Preservation of ancient DNA in thermally damaged archaeological bone
collagen
History
Settore BIO/18 - GENETICA
Preservation, Biological
Settore BIO/08 - ANTROPOLOGIA
930
bone diagenesi
ancient DNA; bone diagenesis; collagen; cooking
Mitochondrial/genetics/isolation & purification
DNA, Mitochondrial
Polymerase Chain Reaction
Bone and Bones
03 medical and health sciences
Bone and bones
Animals
Cooking
REF 2014
ancient DNA
0303 health sciences
cooking
Ancient DNA
Fossils
DNA
Biological
Preservation
History, Medieval
Polymerase chain reaction
Archaeology
Cattle
Collagen
Medieval
DNA/analysis/genetics/isolation & purification
DOI:
10.1007/s00114-008-0478-5
Publication Date:
2008-11-28T16:24:19Z
AUTHORS (6)
ABSTRACT
Evolutionary biologists are increasingly relying on ancient DNA from archaeological animal bones to study processes such as domestication and population dispersals. As many animal bones found on archaeological sites are likely to have been cooked, the potential for DNA preservation must be carefully considered to maximise the chance of amplification success. Here, we assess the preservation of mitochondrial DNA in a medieval cattle bone assemblage from Coppergate, York, UK. These bones have variable degrees of thermal alterations to bone collagen fibrils, indicative of cooking. Our results show that DNA preservation is not reliant on the presence of intact collagen fibrils. In fact, a greater number of template molecules could be extracted from bones with damaged collagen. We conclude that moderate heating of bone may enhance the retention of DNA fragments. Our results also indicate that ancient DNA preservation is highly variable, even within a relatively recent assemblage from contexts conducive to organic preservation, and that diagenetic parameters based on protein diagenesis are not always useful for predicting ancient DNA survival.
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CITATIONS (59)
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