Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals

Kuldeep D. More; Ophélie Lebrasseur; Jaime Lira Garrido; Andaine Seguin-Orlando; Emmanuel Discamps; Oscar Estrada; Laure Tonasso-Calvière; Loreleï Chauvey; Gaëtan Tressières; Stéphanie Schiavinato; Morgane Gibert; Horacio Padula; Horacio Chiavazza; Pablo M. Fernández; Nicolás M. Guardia; Caroline Borges; Stéphane Bertani; Juan Contreras-Mancilla; Diana Allccarima-Crisóstomo; Miguel Fhon; Eric Barrey; Léa Charliquart; Emilie Robbe; Thibault de Noblet; Rinat Zhumatayev; Samat Shakenov; Emmanuelle Vila; Rémi Berthon; Marjan Mashkour; Roya Khazaeli; Ahmad Nikgoftar; Ali A. Vahdati; Pavel Kosintsev; Jean Luc Houle; Jamsranjav Bayarsaikhan; Jaroslaw Wilczynski; Magdalena Moskal-del Hoyo; Marek Nowak; William Taylor; Adrian Bălășescu; Roxana Dobrescu; Norbert Benecke; Benjamin Arbuckle; Sharon Steadman; Gregory McMahon; Petra Rajić Šikanjić; Marcel Buric; Tajana Trbojević Vukičević; Nadir Alvarez; Jean Christophe Castel; Myriam Boudadi-Maligne; Bastiaan Star; Julian Robert Post-Melbye; Christian Løchsen Rødsrud; David W.G. Stanton; Sophy Charlton; Victoria E. Mullin; Kevin G. Daly; Nohemi Sala Burgos; Adrian Pablos; Love Dalen; Daniel G. Bradley; Laurent Frantz; Greger Larson; Ludovic Orlando

doi:10.1111/1755-0998.14112

Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals

Kuldeep D. More
, Ophélie Lebrasseur
, Jaime Lira Garrido
, Andaine Seguin-Orlando
, Emmanuel Discamps
, Oscar Estrada
, Laure Tonasso-Calvière
, Loreleï Chauvey
, Gaëtan Tressières
, Stéphanie Schiavinato
, Morgane Gibert
, Horacio Padula
, Horacio Chiavazza
, Pablo M. Fernández
, Nicolás M. Guardia
, Caroline Borges
, Stéphane Bertani
, Juan Contreras-Mancilla
, Diana Allccarima-Crisóstomo
, Miguel Fhon

Eric Barrey, Léa Charliquart, Emilie Robbe, Thibault de Noblet, Rinat Zhumatayev, Samat Shakenov, Emmanuelle Vila, Rémi Berthon, Marjan Mashkour, Roya Khazaeli, Ahmad Nikgoftar, Ali A. Vahdati, Pavel Kosintsev, Jean Luc Houle, Jamsranjav Bayarsaikhan, Jaroslaw Wilczynski, Magdalena Moskal-del Hoyo, Marek Nowak, William Taylor, Adrian Bălășescu, Roxana Dobrescu, Norbert Benecke, Benjamin Arbuckle, Sharon Steadman, Gregory McMahon, Petra Rajić Šikanjić, Marcel Buric, Tajana Trbojević Vukičević, Nadir Alvarez, Jean Christophe Castel, Myriam Boudadi-Maligne, Bastiaan Star, Julian Robert Post-Melbye, Christian Løchsen Rødsrud, David W.G. Stanton, Sophy Charlton, Victoria E. Mullin, Kevin G. Daly, Nohemi Sala Burgos, Adrian Pablos, Love Dalen, Daniel G. Bradley, Laurent Frantz, Greger Larson, Ludovic Orlando

