Density separation of petrous bone powders for optimized ancient DNA yields

Author:

Fernandes Daniel M.ORCID,Sirak Kendra A.,Cheronet OliviaORCID,Novak MarioORCID,Brück Florian,Zelger Evelyn,Llanos-Lizcano AlejandroORCID,Wagner Anna,Zettl Anna,Mandl Kirsten,Duffet Carlson Kellie Sara,Oberreiter Victoria,Özdoğan Kadir T.,Sawyer Susanna,La Pastina Francesco,Borgia Emanuela,Coppa Alfredo,Dobeš MiroslavORCID,Velemínský Petr,Reich David,Bell Lynne S.,Pinhasi Ron

Abstract

Density separation is a process routinely used to segregate minerals, organic matter, and even microplastics, from soils and sediments. Here we apply density separation to archaeological bone powders before DNA extraction to increase endogenous DNA recovery relative to a standard control extraction of the same powders. Using nontoxic heavy liquid solutions, we separated powders from the petrous bones of 10 individuals of similar archaeological preservation into eight density intervals (2.15 to 2.45 g/cm3, in 0.05 increments). We found that the 2.30 to 2.35 g/cm3and 2.35 to 2.40 g/cm3intervals yielded up to 5.28-fold more endogenous unique DNA than the corresponding standard extraction (and up to 8.53-fold before duplicate read removal), while maintaining signals of ancient DNA authenticity and not reducing library complexity. Although small 0.05 g/cm3intervals may maximally optimize yields, a single separation to remove materials with a density above 2.40 g/cm3yielded up to 2.57-fold more endogenous DNA on average, which enables the simultaneous separation of samples that vary in preservation or in the type of material analyzed. While requiring no new ancient DNA laboratory equipment and fewer than 30 min of extra laboratory work, the implementation of density separation before DNA extraction can substantially boost endogenous DNA yields without decreasing library complexity. Although subsequent studies are required, we present theoretical and practical foundations that may prove useful when applied to other ancient DNA substrates such as teeth, other bones, and sediments.

Funder

University of Vienna Research Platform: Mineralogical Preservation of the Human Biome from the Depth of Time

Faculty of Life Sciences of the University of Vienna

Grandi Scavi program of the Sapienza University of Rome

Publisher

Cold Spring Harbor Laboratory

Subject

Genetics (clinical),Genetics

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