Inhibition underlies fast undulatory locomotion in C. elegans | bioRxiv
V2b neurons act via multiple targets in spinal motor networks
Developmental Disruption of Recurrent Inhibitory Feedback Results in Compensatory Adaptation in the Renshaw Cell–Motor Neuron Circuit | Journal of Neuroscience
Coherence analysis of the calcium activity of putative astrocytic and neuronal cells on the L5 ventral horn and neural output in activated lumbar CPG networks - ScienceDirect
Developmental Disruption of Recurrent Inhibitory Feedback Results in Compensatory Adaptation in the Renshaw Cell–Motor Neuron Circuit | Journal of Neuroscience
V2b neurons act via multiple targets in spinal motor networks
Behavioral Characterization of dmrt3a Mutant Zebrafish Reveals Crucial Aspects of Vertebrate Locomotion through Phenotypes Related to Acceleration | eNeuro
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Developmental switch in the function of inhibitory commissural V0d interneurons in zebrafish - ScienceDirect
Coherence analysis of the calcium activity of putative astrocytic and neuronal cells on the L5 ventral horn and neural output in activated lumbar CPG networks - ScienceDirect
Self-Assembly of Recombinant Silk as a Strategy for Chemical-Free Formation of Bioactive Coatings: A Real-Time Study | Biomacromolecules
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Neuron-specific inactivation of Wt1 alters locomotion in mice and changes interneuron composition in the spinal cord | Life Science Alliance
Compounds and methods for the production of suckerin and uses thereof Patent Grant Guerette , et al. January 26, 2 [Agency for Science, Technology and Research]
V2b neurons act via multiple targets in spinal motor networks
Developmental switch in the function of inhibitory commissural V0d interneurons in zebrafish - ScienceDirect
Coherence analysis of the calcium activity of putative astrocytic and neuronal cells on the L5 ventral horn and neural output in activated lumbar CPG networks - ScienceDirect
Inhibition Underlies Fast Undulatory Locomotion in Caenorhabditis elegans | eNeuro
Developmental switch in the function of inhibitory commissural V0d interneurons in zebrafish - ScienceDirect
The rhythm section: An update on spinal interneurons setting the beat for mammalian locomotion. - Abstract - Europe PMC
Developmental Disruption of Recurrent Inhibitory Feedback Results in Compensatory Adaptation in the Renshaw Cell–Motor Neuron Circuit | Journal of Neuroscience
Developmental Disruption of Recurrent Inhibitory Feedback Results in Compensatory Adaptation in the Renshaw Cell–Motor Neuron Circuit | Journal of Neuroscience