Hervé Le Corronc
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View article: Two opposite voltage-dependent currents control the unusual early development pattern of embryonic Renshaw cell electrical activity
Two opposite voltage-dependent currents control the unusual early development pattern of embryonic Renshaw cell electrical activity Open
Renshaw cells (V1 R ) are excitable as soon as they reach their final location next to the spinal motoneurons and are functionally heterogeneous. Using multiple experimental approaches, in combination with biophysical modeling and dynamica…
View article: Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses
Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses Open
The files include the raw data for the following publication: Xiaojuan Yang, Hervé Le Corronc, Pascal Legendre, Antoine Triller, Christian G Specht (2020) Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory…
View article: Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses
Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses Open
The files include the raw data for the following publication: Xiaojuan Yang, Hervé Le Corronc, Pascal Legendre, Antoine Triller, Christian G Specht (2020) Differential regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory…
View article: Differential homeostatic regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses
Differential homeostatic regulation of glycinergic and GABAergic nanocolumns at mixed inhibitory synapses Open
Super-resolution imaging of synapses has revealed that key synaptic proteins are dynamically organized within sub-synaptic domains (SSDs). At mixed inhibitory synapses in spinal cord neurons, both GlyRs and GABA A Rs reside at the same pos…
View article: Two opposite voltage-dependent currents control the unusual early development pattern of embryonic Renshaw cell electrical activity
Two opposite voltage-dependent currents control the unusual early development pattern of embryonic Renshaw cell electrical activity Open
Renshaw cells (V1 R ) are excitable as soon as they reach their final location next to the spinal motoneurons and are functionally heterogeneous. Using multiple experimental approaches, in combination with biophysical modeling and dynamica…
View article: Neuroepithelial progenitors generate and propagate non-neuronal action potentials across the spinal cord
Neuroepithelial progenitors generate and propagate non-neuronal action potentials across the spinal cord Open
SUMMARY In the developing central nervous system, electrical signaling is thought to rely exclusively on differentiating neurons as they acquire the ability to generate action potentials. Accordingly, the neuroepithelial progenitors (NEPs)…
View article: Persistent Sodium Current Drives Excitability of Immature Renshaw Cells in Early Embryonic Spinal Networks
Persistent Sodium Current Drives Excitability of Immature Renshaw Cells in Early Embryonic Spinal Networks Open
Spontaneous network activity (SNA) emerges in the spinal cord (SC) before the formation of peripheral sensory inputs and central descending inputs. SNA is characterized by recurrent giant depolarizing potentials (GDPs). Because GDPs in mot…