A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth

Éadaoin Harney; Olivia Cheronet; Daniel Fernandes; Kendra Sirak; Matthew Mah; Rebecca Bernardos; Nicole Adamski; Nasreen Broomandkhoshbacht; Kimberly Callan; Ann Marie Lawson; Jonas Oppenheimer; Kristin Stewardson; Fatma Zalzala; Alexandra Anders; Francesca Candilio; Mihai Constantinescu; Alfredo Coppa; Ion Ciobanu; János Dani; Zsolt Gallina; Francesco Genchi; Emese Gyöngyvér Nagy; Tamás Hajdu; Magdolna Hellebrandt; Antónia Horváth; Agnes Király; Krisztián Kiss; Barbara Kolozsi; Péter Kovács; Kitti Köhler; Michaela Lucci; Ildikó Pap; Sergiu Popovici; Pál Raczky; Angela Simalcsik; Tamás Szeniczey; Sergey Vasilev; Cristian Virag; Nadin Rohland; David Reich; Ron Pinhasi

doi:10.1101/GR.267534.120

A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth

Éadaoin Harney, Olivia Cheronet, Daniel Fernandes, Kendra Sirak, Matthew Mah, Rebecca Bernardos, Nicole Adamski, Nasreen Broomandkhoshbacht, Kimberly Callan, Ann Marie Lawson, Jonas Oppenheimer, Kristin Stewardson, Fatma Zalzala, Alexandra Anders , Francesca Candilio, Mihai Constantinescu , Alfredo Coppa, Ion Ciobanu , János Dani, Zsolt Gallina Francesco Genchi , Emese Gyöngyvér Nagy, Tamás Hajdu, Magdolna Hellebrandt , Antónia Horváth , Agnes Király , Krisztián Kiss , Barbara Kolozsi , Péter Kovács , Kitti Köhler, Michaela Lucci, Ildikó Pap, Sergiu Popovici , Pál Raczky, Angela Simalcsik, Tamás Szeniczey, Sergey Vasilev , Cristian Virag, Nadin Rohland, David Reich, Ron Pinhasi

Department of Evolutionary Anthropology

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Ancient DNA sampling methods—although optimized for efficient DNA extraction—are destructive, relying on drilling or cutting and powdering (parts of) bones and teeth. As the field of ancient DNA has grown, so have concerns about the impact of destructive sampling of the skeletal remains from which ancient DNA is obtained. Due to a particularly high concentration of endogenous DNA, the cementum of tooth roots is often targeted for ancient DNA sampling, but destructive sampling methods of the cementum often result in the loss of at least one entire root. Here, we present a minimally destructive method for extracting ancient DNA from dental cementum present on the surface of tooth roots. This method does not require destructive drilling or grinding, and, following extraction, the tooth remains safe to handle and suitable for most morphological studies, as well as other biochemical studies, such as radiocarbon dating. We extracted and sequenced ancient DNA from 30 teeth (and nine corresponding petrous bones) using this minimally destructive extraction method in addition to a typical tooth sampling method. We find that the minimally destructive method can provide ancient DNA that is of comparable quality to extracts produced from teeth that have undergone destructive sampling processes. Further, we find that a rigorous cleaning of the tooth surface combining diluted bleach and UV light irradiation seems sufficient to minimize external contaminants usually removed through the physical removal of a superficial layer when sampling through regular powdering methods.

Original language	English
Pages (from-to)	472-483
Number of pages	12
Journal	Genome Research
Volume	31
Issue number	3
Early online date	12 Feb 2021
DOIs	https://doi.org/10.1101/GR.267534.120
Publication status	Published - Mar 2021

Austrian Fields of Science 2012

106018 Human biology

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10.1101/GR.267534.120

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Harney, É., Cheronet, O., Fernandes, D., Sirak, K., Mah, M., Bernardos, R., Adamski, N., Broomandkhoshbacht, N., Callan, K., Lawson, A. M., Oppenheimer, J., Stewardson, K., Zalzala, F., Anders , A., Candilio, F., Constantinescu , M., Coppa, A., Ciobanu , I., Dani, J., ... Pinhasi, R. (2021). A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth. Genome Research, 31(3), 472-483. https://doi.org/10.1101/GR.267534.120

