By Jonathan Ballin
in BBC News
|Neanderthals were close evolutionary cousins|
of our own species - Homo sapiens
That is according to research carried out at the University of Cambridge and published this week in PNAS journal.
Previously, it had been suggested that shared parts of the genomes of these two populations were the result of interbreeding.
However, the newly published research proposes a different explanation.
The origin of modern humans is a hotly debated topic; four main theories have arisen to describe the evolution of Homo sapiens.
All argue for an African origin, but an important distinction in these competing theories is whether or not interbreeding - or "hybridisation" - occurred between Homo sapiens and other members of the genus Homo.
In the current study, Cambridge evolutionary biologists Dr Anders Eriksson and Dr Andrea Manica used computer simulations to reassess the strength of evidence supporting hybridisation events.
They argue that the amount of DNA shared between modern Eurasian humans and Neanderthals - estimated at between 1-4% - can be explained if both arose from a geographically isolated population, most likely in North Africa, which shared a common ancestor around 300-350 thousand years ago.
When modern humans expanded out of Africa, around 60-70,000 years ago, they took that genetic similarity with them.
By contrast, previous ancient DNA studies of Neanderthal remainshave shown that their genomes harbour genetic signatures - polymorphisms - that are also seen in the genomes of modern Europeans, East Asians and Oceanians (from Papua New Guinea) but not in modern African populations.
|Professor Julian Parkhill visits the Wellcome Collection|
to unravel the science behind the genome
The findings challenged previously held views - based on several lines of evidence - that modern humans had replaced the Neanderthals with little or no gene flow occurring between the two groups.
The observations from the Neanderthal genome led some evolutionary biologists to argue that this genetic similarity had arisen through hybridisation between Neanderthals - already resident in Europe and western Asia - and the ancestors of present-day non-Africans.
Prof David Reich, from Harvard University in Cambridge, US - an exponent of the hybridisation theory - is not convinced that the data represents a powerful argument against interbreeding.
By using methods that are able to differentiate between genetic similarity caused by gene flow via hybridisation vs shared ancestry, he argues that "the patterns observed [in our analyses] are exactly what one would expect from recent gene flow" - a view shared by his collaborator Professor Svante Paabo from the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany.
Prof Reich went on to say that their data shows that Neanderthals and non-Africans last exchanged genetic material 47-65,000 years ago.