2011
Local Application of Neurotrophins Specifies Axons Through Inositol 1,4,5-Trisphosphate, Calcium, and Ca2+/Calmodulin–Dependent Protein Kinases
Nakamuta S, Funahashi Y, Namba T, Arimura N, Picciotto MR, Tokumitsu H, Soderling TR, Sakakibara A, Miyata T, Kamiguchi H, Kaibuchi K. Local Application of Neurotrophins Specifies Axons Through Inositol 1,4,5-Trisphosphate, Calcium, and Ca2+/Calmodulin–Dependent Protein Kinases. Science Signaling 2011, 4: ra76. PMID: 22087032, DOI: 10.1126/scisignal.2002011.Peer-Reviewed Original ResearchConceptsBrain-derived neurotrophic factorNeurotrophin-3Neurotrophin brain-derived neurotrophic factorLocal applicationImmature neuritesCultured hippocampal neuronsAxon specificationSpecific intracellular pathwaysNeurotrophic factorCortical neuronsHippocampal neuronsNeurotrophin receptorParacrine fashionCultured neuronsDependent protein kinase kinaseDependent protein kinaseNeuronsProtein kinase kinaseAxonsIntracellular pathwaysDependent fashionLocal activationNeuritesNeurite outgrowthGrowth cones
1985
Development of the rhesus monkey retina. I. Emergence of the inner plexiform layer and its synapses
Nishimura Y, Rakic P. Development of the rhesus monkey retina. I. Emergence of the inner plexiform layer and its synapses. The Journal Of Comparative Neurology 1985, 241: 420-434. PMID: 4078040, DOI: 10.1002/cne.902410403.Peer-Reviewed Original ResearchConceptsInner plexiform layerConventional synapsesPlexiform layerGeniculate nucleusRibbon synapsesRhesus monkeysAdult levelsDorsal lateral geniculate nucleusRetinal ganglion cell axonsRhesus monkey retinaGanglion cell axonsSynaptic vesiclesLateral geniculate nucleusRate of synaptogenesisGap junctionsSynaptic contactsMonkey retinaCell axonsRetinal projectionsSuperior colliculusAcellular zoneChemical synapsesSynaptogenesisImmature neuritesSynapses
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