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title = "A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth",

abstract = "Ancient DNA sampling methods—although optimized for efficient DNA extraction—are destructive, relying on drilling or cutting and powdering (parts of) bones and teeth. As the field of ancient DNA has grown, so have concerns about the impact of destructive sampling of the skeletal remains from which ancient DNA is obtained. Due to a particularly high concentration of endogenous DNA, the cementum of tooth roots is often targeted for ancient DNA sampling, but destructive sampling methods of the cementum often result in the loss of at least one entire root. Here, we present a minimally destructive method for extracting ancient DNA from dental cementum present on the surface of tooth roots. This method does not require destructive drilling or grinding, and, following extraction, the tooth remains safe to handle and suitable for most morphological studies, as well as other biochemical studies, such as radiocarbon dating. We extracted and sequenced ancient DNA from 30 teeth (and nine corresponding petrous bones) using this minimally destructive extraction method in addition to a typical tooth sampling method. We find that the minimally destructive method can provide ancient DNA that is of comparable quality to extracts produced from teeth that have undergone destructive sampling processes. Further, we find that a rigorous cleaning of the tooth surface combining diluted bleach and UV light irradiation seems sufficient to minimize external contaminants usually removed through the physical removal of a superficial layer when sampling through regular powdering methods.",

author = "{\'E}adaoin Harney and Olivia Cheronet and Daniel Fernandes and Kendra Sirak and Matthew Mah and Rebecca Bernardos and Nicole Adamski and Nasreen Broomandkhoshbacht and Kimberly Callan and Lawson, {Ann Marie} and Jonas Oppenheimer and Kristin Stewardson and Fatma Zalzala and Alexandra Anders and Francesca Candilio and Mihai Constantinescu and Alfredo Coppa and Ion Ciobanu and J{\'a}nos Dani and Zsolt Gallina and Francesco Genchi and Nagy, {Emese Gy{\"o}ngyv{\'e}r} and Tam{\'a}s Hajdu and Magdolna Hellebrandt and Ant{\'o}nia Horv{\'a}th and Agnes Kir{\'a}ly and Kriszti{\'a}n Kiss and Barbara Kolozsi and P{\'e}ter Kov{\'a}cs and Kitti K{\"o}hler and Michaela Lucci and Ildik{\'o} Pap and Sergiu Popovici and P{\'a}l Raczky and Angela Simalcsik and Tam{\'a}s Szeniczey and Sergey Vasilev and Cristian Virag and Nadin Rohland and David Reich and Ron Pinhasi",

note = "Publisher Copyright: {\textcopyright} 2021 Harney et al.",

year = "2021",

month = mar,

doi = "10.1101/GR.267534.120",

language = "English",

volume = "31",

pages = "472--483",

journal = "Genome Research",

issn = "1088-9051",

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Harney, É, Cheronet, O, Fernandes, D, Sirak, K, Mah, M, Bernardos, R, Adamski, N, Broomandkhoshbacht, N, Callan, K, Lawson, AM, Oppenheimer, J, Stewardson, K, Zalzala, F, Anders , A, Candilio, F, Constantinescu , M, Coppa, A, Ciobanu , I, Dani, J, Gallina , Z, Genchi , F, Nagy, EG, Hajdu, T, Hellebrandt , M, Horváth , A, Király , A, Kiss , K, Kolozsi , B, Kovács , P, Köhler, K, Lucci, M, Pap, I, Popovici , S, Raczky, P, Simalcsik, A, Szeniczey, T, Vasilev , S, Virag, C, Rohland, N, Reich, D & Pinhasi, R 2021, 'A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth', Genome Research, vol. 31, no. 3, pp. 472-483. https://doi.org/10.1101/GR.267534.120

