Ancient host-associated microbes obtained from mammoth remains

Benjamin Guinet; Nikolay Oskolkov; Kelsey Moreland; Marianne Dehasque; J. Camilo Chacon-Duque; Anders Angerbjorn; Juan Luis Arsuaga; Gleb Kanellidou; Foteini Kanellidou; Andrew C. Kitchener; Heloise Muller; Valerii Plotnikov; Albert Protopopov; Alexei Tikhonov; Laura Termes; Grant Zazula; Peter Mortensen; Lena Grigorieva; Michael Richards; Beth Shapiro; Adrian M. Lister; Sergey Vartanyan; David Diez-del-Molino; Anders Gotherstrom; Patricia Pecnerova; Pavel Nikolskiy; Love Dalen; Tom van der Valk

doi:10.1016/j.cell.2025.08.003

Ancient host-associated microbes obtained from mammoth remains

Benjamin Guinet^*, Nikolay Oskolkov, Kelsey Moreland, Marianne Dehasque, J. Camilo Chacon-Duque, Anders Angerbjorn, Juan Luis Arsuaga, Gleb Kanellidou, Foteini Kanellidou, Andrew C. Kitchener, Heloise Muller, Valerii Plotnikov, Albert Protopopov, Alexei Tikhonov, Laura Termes, Grant Zazula, Peter Mortensen, Lena Grigorieva, Michael Richards, Beth ShapiroAdrian M. Lister, Sergey Vartanyan, David Diez-del-Molino, Anders Gotherstrom, Patricia Pecnerova, Pavel Nikolskiy, Love Dalen, Tom van der Valk

^*Corresponding author af dette arbejde

Bioinformatik og RNA Biologi

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

1 Citationer (Scopus)

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Abstract

Ancient genomic studies have extensively explored human-microbial interactions, yet research on nonhuman animals remains limited. In this study, we analyzed ancient microbial DNA from 483 mammoth remains spanning over 1 million years, including 440 newly sequenced and unpublished samples from a 1.1-million-year-old steppe mammoth. Using metagenomic screening, contaminant filtering, damage pattern analysis, and phylogenetic inference, we identified 310 microbes associated with different mammoth tissues. While most microbes were environmental or post-mortem colonizers, we recovered genomic evidence of six host-associated microbial clades spanning Actinobacillus, Pasteurella, Streptococcus, and Erysipelothrix. Some of these clades contained putative virulence factors, including a Pasteurella-related bacterium that had previously been linked to the deaths of African elephants. Notably, we reconstructed partial genomes of Erysipelothrix from the oldest mammoth sample, representing the oldest authenticated host-associated microbial DNA to date. This work demonstrates the potential of obtaining ancient animal microbiomes, which can inform further paleoecologi cal and evolutionary research.

Originalsprog	Engelsk
Tidsskrift	Cell
Vol/bind	188
Udgave nummer	23
Sider (fra-til)	6606-6619.e24
ISSN	0092-8674
DOI	https://doi.org/10.1016/j.cell.2025.08.003
Status	Udgivet - 2025

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10.1016/j.cell.2025.08.003Licens: CC BY

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Guinet, B., Oskolkov, N., Moreland, K., Dehasque, M., Chacon-Duque, J. C., Angerbjorn, A., Arsuaga, J. L., Kanellidou, G., Kanellidou, F., Kitchener, A. C., Muller, H., Plotnikov, V., Protopopov, A., Tikhonov, A., Termes, L., Zazula, G., Mortensen, P., Grigorieva, L., Richards, M., ... van der Valk, T. (2025). Ancient host-associated microbes obtained from mammoth remains. Cell, 188(23), 6606-6619.e24. https://doi.org/10.1016/j.cell.2025.08.003

Guinet, B, Oskolkov, N, Moreland, K, Dehasque, M, Chacon-Duque, JC, Angerbjorn, A, Arsuaga, JL, Kanellidou, G, Kanellidou, F, Kitchener, AC, Muller, H, Plotnikov, V, Protopopov, A, Tikhonov, A, Termes, L, Zazula, G, Mortensen, P, Grigorieva, L, Richards, M, Shapiro, B, Lister, AM, Vartanyan, S, Diez-del-Molino, D, Gotherstrom, A, Pecnerova, P, Nikolskiy, P, Dalen, L & van der Valk, T 2025, 'Ancient host-associated microbes obtained from mammoth remains', Cell, bind 188, nr. 23, s. 6606-6619.e24. https://doi.org/10.1016/j.cell.2025.08.003

