Abstract

Abstract Thanks to the development of high‐throughput sequencing technologies, target enrichment sequencing of nuclear ultraconserved DNA elements (UCEs) now allows routine inference of phylogenetic relationships from thousands of genomic markers. Recently, it has been shown that mitochondrial DNA (mtDNA) is frequently sequenced alongside the targeted loci in such capture experiments. Despite its broad evolutionary interest, mtDNA is rarely assembled and used in conjunction with nuclear markers in capture‐based studies. Here, we developed MitoFinder, a user‐friendly bioinformatic pipeline, to efficiently assemble and annotate mitogenomic data from hundreds of UCE libraries. As a case study, we used ants (Formicidae) for which 501 UCE libraries have been sequenced whereas only 29 mitogenomes are available. We compared the efficiency of four different assemblers (IDBA‐UD, MEGAHIT, MetaSPAdes, and Trinity) for assembling both UCE and mtDNA loci. Using MitoFinder, we show that metagenomic assemblers, in particular MetaSPAdes, are well suited to assemble both UCEs and mtDNA. Mitogenomic signal was successfully extracted from all 501 UCE libraries, allowing us to confirm species identification using CO1 barcoding. Moreover, our automated procedure retrieved 296 cases in which the mitochondrial genome was assembled in a single contig, thus increasing the number of available ant mitogenomes by an order of magnitude. By utilizing the power of metagenomic assemblers, MitoFinder provides an efficient tool to extract complementary mitogenomic data from UCE libraries, allowing testing for potential mitonuclear discordance. Our approach is potentially applicable to other sequence capture methods, transcriptomic data and whole genome shotgun sequencing in diverse taxa. The MitoFinder software is available from GitHub ( https://github.com/RemiAllio/MitoFinder ).

Keywords

BiologyPhylogenomicsMetagenomicsComputational biologyGenomeContigDNA sequencingGenomicsEvolutionary biologyIdentification (biology)Mitochondrial DNAPhylogenetic treeGeneticsDNAGene

MeSH Terms

AnimalsAntsBiological EvolutionComputational BiologyConserved SequenceDNAMitochondrialGenomeMitochondrialGenomicsPhylogenySequence AnalysisDNASoftwareTranscriptome

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Publication Info

Year
2020
Type
article
Volume
20
Issue
4
Pages
892-905
Citations
1825
Access
Closed

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Cite This

Rémi Allio, Alex Schomaker-Bastos, Jonathan Romiguier et al. (2020). MitoFinder: Efficient automated large‐scale extraction of mitogenomic data in target enrichment phylogenomics. Molecular Ecology Resources , 20 (4) , 892-905. https://doi.org/10.1111/1755-0998.13160

Identifiers

DOI
10.1111/1755-0998.13160
PMID
32243090
PMCID
PMC7497042

Data Quality

Data completeness: 90%