TY - JOUR

T1 - A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth

AU - Harney, Éadaoin

AU - Cheronet, Olivia

AU - Fernandes, Daniel

AU - Sirak, Kendra

AU - Mah, Matthew

AU - Bernardos, Rebecca

AU - Adamski, Nicole

AU - Broomandkhoshbacht, Nasreen

AU - Callan, Kimberly

AU - Lawson, Ann Marie

AU - Oppenheimer, Jonas

AU - Stewardson, Kristin

AU - Zalzala, Fatma

AU - Anders , Alexandra

AU - Candilio, Francesca

AU - Constantinescu , Mihai

AU - Coppa, Alfredo

AU - Ciobanu , Ion

AU - Dani, János

AU - Gallina , Zsolt

AU - Genchi , Francesco

AU - Nagy, Emese Gyöngyvér

AU - Hajdu, Tamás

AU - Hellebrandt , Magdolna

AU - Horváth , Antónia

AU - Király , Agnes

AU - Kiss , Krisztián

AU - Kolozsi , Barbara

AU - Kovács , Péter

AU - Köhler, Kitti

AU - Lucci, Michaela

AU - Pap, Ildikó

AU - Popovici , Sergiu

AU - Raczky, Pál

AU - Simalcsik, Angela

AU - Szeniczey, Tamás

AU - Vasilev , Sergey

AU - Virag, Cristian

AU - Rohland, Nadin

AU - Reich, David

AU - Pinhasi, Ron

PY - 2021/3

Y1 - 2021/3

N2 - Ancient DNA sampling methods—although optimized for efficient DNA extraction—are destructive, relying on drilling or cutting and powdering (parts of) bones and teeth. As the field of ancient DNA has grown, so have concerns about the impact of destructive sampling of the skeletal remains from which ancient DNA is obtained. Due to a particularly high concentration of endogenous DNA, the cementum of tooth roots is often targeted for ancient DNA sampling, but destructive sampling methods of the cementum often result in the loss of at least one entire root. Here, we present a minimally destructive method for extracting ancient DNA from dental cementum present on the surface of tooth roots. This method does not require destructive drilling or grinding, and, following extraction, the tooth remains safe to handle and suitable for most morphological studies, as well as other biochemical studies, such as radiocarbon dating. We extracted and sequenced ancient DNA from 30 teeth (and nine corresponding petrous bones) using this minimally destructive extraction method in addition to a typical tooth sampling method. We find that the minimally destructive method can provide ancient DNA that is of comparable quality to extracts produced from teeth that have undergone destructive sampling processes. Further, we find that a rigorous cleaning of the tooth surface combining diluted bleach and UV light irradiation seems sufficient to minimize external contaminants usually removed through the physical removal of a superficial layer when sampling through regular powdering methods.

AB - Ancient DNA sampling methods—although optimized for efficient DNA extraction—are destructive, relying on drilling or cutting and powdering (parts of) bones and teeth. As the field of ancient DNA has grown, so have concerns about the impact of destructive sampling of the skeletal remains from which ancient DNA is obtained. Due to a particularly high concentration of endogenous DNA, the cementum of tooth roots is often targeted for ancient DNA sampling, but destructive sampling methods of the cementum often result in the loss of at least one entire root. Here, we present a minimally destructive method for extracting ancient DNA from dental cementum present on the surface of tooth roots. This method does not require destructive drilling or grinding, and, following extraction, the tooth remains safe to handle and suitable for most morphological studies, as well as other biochemical studies, such as radiocarbon dating. We extracted and sequenced ancient DNA from 30 teeth (and nine corresponding petrous bones) using this minimally destructive extraction method in addition to a typical tooth sampling method. We find that the minimally destructive method can provide ancient DNA that is of comparable quality to extracts produced from teeth that have undergone destructive sampling processes. Further, we find that a rigorous cleaning of the tooth surface combining diluted bleach and UV light irradiation seems sufficient to minimize external contaminants usually removed through the physical removal of a superficial layer when sampling through regular powdering methods.

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U2 - 10.1101/GR.267534.120

DO - 10.1101/GR.267534.120

M3 - Article

SN - 1088-9051

VL - 31

SP - 472

EP - 483

JO - Genome Research

JF - Genome Research

IS - 3

ER -

A Minimally Destructive Protocol for DNA Extraction from Ancient Teeth

Abstract

Austrian Fields of Science 2012

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