A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants

A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants

Abstract Background Mitochondrial DNA is remarkably polymorphic. This is why animal geneticists survey mitochondrial genomes variations for fundamental and applied purposes. We present here an approach to sequence whole mitochondrial genomes using nanopore long-read sequencing. Our method relies on...

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Bibliographic Details
Main Authors: Sophie Dhorne-Pollet, Eric Barrey, Nicolas Pollet
Format: Article
Language:English
Published: BMC 2020-11-01
Series:BMC Genomics
Subjects:
Mitochondria
mtDNA
Horse
Nanopore sequencing
MinION device
Single nucleotide polymorphism
Online Access:http://link.springer.com/article/10.1186/s12864-020-07183-9
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spelling doaj-4080bdc5811340c6b88f6758ea5fb7c82020-11-25T04:07:18ZengBMCBMC Genomics1471-21642020-11-0121111510.1186/s12864-020-07183-9A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variantsSophie Dhorne-Pollet0Eric Barrey1Nicolas Pollet2Université Paris-Saclay, INRAE, AgroParisTech, GABIUniversité Paris-Saclay, INRAE, AgroParisTech, GABIUniversité Paris-Saclay, CNRS, IRD, UMR Évolution, Génomes, Comportement et ÉcologieAbstract Background Mitochondrial DNA is remarkably polymorphic. This is why animal geneticists survey mitochondrial genomes variations for fundamental and applied purposes. We present here an approach to sequence whole mitochondrial genomes using nanopore long-read sequencing. Our method relies on the selective elimination of nuclear DNA using an exonuclease treatment and on the amplification of circular mitochondrial DNA using a multiple displacement amplification step. Results We optimized each preparative step to obtain a 100 million-fold enrichment of horse mitochondrial DNA relative to nuclear DNA. We sequenced these amplified mitochondrial DNA using nanopore sequencing technology and obtained mitochondrial DNA reads that represented up to half of the sequencing output. The sequence reads were 2.3 kb of mean length and provided an even coverage of the mitochondrial genome. Long-reads spanning half or more of the whole mtDNA provided a coverage that varied between 118X and 488X. We evaluated SNPs identified using these long-reads by Sanger sequencing as ground truth and found a precision of 100.0%; a recall of 93.1% and a F1-score of 0.964 using the Twilight horse mtDNA reference. The choice of the mtDNA reference impacted variant calling efficiency with F1-scores varying between 0.947 and 0.964. Conclusions Our method to amplify mtDNA and to sequence it using the nanopore technology is usable for mitochondrial DNA variant analysis. With minor modifications, this approach could easily be applied to other large circular DNA molecules.http://link.springer.com/article/10.1186/s12864-020-07183-9MitochondriamtDNAHorseNanopore sequencingMinION deviceSingle nucleotide polymorphism
collection DOAJ
language English
format Article
sources DOAJ
author Sophie Dhorne-Pollet
Eric Barrey
Nicolas Pollet
spellingShingle Sophie Dhorne-Pollet
Eric Barrey
Nicolas Pollet
A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
BMC Genomics
Mitochondria
mtDNA
Horse
Nanopore sequencing
MinION device
Single nucleotide polymorphism
author_facet Sophie Dhorne-Pollet
Eric Barrey
Nicolas Pollet
author_sort Sophie Dhorne-Pollet
title A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
title_short A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
title_full A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
title_fullStr A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
title_full_unstemmed A new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial DNA variants
title_sort new method for long-read sequencing of animal mitochondrial genomes: application to the identification of equine mitochondrial dna variants
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2020-11-01
description Abstract Background Mitochondrial DNA is remarkably polymorphic. This is why animal geneticists survey mitochondrial genomes variations for fundamental and applied purposes. We present here an approach to sequence whole mitochondrial genomes using nanopore long-read sequencing. Our method relies on the selective elimination of nuclear DNA using an exonuclease treatment and on the amplification of circular mitochondrial DNA using a multiple displacement amplification step. Results We optimized each preparative step to obtain a 100 million-fold enrichment of horse mitochondrial DNA relative to nuclear DNA. We sequenced these amplified mitochondrial DNA using nanopore sequencing technology and obtained mitochondrial DNA reads that represented up to half of the sequencing output. The sequence reads were 2.3 kb of mean length and provided an even coverage of the mitochondrial genome. Long-reads spanning half or more of the whole mtDNA provided a coverage that varied between 118X and 488X. We evaluated SNPs identified using these long-reads by Sanger sequencing as ground truth and found a precision of 100.0%; a recall of 93.1% and a F1-score of 0.964 using the Twilight horse mtDNA reference. The choice of the mtDNA reference impacted variant calling efficiency with F1-scores varying between 0.947 and 0.964. Conclusions Our method to amplify mtDNA and to sequence it using the nanopore technology is usable for mitochondrial DNA variant analysis. With minor modifications, this approach could easily be applied to other large circular DNA molecules.
topic Mitochondria
mtDNA
Horse
Nanopore sequencing
MinION device
Single nucleotide polymorphism
url http://link.springer.com/article/10.1186/s12864-020-07183-9
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