Sociology / Anthropology

SUNY Cortland

Research output: Contribution to journal › Article › peer-review

Abstract

In the last three decades, DNA sequencing of ancient animal osteological assemblages has become an important tool complementing standard archaeozoological approaches to reconstruct the history of animal domestication. However, osteological assemblages of key archaeological contexts are not always available or do not necessarily preserve enough ancient DNA for a cost-effective genetic analysis. Here, we develop an in-solution target-enrichment approach, based on 80-mer species-specific RNA probes (ranging from 306 to 1686 per species) to characterise (in single experiments) the mitochondrial genetic variation from eight domesticated animal species of major economic interest: cattle, chickens, dogs, donkeys, goats, horses, pigs and sheep. We also illustrate how our design can be adapted to enrich DNA library content and map the Y-chromosomal diversity within Equus caballus. By applying our target-enrichment assay to an extensive panel of ancient osteological remains, farm soil, and cave sediments spanning the last 43 kyrs, we demonstrate that minimal sequencing efforts are necessary to exhaust the DNA library complexity and to characterise mitogenomes to an average depth-of-coverage of 19.4 to 2003.7-fold. Our assay further retrieved horse mitogenome and Y-chromosome data from Late Pleistocene coprolites, as well as bona fide mitochondrial sequences from species that were not part of the probe design, such as bison and cave hyena. Our methodology will prove especially useful to minimise costs related to the genetic analyses of maternal and paternal lineages of a wide range of domesticated and wild animal species, and for mapping their diversity changes over space and time, including from environmental samples.

Original language	English
Article number	e14112
Journal	Molecular Ecology Resources
Volume	25
Issue number	7
DOIs	https://doi.org/10.1111/1755-0998.14112
State	Published - Oct 2025

Keywords

ancient DNA
domestication
environmental DNA
palaeogenomics
target enrichment

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10.1111/1755-0998.14112

Cite this

More, K. D., Lebrasseur, O., Garrido, J. L., Seguin-Orlando, A., Discamps, E., Estrada, O., Tonasso-Calvière, L., Chauvey, L., Tressières, G., Schiavinato, S., Gibert, M., Padula, H., Chiavazza, H., Fernández, P. M., Guardia, N. M., Borges, C., Bertani, S., Contreras-Mancilla, J., Allccarima-Crisóstomo, D., ... Orlando, L. (2025). Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals. Molecular Ecology Resources, 25(7), Article e14112. https://doi.org/10.1111/1755-0998.14112

@article{11e133d627fa4203b93654ecae586a35,

title = "Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals",

abstract = "In the last three decades, DNA sequencing of ancient animal osteological assemblages has become an important tool complementing standard archaeozoological approaches to reconstruct the history of animal domestication. However, osteological assemblages of key archaeological contexts are not always available or do not necessarily preserve enough ancient DNA for a cost-effective genetic analysis. Here, we develop an in-solution target-enrichment approach, based on 80-mer species-specific RNA probes (ranging from 306 to 1686 per species) to characterise (in single experiments) the mitochondrial genetic variation from eight domesticated animal species of major economic interest: cattle, chickens, dogs, donkeys, goats, horses, pigs and sheep. We also illustrate how our design can be adapted to enrich DNA library content and map the Y-chromosomal diversity within Equus caballus. By applying our target-enrichment assay to an extensive panel of ancient osteological remains, farm soil, and cave sediments spanning the last 43 kyrs, we demonstrate that minimal sequencing efforts are necessary to exhaust the DNA library complexity and to characterise mitogenomes to an average depth-of-coverage of 19.4 to 2003.7-fold. Our assay further retrieved horse mitogenome and Y-chromosome data from Late Pleistocene coprolites, as well as bona fide mitochondrial sequences from species that were not part of the probe design, such as bison and cave hyena. Our methodology will prove especially useful to minimise costs related to the genetic analyses of maternal and paternal lineages of a wide range of domesticated and wild animal species, and for mapping their diversity changes over space and time, including from environmental samples.",

keywords = "ancient DNA, domestication, environmental DNA, palaeogenomics, target enrichment",

