Estimates of DNA’s mutation rate work like a molecular clock that underpins genetic dating. It’s compelling to have a link between genetics and archeology. The number of differences between the sequences of two species indicates how much time has elapsed since their last common ancestor was alive. In order to correctly estimate the amount of time that has passed, geneticists need the pace at which DNA changed. These rates were previously estimated by comparing the human genome with sequences of other primates. The basis of species-divergence was gleaned from fossil evidence. Each letter mutates once every billion years. Some geneticists and molecular anthropologists were suspicious of this rather round number. Recently, geneticists have been able to sequence whole genomes from dozens of families by comparing mutations in parents and children. This study shows that the clock ticks at perhaps half the rate of previous estimates and was published in the journal Nature Reviews Genetics. This new molecular data meshes better with key archaeological dates. Earlier genetic studies have shown that Homo heidelbergensis, a direct ancestor of Neanderthals, split from the branch leading to Homo sapiens much more recently, 270,000 to 435,000 years ago. A slower molecular clock would force scientists to re-think the later turning points in prehistory, including the migration of humans out of Africa. New calculations put humans leaving Africa 120,000 years ago, which seems to fit the archaeological finds, like the 100,000-year-old human fossils that were discovered in Israel. The slowed clock puts the common ancestor of humans and orangutans at 40 million years ago, more than 20 million years before dates derived from abundant fossil evidence. This could complicate matters. It’s possible that the mutation rate isn’t constant, and may have slowed in the past 15 million years, which could account for such discrepancies. Ancestral apes were smaller animals than the current living ones, and small animals tend to reproduce more quickly, speeding up the mutation rate. Reference: “Revising the human mutation rate: implications for understanding human evolution” by Aylwyn Scally and Richard Durbin, 11 September 2012, Nature Reviews Genetics.DOI: 10.1038/nrg3295