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A comparison of ancient DNA yields across ossicles and the petrous bone reveals the best preservation in the stapes and incus.

Sağlıcan Ekin, E Sevkar, Arda A et al.

42276740 PubMed ID
28 Authors
2026-06-11 Published
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

SE
Sağlıcan Ekin
ES
E Sevkar
AA
Arda A
KD
Kazancı Duygu Deniz
DG
DD García
GO
Gonzalo Oteo GO
YS
Yorulmaz Sevgi
SV
S Vural
KB
Kıvılcım Başak KB
ÇG
Çakan Gökhan
GA
G Adiloğlu
GG
Gökçen G
BD
Buldak Duru
DD
D Duru
GG
Güneş G
ÖA
Öztan Aliye
AH
A Hassett
BB
Brenna B
KN
Kayacan Nurcan
N Özdoğan
AE
Aslı Erim AE
GA
Götherström Anders
A Özer
FF
Füsun F
Erdal Ömür Dilek
ÖE
ÖD Erdal
YS
Yılmaz Selim YS
SM
Somel Mehmet
Chapter II

Abstract

Summary of the research findings

The petrous bone is considered the most efficient source of endogenous DNA across skeletal tissues in ancient DNA (aDNA) research as well as in forensic work. Recently, ancient DNA in auditory ossicle bones was shown to be comparably well-preserved as in the petrous, although no attempt was made to distinguish among the three ossicle bones. In this study, we compare aDNA profiles across matched ossicle- and petrous-derived sequencing libraries prepared from 29 human skeletons from Neolithic Anatolia and Medieval Iberia. We find that the stapes and incus provide higher human endogenous aDNA than the petrous bone, with >2×; higher median rates of endogenous aDNA recovery, while the malleus performs similarly to the petrous. Human aDNA fragments retrieved from the stapes were 8% longer than those from the petrous, whereas postmortem damage, clonality and contamination rates were comparable among the studied bone types. These observations are corroborated by data from non-matched ossicle or petrous libraries from 81 individuals from the same contexts, with the highest endogenous aDNA content observed in the stapes. Despite being the smallest bone in the human skeleton, the stapes, along with the incus, may be among the most optimal aDNA sources yet identified.

Chapter III

AI-Generated Summary

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