The altered presence of tiny fragments of neuronal genes, called microexons, causes hyperarousal in zebrafish. This is the ...

Using simulations, robots, and live fish, scientists at EPFL and Duke University have replicated the neural circuitry that allows zebrafish to react to visual stimuli and maintain their position in ...

Using zebrafish larvae as a model organism, researchers investigated the cooperative mechanisms between the eyes and the brain that underlie visual function restoration following optic nerve injury.

Researchers discover that disrupted neuronal microexons cause a permanent spike in cAMP signaling, driving severe hyperarousal, insomnia, and hyperactivity.

A new study published in Nature suggests that the neural foundations of spatial navigation—the brain's internal "GPS"—may have emerged far earlier in evolution than previously believed. The research, ...

Two socializing zebrafish. (Luke A. Hammond & Jeremy Ullmann) Imagine spotting someone across the room at a party, then ...

Neuroscientists want to understand how individual neurons encode information that allows us to distinguish objects, like telling a leaf apart from a rock. But they have struggled to build ...

Using simulations, robots, and live fish, scientists have replicated the neural circuitry that allows zebrafish to react to visual stimuli and maintain their position in flowing water. (Nanowerk News) ...