Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.

Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.

Hybridization- and tag-based technologies have been successfully used in Down syndrome to identify genes involved in various aspects of the pathogenesis. However, these technologies suffer from several limits and drawbacks and, to date, information about rare, even though relevant, RNA species such...

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Main Authors: Valerio Costa, Claudia Angelini, Luciana D'Apice, Margherita Mutarelli, Amelia Casamassimi, Linda Sommese, Maria Assunta Gallo, Marianna Aprile, Roberta Esposito, Luigi Leone, Aldo Donizetti, Stefania Crispi, Monica Rienzo, Berardo Sarubbi, Raffaele Calabrò, Marco Picardi, Paola Salvatore, Teresa Infante, Piergiuseppe De Berardinis, Claudio Napoli, Alfredo Ciccodicola
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-04-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3080369?pdf=render
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spelling doaj-e2883b5932bf4b86bfd7a945914c29552020-11-24T20:50:01ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-04-0164e1849310.1371/journal.pone.0018493Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.Valerio CostaClaudia AngeliniLuciana D'ApiceMargherita MutarelliAmelia CasamassimiLinda SommeseMaria Assunta GalloMarianna AprileRoberta EspositoLuigi LeoneAldo DonizettiStefania CrispiMonica RienzoBerardo SarubbiRaffaele CalabròMarco PicardiPaola SalvatoreTeresa InfantePiergiuseppe De BerardinisClaudio NapoliAlfredo CiccodicolaHybridization- and tag-based technologies have been successfully used in Down syndrome to identify genes involved in various aspects of the pathogenesis. However, these technologies suffer from several limits and drawbacks and, to date, information about rare, even though relevant, RNA species such as long and small non-coding RNAs, is completely missing. Indeed, none of published works has still described the whole transcriptional landscape of Down syndrome. Although the recent advances in high-throughput RNA sequencing have revealed the complexity of transcriptomes, most of them rely on polyA enrichment protocols, able to detect only a small fraction of total RNA content. On the opposite end, massive-scale RNA sequencing on rRNA-depleted samples allows the survey of the complete set of coding and non-coding RNA species, now emerging as novel contributors to pathogenic mechanisms. Hence, in this work we analysed for the first time the complete transcriptome of human trisomic endothelial progenitor cells to an unprecedented level of resolution and sensitivity by RNA-sequencing. Our analysis allowed us to detect differential expression of even low expressed genes crucial for the pathogenesis, to disclose novel regions of active transcription outside yet annotated loci, and to investigate a plethora of non-polyadenylated long as well as short non coding RNAs. Novel splice isoforms for a large subset of crucial genes, and novel extended untranslated regions for known genes--possibly novel miRNA targets or regulatory sites for gene transcription--were also identified in this study. Coupling the rRNA depletion of samples, followed by high-throughput RNA-sequencing, to the easy availability of these cells renders this approach very feasible for transcriptome studies, offering the possibility of investigating in-depth blood-related pathological features of Down syndrome, as well as other genetic disorders.http://europepmc.org/articles/PMC3080369?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Valerio Costa
Claudia Angelini
Luciana D'Apice
Margherita Mutarelli
Amelia Casamassimi
Linda Sommese
Maria Assunta Gallo
Marianna Aprile
Roberta Esposito
Luigi Leone
Aldo Donizetti
Stefania Crispi
Monica Rienzo
Berardo Sarubbi
Raffaele Calabrò
Marco Picardi
Paola Salvatore
Teresa Infante
Piergiuseppe De Berardinis
Claudio Napoli
Alfredo Ciccodicola
spellingShingle Valerio Costa
Claudia Angelini
Luciana D'Apice
Margherita Mutarelli
Amelia Casamassimi
Linda Sommese
Maria Assunta Gallo
Marianna Aprile
Roberta Esposito
Luigi Leone
Aldo Donizetti
Stefania Crispi
Monica Rienzo
Berardo Sarubbi
Raffaele Calabrò
Marco Picardi
Paola Salvatore
Teresa Infante
Piergiuseppe De Berardinis
Claudio Napoli
Alfredo Ciccodicola
Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
PLoS ONE
author_facet Valerio Costa
Claudia Angelini
Luciana D'Apice
Margherita Mutarelli
Amelia Casamassimi
Linda Sommese
Maria Assunta Gallo
Marianna Aprile
Roberta Esposito
Luigi Leone
Aldo Donizetti
Stefania Crispi
Monica Rienzo
Berardo Sarubbi
Raffaele Calabrò
Marco Picardi
Paola Salvatore
Teresa Infante
Piergiuseppe De Berardinis
Claudio Napoli
Alfredo Ciccodicola
author_sort Valerio Costa
title Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
title_short Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
title_full Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
title_fullStr Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
title_full_unstemmed Massive-scale RNA-Seq analysis of non ribosomal transcriptome in human trisomy 21.
title_sort massive-scale rna-seq analysis of non ribosomal transcriptome in human trisomy 21.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-04-01
description Hybridization- and tag-based technologies have been successfully used in Down syndrome to identify genes involved in various aspects of the pathogenesis. However, these technologies suffer from several limits and drawbacks and, to date, information about rare, even though relevant, RNA species such as long and small non-coding RNAs, is completely missing. Indeed, none of published works has still described the whole transcriptional landscape of Down syndrome. Although the recent advances in high-throughput RNA sequencing have revealed the complexity of transcriptomes, most of them rely on polyA enrichment protocols, able to detect only a small fraction of total RNA content. On the opposite end, massive-scale RNA sequencing on rRNA-depleted samples allows the survey of the complete set of coding and non-coding RNA species, now emerging as novel contributors to pathogenic mechanisms. Hence, in this work we analysed for the first time the complete transcriptome of human trisomic endothelial progenitor cells to an unprecedented level of resolution and sensitivity by RNA-sequencing. Our analysis allowed us to detect differential expression of even low expressed genes crucial for the pathogenesis, to disclose novel regions of active transcription outside yet annotated loci, and to investigate a plethora of non-polyadenylated long as well as short non coding RNAs. Novel splice isoforms for a large subset of crucial genes, and novel extended untranslated regions for known genes--possibly novel miRNA targets or regulatory sites for gene transcription--were also identified in this study. Coupling the rRNA depletion of samples, followed by high-throughput RNA-sequencing, to the easy availability of these cells renders this approach very feasible for transcriptome studies, offering the possibility of investigating in-depth blood-related pathological features of Down syndrome, as well as other genetic disorders.
url http://europepmc.org/articles/PMC3080369?pdf=render
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