Molecular differentiation of neurons from ependyma-derived cells in tissue cultures of regenerating teleost spinal cord
Anderson M, Waxman S, Lee Y, Eng L. Molecular differentiation of neurons from ependyma-derived cells in tissue cultures of regenerating teleost spinal cord. Brain Research 1987, 2: 131-136. PMID: 3113659, DOI: 10.1016/0169-328x(87)90006-4.Peer-Reviewed Original ResearchConceptsTeleost spinal cordSpinal cordCell somataNon-phosphorylated neurofilament proteinMolecular differentiationAnti-neurofilament antibodiesRegenerated cordSMI-32Ependymal cellsRostral areasCordNeurofilament proteinDifferentiated neuronsNeuronal morphologyMonoclonal antibodiesNeuronsEpendymal tubeSomaAntibodiesCellsSeries of culturesMolecular architectureTissue cultureMolecular Organization of the Cell Membrane in Normal and Pathological Axons: Relation to Glial Contact
Waxman S. Molecular Organization of the Cell Membrane in Normal and Pathological Axons: Relation to Glial Contact. NATO ASI Series 1987, 709-736. DOI: 10.1007/978-3-642-71381-1_43.Peer-Reviewed Original ResearchCell membraneMolecular organizationMolecular differentiationCell recognition moleculesVoltage-sensitive sodium channelsVoltage-sensitive potassium channelsIon channel organizationIon channel populationsCell typesAdult mammalsRecognition moleculesCoordinated mannerMyelin-forming cellsPotassium channelsChannel populationsGlial cellsMembraneSodium channelsDifferentiationCellsRecent studiesAxon membraneChannel organizationGlial contactMammals