Astrocytes use the MEGF10 receptor to prune synapses in the striatum, a process essential for dopamine-driven motor learning.

Scientists have taken a major step in understanding how animal brains make decisions, revealing a crucial role for electrical synapses in 'filtering' sensory information. The new research demonstrates ...

Co-written with Jai Liester. Silent synapses represent one of neuroscience's most fascinating discoveries—connections between neurons that lie dormant until activated by specific triggers. These ...

When we learn a new motor skill—whether mastering a piano passage or refining balance while walking—the brain must reorganize ...

Co-written with Jai Liester. Silent synapses represent one of neuroscience's most fascinating discoveries—connections between neurons that lie dormant until activated by specific triggers. These ...

A collaborative French–Swiss study reveals a previously unknown role for astrocytes in the brain's information processing. Published in the journal Cell, the research shows that these glial cells are ...

Scientists from Oregon Health & Science University (OHSU) and the University of Edinburgh have discovered that a little-understood junction that connects neurons to oligodendrocyte precursor cells ...

A researcher has developed a new model that provides a holistic view on how our brain manages to learn quickly and forms stable, long-lasting memories. Their study sheds light on the crucial role of ...