BEIJING, April 23 (Xinhuanet) -- A new study reveals human beings, worms and bugs have something in common: their brain.

    Researchers at the European Molecular Biology Laboratory [EMBL] in Heidelberg examined embryos of a marine annelid worm called Platynereis dumerilii, which has a nervous system unchanged for eons. They documented the molecular fingerprints of the developing nerve cells.

    "Our findings were overwhelming," says study team member Alexandru Denes. "The molecular anatomy of the developing CNS [central nervous system ] turned out to be virtually the same in vertebrates and Platynereis. Corresponding regions give rise to neuron types with similar molecular fingerprints and these neurons also go on to form the same neural structures in annelid worm and vertebrates."

    Scientists have long known humans and other vertebrates evolved from an ancient common ancestor that also gave rise to insects and worms.

    Vertebrates have a spinal cord running along their backs, but insects and annelid worms such as earthworms, which have simple organs that barely resemble a brain, have clusters of nerves organized in a chain along their bellies. So biologists have long assumed these systems arose independently after the split.

    "Such a complex arrangement could not have been invented twice throughout evolution, it must be the same system," said G¨¢sp¨¢r J¨¦kely, another team member. "It looks like Platynereis and vertebrates have inherited the organization of their CNS from their remote common ancestors."

    The results, published this month in the journal Cell, beg the question how the central nervous systems flipped from belly to backside or vice-versa?

    "How the inversion occurred and how other invertebrates have modified the ancestral CNS throughout evolution are the next exciting questions for evolutionary biologists," said study leader Detlev Arendt.

    (Agencies)