The self-regulating nature of spontaneous synchronized activity in developing mouse cortical neurones. - Wikidata - awgldk - TriplyDB

The self-regulating nature of spontaneous synchronized activity in developing mouse cortical neurones.

The self-regulating nature of spontaneous synchronized activity in developing mouse cortical neurones.

http://www.wikidata.org/entity/Q48431803

about

Decision making during interneuron migration in the developing cerebral cortex A microfluidic microelectrode array for simultaneous electrophysiology, chemical stimulation, and imaging of brain slices.In vitro Differentiation of Functional Human Skeletal Myotubes in a Defined System Connexin hemichannels contribute to spontaneous electrical activity in the human fetal cortex.Relationship between individual neuron and network spontaneous activity in developing mouse cortex.Activity-dependent neurotransmitter respecification.Neuronal activity is required for the development of specific cortical interneuron subtypes.Emergence of adaptive computation by single neurons in the developing cortex.The developmental integration of cortical interneurons into a functional network.An age-dependent change in the set point of synaptic homeostasis.Neuronal activity controls the development of interneurons in the somatosensory cortex.Genetic elimination of GABAergic neurotransmission reveals two distinct pacemakers for spontaneous waves of activity in the developing mouse cortex Early NMDA receptor-driven waves of activity in the developing neocortex: physiological or pathological network oscillations?From neural plate to cortical arousal-a neuronal network theory of sleep derived from in vitro "model" systems for primordial patterns of spontaneous bioelectric activity in the vertebrate central nervous system.Automated quantification of neuronal networks and single-cell calcium dynamics using calcium imaging.Interaction of electrically evoked activity with intrinsic dynamics of cultured cortical networks with and without functional fast GABAergic synaptic transmission.Contribution of GABAergic interneurons to the development of spontaneous activity patterns in cultured neocortical networks.Development of gerbil medial superior olive: integration of temporally delayed excitation and inhibition at physiological temperature.Excitatory GABA in rodent developing neocortex in vitro.Slow oscillating population activity in developing cortical networks: models and experimental results.Distinct calcium signals in developing cortical interneurons persist despite disorganization of cortex by Tbr1 KO.Developmental changes in propagation patterns and transmitter dependence of waves of spontaneous activity in the mouse cerebral cortex.Early network activity propagates bidirectionally between hippocampus and cortex.GABA and Gap Junctions in the Development of Synchronized Activity in Human Pluripotent Stem Cell-Derived Neural Networks.

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P2860

The self-regulating nature of spontaneous synchronized activity in developing mouse cortical neurones.

http://www.wikidata.org/entity/Q48431803

description

2006 nî lūn-bûn

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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2006年學術文章

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The self-regulating nature of ...... oping mouse cortical neurones.

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The self-regulating nature of ...... oping mouse cortical neurones.

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The self-regulating nature of ...... oping mouse cortical neurones.

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The self-regulating nature of ...... oping mouse cortical neurones.

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JPHYSIOL.2006.117523

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The Journal of Physiology

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The self-regulating nature of ...... oping mouse cortical neurones.

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P2093

Annette K McCabe

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Heidi L Picken-Bahrey

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Sarah L Chisholm

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William J Moody

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P2860

Homeostatic plasticity in the developing nervous system

Down-regulation of voltage-dependent sodium channels initiated by sodium influx in developing neurons.

GABA itself promotes the developmental switch of neuronal GABAergic responses from excitation to inhibition.

CaV1.3 channels are essential for development and presynaptic activity of cochlear inner hair cells.

Ion channel development, spontaneous activity, and activity-dependent development in nerve and muscle cells.

Differentiation of voltage-gated potassium current and modulation of excitability in cultured amphibian spinal neurones.

Retinal waves are governed by collective network properties.

Chronic epilepsy in developing hippocampal neurons: electrophysiologic and morphologic features.

Activity deprivation reduces miniature IPSC amplitude by decreasing the number of postsynaptic GABA(A) receptors clustered at neocortical synapses.

The role of activity-dependent network depression in the expression and self-regulation of spontaneous activity in the developing spinal cord.

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155-167

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10.1113/JPHYSIOL.2006.117523

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Pt 1

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577

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2006-08-31T00:00:00Z

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