Neuroscientists have long dreamed of watching thoughts unfold as they happen, without disturbing the fragile tissue that ...

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

Scientists can finally hear the brain’s quietest messages—unlocking the hidden code behind how neurons think, decide, and ...

Every movement you make and every memory you form depends on precise communication between neurons. When that communication ...

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

Memories and learning processes are based on changes in the brain's neuronal connections and, as a result, in signal transmission between neurons.

Based on the DA mediation, some sophisticated neuronal functions, including integration-and-firing, synaptic facilitation-induced spike broadening and DA-tunable spiking number and width, were ...

The translucent chip attached to the mouse’s leg looked nothing like a neuron. Dotted with a series of sensors and channels and smaller than a human finger, it looked—and flexed—like a Band-Aid. Yet ...

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

As you read these words, billions upon billions of electrical impulses are flying through your brain. In a complex symphony of activity all those impulses are somehow encoding your thoughts, feelings, ...