A cross-disciplinary team led by Prof. Qu Jianan from the Department of Electronic and Computer Engineering and Prof. Julie L ...

Researchers suggest tunneling may reflect a conserved strategy adopted by specialized migratory cell types in dense tissues.

Despite its small size—it could sit in the palm of your hand—the zebra finch is a remarkable learner. A songbird native to ...

Cells long thought to play a secondary role in brain function build their own far-reaching connections, a new study in mice ...

Discovery that astrocyte networks shrink and reroute after a loss of sensory signals suggests they may be shaped by experience.

Why don't humans grow new brain cells? A new study shows "tunneling" neurons in songbirds may explain our limited capacity ...

Researchers mapped brain-wide astrocyte networks that link distant regions, proving these "support cells" have their own long-range signaling system.

A new study in songbirds might help explain why humans don’t generate many new brain cells, called neurons, as adults ...

Scientists discover new neurons in zebra finch brains tunnel through tissue, potentially explaining human brain vulnerability ...

Researchers created a human spinal cord organoid, injured it, then applied an experimental therapy. What happened next was ...