollervey
Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
PLoS Genetics
author_facet Rebecca K Holmes
Alex C Tuck
Chenchen Zhu
Hywel R Dunn-Davies
Grzegorz Kudla
Sandra Clauder-Munster
Sander Granneman
Lars M Steinmetz
Christine Guthrie
David Tollervey
author_sort Rebecca K Holmes
title Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
title_short Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
title_full Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
title_fullStr Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
title_full_unstemmed Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough.
title_sort loss of the yeast sr protein npl3 alters gene expression due to transcription readthrough.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2015-12-01
description Yeast Npl3 is a highly abundant, nuclear-cytoplasmic shuttling, RNA-binding protein, related to metazoan SR proteins. Reported functions of Npl3 include transcription elongation, splicing and RNA 3' end processing. We used UV crosslinking and analysis of cDNA (CRAC) to map precise RNA binding sites, and strand-specific tiling arrays to look at the effects of loss of Npl3 on all transcripts across the genome. We found that Npl3 binds diverse RNA species, both coding and non-coding, at sites indicative of roles in both early pre-mRNA processing and 3' end formation. Tiling arrays and RNAPII mapping data revealed 3' extended RNAPII-transcribed RNAs in the absence of Npl3, suggesting that defects in pre-mRNA packaging events result in termination readthrough. Transcription readthrough was widespread and frequently resulted in down-regulation of neighboring genes. We conclude that the absence of Npl3 results in widespread 3' extension of transcripts with pervasive effects on gene expression.
url http://europepmc.org/articles/PMC4687934?pdf=render
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