Closely related subtypes of dopamine-releasing neurons may play entirely separate roles in processing sensory information, ...

Closely related subtypes of dopamine-releasing neurons may play entirely separate roles in processing sensory information, ...

Closely related dopamine-releasing neurons in the olfactory bulb behave in fundamentally different ways depending on their physical structure.

Shifting focus on a visual scene without moving our eyes - think driving, or reading a room for the reaction to your joke - ...

Neurons can rapidly rebalance their communication using a structural signal rather than electrical activity, overturning long-held assumptions about how synapses maintain stability.

Every movement you make and every memory you form depends on precise communication between neurons. When that communication is disrupted, the brain must rapidly rebalance its internal signaling to ...

Closely related subtypes of dopamine-releasing neurons may play entirely separate roles in processing sensory information, depending on their physical ...

A hidden four-layer structure in the brain’s key memory hub has been revealed, reshaping how scientists understand learning ...

New research from the USC Dornsife College of Letters, Arts and Sciences shows that neurons can stabilize their signaling using a fast, physical mechanism — not the electrical activity scientists long ...