Amplification of overlapping DNA amplicons in a single-tube multiplex PCR for targeted next-generation sequencing of BRCA1 and BRCA2

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Abstract

Current PCR-based target enrichment methods for next generation sequencing (NGS) of overlapping amplicons often requires separate PCR reactions and subsequent pooling of amplicons from the different reactions. The study presents a novel method, deemed stem-loop inhibition mediated amplification (SLIMamp), for amplifying overlapping or tiled amplicons in a single multiplex PCR reaction. During a SLIMamp PCR reaction, a stem loop structure formed by the overlapping amplicon suppresses additional amplification of itself by preventing the annealing of the primers. Using the SLIMamp strategy, we designed a next-generation sequencing (NGS) assay to enrich the exon regions of BRCA1 and BRCA2 for sequencing on an Illumina MiSeq system. We used 35 cell line DNAs and 6 patient blood DNAs in the study to evaluate the assay performance. For each sample, all targeted regions were successfully amplified and sequenced with excellent coverage uniformity and specificity. >99% of the total sequencing reads were mapped to the human reference genome (hg19) and >99% of the mapped reads were on the targeted exons. >98% of bases were covered at >0.20x of the mean coverage and >99% are covered at >0.15x of the mean depth. Among 34 independently sequenced samples, all variants were reliably detected with no false positives or false negatives. SLIMamp provides a robust method for single-tube multiplex PCR amplification of numerous, overlapping amplicons that tile for targeted next-generation sequencing.

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Most cited references 9

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Target-enrichment strategies for next-generation sequencing.

Lira Mamanova, Alison J Coffey, Carol E Scott … (2010)

We have not yet reached a point at which routine sequencing of large numbers of whole eukaryotic genomes is feasible, and so it is often necessary to select genomic regions of interest and to enrich these regions before sequencing. There are several enrichment approaches, each with unique advantages and disadvantages. Here we describe our experiences with the leading target-enrichment technologies, the optimizations that we have performed and typical results that can be obtained using each. We also provide detailed protocols for each technology so that end users can find the best compromise between sensitivity, specificity and uniformity for their particular project.

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Anchored multiplex PCR for targeted next-generation sequencing.

Zongli Zheng, Matthew Liebers, Boryana Zhelyazkova … (2014)

We describe a rapid target enrichment method for next-generation sequencing, termed anchored multiplex PCR (AMP), that is compatible with low nucleic acid input from formalin-fixed paraffin-embedded (FFPE) specimens. AMP is effective in detecting gene rearrangements (without prior knowledge of the fusion partners), single nucleotide variants, insertions, deletions and copy number changes. Validation of a gene rearrangement panel using 319 FFPE samples showed 100% sensitivity (95% confidence limit: 96.5-100%) and 100% specificity (95% confidence limit: 99.3-100%) compared with reference assays. On the basis of our experience with performing AMP on 986 clinical FFPE samples, we show its potential as both a robust clinical assay and a powerful discovery tool, which we used to identify new therapeutically important gene fusions: ARHGEF2-NTRK1 and CHTOP-NTRK1 in glioblastoma, MSN-ROS1, TRIM4-BRAF, VAMP2-NRG1, TPM3-NTRK1 and RUFY2-RET in lung cancer, FGFR2-CREB5 in cholangiocarcinoma and PPL-NTRK1 in thyroid carcinoma. AMP is a scalable and efficient next-generation sequencing target enrichment method for research and clinical applications.

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Targeted enrichment of genomic DNA regions for next-generation sequencing

Florian Mertes, Abdou ElSharawy, Sascha Sauer … (2011)

In this review, we discuss the latest targeted enrichment methods and aspects of their utilization along with second-generation sequencing for complex genome analysis. In doing so, we provide an overview of issues involved in detecting genetic variation, for which targeted enrichment has become a powerful tool. We explain how targeted enrichment for next-generation sequencing has made great progress in terms of methodology, ease of use and applicability, but emphasize the remaining challenges such as the lack of even coverage across targeted regions. Costs are also considered versus the alternative of whole-genome sequencing which is becoming ever more affordable. We conclude that targeted enrichment is likely to be the most economical option for many years to come in a range of settings.

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Author and article information

Contributors

Arnar Palsson: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 12 July 2017

Publication date Collection: 2017

Volume: 12

Issue: 7

Electronic Location Identifier: e0181062

Affiliations

[001]Department of Research and Development, Pillar Biosciences, Natick, Massachusetts, United States of America

ICELAND

Author notes

Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests: All authors are employees and shareholders of Pillar Biosciences. The method described herein has been disclosed in a patent application with authors ZW and GS: Selective Amplification of Overlapping Amplicons, pub. no.: US 2016/0257994 A1. This does not alter the authors’ adherence to all the PLOS ONE policies on sharing data and materials.

Conceptualization: ZW.
Data curation: YK.
Formal analysis: DS GS ZW.
Investigation: DS GS ZW.
Methodology: ZW DS GS.
Software: YK.
Writing – original draft: DS ZW.
Writing – review & editing: GS ZW.

* E-mail: wangzh@ 123456pillar-biosciences.com

Article

Publisher ID: PONE-D-16-44819

DOI: 10.1371/journal.pone.0181062

PMC ID: 5507532

PubMed ID: 28704513

SO-VID: 5ac722cc-5c07-4136-b176-d5adfeeac4fe

License:

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.

History

Date received : 10 November 2016

Date accepted : 26 June 2017

Page count

Figures: 5, Tables: 7, Pages: 16

Funding

This research was supported by Pillar Biosciences. No individual authors received specific funding for this work. Pillar Biosciences provided support in the form of salaries to DS, GS, YK, and ZW.

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Data Availability All relevant data are within the paper and its Supporting Information files. Additional information may be obtained by contacting the corresponding author at Pillar Biosciences.

Amplification of overlapping DNA amplicons in a single-tube multiplex PCR for targeted next-generation sequencing of BRCA1 and BRCA2

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Abstract

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Most cited references 9

Target-enrichment strategies for next-generation sequencing.

Anchored multiplex PCR for targeted next-generation sequencing.

Targeted enrichment of genomic DNA regions for next-generation sequencing

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