Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates

Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates

Next-generation sequencing (NGS) approaches are increasingly being used to generate multi-locus data for phylogeographic and evolutionary genetics research. We detail the applicability of a restriction enzyme-mediated genome complexity reduction approach with subsequent NGS (DArTseq) in vertebrate s...

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Bibliographic Details
Main Authors: Jane Melville, Margaret L. Haines, Katja Boysen, Luke Hodkinson, Andrzej Kilian, Katie L. Smith Date, Dominique A. Potvin, Kirsten M. Parris
Format: Article
Language:English
Published: The Royal Society 2017-01-01
Series:Royal Society Open Science
Subjects:
dartseq
genomics
hybridization
population genetics
phylogeography
snps
Online Access:https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161061
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spelling doaj-8f18579faf694d0f896b017f09060ad02020-11-25T04:02:08ZengThe Royal SocietyRoyal Society Open Science2054-57032017-01-014710.1098/rsos.161061161061Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebratesJane MelvilleMargaret L. HainesKatja BoysenLuke HodkinsonAndrzej KilianKatie L. Smith DateDominique A. PotvinKirsten M. ParrisNext-generation sequencing (NGS) approaches are increasingly being used to generate multi-locus data for phylogeographic and evolutionary genetics research. We detail the applicability of a restriction enzyme-mediated genome complexity reduction approach with subsequent NGS (DArTseq) in vertebrate study systems at different evolutionary and geographical scales. We present two case studies using SNP data from the DArTseq molecular marker platform. First, we used DArTseq in a large phylogeographic study of the agamid lizard Ctenophorus caudicinctus, including 91 individuals and spanning the geographical range of this species across arid Australia. A low-density DArTseq assay resulted in 28 960 SNPs, with low density referring to a comparably reduced set of identified and sequenced markers as a cost-effective approach. Second, we applied this approach to an evolutionary genetics study of a classic frog hybrid zone (Litoria ewingii–Litoria paraewingi) across 93 individuals, which resulted in 48 117 and 67 060 SNPs for a low- and high-density assay, respectively. We provide a docker-based workflow to facilitate data preparation and analysis, then analyse SNP data using multiple methods including Bayesian model-based clustering and conditional likelihood approaches. Based on comparison of results from the DArTseq platform and traditional molecular approaches, we conclude that DArTseq can be used successfully in vertebrates and will be of particular interest to researchers working at the interface between population genetics and phylogenetics, exploring species boundaries, gene exchange and hybridization.https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161061dartseqgenomicshybridizationpopulation geneticsphylogeographysnps
collection DOAJ
language English
format Article
sources DOAJ
author Jane Melville
Margaret L. Haines
Katja Boysen
Luke Hodkinson
Andrzej Kilian
Katie L. Smith Date
Dominique A. Potvin
Kirsten M. Parris
spellingShingle Jane Melville
Margaret L. Haines
Katja Boysen
Luke Hodkinson
Andrzej Kilian
Katie L. Smith Date
Dominique A. Potvin
Kirsten M. Parris
Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
Royal Society Open Science
dartseq
genomics
hybridization
population genetics
phylogeography
snps
author_facet Jane Melville
Margaret L. Haines
Katja Boysen
Luke Hodkinson
Andrzej Kilian
Katie L. Smith Date
Dominique A. Potvin
Kirsten M. Parris
author_sort Jane Melville
title Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
title_short Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
title_full Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
title_fullStr Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
title_full_unstemmed Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebrates
title_sort identifying hybridization and admixture using snps: application of the dartseq platform in phylogeographic research on vertebrates
publisher The Royal Society
series Royal Society Open Science
issn 2054-5703
publishDate 2017-01-01
description Next-generation sequencing (NGS) approaches are increasingly being used to generate multi-locus data for phylogeographic and evolutionary genetics research. We detail the applicability of a restriction enzyme-mediated genome complexity reduction approach with subsequent NGS (DArTseq) in vertebrate study systems at different evolutionary and geographical scales. We present two case studies using SNP data from the DArTseq molecular marker platform. First, we used DArTseq in a large phylogeographic study of the agamid lizard Ctenophorus caudicinctus, including 91 individuals and spanning the geographical range of this species across arid Australia. A low-density DArTseq assay resulted in 28 960 SNPs, with low density referring to a comparably reduced set of identified and sequenced markers as a cost-effective approach. Second, we applied this approach to an evolutionary genetics study of a classic frog hybrid zone (Litoria ewingii–Litoria paraewingi) across 93 individuals, which resulted in 48 117 and 67 060 SNPs for a low- and high-density assay, respectively. We provide a docker-based workflow to facilitate data preparation and analysis, then analyse SNP data using multiple methods including Bayesian model-based clustering and conditional likelihood approaches. Based on comparison of results from the DArTseq platform and traditional molecular approaches, we conclude that DArTseq can be used successfully in vertebrates and will be of particular interest to researchers working at the interface between population genetics and phylogenetics, exploring species boundaries, gene exchange and hybridization.
topic dartseq
genomics
hybridization
population genetics
phylogeography
snps
url https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161061
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