Pages that link to "Q74429408"

The following pages link to The Isolation and Identification of Spinal Neurons That Control Movement in the Xenopus Embryo (Q74429408):

Displaying 24 items.

• A functional scaffold of CNS neurons for the vertebrates: the developing Xenopus laevis spinal cord. (Q37864258) (← links)
• Neuronal control of swimming locomotion: analysis of the pteropod mollusc Clione and embryos of the amphibian Xenopus (Q40488721) (← links)
• Ion channels and the control of swimming in the Xenopus embryo. (Q41692224) (← links)
• Effect of capsaicin and analogues on potassium and calcium currents and vanilloid receptors in Xenopus embryo spinal neurones (Q42239723) (← links)
• Modulation of K(+) currents in Xenopus spinal neurons by p2y receptors: a role for ATP and ADP in motor pattern generation (Q43977798) (← links)
• Spike-independent release of ATP from Xenopus spinal neurons evoked by activation of glutamate receptors (Q43977801) (← links)
• Calcium dependence of differentiation of GABA immunoreactivity in spinal neurons (Q46087196) (← links)
• Spinal inhibitory neurons that modulate cutaneous sensory pathways during locomotion in a simple vertebrate. (Q47881762) (← links)
• Simulation and parameter estimation study of a simple neuronal model of rhythm generation: role of NMDA and non-NMDA receptors. (Q47909185) (← links)
• Differential inhibition of N and P/Q Ca2+ currents by 5-HT1A and 5-HT1D receptors in spinal neurons of Xenopus larvae (Q47977208) (← links)
• Glutamate regulates neurite outgrowth of cultured descending brain neurons from larval lamprey (Q48197196) (← links)
• The pharmacology and roles of two K+ channels in motor pattern generation in the Xenopus embryo. (Q48514071) (← links)
• A slowly activating Ca(2+)-dependent K+ current that plays a role in termination of swimming in Xenopus embryos. (Q51594305) (← links)
• A large, sustained Na(+)- and voltage-dependent K+ current in spinal neurons of the frog embryo (Q51671064) (← links)
• Developmental changes in expression of ion currents accompany maturation of locomotor pattern in frog tadpoles. (Q52189356) (← links)
• Kinetic characterization of the voltage-gated currents possessed by Xenopus embryo spinal neurons. (Q52321715) (← links)
• Nicotinic and muscarinic ACh receptors in rhythmically active spinal neurones in the Xenopus laevis embryo. (Q54026609) (← links)
• Regulation of rhythmic movements by purinergic neurotransmitters in frog embryos (Q59061671) (← links)
• Experimentally derived model for the locomotor pattern generator in the Xenopus embryo (Q60020007) (← links)
• Composition of the excitatory drive during swimming in two amphibian embryos: Rana and Bufo (Q71582581) (← links)
• Cholinergic and electrical synapses between synergistic spinal motoneurones in the Xenopus laevis embryo (Q72018871) (← links)
• Serotonergic inhibition of the T-type and high voltage-activated Ca2+ currents in the primary sensory neurons of Xenopus larvae (Q73648777) (← links)
• Adenosine A1 receptors modulate high voltage-activated Ca2+ currents and motor pattern generation in the xenopus embryo (Q73900882) (← links)
• G-proteins are involved in 5-HT receptor-mediated modulation of N- and P/Q- but not T-type Ca2+ channels (Q77911316) (← links)