2020
Retinal and Callosal Activity-Dependent Chandelier Cell Elimination Shapes Binocularity in Primary Visual Cortex
Wang BS, Bernardez Sarria MS, An X, He M, Alam NM, Prusky GT, Crair MC, Huang ZJ. Retinal and Callosal Activity-Dependent Chandelier Cell Elimination Shapes Binocularity in Primary Visual Cortex. Neuron 2020, 109: 502-515.e7. PMID: 33290732, PMCID: PMC7943176, DOI: 10.1016/j.neuron.2020.11.004.Peer-Reviewed Original ResearchConceptsPrimary visual cortexVisual cortexTranscallosal pathwayVisual fieldDeficient binocular visionGABAergic chandelier cellsBinocular circuitsBinocular visionChandelier cellsRetinal activityTranscallosal projectionsGeniculocortical inputCallosal activityCenter visual fieldBinocular regionCortexMassive apoptosisDevelopmental assemblyCritical periodV1IpsiBlockadePathwayBinocularityMice
2017
Activity-dependent development of visual receptive fields
Thompson A, Gribizis A, Chen C, Crair MC. Activity-dependent development of visual receptive fields. Current Opinion In Neurobiology 2017, 42: 136-143. PMID: 28088066, PMCID: PMC5375035, DOI: 10.1016/j.conb.2016.12.007.Peer-Reviewed Original Research
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
2005
Evidence for an Instructive Role of Retinal Activity in Retinotopic Map Refinement in the Superior Colliculus of the Mouse
Chandrasekaran AR, Plas DT, Gonzalez E, Crair MC. Evidence for an Instructive Role of Retinal Activity in Retinotopic Map Refinement in the Superior Colliculus of the Mouse. Journal Of Neuroscience 2005, 25: 6929-6938. PMID: 16033903, PMCID: PMC6725341, DOI: 10.1523/jneurosci.1470-05.2005.Peer-Reviewed Original ResearchConceptsRetinotopic map refinementRetinal activitySuperior colliculusActivity-dependent factorsNasal-temporal axisSpontaneous retinal activityWild-type miceActivity-dependent cuesActivity-dependent mechanismsRetinotopic map developmentAxon guidance cuesGuidance cuesMolecular mechanismsRetinal wavesPharmacological interventionsMouse modelRetinotopic mapColliculusSame animalsMicePreferential roleReceptive fieldsPhysiological methodsInstructive roleMap refinement