2018
Development of piriform cortex interhemispheric connections via the anterior commissure: progressive and regressive strategies
Martin-Lopez E, Meller SJ, Greer CA. Development of piriform cortex interhemispheric connections via the anterior commissure: progressive and regressive strategies. Brain Structure And Function 2018, 223: 4067-4085. PMID: 30141078, PMCID: PMC6252112, DOI: 10.1007/s00429-018-1741-y.Peer-Reviewed Original ResearchConceptsAnterior commissurePostnatal developmentPostnatal day 22Inter-hemispheric connectionsChondroitin sulfate proteoglycanPiriform cortexContralateral innervationGlial cellsOlfactory areasBed nucleusInterhemispheric connectionsStria terminalisDay 22Axonal tractsAxon growthNew subtypeAxon outgrowthCalretininCommissureSulfate proteoglycanAxonsPhenotypeInnervationIpsiImmunohistochemistry
2011
Dab1 (Disable Homolog-1) Reelin Adaptor Protein Is Overexpressed in the Olfactory Bulb at Early Postnatal Stages
Martín-López E, Blanchart A, De Carlos JA, López-Mascaraque L. Dab1 (Disable Homolog-1) Reelin Adaptor Protein Is Overexpressed in the Olfactory Bulb at Early Postnatal Stages. PLOS ONE 2011, 6: e26673. PMID: 22046330, PMCID: PMC3201967, DOI: 10.1371/journal.pone.0026673.Peer-Reviewed Original ResearchConceptsWild-type miceOlfactory bulb layersEarly postnatal stagesDab1 expressionEarly brain developmentProjection neuronsReeler miceOlfactory bulbType miceBrain developmentPostnatal stagesProtein expressionBulb layersExpression levelsDab1MiceNeuronsReelin effectsPresent studyReelerRELNCritical rolePossible regulationApparent differencesAdaptor protein
2010
Peripheral contributions to olfactory bulb cell populations (migrations towards the olfactory bulb)
Blanchart A, Martín‐López E, De Carlos JA, López‐Mascaraque L. Peripheral contributions to olfactory bulb cell populations (migrations towards the olfactory bulb). Glia 2010, 59: 278-292. PMID: 21125652, DOI: 10.1002/glia.21100.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsAnimals, NewbornBromodeoxyuridineCell MovementCell ProliferationCells, CulturedEmbryo, MammalianFemaleGene Expression Regulation, DevelopmentalGene Transfer TechniquesGreen Fluorescent ProteinsMiceNerve Tissue ProteinsNeurogliaNeuronsOlfactory BulbOlfactory PathwaysPregnancyProsencephalonConceptsMigratory massCell populationsOlfactory axonsDifferent neural cell populationsOlfactory placodeOlfactory Ensheathing CellsCentral nervous systemLater postnatal stagesEmbryonic day 11Glial markersRetroviral injectionCNS neuronsNeural cell populationsGlomerular layerOlfactory nerveOlfactory bulbPeripheral contributionsNervous systemOlfactory epitheliumDifferent cell populationsDay 11Telencephalic vesiclePostnatal stagesInfected cellsOlfactory systemDifferential Adhesiveness and Neurite-promoting Activity for Neural Cells of Chitosan, Gelatin, and Poly-l-Lysine Films
Martín-López E, Nieto-Díaz M, Nieto-Sampedro M. Differential Adhesiveness and Neurite-promoting Activity for Neural Cells of Chitosan, Gelatin, and Poly-l-Lysine Films. Journal Of Biomaterials Applications 2010, 26: 791-809. PMID: 20876636, DOI: 10.1177/0885328210379928.Peer-Reviewed Original ResearchConceptsG filmsDorsal root gangliaTissue engineeringExcellent adhesive propertiesComposite filmsGood adhesionGood biomaterialFilmsPC12 cellsNGF-differentiated PC12 cellsC6 glioma cellsAdhesive propertiesRoot gangliaGlial cellsCerebral tissueHippocampal neuronsNerve repairMixture of CHGlioma cellsC6 lineTissue regenerationNeural cellsLysine filmsNeuronsEngineering