1997
Radiation‐induced, lamina‐specific deletion of neurons in the primate visual cortex
Algan O, Rakic P. Radiation‐induced, lamina‐specific deletion of neurons in the primate visual cortex. The Journal Of Comparative Neurology 1997, 381: 335-352. PMID: 9133572, DOI: 10.1002/(sici)1096-9861(19970512)381:3<335::aid-cne6>3.0.co;2-3.Peer-Reviewed Original ResearchConceptsLateral geniculate nucleusArea 17Primate visual cortexVisual cortexLow dosesCortical layersArea 17/18 borderEmbryonic day 80Period of corticogenesisSuperficial cortical layersOnset of corticogenesisComputer-aided morphometryMacaque monkey brainSpecific cell classesMultiple dosesCortical cytoarchitectureGeniculate nucleusCortical developmentLaminar positionSpecific neuronal classesCortical thicknessPrimate brainMonkey brainCytoarchitectonic featuresHigh doses
1996
Selective expression of m2 muscarinic receptor in the parvocellular channel of the primate visual cortex.
Mrzljak L, Levey A, Rakic P. Selective expression of m2 muscarinic receptor in the parvocellular channel of the primate visual cortex. Proceedings Of The National Academy Of Sciences Of The United States Of America 1996, 93: 7337-7340. PMID: 8692994, PMCID: PMC38985, DOI: 10.1073/pnas.93.14.7337.Peer-Reviewed Original ResearchConceptsDorsal lateral geniculate nucleusLateral geniculate nucleusGeniculate nucleusVisual cortexMacaque monkey visual cortexM2 muscarinic acetylcholine receptorM2 muscarinic receptorsM2 receptor proteinMuscarinic acetylcholine receptorsMonkey visual cortexPrimate visual cortexM2 receptorsCerebral cortexMuscarinic receptorsExcitatory neurotransmissionParvocellular layersLayers IIAcetylcholine receptorsSynaptic circuitsNeuronal channelsParvocellular channelsParvocellular pathwayCortexSelective expressionReceptors
1995
Distribution and density of monoamine receptors in the primate visual cortex devoid of retinal input from early embryonic stages
Rakic P, Lidow. Distribution and density of monoamine receptors in the primate visual cortex devoid of retinal input from early embryonic stages. Journal Of Neuroscience 1995, 15: 2561-2574. PMID: 7891189, PMCID: PMC6578103, DOI: 10.1523/jneurosci.15-03-02561.1995.Peer-Reviewed Original ResearchConceptsMonoamine receptorsVisual cortexLaminar distributionSpecific laminar patternMonths of agePrimate visual cortexGroups of animalsBinocular enucleationCortical consequencesPrestriate areasCerebral cortexMonoaminergic receptorsSupragranular layersCortical plateLayer IVCongenital anophthalmiaGeniculocortical fibersOccipital lobeCortical bindingLaminar patternRetinal inputNeurotransmitter receptorsMonkey striateCoronal planeDistinct laminar
1991
A novel cytoarchitectonic area induced experimentally within the primate visual cortex.
Rakic P, Suñer I, Williams R. A novel cytoarchitectonic area induced experimentally within the primate visual cortex. Proceedings Of The National Academy Of Sciences Of The United States Of America 1991, 88: 2083-2087. PMID: 2006147, PMCID: PMC51173, DOI: 10.1073/pnas.88.6.2083.Peer-Reviewed Original ResearchConceptsArea 17Cytoarchitectonic areasVisual cortexSecondary visual cortexPrimary visual cortexPrimate visual cortexAfferent fibersCerebral cortexCortical neuronsThalamic inputsCortical connectionsThalamic fibersCytoarchitectonic regionsCortexCortical parcellationAberrant combinationsArea XProtomap hypothesisCell-cell interactionsNeurons
1990
Hypercolumns in primate visual cortex can develop in the absence of cues from photoreceptors.
Kuljis R, Rakic P. Hypercolumns in primate visual cortex can develop in the absence of cues from photoreceptors. Proceedings Of The National Academy Of Sciences Of The United States Of America 1990, 87: 5303-5306. PMID: 2164675, PMCID: PMC54311, DOI: 10.1073/pnas.87.14.5303.Peer-Reviewed Original ResearchConceptsLayers II/IIINeuropeptide YInterblob regionsVisual cortexAspiny stellate cellsCytochrome oxidase-rich blobsCytochrome oxidase blobsPrimate visual cortexRetinal ablationCerebral cortexRetinal neuronsDistinct physiological propertiesControl animalsStellate cellsOperated animalsMacaque monkeysSynaptic connectionsCortexPattern visionRetinal photoreceptorsNeuronsChemoarchitectonic organizationAbsence of cuesColor visionPhotoreceptors
1983
Geniculo-Cortical Connections in Primates: Normal and Experimentally Altered Development
Rakic P. Geniculo-Cortical Connections in Primates: Normal and Experimentally Altered Development. Progress In Brain Research 1983, 58: 393-404. PMID: 6195694, DOI: 10.1016/s0079-6123(08)60042-4.Peer-Reviewed Original ResearchConceptsVisual cortexDorsal lateral geniculate nucleusFetal rhesus monkeysLateral geniculate nucleusCentral visual pathwaysPrimary visual cortexPrimate visual cortexSynaptic reorganizationCerebral cortexPrenatal mechanismsGeniculate nucleusAfferent connectionsAdult monkeysVisual pathwayRhesus monkeysAnatomical organizationExperimental modelCortexCongenital disorderNormal patternPathological developmentMonkeysColor visionSeries of studiesPrimates