Our current understanding is that mice have either no -- or extremely limited -- neural circuitry and genes similar to those that regulate human speech. According to a recent study published in ...

The Foxp2 gene plays an essential role in the development of social communication, according to a study led by researchers at Mount Sinai School of Medicine. The association between Foxp2 and language ...

Previous studies have shown that women speak an average of 20,000 words a day, whereas men only speak 7,000, according to USA Today. Now, scientists may know why: Women may have higher levels of a ...

FOXP2, a gene implicated in affecting speech and language, is held up as a textbook example of positive selection on a human-specific trait. But in a new paper, researchers challenge this finding.

CAMBRIDGE, MA - Mutations of a gene called Foxp2 have been linked to a type of speech disorder called apraxia that makes it difficult to produce sequences of sound. A new study from MIT and National ...

I'm very sympathetic to the terrific challenges you face in making new scientific research appealing and digestible to the public. But I have some specific concerns about your latest report on the ...

If humans are genetically related to chimps, why did our brains develop the innate ability for language and speech while theirs did not? Scientists suspect that part of the answer to the mystery lies ...

Silver-tongued humans may owe their language prowess to a foxy friend. A new study provides more evidence that the human version of a protein known as FOXP2 may have aided the evolution of language.

Four years ago, a finding that defects in a single gene could severely impair language set off a race to learn what the gene, FOXP2, could reveal about language's neural basis. 1 After the gene was ...

The team of scientists, led by Margaret M. McCarthy, also showed the opposite was true for humans: females showed higher basal levels of FOXP2 than males in the cortex, specifically in an area of the ...

Studies show that girls tend to speak earlier and use more complex language than boys do. The discrepancy may arise from different levels of a protein in the brain, a new study in rats suggests.