In addition to protein coding genes a substantial proportion of mammalian genomes are transcribed. However, most transcriptome studies investigate steady-state mRNA levels, ignoring a considerable fraction of the transcribed genome. In addition, steady-state mRNA levels are influenced by both transcriptional and posttranscriptional mechanisms, and thus do not provide a clear picture of transcriptional output. Here, using deep sequencing of nuclear RNAs (nucRNA-Seq) in parallel with chromatin immunoprecipitation sequencing (ChIP-Seq) of active RNA polymerase II, we compared the nuclear transcriptome of mouse anemic spleen erythroid cells with polymerase occupancy on a genome-wide scale. We demonstrate that unspliced transcripts quantified by nucRNA-seq correlate with primary transcript frequencies measured by RNA FISH, but differ from steady-state mRNA levels measured by poly(A)-enriched RNA-seq. Highly expressed protein coding genes showed good correlation between RNAPII occupancy and transcriptional output; however, genome-wide we observed a poor correlation between transcriptional output and RNAPII association. This poor correlation is due to intergenic regions associated with RNAPII which correspond with transcription factor bound regulatory regions and a group of stable, nuclear-retained long non-coding transcripts. In conclusion, sequencing the nuclear transcriptome provides an opportunity to investigate the transcriptional landscape in a given cell type through quantification of unspliced primary transcripts and the identification of nuclear-retained long non-coding RNAs

Chakalova, Lyubomira

Chen, Chih-Yu

Clay, Ieuan

Eskiw, Christopher H

Fraser, Peter

Mitchell, Jennifer A

Moir, Catherine A

Nagano, Takashi

Schoenfelder, Stefan

Umlauf, David

PLoS ONE

English

PubMed

Jennifer A. Mitchell

Ieuan Clay

David Umlauf

Chih-yu Chen

Catherine A. Moir

Christopher H. Eskiw

Stefan Schoenfelder

Lyubomira Chakalova

Takashi Nagano

Peter Fraser

Crossref

Nuclear RNA Sequencing of the Mouse Erythroid Cell Transcriptome

Jennifer A Mitchell

Chih-Yu Chen

Catherine A Moir

Christopher H Eskiw

Directory of Open Access Journals

Nuclear RNA sequencing of the mouse erythroid cell transcriptome.

Copyright @ 2012 The Authors. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.In addition to protein coding genes a substantial proportion of mammalian genomes are transcribed. However, most transcriptome studies investigate steady-state mRNA levels, ignoring a considerable fraction of the transcribed genome. In addition, steady-state mRNA levels are influenced by both transcriptional and posttranscriptional mechanisms, and thus do not provide a clear picture of transcriptional output. Here, using deep sequencing of nuclear RNAs (nucRNA-Seq) in parallel with chromatin immunoprecipitation sequencing (ChIP-Seq) of active RNA polymerase II, we compared the nuclear transcriptome of mouse anemic spleen erythroid cells with polymerase occupancy on a genome-wide scale. We demonstrate that unspliced transcripts quantified by nucRNA-seq correlate with primary transcript frequencies measured by RNA FISH, but differ from steady-state mRNA levels measured by poly(A)-enriched RNA-seq. Highly expressed protein coding genes showed good correlation between RNAPII occupancy and transcriptional output; however, genome-wide we observed a poor correlation between transcriptional output and RNAPII association. This poor correlation is due to intergenic regions associated with RNAPII which correspond with transcription factor bound regulatory regions and a group of stable, nuclear-retained long non-coding transcripts. In conclusion, sequencing the nuclear transcriptome provides an opportunity to investigate the transcriptional landscape in a given cell type through quantification of unspliced primary transcripts and the identification of nuclear-retained long non-coding RNAs.This work was supported by the Medical Research Council and the Biotechnology and Biological Sciences Research Council, UK (operating grants held by PF) and the Natural Sciences and Engineering Research Council of Canada (Discovery Grant held by JAM). DU was supported by an EMBO fellowship, and CYC was supported in part by an Ontario Graduate Scholarship. The ENCODE project is funded by the National Human Genome Research Institute, National Institutes of Health, Bethesda, MD, USA

Mitchell, JA

Clay, I

Umlauf, D

Chen, CY

Moir, CA

Eskiw, CH

Schoenfelder, S

Chakalova, L

Nagano, T

Fraser, P

Brunel University Research Archive

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Nuclear RNA sequencing of the mouse erythroid cell transcriptome

Apollo (Cambridge)

<div><p>In addition to protein coding genes a substantial proportion of mammalian genomes are transcribed. However, most transcriptome studies investigate steady-state mRNA levels, ignoring a considerable fraction of the transcribed genome. In addition, steady-state mRNA levels are influenced by both transcriptional and posttranscriptional mechanisms, and thus do not provide a clear picture of transcriptional output. Here, using deep sequencing of nuclear RNAs (nucRNA-Seq) in parallel with chromatin immunoprecipitation sequencing (ChIP-Seq) of active RNA polymerase II, we compared the nuclear transcriptome of mouse anemic spleen erythroid cells with polymerase occupancy on a genome-wide scale. We demonstrate that unspliced transcripts quantified by nucRNA-seq correlate with primary transcript frequencies measured by RNA FISH, but differ from steady-state mRNA levels measured by poly(A)-enriched RNA-seq. Highly expressed protein coding genes showed good correlation between RNAPII occupancy and transcriptional output; however, genome-wide we observed a poor correlation between transcriptional output and RNAPII association. This poor correlation is due to intergenic regions associated with RNAPII which correspond with transcription factor bound regulatory regions and a group of stable, nuclear-retained long non-coding transcripts. In conclusion, sequencing the nuclear transcriptome provides an opportunity to investigate the transcriptional landscape in a given cell type through quantification of unspliced primary transcripts and the identification of nuclear-retained long non-coding RNAs.</p> </div

Jennifer A. Mitchell (32136)

Ieuan Clay (115922)

David Umlauf (115924)

Chih-yu Chen (4730856)

Catherine A. Moir (115926)

Christopher H. Eskiw (115928)

Stefan Schoenfelder (115930)

Lyubomira Chakalova (23035)

Takashi Nagano (115932)

Peter Fraser (32141)

FigShare

https://www.repository.cam.ac.uk/bitstream/1810/294639/1/Nuclear%20RNA%20sequencing%20of%20the%20mouse%20erythroid%20cell%20transcriptome.pdf

Nuclear RNA sequencing of the mouse erythroid cell transcriptome.

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Directory of Open Access Journals

Brunel University Research Archive

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