PARIS: Relentless evolution towards more intelligent species may have been driven not just by progressively larger brains but by the increasingly complex way in which they were wired, says a study released on Sunday.

Scientists in Britain probing the origins of the human brain focused on the role of synapses, the junctions between nerves which transfer electrical signals and information from one brain cell to the next via a series of biochemical switches.

Most research to date has assumed that synapses, made of proteins, are essentially the same in all animals, ranging from the lowly earthworm all the way up the evolutionary ladder to humans.

What makes some species more intelligent than others, according to this prevailing wisdom, is sheer mass more neurons equals greater data-processing capacity.

“The view that ‘more nerves’ is sufficient to explain ‘more brain power’ is simply not supported by our study,” said lead researcher Seth Grant, who heads the Genes to Cognition Programme at the Wellcome Trust Sanger Institute in Britain.

Looking at the density and molecular makeup of synapses, the study, published in Nature Neuroscience, found dramatic differences between species.

Grant and his team examined more than 600 types of synaptic proteins found in mammals, and then looked to see how many would turn up in less evolved life forms, notably single-cell yeasts and fruit flies.

“We were surprised to find that only 50 per cent of these are also found in invertebrate synapses, and about 25 per cent are in single-cell animals, which obviously don’t have a brain,” said Grant.

The genetic transition from single-celled to multi-celled organisms, and then again from invertebrates to vertebrates, both involved huge increases in the architectural complexity and signalling capacity of synapses, the study concludes.—AFP