author = "More, \{Kuldeep D.\} and Oph{\'e}lie Lebrasseur and Garrido, \{Jaime Lira\} and Andaine Seguin-Orlando and Emmanuel Discamps and Oscar Estrada and Laure Tonasso-Calvi{\`e}re and Lorele{\"i} Chauvey and Ga{\"e}tan Tressi{\`e}res and St{\'e}phanie Schiavinato and Morgane Gibert and Horacio Padula and Horacio Chiavazza and Fern{\'a}ndez, \{Pablo M.\} and Guardia, \{Nicol{\'a}s M.\} and Caroline Borges and St{\'e}phane Bertani and Juan Contreras-Mancilla and Diana Allccarima-Cris{\'o}stomo and Miguel Fhon and Eric Barrey and L{\'e}a Charliquart and Emilie Robbe and \{de Noblet\}, Thibault and Rinat Zhumatayev and Samat Shakenov and Emmanuelle Vila and R{\'e}mi Berthon and Marjan Mashkour and Roya Khazaeli and Ahmad Nikgoftar and Vahdati, \{Ali A.\} and Pavel Kosintsev and Houle, \{Jean Luc\} and Jamsranjav Bayarsaikhan and Jaroslaw Wilczynski and \{Moskal-del Hoyo\}, Magdalena and Marek Nowak and William Taylor and Adrian B{\u a}l{\u a}șescu and Roxana Dobrescu and Norbert Benecke and Benjamin Arbuckle and Sharon Steadman and Gregory McMahon and {\v S}ikanji{\'c}, \{Petra Raji{\'c}\} and Marcel Buric and Vuki{\v c}evi{\'c}, \{Tajana Trbojevi{\'c}\} and Nadir Alvarez and Castel, \{Jean Christophe\} and Myriam Boudadi-Maligne and Bastiaan Star and Post-Melbye, \{Julian Robert\} and R{\o}dsrud, \{Christian L{\o}chsen\} and Stanton, \{David W.G.\} and Sophy Charlton and Mullin, \{Victoria E.\} and Daly, \{Kevin G.\} and Burgos, \{Nohemi Sala\} and Adrian Pablos and Love Dalen and Bradley, \{Daniel G.\} and Laurent Frantz and Greger Larson and Ludovic Orlando",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Molecular Ecology Resources published by John Wiley \& Sons Ltd.",

year = "2025",

month = oct,

doi = "10.1111/1755-0998.14112",

language = "English",

volume = "25",

journal = "Molecular Ecology Resources",

issn = "1755-098X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "7",

}

More, KD, Lebrasseur, O, Garrido, JL, Seguin-Orlando, A, Discamps, E, Estrada, O, Tonasso-Calvière, L, Chauvey, L, Tressières, G, Schiavinato, S, Gibert, M, Padula, H, Chiavazza, H, Fernández, PM, Guardia, NM, Borges, C, Bertani, S, Contreras-Mancilla, J, Allccarima-Crisóstomo, D, Fhon, M, Barrey, E, Charliquart, L, Robbe, E, de Noblet, T, Zhumatayev, R, Shakenov, S, Vila, E, Berthon, R, Mashkour, M, Khazaeli, R, Nikgoftar, A, Vahdati, AA, Kosintsev, P, Houle, JL, Bayarsaikhan, J, Wilczynski, J, Moskal-del Hoyo, M, Nowak, M, Taylor, W, Bălășescu, A, Dobrescu, R, Benecke, N, Arbuckle, B, Steadman, S, McMahon, G, Šikanjić, PR, Buric, M, Vukičević, TT, Alvarez, N, Castel, JC, Boudadi-Maligne, M, Star, B, Post-Melbye, JR, Rødsrud, CL, Stanton, DWG, Charlton, S, Mullin, VE, Daly, KG, Burgos, NS, Pablos, A, Dalen, L, Bradley, DG, Frantz, L, Larson, G & Orlando, L 2025, 'Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals', Molecular Ecology Resources, vol. 25, no. 7, e14112. https://doi.org/10.1111/1755-0998.14112

TY - JOUR

T1 - Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals

AU - More, Kuldeep D.

AU - Lebrasseur, Ophélie

AU - Garrido, Jaime Lira

AU - Seguin-Orlando, Andaine

AU - Discamps, Emmanuel

AU - Estrada, Oscar

AU - Tonasso-Calvière, Laure

AU - Chauvey, Loreleï

AU - Tressières, Gaëtan

AU - Schiavinato, Stéphanie

AU - Gibert, Morgane

AU - Padula, Horacio

AU - Chiavazza, Horacio

AU - Fernández, Pablo M.

AU - Guardia, Nicolás M.

AU - Borges, Caroline

AU - Bertani, Stéphane

AU - Contreras-Mancilla, Juan

AU - Allccarima-Crisóstomo, Diana

AU - Fhon, Miguel

AU - Barrey, Eric

AU - Charliquart, Léa

AU - Robbe, Emilie

AU - de Noblet, Thibault

AU - Zhumatayev, Rinat

AU - Shakenov, Samat

AU - Vila, Emmanuelle

AU - Berthon, Rémi

AU - Mashkour, Marjan

AU - Khazaeli, Roya

AU - Nikgoftar, Ahmad

AU - Vahdati, Ali A.

