EphA4 defines a class of excitatory locomotor-related interneurons.
about
Circuits controlling vertebrate locomotion: moving in a new directionOrganization of the Mammalian Locomotor CPG: Review of Computational Model and Circuit Architectures Based on Genetically Identified Spinal Interneurons(1,2,3)Nck adaptor proteins control the organization of neuronal circuits important for walking.V3 spinal neurons establish a robust and balanced locomotor rhythm during walking.Electrophysiological and pharmacological properties of locomotor activity-related neurons in cfos-EGFP mice.EphrinB3/EphA4-mediated guidance of ascending and descending spinal tracts.Spatiotemporal dynamics of rhythmic spinal interneurons measured with two-photon calcium imaging and coherence analysisMyelin-derived ephrinB3 restricts axonal regeneration and recovery after adult CNS injury.Strategies for delineating spinal locomotor rhythm-generating networks and the possible role of Hb9 interneurones in rhythmogenesis.Persistent sodium current contributes to induced voltage oscillations in locomotor-related hb9 interneurons in the mouse spinal cordAsymmetric operation of the locomotor central pattern generator in the neonatal mouse spinal cord.Inter-enlargement pathways in the ventrolateral funiculus of the adult rat spinal cord.EphA4-mediated ipsilateral corticospinal tract misprojections are necessary for bilateral voluntary movements but not bilateral stereotypic locomotion.Do pacemakers drive the central pattern generator for locomotion in mammals?Synaptic integration of rhythmogenic neurons in the locomotor circuitry: the case of Hb9 interneurons.A cluster of cholinergic premotor interneurons modulates mouse locomotor activityCompensation for variable intrinsic neuronal excitability by circuit-synaptic interactions.Defining the excitatory neurons that drive the locomotor rhythm in a simple vertebrate: insights into the origin of reticulospinal controlModulation of intrinsic spiking in spinal cord neurons.Synaptic patterning of left-right alternation in a computational model of the rodent hindlimb central pattern generator.Somato-dendritic morphology predicts physiology for neurons that contribute to several kinds of limb movements.Neuronal activity in the isolated mouse spinal cord during spontaneous deletions in fictive locomotion: insights into locomotor central pattern generator organization.Behavioral and electromyographic characterization of mice lacking EphA4 receptors.Diversity of molecularly defined spinal interneurons engaged in mammalian locomotor pattern generation.Change in the balance of excitatory and inhibitory midline fiber crossing as an explanation for the hopping phenotype in EphA4 knockout mice.
P2860
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P2860
EphA4 defines a class of excitatory locomotor-related interneurons.
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
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2005年の論文
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2005年論文
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2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
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2005年论文
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name
EphA4 defines a class of excitatory locomotor-related interneurons.
@ast
EphA4 defines a class of excitatory locomotor-related interneurons.
@en
EphA4 defines a class of excitatory locomotor-related interneurons.
@nl
type
label
EphA4 defines a class of excitatory locomotor-related interneurons.
@ast
EphA4 defines a class of excitatory locomotor-related interneurons.
@en
EphA4 defines a class of excitatory locomotor-related interneurons.
@nl
prefLabel
EphA4 defines a class of excitatory locomotor-related interneurons.
@ast
EphA4 defines a class of excitatory locomotor-related interneurons.
@en
EphA4 defines a class of excitatory locomotor-related interneurons.
@nl
P2860
P356
P1476
EphA4 defines a class of excitatory locomotor-related interneurons
@en
P2093
Line Lundfald
P2860
P304
14098-14103
P356
10.1073/PNAS.0503317102
P407
P577
2005-09-19T00:00:00Z