2014
Erratum: CORRIGENDUM: Regeneration of Aplysia Bag Cell Neurons is Synergistically Enhanced by Substrate-Bound Hemolymph Proteins and Laminin
Hyland C, Dufresne E, Forscher P. Erratum: CORRIGENDUM: Regeneration of Aplysia Bag Cell Neurons is Synergistically Enhanced by Substrate-Bound Hemolymph Proteins and Laminin. Scientific Reports 2014, 4: 5582. PMCID: PMC4087918, DOI: 10.1038/srep05582.Peer-Reviewed Original ResearchBag cell neuronsHemolymph proteinsRespiratory protein hemocyaninAplysia bag cell neuronsProtein complexesFurther molecular characterizationAddition of hemolymphHigh molecular weight proteinsCell neuronsMolecular weight proteinsMolecular characterizationCellular targetsExtracellular matrixProteinNervous system repairNovel synergistic effectWeight proteinsLaminin substrateHumoral proteinsLamininPossible cooperationActive factorsMigration rateEndogenous factorsPotential relevanceRegeneration of Aplysia Bag Cell Neurons is Synergistically Enhanced by Substrate-Bound Hemolymph Proteins and Laminin
Hyland C, Dufresne ER, Forscher P. Regeneration of Aplysia Bag Cell Neurons is Synergistically Enhanced by Substrate-Bound Hemolymph Proteins and Laminin. Scientific Reports 2014, 4: 4617. PMID: 24722588, PMCID: PMC3983596, DOI: 10.1038/srep04617.Peer-Reviewed Original ResearchConceptsBag cell neuronsHemolymph proteinsRespiratory protein hemocyaninAplysia bag cell neuronsProtein complexesFurther molecular characterizationAddition of hemolymphHigh molecular weight proteinsCell neuronsMolecular weight proteinsMolecular characterizationCellular targetsExtracellular matrixProteinNervous system repairNovel synergistic effectWeight proteinsLaminin substrateHumoral proteinsLamininPossible cooperationActive factorsMigration rateEndogenous factorsPotential relevance
2012
Calcineurin-dependent cofilin activation and increased retrograde actin flow drive 5-HT–dependent neurite outgrowth in Aplysia bag cell neurons
Zhang XF, Hyland C, Van Goor D, Forscher P. Calcineurin-dependent cofilin activation and increased retrograde actin flow drive 5-HT–dependent neurite outgrowth in Aplysia bag cell neurons. Molecular Biology Of The Cell 2012, 23: 4833-4848. PMID: 23097492, PMCID: PMC3521690, DOI: 10.1091/mbc.e12-10-0715.Peer-Reviewed Original ResearchConceptsPhospholipase CNeurite outgrowthDynamic cytoskeletal processesRetrograde actin network flowP domainRetrograde actin flowActin network flowSoluble growth factorsAplysia bag cell neuronsBag cell neuronsCofilin activityWidespread mechanismCytoskeletal processesActin flowCofilin activationCell neuronsNeurite outgrowth rateMechanistic roleInositol trisphosphateOutgrowthGrowth factorDirect activationOutgrowth rateBasal levelsActivation