Tuesday, July 09, 2019

DNA Proteins Revealing Information About Human Evolution

Since the advent of population genetics and modern techniques to examine DNA, research has focused on, first, Mitochondrial DNA and then nuclear DNA.  Now we have another weapon in our arsenal.  Matthew Warren of Nature News relates new research done on palaeoproteomics.  This is the study of proteins found in fossilized human ancestors.  How is this possible, you ask?
Some time in the past 160,000 years or so, the remains of an ancient human ended up in a cave high on the Tibetan Plateau in China. Perhaps the individual died there, or parts were taken there by its kin or an animal scavenger. In just a few years, the flesh disappeared and the bones started to deteriorate. Then millennia dripped by. Glaciers retreated and then returned and retreated again, and all that was left behind was a bit of jawbone with some teeth. The bone gradually became coated in a mineral crust, and the DNA from this ancient ancestor was lost to time and weather. But some signal from the past persisted.

Deep in the hominin’s teeth, proteins lingered, degraded but still identifiable. When scientists analysed them earlier this year, they detected collagen, a structural support protein found in bone and other tissues. And in its chemical signature was a single amino-acid variant that isn’t present in the collagen of modern humans or Neanderthals — instead, it flagged the jawbone as belonging to a member of the mysterious hominin group called Denisovans. The discovery of a Denisovan in China was a major landmark. It was the first individual found outside Denisova Cave in Siberia, where all other remains of its kind had previously been identified. And the site’s location on the Tibetan Plateau — more than 3,000 metres above sea level — suggested that Denisovans had been able to live in very cold, low-oxygen environments.
As the author notes, this kind of research has opened many other doors that, up until now, have been shut to researchers. The realization that proteins have much longer staying power than DNA could radically reshape our understanding of human evolution:
Previously, scientists had recovered proteins from 1.8-million-year-old animal teeth and a 3.8-million-year-old eggshell. Now, they hope that palaeoproteomics could be used to provide insights about other ancient hominin fossils that have lost all traces of DNA — from Homo erectus, which roamed parts of the world from about 1.9 million to 140,000 years ago, to Homo floresiensis, the diminutive ‘hobbit’ species that lived in Indonesia as recently as 60,000 years ago. By looking at variations in these proteins, scientists hope to answer long-standing questions about the evolution of ancient human groups, such as which lineages were direct ancestors of Homo sapiens.
Whether that level of resolution will ever be possible remains to be seen, especially given that the modus operandi of modern palaeontology is focused on clade relationships. It will be interesting to see.

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