Pages that link to "Q48149739"

The following pages link to Roles of glutamate and GABA receptors in setting the developmental timing of spontaneous synchronized activity in the developing mouse cortex. (Q48149739):

Displaying 16 items.

• Spontaneous activity in the developing gerbil auditory cortex in vivo involves GABAergic transmission. (Q30434472) (← links)
• A microfluidic microelectrode array for simultaneous electrophysiology, chemical stimulation, and imaging of brain slices (Q30542459) (← links)
• Relationship between individual neuron and network spontaneous activity in developing mouse cortex (Q30609082) (← links)
• NMDA receptors in GABAergic synapses during postnatal development. (Q34291242) (← links)
• Hierarchical clustering of gene expression patterns in the Eomes + lineage of excitatory neurons during early neocortical development (Q34361313) (← links)
• Intrinsic neuronal properties switch the mode of information transmission in networks (Q35490195) (← links)
• Emergence of adaptive computation by single neurons in the developing cortex (Q37041522) (← links)
• The developmental integration of cortical interneurons into a functional network (Q37475593) (← links)
• Genetic elimination of GABAergic neurotransmission reveals two distinct pacemakers for spontaneous waves of activity in the developing mouse cortex (Q37633605) (← links)
• Elevated glutamate and NMDA disrupt production of the second messenger cyclic GMP in the early postnatal mouse cortex. (Q45815440) (← links)
• Relationship between GABAergic interneurons migration and early neocortical network activity (Q46196397) (← links)
• Sequential generation of two distinct synapse-driven network patterns in developing neocortex (Q46226314) (← links)
• In-vitro exposure of neuronal networks to the GSM-1800 signal (Q48162462) (← links)
• Bimodal septal and cortical triggering and complex propagation patterns of spontaneous waves of activity in the developing mouse cerebral cortex (Q48184226) (← links)
• Bilaterally propagating waves of spontaneous activity arising from discrete pacemakers in the neonatal mouse cerebral cortex. (Q48715842) (← links)
• Distinct calcium signals in developing cortical interneurons persist despite disorganization of cortex by Tbr1 KO. (Q50282993) (← links)