Autism spectrum disorder (ASD) may be the result of millions of years of evolution. Rapid neuronal evolution in humans is ...

New research suggests that the evolution of the human brain may explain why autism is more common in humans than in other ...

The human brain's remarkably prolonged development is unique among mammals and is thought to contribute to our advanced ...

For decades, large stretches of human DNA were dismissed as "junk" and considered to serve no real purpose. In a new study published in Cell Genomics, researchers at Lund University in Sweden show ...

A new paper in Molecular Biology and Evolution, published by Oxford University Press, finds that the relatively high rate of Autism-spectrum disorders in humans is likely due to how humans evolved in ...

Globally, autism affects about 1 in 100 children, according to the World Health Organization. In the U.S., the rate is closer to 1 in 31, or 3.2%. That’s far higher than what researchers observe in ...

The human brain's remarkably prolonged development is unique among mammals and is thought to contribute to our advanced learning abilities. Disruptions in this process may explain certain ...

A new Yale study provides a fuller picture of the genetic changes that shaped the evolution of the human brain, and how the process differed from the evolution of chimpanzees. For the study, published ...

Summary: A new study suggests that autism may be linked to the rapid evolution of brain cell types unique to humans. Researchers found that outer-layer neurons in the human brain evolved far more ...

Researchers discovered that certain human brain cells evolved unusually fast, altering autism-linked gene activity.

A dendrite – an extension of a neuron - from a 12-month-old human cerebral cortex neuron, grown from human stem cells and transplanted into a mouse cerebral cortex. Two human-specific genes, SRGAP2B ...