In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to counteract the disruptive effects of tail undulation during swimming. While neuronal circuitries responsible for feed-forward intrinsic spino-extraocular signaling have recently been described, the resulting oculomotor behavior remains poorly understood. Conveying locomotor CPG efference copy, the spino-extraocular motor command coordinates the multi-segmental rostrocaudal spinal rhythmic activity with the extraocular motor activity. By recording sequences of xenopus tadpole free swimming, we quantified the temporal calibration of conjugate eye movements originating from spino-extraocular motor coupled activity during pre-metamorphic tail-bas...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Vertebrate central pattern generators (CPGs) controlling locomotion contain neurons which provide th...
International audienceLocomotor maturation requires concurrent gaze stabilization improvement for ma...
International audienceIn larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabili...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
International audienceIn swimming Xenopus laevis tadpoles, gaze stabilization is achieved by efferen...
SummaryBackgroundSelf-generated body movements require compensatory eye and head adjustments in orde...
International audienceDuring swimming in the amphibian ITALIC! Xenopus laevis, efference copies of r...
SummaryAccurate perception of the visual world plays a major role in animal survival. All vertebrate...
International audienceLocomotion in vertebrates is accompanied by retinal image-stabilizing eye move...
Vertebrate locomotion presents a major challenge for maintaining visual acuity due to head movements...
During active movements, neural replicas of the underlying motor commands may assist in adapting mot...
International audienceLocomotor maturation requires concurrent gaze stabilization improvement for ma...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Vertebrate central pattern generators (CPGs) controlling locomotion contain neurons which provide th...
International audienceLocomotor maturation requires concurrent gaze stabilization improvement for ma...
International audienceIn larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabili...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
International audienceIn swimming Xenopus laevis tadpoles, gaze stabilization is achieved by efferen...
SummaryBackgroundSelf-generated body movements require compensatory eye and head adjustments in orde...
International audienceDuring swimming in the amphibian ITALIC! Xenopus laevis, efference copies of r...
SummaryAccurate perception of the visual world plays a major role in animal survival. All vertebrate...
International audienceLocomotion in vertebrates is accompanied by retinal image-stabilizing eye move...
Vertebrate locomotion presents a major challenge for maintaining visual acuity due to head movements...
During active movements, neural replicas of the underlying motor commands may assist in adapting mot...
International audienceLocomotor maturation requires concurrent gaze stabilization improvement for ma...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Vertebrate central pattern generators (CPGs) controlling locomotion contain neurons which provide th...
International audienceLocomotor maturation requires concurrent gaze stabilization improvement for ma...