AU - Kosintsev, Pavel

AU - Houle, Jean Luc

AU - Bayarsaikhan, Jamsranjav

AU - Wilczynski, Jaroslaw

AU - Moskal-del Hoyo, Magdalena

AU - Nowak, Marek

AU - Taylor, William

AU - Bălășescu, Adrian

AU - Dobrescu, Roxana

AU - Benecke, Norbert

AU - Arbuckle, Benjamin

AU - Steadman, Sharon

AU - McMahon, Gregory

AU - Šikanjić, Petra Rajić

AU - Buric, Marcel

AU - Vukičević, Tajana Trbojević

AU - Alvarez, Nadir

AU - Castel, Jean Christophe

AU - Boudadi-Maligne, Myriam

AU - Star, Bastiaan

AU - Post-Melbye, Julian Robert

AU - Rødsrud, Christian Løchsen

AU - Stanton, David W.G.

AU - Charlton, Sophy

AU - Mullin, Victoria E.

AU - Daly, Kevin G.

AU - Burgos, Nohemi Sala

AU - Pablos, Adrian

AU - Dalen, Love

AU - Bradley, Daniel G.

AU - Frantz, Laurent

AU - Larson, Greger

AU - Orlando, Ludovic

PY - 2025/10

Y1 - 2025/10

N2 - In the last three decades, DNA sequencing of ancient animal osteological assemblages has become an important tool complementing standard archaeozoological approaches to reconstruct the history of animal domestication. However, osteological assemblages of key archaeological contexts are not always available or do not necessarily preserve enough ancient DNA for a cost-effective genetic analysis. Here, we develop an in-solution target-enrichment approach, based on 80-mer species-specific RNA probes (ranging from 306 to 1686 per species) to characterise (in single experiments) the mitochondrial genetic variation from eight domesticated animal species of major economic interest: cattle, chickens, dogs, donkeys, goats, horses, pigs and sheep. We also illustrate how our design can be adapted to enrich DNA library content and map the Y-chromosomal diversity within Equus caballus. By applying our target-enrichment assay to an extensive panel of ancient osteological remains, farm soil, and cave sediments spanning the last 43 kyrs, we demonstrate that minimal sequencing efforts are necessary to exhaust the DNA library complexity and to characterise mitogenomes to an average depth-of-coverage of 19.4 to 2003.7-fold. Our assay further retrieved horse mitogenome and Y-chromosome data from Late Pleistocene coprolites, as well as bona fide mitochondrial sequences from species that were not part of the probe design, such as bison and cave hyena. Our methodology will prove especially useful to minimise costs related to the genetic analyses of maternal and paternal lineages of a wide range of domesticated and wild animal species, and for mapping their diversity changes over space and time, including from environmental samples.

AB - In the last three decades, DNA sequencing of ancient animal osteological assemblages has become an important tool complementing standard archaeozoological approaches to reconstruct the history of animal domestication. However, osteological assemblages of key archaeological contexts are not always available or do not necessarily preserve enough ancient DNA for a cost-effective genetic analysis. Here, we develop an in-solution target-enrichment approach, based on 80-mer species-specific RNA probes (ranging from 306 to 1686 per species) to characterise (in single experiments) the mitochondrial genetic variation from eight domesticated animal species of major economic interest: cattle, chickens, dogs, donkeys, goats, horses, pigs and sheep. We also illustrate how our design can be adapted to enrich DNA library content and map the Y-chromosomal diversity within Equus caballus. By applying our target-enrichment assay to an extensive panel of ancient osteological remains, farm soil, and cave sediments spanning the last 43 kyrs, we demonstrate that minimal sequencing efforts are necessary to exhaust the DNA library complexity and to characterise mitogenomes to an average depth-of-coverage of 19.4 to 2003.7-fold. Our assay further retrieved horse mitogenome and Y-chromosome data from Late Pleistocene coprolites, as well as bona fide mitochondrial sequences from species that were not part of the probe design, such as bison and cave hyena. Our methodology will prove especially useful to minimise costs related to the genetic analyses of maternal and paternal lineages of a wide range of domesticated and wild animal species, and for mapping their diversity changes over space and time, including from environmental samples.

KW - ancient DNA

KW - domestication

KW - environmental DNA

KW - palaeogenomics

KW - target enrichment

UR - https://www.scopus.com/pages/publications/105002247368

U2 - 10.1111/1755-0998.14112

DO - 10.1111/1755-0998.14112

M3 - Article

C2 - 40202701

SN - 1755-098X

VL - 25

JO - Molecular Ecology Resources

JF - Molecular Ecology Resources

IS - 7

M1 - e14112

ER -

Validating a Target-Enrichment Design for Capturing Uniparental Haplotypes in Ancient Domesticated Animals

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Keywords

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