A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples

To date, very large scale sequencing of many clinically important RNA viruses has been complicated by their high population molecular variation, which creates challenges for polymerase chain reaction and sequencing primer design. Many RNA viruses are also difficult or currently not possible to cultu...

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Autores principales: Batty, Elizabeth M., Wong, T. H. Nicholas, Trebes, Amy, Argoud, Karène, Attar, Moustafa, Buck, David, Ip, Camilla L. C., Golubchik, Tanya, Cule, Madeleine, Bowden, Rory, Manganis, Charis, Klenerman, Paul, Barnes, Eleanor, Walker, A. Sarah, Wyllie, David H., Wilson, Daniel J., Dingle, Kate E., Peto, Tim E. A., Crook, Derrick W., Piazza, Paolo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3677912/
https://www.ncbi.nlm.nih.gov/pubmed/23762474
http://dx.doi.org/10.1371/journal.pone.0066129
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author Batty, Elizabeth M.
Wong, T. H. Nicholas
Trebes, Amy
Argoud, Karène
Attar, Moustafa
Buck, David
Ip, Camilla L. C.
Golubchik, Tanya
Cule, Madeleine
Bowden, Rory
Manganis, Charis
Klenerman, Paul
Barnes, Eleanor
Walker, A. Sarah
Wyllie, David H.
Wilson, Daniel J.
Dingle, Kate E.
Peto, Tim E. A.
Crook, Derrick W.
Piazza, Paolo
author_facet Batty, Elizabeth M.
Wong, T. H. Nicholas
Trebes, Amy
Argoud, Karène
Attar, Moustafa
Buck, David
Ip, Camilla L. C.
Golubchik, Tanya
Cule, Madeleine
Bowden, Rory
Manganis, Charis
Klenerman, Paul
Barnes, Eleanor
Walker, A. Sarah
Wyllie, David H.
Wilson, Daniel J.
Dingle, Kate E.
Peto, Tim E. A.
Crook, Derrick W.
Piazza, Paolo
author_sort Batty, Elizabeth M.
collection PubMed
description To date, very large scale sequencing of many clinically important RNA viruses has been complicated by their high population molecular variation, which creates challenges for polymerase chain reaction and sequencing primer design. Many RNA viruses are also difficult or currently not possible to culture, severely limiting the amount and purity of available starting material. Here, we describe a simple, novel, high-throughput approach to Norovirus and Hepatitis C virus whole genome sequence determination based on RNA shotgun sequencing (also known as RNA-Seq). We demonstrate the effectiveness of this method by sequencing three Norovirus samples from faeces and two Hepatitis C virus samples from blood, on an Illumina MiSeq benchtop sequencer. More than 97% of reference genomes were recovered. Compared with Sanger sequencing, our method had no nucleotide differences in 14,019 nucleotides (nt) for Noroviruses (from a total of 2 Norovirus genomes obtained with Sanger sequencing), and 8 variants in 9,542 nt for Hepatitis C virus (1 variant per 1,193 nt). The three Norovirus samples had 2, 3, and 2 distinct positions called as heterozygous, while the two Hepatitis C virus samples had 117 and 131 positions called as heterozygous. To confirm that our sample and library preparation could be scaled to true high-throughput, we prepared and sequenced an additional 77 Norovirus samples in a single batch on an Illumina HiSeq 2000 sequencer, recovering >90% of the reference genome in all but one sample. No discrepancies were observed across 118,757 nt compared between Sanger and our custom RNA-Seq method in 16 samples. By generating viral genomic sequences that are not biased by primer-specific amplification or enrichment, this method offers the prospect of large-scale, affordable studies of RNA viruses which could be adapted to routine diagnostic laboratory workflows in the near future, with the potential to directly characterize within-host viral diversity.
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spelling pubmed-36779122013-06-12 A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples Batty, Elizabeth M. Wong, T. H. Nicholas Trebes, Amy Argoud, Karène Attar, Moustafa Buck, David Ip, Camilla L. C. Golubchik, Tanya Cule, Madeleine Bowden, Rory Manganis, Charis Klenerman, Paul Barnes, Eleanor Walker, A. Sarah Wyllie, David H. Wilson, Daniel J. Dingle, Kate E. Peto, Tim E. A. Crook, Derrick W. Piazza, Paolo PLoS One Research Article To date, very large scale sequencing of many clinically important RNA viruses has been complicated by their high population molecular variation, which creates challenges for polymerase chain reaction and sequencing primer design. Many RNA viruses are also difficult or currently not possible to culture, severely limiting the amount and purity of available starting material. Here, we describe a simple, novel, high-throughput approach to Norovirus and Hepatitis C virus whole genome sequence determination based on RNA shotgun sequencing (also known as RNA-Seq). We demonstrate the effectiveness of this method by sequencing three Norovirus samples from faeces and two Hepatitis C virus samples from blood, on an Illumina MiSeq benchtop sequencer. More than 97% of reference genomes were recovered. Compared with Sanger sequencing, our method had no nucleotide differences in 14,019 nucleotides (nt) for Noroviruses (from a total of 2 Norovirus genomes obtained with Sanger sequencing), and 8 variants in 9,542 nt for Hepatitis C virus (1 variant per 1,193 nt). The three Norovirus samples had 2, 3, and 2 distinct positions called as heterozygous, while the two Hepatitis C virus samples had 117 and 131 positions called as heterozygous. To confirm that our sample and library preparation could be scaled to true high-throughput, we prepared and sequenced an additional 77 Norovirus samples in a single batch on an Illumina HiSeq 2000 sequencer, recovering >90% of the reference genome in all but one sample. No discrepancies were observed across 118,757 nt compared between Sanger and our custom RNA-Seq method in 16 samples. By generating viral genomic sequences that are not biased by primer-specific amplification or enrichment, this method offers the prospect of large-scale, affordable studies of RNA viruses which could be adapted to routine diagnostic laboratory workflows in the near future, with the potential to directly characterize within-host viral diversity. Public Library of Science 2013-06-10 /pmc/articles/PMC3677912/ /pubmed/23762474 http://dx.doi.org/10.1371/journal.pone.0066129 Text en © 2013 Batty et al http://creativecommons.org/licenses/by/4.0/ 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 properly credited.
spellingShingle Research Article
Batty, Elizabeth M.
Wong, T. H. Nicholas
Trebes, Amy
Argoud, Karène
Attar, Moustafa
Buck, David
Ip, Camilla L. C.
Golubchik, Tanya
Cule, Madeleine
Bowden, Rory
Manganis, Charis
Klenerman, Paul
Barnes, Eleanor
Walker, A. Sarah
Wyllie, David H.
Wilson, Daniel J.
Dingle, Kate E.
Peto, Tim E. A.
Crook, Derrick W.
Piazza, Paolo
A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title_full A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title_fullStr A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title_full_unstemmed A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title_short A Modified RNA-Seq Approach for Whole Genome Sequencing of RNA Viruses from Faecal and Blood Samples
title_sort modified rna-seq approach for whole genome sequencing of rna viruses from faecal and blood samples
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3677912/
https://www.ncbi.nlm.nih.gov/pubmed/23762474
http://dx.doi.org/10.1371/journal.pone.0066129
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