SummaryNavigation requires animals to adjust ongoing movements in response to pertinent features of the environment and select between competing target cues. The neurobiological basis of navigational behavior in vertebrates is hard to analyze, partly because underlying neural circuits are experience dependent. Phototaxis in zebrafish is a hardwired navigational behavior [1, 2], performed at a stage when larvae swim by using a small repertoire of stereotyped movements [3–5]. We established conditions to elicit robust phototaxis behavior and found that zebrafish larvae deploy directional orienting maneuvers and regulate forward swimming speed to navigate toward a target light. Using genetic analysis and targeted laser ablations, we show that ...
Abstract Background The processing of optic flow in the pretectum/accessory optic system allows anim...
In order to survive and thrive, motile organisms use sensory cues to navigate towards environments w...
Complex motor behaviors are thought to be coordinated by networks of brain nuclei that may control d...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-di...
SummaryOrientation of animals towards or away from light is a simple behavior commonly found in the ...
Stabilizing gaze and position within an environment constitutes an important task for the nervous sy...
Bridging brain-scale circuit dynamics and organism-scale behavior is a central challenge in neurosci...
In the absence of salient sensory cues to guide behavior, animals must still execute sequences of mo...
Neural circuits in the vertebrate retina extract the direction of object motion from visual scenes a...
SummaryAnimals respond to whole-field visual motion with compensatory eye and body movements in orde...
In the absence of salient sensory cues to guide behavior, animals must still execute sequences of mo...
SummaryVertebrate locomotion at different speeds is driven by descending excitatory connections to c...
Abstract Background Animals us...
Understanding how the brain transforms sensory input into complex behavior is a fundament...
SummaryMost vertebrates process visual information using elaborately structured photosensory tissues...
Abstract Background The processing of optic flow in the pretectum/accessory optic system allows anim...
In order to survive and thrive, motile organisms use sensory cues to navigate towards environments w...
Complex motor behaviors are thought to be coordinated by networks of brain nuclei that may control d...
Animals continuously gather sensory cues to move towards favourable environments. Efficient goal-di...
SummaryOrientation of animals towards or away from light is a simple behavior commonly found in the ...
Stabilizing gaze and position within an environment constitutes an important task for the nervous sy...
Bridging brain-scale circuit dynamics and organism-scale behavior is a central challenge in neurosci...
In the absence of salient sensory cues to guide behavior, animals must still execute sequences of mo...
Neural circuits in the vertebrate retina extract the direction of object motion from visual scenes a...
SummaryAnimals respond to whole-field visual motion with compensatory eye and body movements in orde...
In the absence of salient sensory cues to guide behavior, animals must still execute sequences of mo...
SummaryVertebrate locomotion at different speeds is driven by descending excitatory connections to c...
Abstract Background Animals us...
Understanding how the brain transforms sensory input into complex behavior is a fundament...
SummaryMost vertebrates process visual information using elaborately structured photosensory tissues...
Abstract Background The processing of optic flow in the pretectum/accessory optic system allows anim...
In order to survive and thrive, motile organisms use sensory cues to navigate towards environments w...
Complex motor behaviors are thought to be coordinated by networks of brain nuclei that may control d...