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A DNA sample thought to show prehistoric trade in cereals is most likely from modern wheat, according to new research led by the Max Planck Institute for Developmental Biology.
A cooperation of scientists at the MPI for Developmental Biology in Tübingen and the MPI for Evolutionary Anthropology developed a new test to verify the authenticity of ancient DNA. They applied the test to a sample from submerged sediment off the Isle of Wight, thought to provide evidence of trade between English hunter-gatherers and more advanced Neolithic European farmers 8000 years ago. The new test, described in the journal eLife, shows the sample to be younger than a few hundreds of years old.
“Modern DNA can easily contaminate precious samples so it is crucial to build in assurances that historic DNA is authentic,” says first author Clemens Weiß, PhD student in the Research Group for Ancient Genomics and Evolution at the MPI in Tübingen. “Only then can these molecular treasures tell tales unraveling history,” he says.
The researchers developed a method focused on biochemical changes that accumulate with age and that are specific to ancient DNA. These changes cause one specific building block, cytosine (C), to be misread as thymine (T). The new method reliably tests whether DNA shows ancient or modern patterns of such C-to-T changes. Testing the British wheat sequences with this approach showed that their DNA damage pattern does not fit with what would be expected for ancient DNA.
“As more and more scientists enter the field of environmental and metagenomics ancient DNA research, it becomes increasingly important to set certain standards for evaluation and interpretation of the data”, says lead author Hernán Burbano, Research Group Leader at the MPI for Developmental Biology.
Handling and interpreting ancient DNA data is challenging. DNA, the storage place for genetic information, can survive the death of the organism from which it originates for centuries or even millennia. However, it still ages and decomposes. Old or ancient DNA is often fragmented and present in only tiny quantities. These remaining traces of DNA are easily lost when the sample is contaminated with modern DNA from the surroundings or from researchers handling samples.
Both the high risk of contamination and the low amounts of available data make it even more important to present positive evidence that the retrieved DNA is of ancient origin. The new computational method could be used to authenticate ancient DNA even when only minute amounts of DNA can be extracted. Scientists will still be able to check whether the damage pattern matches that expected for ancient DNA.
“Ancient DNA can allow us a glimpse into the evolution and ecology of both plant and animal species, sometimes also revealing details of human history,” says Burbano. “We hope our new method is one step towards sound and successful extraction and interpretation of these windows into the past.”
Researchers and institutes involved:
Clemens L. Weiß, Hernán A. Burbano, Research Group for Ancient Genomics and Evolution, Department of Molecular Biology, Max Planck Institute for Developmental Biology, 72076 Tübingen, Germany
Michael Dannemann, Kay Prüfer, Department of Evolutionary Genetics, Max Planck Institute for Evolutionary Anthropology, 04103 Leipzig, Germany
Reference
The paper ‘Contesting the presence of wheat in the British Isles 8,000 years ago by assessing ancient DNA authenticity from low-coverage data’ can be freely accessed online at http://dx.doi.org/10.7554/eLife.10005;
http://elifesciences.org/content/4/e10005.
Contents, including text, figures, and data, are free to reuse under a CC BY 4.0 license.
Contact:
Hernán A. Burbano
E-mail: hernan.burbano@tuebingen.mpg.de
Nadja Winter (PR Officer)
Phone: +49 7071 601- 444
E-mail: presse-eb@tuebingen.mpg.de
About us:
The Max Planck Institute for Developmental Biology conducts basic research in the fields of biochemistry, genetics and evolutionary biology. It employs about 350 people and is located at the Max Planck Campus in Tübingen. The Max Planck Institute for Developmental Biology is one of 83 research institutes that the Max Planck Society for the Advancement of Science maintains in Germany.
http://dx.doi.org/10.7554/eLife.10005
http://elifesciences.org/content/4/e10005
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