2019
Visual Cortex Gains Independence from Peripheral Drive before Eye Opening
Gribizis A, Ge X, Daigle TL, Ackman JB, Zeng H, Lee D, Crair MC. Visual Cortex Gains Independence from Peripheral Drive before Eye Opening. Neuron 2019, 104: 711-723.e3. PMID: 31561919, PMCID: PMC6872942, DOI: 10.1016/j.neuron.2019.08.015.Peer-Reviewed Original ResearchConceptsSuperior colliculusEarly functional developmentSpontaneous neuronal activitySecond postnatal weekPrimary visual cortexPeripheral driveCortex maturesRetinal activityPostnatal weekNeuronal activityDirect projectionsVisual cortexMammalian brainSensory peripheryVisual-spatial perceptionEye openingFunctional developmentPeripheral activityColliculusWeeksDistinct pathwaysPathwayRelative functionV1Thalamus
2013
Competition driven by retinal waves promotes morphological and functional synaptic development of neurons in the superior colliculus
Furman M, Xu HP, Crair MC. Competition driven by retinal waves promotes morphological and functional synaptic development of neurons in the superior colliculus. Journal Of Neurophysiology 2013, 110: 1441-1454. PMID: 23741047, PMCID: PMC3763158, DOI: 10.1152/jn.01066.2012.Peer-Reviewed Original ResearchConceptsSuperior colliculusRetinal wavesRetinal inputBrain slice preparationActivity-dependent competitionWT miceRetinofugal axonsSlice preparationSC neuronsTransgenic miceBrain regionsSynaptic strengthSynaptic developmentSynapse developmentMiceNeuronsEye openingFunctional developmentSynapsesColliculusMolecular mechanismsSpecific roleInstructive roleMorphological developmentAxons
2011
Visual map development depends on the temporal pattern of binocular activity in mice
Zhang J, Ackman JB, Xu HP, Crair MC. Visual map development depends on the temporal pattern of binocular activity in mice. Nature Neuroscience 2011, 15: 298-307. PMID: 22179110, PMCID: PMC3267873, DOI: 10.1038/nn.3007.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsAnimals, NewbornBrain MappingCalciumChannelrhodopsinsCritical Period, PsychologicalFunctional LateralityIn Vitro TechniquesLightLuminescent ProteinsMiceMice, Inbred C57BLMice, TransgenicNeuronal PlasticityPatch-Clamp TechniquesReceptors, NicotinicRetinaRetinal Ganglion CellsSuperior ColliculiTime FactorsVision, BinocularVisual PathwaysConceptsDorsal lateral geniculate nucleusEye-specific segregationSpontaneous retinal wavesLateral geniculate nucleusPrimary visual cortexMouse visual systemBinocular activityRetinal wavesGeniculate nucleusCircuit refinementSuperior colliculusSpecific temporal featuresVisual cortexBursts of activityDefinitive evidenceVisual systemColliculusBinocularityCortexMiceActivity
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
2004
Adenylate Cyclase 1 dependent refinement of retinotopic maps in the mouse
Plas DT, Visel A, Gonzalez E, She WC, Crair MC. Adenylate Cyclase 1 dependent refinement of retinotopic maps in the mouse. Vision Research 2004, 44: 3357-3364. PMID: 15536003, DOI: 10.1016/j.visres.2004.09.036.Peer-Reviewed Original ResearchConceptsAdenylate cyclase 1Retino-collicular pathwayTopographic map refinementActivity-dependent factorsSuperior colliculusRetinotopic mapMutant miceSensory peripheryCellular mechanismsCyclase 1Superficial layersColliculusNeuronal mapsMiceGross topographyLittle evidenceDependent factorsMap refinementBiochemical techniques