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Neanderthal ancestry identifies oldest modern human genome


Ancient DNA from Neandertals and early modern humans has recently shown that the groups likely interbred somewhere in the Near East after modern humans left Africa some 50,000 years ago. As a result, all people outside Africa carry around 2% to 3% Neandertal DNA. In modern human genomes, those Neandertal DNA segments became increasingly shorter over time and their length can be used to estimate when an individual lived. Archaeological data published last year furthermore suggests that modern humans were already present in southeastern Europe 47-43,000 years ago, but due to a scarcity of fairly complete human fossils and the lack of genomic DNA, there is little understanding of who these early human colonists were -- or of their relationships to ancient and present-day human groups.

In a new study published in Nature Ecology & Evolution, an international team of researchers reports what is likely the oldest reconstructed modern human genome to date. First discovered in Czechia, the woman known to researchers as Zlatý kůň (golden horse in Czech) displayed longer stretches of Neanderthal DNA than the 45,000-year-old Ust'-Ishim individual from Siberia, the so-far oldest modern human genome. Analysis suggests that she was part of a population that formed before the populations that gave rise to present-day Europeans and Asians split apart.

A recent anthropological study based on the shape of Zlatý kůň's skull showed similarities with people who lived in Europe before the Last Glacial Maximum -- at least 30,000 years ago -- but radiocarbon dating produced sporadic results, some as recent as 15,000 years ago. It wasn't until Jaroslav Brůžek from the Faculty of Science, Prague and Petr Velemínský of Prague's National Museum collaborated with the genetics laboratories of the Max Planck Institute for the Science of Human History that a clearer picture came into view.

"We found evidence of cow DNA contamination in the analyzed bone, which suggests that a bovine-based glue used in the past to consolidate the skull was returning radiocarbon dates younger than the fossil's true age," says Cosimo Posth, co-lead author of the study. Posth was formerly a research group leader at the Max Planck Institute for the Science of Human History and is currently Professor of Archaeo- and Palaeogenetics at the University of Tübingen.

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