Oldest-Ever Proteins Extracted From 3.8-Million-Year-Old Ostrich Shells

Slashdot reader sciencehabit writes: Scientists have smashed through another time barrier in their search for ancient proteins from fossilized teeth and bones, adding to growing excitement about the promise of using proteins to study extinct animals and humans that lived more than 1 million years ago. Until now, the oldest sequenced proteins are largely acknowledged to come from a 700,000-year-old horse in Canada's Yukon territory, despite claims of extraction from much older dinosaurs. Now geneticists report that they have extracted proteins from 3.8-million-year-old ostrich egg shells in Laetoli, Tanzania, and from the 1.7-million-year-old tooth enamel of several extinct animals in Dmanisi, Georgia...extinct horses, rhinos, and deer,
This raises the inevitable question. If we ever could clone a prehistoric species...should we?

Of course!

[drunken_boxer777]

Why would we pass up a chance to learn? Scientists from all branches of science learn by tinkering, and this would be another form, even if we only did it to validate our understanding (once sufficiently advanced) of how DNA sequences yield a very specific body pattern and size and set of behaviors.

Besides, most people forget that the environment the dinosaurs lived in was very different from ours, both in temperature/climate and air composition, making it a much more difficult problem than "can we clone them?". For example, prehistoric insects were very large, larger than what the current oxygen levels in our atmosphere could support since they don't have lungs and breathe basically via diffusion. So, for specific values of "prehistoric" the difficulties involve artificial environments.