A transcriptional sketch of a primary human breast cancer by 454 deep sequencing

A transcriptional sketch of a primary human breast cancer by 454 deep sequencing

<p>Abstract</p> <p>Background</p> <p>The cancer transcriptome is difficult to explore due to the heterogeneity of quantitative and qualitative changes in gene expression linked to the disease status. An increasing number of "unconventional" transcripts, such a...

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Main Authors: Pesole Graziano, Mignone Flavio, Callari Maurizio, Bonnal Raoul J, Askarian-Amiri Marjan, Rizzi Ermanno, Taft Ryan J, Croft Larry J, Soldà Giulia, Kim Namshin, Pelucchi Paride, Iacono Michele, Guffanti Alessandro, Bertalot Giovanni, Bernardi Luigi, Albertini Alberto, Lee Christopher, Mattick John S, Zucchi Ileana, De Bellis Gianluca
Format: Article
Language:English
Published: BMC 2009-04-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/10/163
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spelling doaj-ee26970694194d49bf871f0ccca860ab2020-11-25T00:23:23ZengBMCBMC Genomics1471-21642009-04-0110116310.1186/1471-2164-10-163A transcriptional sketch of a primary human breast cancer by 454 deep sequencingPesole GrazianoMignone FlavioCallari MaurizioBonnal Raoul JAskarian-Amiri MarjanRizzi ErmannoTaft Ryan JCroft Larry JSoldà GiuliaKim NamshinPelucchi ParideIacono MicheleGuffanti AlessandroBertalot GiovanniBernardi LuigiAlbertini AlbertoLee ChristopherMattick John SZucchi IleanaDe Bellis Gianluca<p>Abstract</p> <p>Background</p> <p>The cancer transcriptome is difficult to explore due to the heterogeneity of quantitative and qualitative changes in gene expression linked to the disease status. An increasing number of "unconventional" transcripts, such as novel isoforms, non-coding RNAs, somatic gene fusions and deletions have been associated with the tumoral state. Massively parallel sequencing techniques provide a framework for exploring the transcriptional complexity inherent to cancer with a limited laboratory and financial effort. We developed a deep sequencing and bioinformatics analysis protocol to investigate the molecular composition of a breast cancer poly(A)<sup>+ </sup>transcriptome. This method utilizes a cDNA library normalization step to diminish the representation of highly expressed transcripts and biology-oriented bioinformatic analyses to facilitate detection of rare and novel transcripts.</p> <p>Results</p> <p>We analyzed over 132,000 Roche 454 high-confidence deep sequencing reads from a primary human lobular breast cancer tissue specimen, and detected a range of unusual transcriptional events that were subsequently validated by RT-PCR in additional eight primary human breast cancer samples. We identified and validated one deletion, two novel ncRNAs (one intergenic and one intragenic), ten previously unknown or rare transcript isoforms and a novel gene fusion specific to a single primary tissue sample. We also explored the non-protein-coding portion of the breast cancer transcriptome, identifying thousands of novel non-coding transcripts and more than three hundred reads corresponding to the non-coding RNA <it>MALAT1</it>, which is highly expressed in many human carcinomas.</p> <p>Conclusion</p> <p>Our results demonstrate that combining 454 deep sequencing with a normalization step and careful bioinformatic analysis facilitates the discovery and quantification of rare transcripts or ncRNAs, and can be used as a qualitative tool to characterize transcriptome complexity, revealing many hitherto unknown transcripts, splice isoforms, gene fusion events and ncRNAs, even at a relatively low sequence sampling.</p> http://www.biomedcentral.com/1471-2164/10/163
collection DOAJ
language English
format Article
sources DOAJ
author Pesole Graziano
Mignone Flavio
Callari Maurizio
Bonnal Raoul J
Askarian-Amiri Marjan
Rizzi Ermanno
Taft Ryan J
Croft Larry J
Soldà Giulia
Kim Namshin
Pelucchi Paride
Iacono Michele
Guffanti Alessandro
Bertalot Giovanni
Bernardi Luigi
Albertini Alberto
Lee Christopher
Mattick John S
Zucchi Ileana
De Bellis Gianluca
spellingShingle Pesole Graziano
Mignone Flavio
Callari Maurizio
Bonnal Raoul J
Askarian-Amiri Marjan
Rizzi Ermanno
Taft Ryan J
Croft Larry J
Soldà Giulia
Kim Namshin
Pelucchi Paride
Iacono Michele
Guffanti Alessandro
Bertalot Giovanni
Bernardi Luigi
Albertini Alberto
Lee Christopher
Mattick John S
Zucchi Ileana
De Bellis Gianluca
A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
BMC Genomics
author_facet Pesole Graziano
Mignone Flavio
Callari Maurizio
Bonnal Raoul J
Askarian-Amiri Marjan
Rizzi Ermanno
Taft Ryan J
Croft Larry J
Soldà Giulia
Kim Namshin
Pelucchi Paride
Iacono Michele
Guffanti Alessandro
Bertalot Giovanni
Bernardi Luigi
Albertini Alberto
Lee Christopher
Mattick John S
Zucchi Ileana
De Bellis Gianluca
author_sort Pesole Graziano
title A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
title_short A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
title_full A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
title_fullStr A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
title_full_unstemmed A transcriptional sketch of a primary human breast cancer by 454 deep sequencing
title_sort transcriptional sketch of a primary human breast cancer by 454 deep sequencing
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2009-04-01
description <p>Abstract</p> <p>Background</p> <p>The cancer transcriptome is difficult to explore due to the heterogeneity of quantitative and qualitative changes in gene expression linked to the disease status. An increasing number of "unconventional" transcripts, such as novel isoforms, non-coding RNAs, somatic gene fusions and deletions have been associated with the tumoral state. Massively parallel sequencing techniques provide a framework for exploring the transcriptional complexity inherent to cancer with a limited laboratory and financial effort. We developed a deep sequencing and bioinformatics analysis protocol to investigate the molecular composition of a breast cancer poly(A)<sup>+ </sup>transcriptome. This method utilizes a cDNA library normalization step to diminish the representation of highly expressed transcripts and biology-oriented bioinformatic analyses to facilitate detection of rare and novel transcripts.</p> <p>Results</p> <p>We analyzed over 132,000 Roche 454 high-confidence deep sequencing reads from a primary human lobular breast cancer tissue specimen, and detected a range of unusual transcriptional events that were subsequently validated by RT-PCR in additional eight primary human breast cancer samples. We identified and validated one deletion, two novel ncRNAs (one intergenic and one intragenic), ten previously unknown or rare transcript isoforms and a novel gene fusion specific to a single primary tissue sample. We also explored the non-protein-coding portion of the breast cancer transcriptome, identifying thousands of novel non-coding transcripts and more than three hundred reads corresponding to the non-coding RNA <it>MALAT1</it>, which is highly expressed in many human carcinomas.</p> <p>Conclusion</p> <p>Our results demonstrate that combining 454 deep sequencing with a normalization step and careful bioinformatic analysis facilitates the discovery and quantification of rare transcripts or ncRNAs, and can be used as a qualitative tool to characterize transcriptome complexity, revealing many hitherto unknown transcripts, splice isoforms, gene fusion events and ncRNAs, even at a relatively low sequence sampling.</p>
url http://www.biomedcentral.com/1471-2164/10/163
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