A new Nature Communications study reveals that mouse hippocampal CA3 circuits start life as dense, randomly connected networks before shedding many synapses to form sparse, organized structures suited ...

A mouse pup is born with its hippocampus already buzzing with connections. Not a few tentative links between neighboring ...

During brain development, neurons can regulate their movement until they reach their final destination thanks to a "molecular switch" involving the protein Teneurin 4 (Ten4).

Anthropic’s creative app integrations signal a bigger AI shift from chatbot benchmarks to workflow depth, platform control, ...

The odor receptors in the nose are not distributed at random but organized in a precise spatial pattern, two new studies ...

UCLA researchers created a single-cell map of the developing human neocortex in Down syndrome during a critical window of ...

Using various imaging techniques, the scientists tied abdominal movements to shifts in mouse brains and the movement of ...

A cellular-resolution map of prenatal brain development in Down syndrome reveals disrupted neuron production timing and altered cell types.

Neurons that fire together, wire together” is not the full story. A novel mechanism explains how the brain can learn across ...

Scientists mapped human brain development in Down syndrome at a cellular level, discovering that stem cells "rush" to become ...

Scientists at UCLA have created one of the first cellular-resolution molecular maps detailing how Down syndrome alters human ...