Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA

Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA

Abstract Liquid biopsy testing utilising Next Generation Sequencing (NGS) is rapidly moving towards clinical adoption for personalised oncology. However, before NGS can fulfil its potential any novel testing approach must identify ways of reducing errors, allowing separation of true low-frequency mu...

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Main Authors: Thomas L. Dunwell, Simon C. Dailey, Anine L. Ottestad, Jihang Yu, Philipp W. Becker, Sarah Scaife, Susan D. Richman, Henry M. Wood, Hayley Slaney, Daniel Bottomley, Xiangsheng Yang, Hui Xiao, Sissel G. F. Wahl, Bjørn H. Grønberg, Hongyan Dai, Guoliang Fu
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-82737-9
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spelling doaj-fbc2ea58d49a44789ad5beace2c7311d2021-02-07T12:36:55ZengNature Publishing GroupScientific Reports2045-23222021-02-0111111310.1038/s41598-021-82737-9Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNAThomas L. Dunwell0Simon C. Dailey1Anine L. Ottestad2Jihang Yu3Philipp W. Becker4Sarah Scaife5Susan D. Richman6Henry M. Wood7Hayley Slaney8Daniel Bottomley9Xiangsheng Yang10Hui Xiao11Sissel G. F. Wahl12Bjørn H. Grønberg13Hongyan Dai14Guoliang Fu15GeneFirst Ltd, Building E5, Culham Science CentreGeneFirst Ltd, Building E5, Culham Science CentreDepartment of Oncology, St. Olav’s Hospital, Trondheim University HospitalGeneFirst Ltd, Building E5, Culham Science CentreGeneFirst Ltd, Building E5, Culham Science CentreGeneFirst Ltd, Building E5, Culham Science CentrePathology and Data Analytics, Leeds Institute of Medical Research, University of Leeds, St James University HospitalPathology and Data Analytics, Leeds Institute of Medical Research, University of Leeds, St James University HospitalPathology and Data Analytics, Leeds Institute of Medical Research, University of Leeds, St James University HospitalPathology and Data Analytics, Leeds Institute of Medical Research, University of Leeds, St James University HospitalGuangzhou Biotron Technology Co., LtdGuangzhou Biotron Technology Co., LtdDepartment of Oncology, St. Olav’s Hospital, Trondheim University HospitalDepartment of Oncology, St. Olav’s Hospital, Trondheim University HospitalDepartment of Oncology, St. Olav’s Hospital, Trondheim University HospitalGeneFirst Ltd, Building E5, Culham Science CentreAbstract Liquid biopsy testing utilising Next Generation Sequencing (NGS) is rapidly moving towards clinical adoption for personalised oncology. However, before NGS can fulfil its potential any novel testing approach must identify ways of reducing errors, allowing separation of true low-frequency mutations from procedural artefacts, and be designed to improve upon current technologies. Popular NGS technologies typically utilise two DNA capture approaches; PCR and ligation, which have known limitations and seem to have reached a development plateau with only small, stepwise improvements being made. To maximise the ultimate utility of liquid biopsy testing we have developed a highly versatile approach to NGS: Adaptor Template Oligo Mediated Sequencing (ATOM-Seq). ATOM-Seq's strengths and versatility avoid the major limitations of both PCR- and ligation-based approaches. This technology is ligation free, simple, efficient, flexible, and streamlined, and it offers novel advantages that make it perfectly suited for use on highly challenging clinical material. Using reference and clinical materials, we demonstrate detection of known SNVs down to allele frequencies of 0.1% using as little as 20–25 ng of cfDNA, as well as the ability to detect fusions from RNA. We illustrate ATOM-Seq’s suitability for clinical testing by showing high concordance rates between paired cfDNA and FFPE clinical samples.https://doi.org/10.1038/s41598-021-82737-9
collection DOAJ
language English
format Article
sources DOAJ
author Thomas L. Dunwell
Simon C. Dailey
Anine L. Ottestad
Jihang Yu
Philipp W. Becker
Sarah Scaife
Susan D. Richman
Henry M. Wood
Hayley Slaney
Daniel Bottomley
Xiangsheng Yang
Hui Xiao
Sissel G. F. Wahl
Bjørn H. Grønberg
Hongyan Dai
Guoliang Fu
spellingShingle Thomas L. Dunwell
Simon C. Dailey
Anine L. Ottestad
Jihang Yu
Philipp W. Becker
Sarah Scaife
Susan D. Richman
Henry M. Wood
Hayley Slaney
Daniel Bottomley
Xiangsheng Yang
Hui Xiao
Sissel G. F. Wahl
Bjørn H. Grønberg
Hongyan Dai
Guoliang Fu
Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
Scientific Reports
author_facet Thomas L. Dunwell
Simon C. Dailey
Anine L. Ottestad
Jihang Yu
Philipp W. Becker
Sarah Scaife
Susan D. Richman
Henry M. Wood
Hayley Slaney
Daniel Bottomley
Xiangsheng Yang
Hui Xiao
Sissel G. F. Wahl
Bjørn H. Grønberg
Hongyan Dai
Guoliang Fu
author_sort Thomas L. Dunwell
title Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
title_short Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
title_full Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
title_fullStr Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
title_full_unstemmed Adaptor Template Oligo-Mediated Sequencing (ATOM-Seq) is a new ultra-sensitive UMI-based NGS library preparation technology for use with cfDNA and cfRNA
title_sort adaptor template oligo-mediated sequencing (atom-seq) is a new ultra-sensitive umi-based ngs library preparation technology for use with cfdna and cfrna
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-02-01
description Abstract Liquid biopsy testing utilising Next Generation Sequencing (NGS) is rapidly moving towards clinical adoption for personalised oncology. However, before NGS can fulfil its potential any novel testing approach must identify ways of reducing errors, allowing separation of true low-frequency mutations from procedural artefacts, and be designed to improve upon current technologies. Popular NGS technologies typically utilise two DNA capture approaches; PCR and ligation, which have known limitations and seem to have reached a development plateau with only small, stepwise improvements being made. To maximise the ultimate utility of liquid biopsy testing we have developed a highly versatile approach to NGS: Adaptor Template Oligo Mediated Sequencing (ATOM-Seq). ATOM-Seq's strengths and versatility avoid the major limitations of both PCR- and ligation-based approaches. This technology is ligation free, simple, efficient, flexible, and streamlined, and it offers novel advantages that make it perfectly suited for use on highly challenging clinical material. Using reference and clinical materials, we demonstrate detection of known SNVs down to allele frequencies of 0.1% using as little as 20–25 ng of cfDNA, as well as the ability to detect fusions from RNA. We illustrate ATOM-Seq’s suitability for clinical testing by showing high concordance rates between paired cfDNA and FFPE clinical samples.
url https://doi.org/10.1038/s41598-021-82737-9
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