Zebrafish knockouts can be generated in a few hours directly from wild-type eggs and are suitable for studying continuous traits, including behaviour.

A pain-relaying ion channel on a hypersensitive population of sensory neurons can instead elicit sensations of itch in both fish and mice when directly activated, providing a novel model of itch transduction.

Visual neurons in the dragonfly predict the path of a moving target, even when it is occluded or crosses from one eye to the other.

In vivo recordings in unanesthetized zebrafish larvae show that Purkinje neurons have two stable membrane potential states and that climbing fiber inputs can toggle them to up states during motor episodes.

Echolocating bats may recognize locations in the environment (and navigate to them) by remembering the specific echo signature of those locations.

Analysis of human fMRI data reveal that intermediary areas within the fronto-parietal control network (FPCN) are critical for integrating control processing, cognitive ability, and amenability to neuromodulation.

Neuroimaging provides novel insights into how the motor system represents sequences of actions by automatically separating their spatial and temporal features for flexible skill production.

The molecular mechanisms by which midbrain dopamine neurons acquire the inhibitory neurotransmitter GABA for synaptic release are revealed.

Production of an amyloid protein by bacteria within the gut microbiome can influence the pathophysiology of a mouse model of synucleinopathy.

Despite the fundamental relationship between movement and value, they are represented in a separable manner in dopamine neurons.