Add to ORKGLocomotor movements are coordinated by a network of neurons that produces sequential muscle activation. Different motoneurons need to be recruited in an orderly manner to generate movement with appropriate speed and force. However, the mechanisms governing recruitment order have not been fully clarified. Using an in vitro juvenile/adult zebrafish brainstem−spinal cord preparation, we found that motoneurons were organized into four pools with specific topographic locations and were incrementally recruited to produce swimming at different frequencies. The threshold of recruitment was not dictated by the input resistance of motoneurons, but was instead set by a combination of specific biophysical properties and the strength of the synaptic cur...
Locomotion is produced by neuronal circuits in the spinal cord. These motor circuits rely on the act...
SummaryAnimals can produce movements of widely varying speed and strength by changing the recruitmen...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
The work described here focuses on novel patterns of motoneuron dendritic organization and dendritic...
The development of swimming was investigated in zebrafish aged 1.5 to 5 days postfertilization by ex...
Many spinal circuits dedicated to locomotor control have been identified in the developing zebrafish...
The goal of this work was two-fold: 1) To apply serial block-face electron microscopy (SBEM) to the ...
SummarySpinal circuits generate locomotion with variable speed as circumstances demand. These circui...
SummaryMotor responses of varying intensities rely on descending commands to heterogeneous pools of ...
The work described here represents an investigation into the functional organization of interneurons...
Spinal interneurons coordinate the activity of motoneurons to generate the spatiotemporal patterns o...
Locomotion is produced by neuronal circuits in the spinal cord. These motor circuits rely on the act...
SummaryAnimals can produce movements of widely varying speed and strength by changing the recruitmen...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
Locomotor movements are coordinated by a network of neurons that produces sequential muscle activati...
The work described here focuses on novel patterns of motoneuron dendritic organization and dendritic...
The development of swimming was investigated in zebrafish aged 1.5 to 5 days postfertilization by ex...
Many spinal circuits dedicated to locomotor control have been identified in the developing zebrafish...
The goal of this work was two-fold: 1) To apply serial block-face electron microscopy (SBEM) to the ...
SummarySpinal circuits generate locomotion with variable speed as circumstances demand. These circui...
SummaryMotor responses of varying intensities rely on descending commands to heterogeneous pools of ...
The work described here represents an investigation into the functional organization of interneurons...
Spinal interneurons coordinate the activity of motoneurons to generate the spatiotemporal patterns o...
Locomotion is produced by neuronal circuits in the spinal cord. These motor circuits rely on the act...
SummaryAnimals can produce movements of widely varying speed and strength by changing the recruitmen...
Vertebrate locomotion at different speeds is driven by descending excitatory connections to central ...
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