2009
Consequences of axon guidance defects on the development of retinotopic receptive fields in the mouse colliculus
Chandrasekaran AR, Furuta Y, Crair MC. Consequences of axon guidance defects on the development of retinotopic receptive fields in the mouse colliculus. The Journal Of Physiology 2009, 587: 953-963. PMID: 19153163, PMCID: PMC2673768, DOI: 10.1113/jphysiol.2008.160952.Peer-Reviewed Original ResearchConceptsSuperior colliculusMutant miceBone morphogenetic protein receptorRetinal ganglion cell axonsGuidance moleculesSpontaneous retinal wavesGanglion cell axonsSuperficial superior colliculusReceptive field propertiesRetinotopic receptive fieldsActivity-dependent factorsMore RGCsRetinocollicular projectionRetinal wavesEctopic projectionsVentral retinaCell axonsRetinotopic map formationAnatomical defectsAction potentialsActivity-dependent learning ruleSpontaneous wavesRetinaRGCsMice
2008
Bone Morphogenetic Proteins, Eye Patterning, and Retinocollicular Map Formation in the Mouse
Plas DT, Dhande OS, Lopez JE, Murali D, Thaller C, Henkemeyer M, Furuta Y, Overbeek P, Crair MC. Bone Morphogenetic Proteins, Eye Patterning, and Retinocollicular Map Formation in the Mouse. Journal Of Neuroscience 2008, 28: 7057-7067. PMID: 18614674, PMCID: PMC2667968, DOI: 10.1523/jneurosci.3598-06.2008.Peer-Reviewed Original ResearchConceptsLateral geniculate nucleusSuperior colliculusOptic tractRetinotopic map formationRetinal ganglion cell axonsBone morphogenetic proteinCentral brain targetsRetinocollicular map formationGanglion cell axonsMap formationWild-type miceStrains of miceAxon behaviorEarly eye formationAxon orderRetinal cell fateOptic chiasmRGC axonsBrain targetsGeniculate nucleusCell axonsPotential downstream effectorsAxon sortingMorphogenetic proteinsMice
2005
Pretarget sorting of retinocollicular axons in the mouse
Plas DT, Lopez JE, Crair MC. Pretarget sorting of retinocollicular axons in the mouse. The Journal Of Comparative Neurology 2005, 491: 305-319. PMID: 16175549, PMCID: PMC2716708, DOI: 10.1002/cne.20694.Peer-Reviewed Original ResearchConceptsRetinotopic orderOptic tractRetinotectal mapRetinal ganglion cell axonsGanglion cell axonsWild-type miceAxon orderRetinocollicular axonsMouse genetic modelsCell axonsTectal mapMouse modelRetinal axonsOptic tectumSubsequent tractsAxonsTarget cellsTractMiceVertebrate visual systemTectumRetinaRoger SperryGenetic modelsLipophilic dye
2002
Brn3b/Brn3c double knockout mice reveal an unsuspected role for Brn3c in retinal ganglion cell axon outgrowth.
Wang SW, Mu X, Bowers WJ, Kim DS, Plas DJ, Crair MC, Federoff HJ, Gan L, Klein WH. Brn3b/Brn3c double knockout mice reveal an unsuspected role for Brn3c in retinal ganglion cell axon outgrowth. Development 2002, 129: 467-77. PMID: 11807038, DOI: 10.1242/dev.129.2.467.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsCell DifferentiationCulture TechniquesDNA-Binding ProteinsFemaleGene TargetingHumansMaleMiceMice, KnockoutMicroscopy, FluorescenceNeuritesRetinaRetinal Ganglion CellsTranscription Factor Brn-3Transcription Factor Brn-3ATranscription Factor Brn-3BTranscription Factor Brn-3CTranscription FactorsConceptsDouble knockout miceGanglion cell differentiationRetinal ganglion cell differentiationRetinal ganglion cellsOptic chiasmKnockout miceGanglion cellsMost retinal ganglion cellsRetinal ganglion cell axonsRetinal ganglion cell developmentGanglion cell axonsAxon outgrowthGanglion cell developmentCell differentiationDorsal rootsProjection neuronsTrigeminal ganglionCell axonsRetinal explantsPOU domain transcription factorBrn3bBrn3cMiceChiasmInner ear