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title = "Ancient host-associated microbes obtained from mammoth remains",

abstract = "Ancient genomic studies have extensively explored human-microbial interactions, yet research on nonhuman animals remains limited. In this study, we analyzed ancient microbial DNA from 483 mammoth remains spanning over 1 million years, including 440 newly sequenced and unpublished samples from a 1.1-million-year-old steppe mammoth. Using metagenomic screening, contaminant filtering, damage pattern analysis, and phylogenetic inference, we identified 310 microbes associated with different mammoth tissues. While most microbes were environmental or post-mortem colonizers, we recovered genomic evidence of six host-associated microbial clades spanning Actinobacillus, Pasteurella, Streptococcus, and Erysipelothrix. Some of these clades contained putative virulence factors, including a Pasteurella-related bacterium that had previously been linked to the deaths of African elephants. Notably, we reconstructed partial genomes of Erysipelothrix from the oldest mammoth sample, representing the oldest authenticated host-associated microbial DNA to date. This work demonstrates the potential of obtaining ancient animal microbiomes, which can inform further paleoecologi cal and evolutionary research.",

keywords = "Sp-nov., Erysipelothrix-rhusiopathiae, Read alignment, Genomes reveal, Oral cavities, Streptococcus, Bacterial, Virulence, Identification, Dna",

author = "Benjamin Guinet and Nikolay Oskolkov and Kelsey Moreland and Marianne Dehasque and Chacon-Duque, {J. Camilo} and Anders Angerbjorn and Arsuaga, {Juan Luis} and Gleb Kanellidou and Foteini Kanellidou and Kitchener, {Andrew C.} and Heloise Muller and Valerii Plotnikov and Albert Protopopov and Alexei Tikhonov and Laura Termes and Grant Zazula and Peter Mortensen and Lena Grigorieva and Michael Richards and Beth Shapiro and Lister, {Adrian M.} and Sergey Vartanyan and David Diez-del-Molino and Anders Gotherstrom and Patricia Pecnerova and Pavel Nikolskiy and Love Dalen and {van der Valk}, Tom",

year = "2025",

doi = "10.1016/j.cell.2025.08.003",

language = "English",

volume = "188",

pages = "6606--6619.e24",

journal = "Cell",

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T1 - Ancient host-associated microbes obtained from mammoth remains

AU - Guinet, Benjamin

AU - Oskolkov, Nikolay

AU - Moreland, Kelsey

AU - Dehasque, Marianne

AU - Chacon-Duque, J. Camilo

AU - Angerbjorn, Anders

AU - Arsuaga, Juan Luis

AU - Kanellidou, Gleb

AU - Kanellidou, Foteini

AU - Kitchener, Andrew C.

AU - Muller, Heloise

AU - Plotnikov, Valerii

AU - Protopopov, Albert

AU - Tikhonov, Alexei

AU - Termes, Laura

AU - Zazula, Grant

AU - Mortensen, Peter

AU - Grigorieva, Lena

AU - Richards, Michael

AU - Shapiro, Beth

AU - Lister, Adrian M.

AU - Vartanyan, Sergey

AU - Diez-del-Molino, David

AU - Gotherstrom, Anders

AU - Pecnerova, Patricia

AU - Nikolskiy, Pavel

AU - Dalen, Love

AU - van der Valk, Tom

PY - 2025

Y1 - 2025

N2 - Ancient genomic studies have extensively explored human-microbial interactions, yet research on nonhuman animals remains limited. In this study, we analyzed ancient microbial DNA from 483 mammoth remains spanning over 1 million years, including 440 newly sequenced and unpublished samples from a 1.1-million-year-old steppe mammoth. Using metagenomic screening, contaminant filtering, damage pattern analysis, and phylogenetic inference, we identified 310 microbes associated with different mammoth tissues. While most microbes were environmental or post-mortem colonizers, we recovered genomic evidence of six host-associated microbial clades spanning Actinobacillus, Pasteurella, Streptococcus, and Erysipelothrix. Some of these clades contained putative virulence factors, including a Pasteurella-related bacterium that had previously been linked to the deaths of African elephants. Notably, we reconstructed partial genomes of Erysipelothrix from the oldest mammoth sample, representing the oldest authenticated host-associated microbial DNA to date. This work demonstrates the potential of obtaining ancient animal microbiomes, which can inform further paleoecologi cal and evolutionary research.

AB - Ancient genomic studies have extensively explored human-microbial interactions, yet research on nonhuman animals remains limited. In this study, we analyzed ancient microbial DNA from 483 mammoth remains spanning over 1 million years, including 440 newly sequenced and unpublished samples from a 1.1-million-year-old steppe mammoth. Using metagenomic screening, contaminant filtering, damage pattern analysis, and phylogenetic inference, we identified 310 microbes associated with different mammoth tissues. While most microbes were environmental or post-mortem colonizers, we recovered genomic evidence of six host-associated microbial clades spanning Actinobacillus, Pasteurella, Streptococcus, and Erysipelothrix. Some of these clades contained putative virulence factors, including a Pasteurella-related bacterium that had previously been linked to the deaths of African elephants. Notably, we reconstructed partial genomes of Erysipelothrix from the oldest mammoth sample, representing the oldest authenticated host-associated microbial DNA to date. This work demonstrates the potential of obtaining ancient animal microbiomes, which can inform further paleoecologi cal and evolutionary research.

KW - Sp-nov.

KW - Erysipelothrix-rhusiopathiae

KW - Read alignment

KW - Genomes reveal

KW - Oral cavities

KW - Streptococcus

KW - Bacterial

KW - Virulence

KW - Identification

KW - Dna

U2 - 10.1016/j.cell.2025.08.003

DO - 10.1016/j.cell.2025.08.003

M3 - Journal article

C2 - 40902595

SN - 0092-8674

VL - 188

SP - 6606-6619.e24

JO - Cell

JF - Cell

IS - 23

ER -