2011
Development of Single Retinofugal Axon Arbors in Normal and β2 Knock-Out Mice
Dhande OS, Hua EW, Guh E, Yeh J, Bhatt S, Zhang Y, Ruthazer ES, Feller MB, Crair MC. Development of Single Retinofugal Axon Arbors in Normal and β2 Knock-Out Mice. Journal Of Neuroscience 2011, 31: 3384-3399. PMID: 21368050, PMCID: PMC3060716, DOI: 10.1523/jneurosci.4899-10.2011.Peer-Reviewed Original ResearchConceptsDorsal lateral geniculate nucleusRetinal ganglion cellsSuperior colliculusAxon arborsRetinotopic refinementEye-specific segregationReceptor mutant miceLateral geniculate nucleusActivity-dependent mechanismsNormal developmentWT miceRGC axonsRetinal wavesGanglion cellsGeniculate nucleusMutant miceRole of activityMiceSpecific cuesArborsSparse branchesSame ageLabeling techniqueMaturationDevelopmental period
1998
Morphology of Single Geniculocortical Afferents and Functional Recovery of the Visual Cortex after Reverse Monocular Deprivation in the Kitten
Antonini A, Gillespie DC, Crair MC, Stryker MP. Morphology of Single Geniculocortical Afferents and Functional Recovery of the Visual Cortex after Reverse Monocular Deprivation in the Kitten. Journal Of Neuroscience 1998, 18: 9896-9909. PMID: 9822746, PMCID: PMC2452997, DOI: 10.1523/jneurosci.18-23-09896.1998.Peer-Reviewed Original ResearchConceptsLateral geniculate nucleusMonocular deprivationFunctional recoveryGeniculocortical afferentsArea 17Visual cortical responsesInitial deprivationSimilar proportional changesTotal arbor lengthPossible anatomical basisLayer IVArbor lengthGeniculate nucleusCortical responsesAfferent arborsSecond deprivationLamina ANormal animalsVisual cortexPlastic changesAnatomical basisInitial weeksArborsEyesAfferents