An international team of scientists has uncovered a fascinating piece of the evolutionary puzzle: how the ventral nerve cord, a key component of the central nervous system, evolved in ecdysozoan ...

In groundbreaking research, a team of international scientists has uncovered key insights into the early evolution of animal nervous systems. Scientists have discovered an interesting piece of the ...

Previously, scientists were unsure exactly how the ventral nerve cord (a vital component of invertebrates’ central nervous system) developed in ecdysozoans. However, a close look at Cambrian-age (541 ...

An international team of scientists has uncovered a fascinating piece of the evolutionary puzzle: how the ventral nerve cord, a key component of the central nervous system, evolved in ecdysozoan ...

WHEN the International Brain Commission met in 1905 at the Royal Society's rooms in London, it recommended the establishment of a central institute for brain research in each of the countries ...

For example, they have a unique nervous system consisting of nerve cells that merge together to form a continuous net-like structure, rather than having individual nerve cells like other animals.

A new study suggests the platypus and echidna — the only egg-laying mammals — had a water-dwelling ancestor. The finding could upend what’s known of their evolution.

An international team of scientists has uncovered a fascinating piece of the evolutionary puzzle: how the ventral nerve cord, a key component of the central nervous system, evolved in ecdysozoan ...

Discover how a recent fossil study sheds light on the evolution of the ventral nerve cord in ecdysozoan animals and its implications for understanding animal nervous systems.

An international team of scientists has uncovered a fascinating piece of the evolutionary puzzle: how the ventral nerve cord, a key component of the central nervous system, evolved in ecdysozoan ...