In 1997, the very first Neanderthal DNA sequence — just a small part of the mitochondrial genome — was determined from an individual discovered in the Neander Valley, Germany, in 1856. Since then, improvements in molecular techniques have enabled scientists at the Max Planck Institute for Evolutionary Anthropology to determine high quality sequences of the autosomal genomes of several Neanderthals, and led to the discovery of an entirely new group of extinct humans, the Denisovans, who were relatives of the Neanderthals in Asia.
However, because all specimens well-preserved enough to yield sufficient amounts of DNA have been from female individuals, comprehensive studies of the Y chromosomes of Neanderthals and Denisovans have not yet been possible. Unlike the rest of the autosomal genome, which represents a rich tapestry of thousands of genealogies of any individual’s ancestors, Y chromosomes have a peculiar mode of inheritance — they are passed exclusively from father to son. Y chromosomes, and also the maternally-inherited mitochondrial DNA, have been extremely valuable for studying human history.
New method to identify Y chromosome molecules
In this study, the researchers identified three male Neanderthals and two Denisovans that were potentially suitable for DNA analysis, and developed an approach to fish out human Y chromosome molecules from the large amounts of microbial DNA that typically contaminate ancient bones and teeth. This allowed them to reconstruct the Y chromosome sequences of these individuals, which would not have been possible using conventional approaches.
By comparing the archaic human Y chromosomes to each other and to the Y chromosomes of people living today, the team found that Neanderthal and modern human Y chromosomes are more similar to one another than they are to Denisovan Y chromosomes. “This was quite a surprise to us. We know from studying their autosomal DNA that Neanderthals and Denisovans were closely related and that humans living today are their more distant evolutionary cousins. Before we first looked at the data, we expected that their Y chromosomes would show a similar picture,” says Martin Petr, the lead author of the study. The researchers also calculated that the most recent common ancestor of Neanderthal and modern human Y chromosomes lived around 370,000 years ago, much more recently than previously thought.
It is by now well established that all people with non-African ancestry carry a small amount of Neanderthal DNA as a result of interbreeding between Neanderthals and modern humans approximately 50,000-70,000 years ago, quite shortly after modern humans migrated out of Africa and started spreading around the world. However, whether Neanderthals might also carry some modern human DNA has been a matter of some debate.
These Y chromosome sequences now provide new evidence that Neanderthals and early modern humans met and exchanged genes before the major out of Africa migration — potentially as early as 370,000 years ago and certainly more than 100,000 years ago. This implies that some population closely related to early modern