2006
Midline radial glia translocation and corpus callosum formation require FGF signaling
Smith KM, Ohkubo Y, Maragnoli ME, Rašin M, Schwartz ML, Šestan N, Vaccarino FM. Midline radial glia translocation and corpus callosum formation require FGF signaling. Nature Neuroscience 2006, 9: 787-797. PMID: 16715082, DOI: 10.1038/nn1705.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAstrocytesCell MovementCell ShapeCerebral CortexCorpus CallosumDown-RegulationFemaleFibroblast Growth Factor 8Fibroblast Growth FactorsGrowth ConesMaleMiceMice, KnockoutMice, TransgenicNeurogliaReceptor, Fibroblast Growth Factor, Type 1Receptor, Fibroblast Growth Factor, Type 2RNA InterferenceSignal TransductionConceptsRadial glial cellsGlial cellsSomal translocationRadial gliaCorpus callosum formationReceptor 1 geneCallosal dysgenesisCerebral cortexFibroblast growth factor receptor 1 (FGFR1) geneIndusium griseumDorsomedial cortexDorsolateral cortexKnockout miceCortexAstrogliaApical endfeetFGFR1 geneAstrocytesGliaAxon guidanceDorsal midlinePrecise targetingCellsUnexpected roleFGF
1998
Association of chronic sublethal hypoxia with ventriculomegaly in the developing rat brain
Ment L, Schwartz M, Makuch R, Stewart W. Association of chronic sublethal hypoxia with ventriculomegaly in the developing rat brain. Brain Research 1998, 111: 197-203. PMID: 9838111, DOI: 10.1016/s0165-3806(98)00139-4.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornCerebral CortexCerebral VentriclesChronic DiseaseCorpus CallosumHypoxia, BrainOrgan SizeOxygenRatsConceptsChronic sublethal hypoxiaSublethal hypoxiaBronchopulmonary dysplasiaAnimal modelsExperimental rat pupsSystemic blood pressureSubcortical white matterCorpus callosum sizePostnatal day 3Third groupNeurodevelopmental handicapPreterm infantsProlonged hypoxemiaBlood pressureCerebral ventriculomegalyExperimental time pointsChronic hypoxiaControl ratsCortical volumeRat pupsCallosum sizeNewborn ratsRat brainBody weightDay 3
1991
Prenatal specification of callosal connections in rhesus monkey
Schwartz M, Goldman‐Rakic P. Prenatal specification of callosal connections in rhesus monkey. The Journal Of Comparative Neurology 1991, 307: 144-162. PMID: 1713225, DOI: 10.1002/cne.903070113.Peer-Reviewed Original ResearchConceptsCallosal neuronsLayer IIIPrefrontal cortexInjection siteHeterotopic areasCortical layersCallosal projection neuronsLateral orbital cortexLayer III neuronsPrimate prefrontal cortexPattern of maturationMonkey prefrontal cortexDorsolateral prefrontal cortexLarge injection sitesHomotopic cortexOpposite hemisphereCallosal connectionsAdult casesProjection neuronsRetrograde tracerCallosal axonsOrbital cortexComparable injectionsFrontal cortexAdult monkeysEarly phenotype expression of cortical neurons: evidence that a subclass of migrating neurons have callosal axons.
Schwartz ML, Rakic P, Goldman-Rakic PS. Early phenotype expression of cortical neurons: evidence that a subclass of migrating neurons have callosal axons. Proceedings Of The National Academy Of Sciences Of The United States Of America 1991, 88: 1354-1358. PMID: 1705036, PMCID: PMC51016, DOI: 10.1073/pnas.88.4.1354.Peer-Reviewed Original Research
1984
Callosal and intrahemispheric connectivity of the prefrontal association cortex in rhesus monkey: Relation between intraparietal and principal sulcal cortex
Schwartz M, Goldman‐Rakic P. Callosal and intrahemispheric connectivity of the prefrontal association cortex in rhesus monkey: Relation between intraparietal and principal sulcal cortex. The Journal Of Comparative Neurology 1984, 226: 403-420. PMID: 6747030, DOI: 10.1002/cne.902260309.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAssociationAxonsCerebral CortexCorpus CallosumFrontal LobeMacaca mulattaNeural PathwaysParietal LobeConceptsNuclear YellowPrincipal sulcusArea 46Prefrontal granular cortexDeep cortical layersPrefrontal association cortexIntraparietal sulcusHorseradish peroxidase histochemistryInjection of tracerPosterior parietal cortexSulcal cortexCallosal neuronsCallosal projectionsContralateral neuronsIntrahemispheric connectivityArea 8AIpsilateral projectionInfragranular layersGranular cortexTerminal fieldsLaminar positionAssociation cortexLayer IIITerminal arborsDistinct cell populationsColumnar organization of callosal and associational projections from rat frontal cortex
Isseroff A, Schwartz M, Dekker J, Goldman-Rakic P. Columnar organization of callosal and associational projections from rat frontal cortex. Brain Research 1984, 293: 213-223. PMID: 6421457, DOI: 10.1016/0006-8993(84)91228-9.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAssociationCorpus CallosumFrontal LobeGyrus CinguliHaplorhiniNeural PathwaysPhylogenyRatsSomatosensory CortexConceptsRat frontal cortexFrontal cortexCoronal sectionsHomotopic contralateral areasIpsilateral somatosensory cortexSerial coronal sectionsCortico-cortical fibersCallosal projectionsAssociational projectionsSomatosensory cortexContralateral areaHRP histochemistryAssociational connectionsTerminal fieldsArea 6CortexTerminal labelMammalian neocortexColumnar distributionCallosalColumnar organizationTerminal organizationCell labelPrecise registerNeocortex
1982
Single cortical neurones have axon collaterals to ipsilateral and contralateral cortex in fetal and adult primates
Schwartz M, Goldman-Rakic P. Single cortical neurones have axon collaterals to ipsilateral and contralateral cortex in fetal and adult primates. Nature 1982, 299: 154-155. PMID: 7110334, DOI: 10.1038/299154a0.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornAxonsCerebral CortexCorpus CallosumFluorescent DyesMacaca mulattaNeural PathwaysNeuronsConceptsCortical neuronesDivergent axon collateralsSingle cortical neuronesHeterotopic regionContralateral cortexAxon collateralsCallosal axonsContralateral hemisphereAdult neocortexAdult brainCortical areasCytoarchitectonic areasCell bodiesNeuronesAdult primatesSuch neuronesAxonsCollateralsCallosalNeocortexCortexBrain