The curious collection of a slightly mad scientist
The Neanderthal genome, when fully analyzed, is expected to shed light on many critical aspects of human evolution. It will help document two important sets of genetic changes: those that occurred between 5.7 million years ago, when the human line split from the line leading to chimpanzees, and 300,000 years ago, when Neanderthals and the ancestors of modern humans parted ways; and second, the changes in the human line after it diverged from Neanderthals.
An early inference that can be drawn from the new findings, which were announced Thursday in Leipzig, Germany, is that there is no significant trace of Neanderthal genes in modern humans. This confounds the speculation that modern humans could have interbred with Neanderthals, thus benefiting from the genes that adapted the Neanderthals to the cold climate that prevailed in Europe in last ice age, which ended 10,000 years ago. Researchers have not ascertained if human genes entered the Neanderthal population.
Possessing the Neanderthal genome raises the possibility of bringing Neanderthals back to life. Dr. George Church, a leading genome researcher at the Harvard Medical School, said Thursday that a Neanderthal could be brought to life with present technology for about $30 million. …