Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and subsequently influencing central pattern generators in the spinal cord. However, the midbrain neuronal circuitry and its connections with other brainstem and spinal motor circuits has not been fully elucidated. Vertebrates with very simple nervous system, like the hatchling Xenopus laevis tadpole, have been instrumental in unravelling fundamental principles of locomotion and its suspraspinal control. Here, we use behavioral and electrophysiological approaches in combination with lesions of the midbrain to investigate its contribution to the initiation and control of the tadpole swimming in response to trunk skin stimulation. None of the midbrain...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
During locomotion, reflex responses to sensory stimulation are usually modulated and may even be rev...
We present a detailed computational model of interacting neuronal populations that mimic the hatchli...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Animal survival profoundly depends on the ability to detect stimuli in the environment, process them...
Vertebrate central pattern generators (CPGs) controlling locomotion contain neurons which provide th...
Authors thank Royal Society, Wellcome Trust and BBSRC (BB/L00111X) for their support in the past.Ver...
We describe a novel preparation of the isolated brainstem and spinal cord from pro-metamorphic tadpo...
Effective movement is central to survival and it is essential for all animals to react in response ...
Neuroscience labs benefit from reliable, easily - monitored neural responses mediated by well - stud...
In this article we review our research on the development and intrinsic neuromodulation of a spinal ...
The impact of activity in Xenopus embryonic and larval development was studied with regards to the l...
Supported by PICS (Projet International de Coopération Scientifique) of the French CNRS and a LabEx ...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
During active movements, neural replicas of the underlying motor commands may assist in adapting mot...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
During locomotion, reflex responses to sensory stimulation are usually modulated and may even be rev...
We present a detailed computational model of interacting neuronal populations that mimic the hatchli...
Vertebrate locomotion is heavily dependent on descending control originating in the midbrain and sub...
Animal survival profoundly depends on the ability to detect stimuli in the environment, process them...
Vertebrate central pattern generators (CPGs) controlling locomotion contain neurons which provide th...
Authors thank Royal Society, Wellcome Trust and BBSRC (BB/L00111X) for their support in the past.Ver...
We describe a novel preparation of the isolated brainstem and spinal cord from pro-metamorphic tadpo...
Effective movement is central to survival and it is essential for all animals to react in response ...
Neuroscience labs benefit from reliable, easily - monitored neural responses mediated by well - stud...
In this article we review our research on the development and intrinsic neuromodulation of a spinal ...
The impact of activity in Xenopus embryonic and larval development was studied with regards to the l...
Supported by PICS (Projet International de Coopération Scientifique) of the French CNRS and a LabEx ...
In larval xenopus, locomotor-induced oculomotor behavior produces gaze-stabilizing eye movements to ...
During active movements, neural replicas of the underlying motor commands may assist in adapting mot...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
During locomotion, reflex responses to sensory stimulation are usually modulated and may even be rev...
We present a detailed computational model of interacting neuronal populations that mimic the hatchli...