Pages that link to "Q36955588"

The following pages link to Strategies for delineating spinal locomotor rhythm-generating networks and the possible role of Hb9 interneurones in rhythmogenesis (Q36955588):

Displaying 50 items.

• Circuits controlling vertebrate locomotion: moving in a new direction (Q24609218) (← links)
• Decoding the organization of spinal circuits that control locomotion (Q26765010) (← links)
• Translational spinal cord injury research: preclinical guidelines and challenges (Q27025285) (← links)
• TTX-resistant NMDA receptor-mediated membrane potential oscillations in neonatal mouse Hb9 interneurons (Q28716766) (← links)
• V3 spinal neurons establish a robust and balanced locomotor rhythm during walking (Q30490613) (← links)
• Electrophysiological and pharmacological properties of locomotor activity-related neurons in cfos-EGFP mice (Q33582245) (← links)
• Preclinical evidence supporting the clinical development of central pattern generator-modulating therapies for chronic spinal cord-injured patients (Q33687734) (← links)
• Flexibility of motor pattern generation across stimulation conditions by the neonatal rat spinal cord (Q33920877) (← links)
• Sensory modulation of locomotor-like membrane oscillations in Hb9-expressing interneurons (Q33923656) (← links)
• Preferred locomotor phase of activity of lumbar interneurons during air-stepping in subchronic spinal cats (Q34781167) (← links)
• Properties of a distinct subpopulation of GABAergic commissural interneurons that are part of the locomotor circuitry in the neonatal spinal cord (Q34907648) (← links)
• Molecular Mechanisms Underlying Cell Death in Spinal Networks in Relation to Locomotor Activity After Acute Injury in vitro (Q35059282) (← links)
• Peeling back the layers of locomotor control in the spinal cord (Q35912118) (← links)
• Low-threshold calcium currents contribute to locomotor-like activity in neonatal mice (Q35951458) (← links)
• Evaluation of the Phase-Dependent Rhythm Control of Human Walking Using Phase Response Curves (Q36024108) (← links)
• Functional characterization of dI6 interneurons in the neonatal mouse spinal cord (Q36043145) (← links)
• A gradient in endogenous rhythmicity and oscillatory drive matches recruitment order in an axial motor pool (Q36190613) (← links)
• Frequency-dependent recruitment of V2a interneurons during fictive locomotion in the mouse spinal cord. (Q36683265) (← links)
• Exercise training after spinal cord injury selectively alters synaptic properties in neurons in adult mouse spinal cord. (Q36862821) (← links)
• Organization of mammalian locomotor rhythm and pattern generation (Q36971102) (← links)
• Optogenetic dissection reveals multiple rhythmogenic modules underlying locomotion. (Q37010520) (← links)
• Asymmetric operation of the locomotor central pattern generator in the neonatal mouse spinal cord. (Q37018525) (← links)
• Activity-dependent changes in extracellular Ca2+ and K+ reveal pacemakers in the spinal locomotor-related network (Q37076883) (← links)
• Participation of a persistent sodium current and calcium-activated nonspecific cationic current to burst generation in trigeminal principal sensory neurons (Q37235472) (← links)
• Activity of Hb9 interneurons during fictive locomotion in mouse spinal cord. (Q37372621) (← links)
• Reconfiguration of the spinal interneuronal network during locomotion in vertebrates (Q37412837) (← links)
• Modulation of Rhythmic Activity in Mammalian Spinal Networks Is Dependent on Excitability State. (Q37610854) (← links)
• Measured motion: searching for simplicity in spinal locomotor networks (Q37629169) (← links)
• Do pacemakers drive the central pattern generator for locomotion in mammals? (Q37733209) (← links)
• Synaptic integration of rhythmogenic neurons in the locomotor circuitry: the case of Hb9 interneurons. (Q37764067) (← links)
• Development and functional organization of spinal locomotor circuits (Q37796403) (← links)
• Spinal interneurons providing input to the final common path during locomotion (Q37812716) (← links)
• Beyond connectivity of locomotor circuitry—ionic and modulatory mechanisms (Q37812717) (← links)
• A functional scaffold of CNS neurons for the vertebrates: the developing Xenopus laevis spinal cord. (Q37864258) (← links)
• Central pattern generators of the mammalian spinal cord. (Q37868836) (← links)
• Enabling techniques for in vitro studies on mammalian spinal locomotor mechanisms (Q38015131) (← links)
• Central pattern generator for locomotion: anatomical, physiological, and pathophysiological considerations (Q38081065) (← links)
• Microelectrode arrays in combination with in vitro models of spinal cord injury as tools to investigate pathological changes in network activity: facts and promises (Q38086423) (← links)
• Dorsally derived spinal interneurons in locomotor circuits (Q38093274) (← links)
• Zebrafish Mnx proteins specify one motoneuron subtype and suppress acquisition of interneuron characteristics (Q38320307) (← links)
• Fictive locomotion in the adult decerebrate and spinal mouse in vivo (Q39684273) (← links)
• Sensory-evoked perturbations of locomotor activity by sparse sensory input: a computational study (Q40157923) (← links)
• Primacy of Flexor Locomotor Pattern Revealed by Ancestral Reversion of Motor Neuron Identity (Q40724880) (← links)
• The flexion synergy, mother of all synergies and father of new models of gait (Q41216536) (← links)
• A cluster of cholinergic premotor interneurons modulates mouse locomotor activity (Q41410162) (← links)
• Modeling zero-lag synchronization of dorsal horn neurons during the traveling of electrical waves in the cat spinal cord (Q41976326) (← links)
• Synaptically activated burst-generating conductances may underlie a group-pacemaker mechanism for respiratory rhythm generation in mammals (Q42188063) (← links)
• Specific Brainstem Neurons Switch Each Other into Pacemaker Mode to Drive Movement by Activating NMDA Receptors (Q42286722) (← links)
• Spinal Hb9::Cre-derived excitatory interneurons contribute to rhythm generation in the mouse (Q42327804) (← links)
• Synaptic patterning of left-right alternation in a computational model of the rodent hindlimb central pattern generator. (Q43860388) (← links)