Pages that link to "Q46876536"

The following pages link to Dopaminergic modulation of spinal neuronal excitability. (Q46876536):

Displaying 50 items.

• TTX-resistant NMDA receptor-mediated membrane potential oscillations in neonatal mouse Hb9 interneurons (Q28716766) (← links)
• Neuroanatomical study of the A11 diencephalospinal pathway in the non-human primate (Q28748883) (← links)
• Controlling specific locomotor behaviors through multidimensional monoaminergic modulation of spinal circuitries (Q30524237) (← links)
• Noradrenergic modulation of intrinsic and synaptic properties of lumbar motoneurons in the neonatal rat spinal cord (Q33731783) (← links)
• Dopamine: a parallel pathway for the modulation of spinal locomotor networks. (Q33761371) (← links)
• Monoaminergic control of spinal locomotor networks in SOD1G93A newborn mice (Q33845902) (← links)
• Sensory modulation of locomotor-like membrane oscillations in Hb9-expressing interneurons (Q33923656) (← links)
• Synaptic NMDA receptor-dependent Ca²⁺ entry drives membrane potential and Ca²⁺ oscillations in spinal ventral horn neurons. (Q34707072) (← links)
• Nanomolar oxytocin synergizes with weak electrical afferent stimulation to activate the locomotor CpG of the rat spinal cord in vitro (Q35127983) (← links)
• Activity in descending dopaminergic neurons represents but is not required for leg movements in the fruit fly Drosophila (Q35363108) (← links)
• Firing dynamics and modulatory actions of supraspinal dopaminergic neurons during zebrafish locomotor behavior. (Q35552742) (← links)
• Inhibitory effects of dopamine on spinal synaptic transmission via dopamine D1-like receptors in neonatal rats. (Q36159254) (← links)
• The conserved dopaminergic diencephalospinal tract mediates vertebrate locomotor development in zebrafish larvae (Q36349896) (← links)
• Opposing aging-related shift of excitatory dopamine D1 and inhibitory D3 receptor protein expression in striatum and spinal cord (Q36598111) (← links)
• Acute administration of dopaminergic drugs has differential effects on locomotion in larval zebrafish (Q36808288) (← links)
• Caffeine stimulates locomotor activity in the mammalian spinal cord via adenosine A1 receptor-dopamine D1 receptor interaction and PKA-dependent mechanisms. (Q36865810) (← links)
• Endogenous dopamine suppresses initiation of swimming in prefeeding zebrafish larvae (Q36893235) (← links)
• Persistent sodium current contributes to induced voltage oscillations in locomotor-related hb9 interneurons in the mouse spinal cord (Q36956950) (← links)
• Unaltered D1, D2, D4, and D5 dopamine receptor mRNA expression and distribution in the spinal cord of the D3 receptor knockout mouse (Q37248647) (← links)
• Activity of Hb9 interneurons during fictive locomotion in mouse spinal cord. (Q37372621) (← 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)
• Motor unit (Q38110501) (← links)
• A synaptic mechanism for network synchrony (Q38256357) (← links)
• Hypocalcemia-induced seizure: demystifying the calcium paradox (Q38391551) (← links)
• Modulatory and plastic effects of kinins on spinal cord networks. (Q38814480) (← links)
• SK channel inhibition mediates the initiation and amplitude modulation of synchronized burst firing in the spinal cord. (Q38868313) (← links)
• Dopaminergic modulation of locomotor network activity in the neonatal mouse spinal cord. (Q40155375) (← links)
• Locomotor networks are targets of modulation by sensory transient receptor potential vanilloid 1 and transient receptor potential melastatin 8 channels. (Q40877508) (← links)
• Mechanisms underlying the endogenous dopaminergic inhibition of spinal locomotor circuit function in Xenopus tadpoles. (Q41513285) (← links)
• Transdermal Rotigotine Improves Sleep Fragmentation in Parkinson's Disease: Results of the Multicenter, Prospective SLEEP-FRAM Study (Q41771587) (← links)
• Sodium Pumps Mediate Activity-Dependent Changes in Mammalian Motor Networks. (Q42055934) (← links)
• Noradrenaline triggers muscle tone by amplifying glutamate-driven excitation of somatic motoneurones in anaesthetized rats (Q42442919) (← links)
• Dopamine triggers skeletal muscle tone by activating D1-like receptors on somatic motoneurons (Q42489658) (← links)
• Unique Configurations of Compression and Truncation of Neuronal Activity Underlie l-DOPA-Induced Selection of Motor Patterns in Aplysia. (Q42642598) (← links)
• Shining light into the black box of spinal locomotor networks (Q42740018) (← links)
• Multiple monoaminergic modulation of posturo-locomotor network activity in the newborn rat spinal cord. (Q42792225) (← links)
• Properties of urethral rhabdosphincter motoneurons and their regulation by noradrenaline (Q42848230) (← links)
• Global gene expression analysis of rodent motor neurons following spinal cord injury associates molecular mechanisms with development of postinjury spasticity (Q43235399) (← links)
• Endogenous extracellular serotonin modulates the spinal locomotor network of the neonatal mouse. (Q43250086) (← links)
• Dopamine exerts activation-dependent modulation of spinal locomotor circuits in the neonatal mouse (Q44779328) (← links)
• Diversification of intrinsic motoneuron electrical properties during normal development and botulinum toxin-induced muscle paralysis in early postnatal mice. (Q44826649) (← links)
• Multiple forms of activity-dependent intrinsic plasticity in layer V cortical neurones in vivo. (Q46018633) (← links)
• Modulation of SK channels regulates locomotor alternating bursting activity in the functionally-mature spinal cord (Q47587874) (← links)
• Human motoneurone excitability is depressed by activation of serotonin 1A receptors with buspirone (Q48032494) (← links)
• Dopamine Pumping Up Spinal Locomotor Network Function (Q48090999) (← links)
• Gliotransmission and adenosinergic modulation: insights from mammalian spinal motor networks. (Q48094337) (← links)
• Excitatory effect of histamine on rat spinal motoneurons by activation of both H₁ and H₂ receptors in vitro. (Q48230403) (← links)
• Muscarinic control of AMPA receptor responsiveness in mouse spinal cord motoneurons (Q48627741) (← links)
• Opposing modulatory effects of D1- and D2-like receptor activation on a spinal central pattern generator (Q48701524) (← links)