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Separating endogenous ancient DNA from modern day contamination in a Siberian Neandertal

by Derevianko, Anatoli P. , Krause, Johannes , Skoglund, Pontus , Shunkov, Michael V. , Pääbo, Svante , Jakobsson, Mattias , Northoff, Bernd H.

in Animals / Biological Sciences / Contaminants / Datasets / Deoxyribonucleic acid / DNA / DNA damage / DNA fragmentation / DNA, Mitochondrial - genetics / DNA, Mitochondrial - isolation & purification / Fossils / Genomes / genomics / Human remains / Humans / Mitochondria / Mitochondrial DNA / mitochondrial genome / Molecular Sequence Data / Molecules / Neanderthals - genetics / Nucleotide sequences / Population genetics / Reagents / Sequencing / Siberia / Skeletal system / Social Sciences

2014

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Separating endogenous ancient DNA from modern day contamination in a Siberian Neandertal

by Derevianko, Anatoli P. , Krause, Johannes , Skoglund, Pontus , Shunkov, Michael V. , Pääbo, Svante , Jakobsson, Mattias , Northoff, Bernd H.

2014

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Separating endogenous ancient DNA from modern day contamination in a Siberian Neandertal

by Derevianko, Anatoli P. , Krause, Johannes , Skoglund, Pontus , Shunkov, Michael V. , Pääbo, Svante , Jakobsson, Mattias , Northoff, Bernd H.

2014

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Journal Article

Separating endogenous ancient DNA from modern day contamination in a Siberian Neandertal

Derevianko, Anatoli P.,

Krause, Johannes,

Skoglund, Pontus,

Shunkov, Michael V.,

Pääbo, Svante,

Jakobsson, Mattias,

Northoff, Bernd H.

2014

Overview

One of the main impediments for obtaining DNA sequences from ancient human skeletons is the presence of contaminating modern human DNA molecules in many fossil samples and laboratory reagents. However, DNA fragments isolated from ancient specimens show a characteristic DNA damage pattern caused by miscoding lesions that differs from present day DNA sequences. Here, we develop a framework for evaluating the likelihood of a sequence originating from a model with postmortem degradation—summarized in a postmortem degradation score—which allows the identification of DNA fragments that are unlikely to originate from present day sources. We apply this approach to a contaminated Neandertal specimen from Okladnikov Cave in Siberia to isolate its endogenous DNA from modern human contaminants and show that the reconstructed mitochondrial genome sequence is more closely related to the variation of Western Neandertals than what was discernible from previous analyses. Our method opens up the potential for genomic analysis of contaminated fossil material.

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Publisher

National Academy of Sciences,National Acad Sciences

Subject

Animals

/ Biological Sciences

/ Contaminants

/ Datasets

/ Deoxyribonucleic acid

/ DNA

/ DNA damage