2023
Rapid fluctuations in functional connectivity of cortical networks encode spontaneous behavior
Benisty H, Barson D, Moberly A, Lohani S, Tang L, Coifman R, Crair M, Mishne G, Cardin J, Higley M. Rapid fluctuations in functional connectivity of cortical networks encode spontaneous behavior. Nature Neuroscience 2023, 27: 148-158. PMID: 38036743, PMCID: PMC11316935, DOI: 10.1038/s41593-023-01498-y.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrain MappingMagnetic Resonance ImagingMiceNeocortexNeural PathwaysNeuronsWakefulnessConceptsFunctional connectivitySpontaneous behaviorCortical networksCortical network activityTime-varying functional connectivityFunctional magnetic resonanceCerebral cortexAwake miceDynamic functional connectivityAwake animalsNeighboring neuronsPatterned activityDistinct behavioral statesTwo-photon microscopyNeural activityCortical signalsBehavioral statesCortexNetwork activityCortical dynamicsMagnetic resonance
2013
Laminar and Columnar Development of Barrel Cortex Relies on Thalamocortical Neurotransmission
Li H, Fertuzinhos S, Mohns E, Hnasko TS, Verhage M, Edwards R, Sestan N, Crair MC. Laminar and Columnar Development of Barrel Cortex Relies on Thalamocortical Neurotransmission. Neuron 2013, 79: 970-986. PMID: 24012009, PMCID: PMC3768017, DOI: 10.1016/j.neuron.2013.06.043.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsEvoked Potentials, SomatosensoryGlutamic AcidMiceNeural PathwaysNeuronsSomatosensory CortexSynaptic TransmissionThalamusConceptsThalamocortical neurotransmissionCortical developmentNeuronal differentiationGlutamatergic synaptic transmissionSuperficial cortical laminaeEarly cortical developmentActivity-dependent factorsThalamocortical neuronsSomatosensory cortexCortical cytoarchitectureCortical laminationSynaptic transmissionNeuronal activityCortical laminaeCytoarchitectonic criteriaExtrinsic activityNeurotransmissionCortical columnsMolecular cuesNeuronsMorphologic developmentLittle evidenceColumnar developmentGene expressionExtrinsic factors
2008
Cortical Adenylyl Cyclase 1 Is Required for Thalamocortical Synapse Maturation and Aspects of Layer IV Barrel Development
Iwasato T, Inan M, Kanki H, Erzurumlu RS, Itohara S, Crair MC. Cortical Adenylyl Cyclase 1 Is Required for Thalamocortical Synapse Maturation and Aspects of Layer IV Barrel Development. Journal Of Neuroscience 2008, 28: 5931-5943. PMID: 18524897, PMCID: PMC2733830, DOI: 10.1523/jneurosci.0815-08.2008.Peer-Reviewed Original ResearchConceptsTC synapsesLayer IV barrel neuronsCritical period plasticityPrimary somatosensory cortexFormation of barrelsAdenylyl cyclase 1Knock-out (KO) miceType 1 adenylyl cyclaseDendritic asymmetryBarrel neuronsThalamocortical synapsesActivity-dependent mannerTrigeminal pathwayFormation of cAMPSomatosensory cortexBarrel cortexBarrel developmentSynapse maturationPresynaptic maturationBarrel hollowsTC axonsSubcortical regionsFunctional maturationMutant miceBRL mice
2007
Development of Cortical Maps: Perspectives From the Barrel Cortex
Inan M, Crair MC. Development of Cortical Maps: Perspectives From the Barrel Cortex. The Neuroscientist 2007, 13: 49-61. PMID: 17229975, DOI: 10.1177/1073858406296257.Peer-Reviewed Original ResearchConceptsBarrel mapThalamic axonsBarrel cortexBarrel map formationActivity-dependent cuesMolecular cuesSensory afferentsMotor cortexPrimary somatosensoryThalamocortical axonsSomatosensory cortexCortical neuronsSynapse maturationNeuronal activityFunctional maturationVentricular cellsCortical mapsCortexAxonsNeocortical developmentWiring principlesCortical patterningMammalian neocortexNeocortexNeurons
2006
Role of Efficient Neurotransmitter Release in Barrel Map Development
Lu HC, Butts DA, Kaeser PS, She WC, Janz R, Crair MC. Role of Efficient Neurotransmitter Release in Barrel Map Development. Journal Of Neuroscience 2006, 26: 2692-2703. PMID: 16525048, PMCID: PMC6675166, DOI: 10.1523/jneurosci.3956-05.2006.Peer-Reviewed Original ResearchMeSH KeywordsAdenylyl CyclasesAlpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic AcidAnimalsAnimals, NewbornBlotting, WesternBrain MappingCalciumDizocilpine MaleateDose-Response Relationship, DrugDrug InteractionsElectric StimulationExcitatory Amino Acid AgonistsExcitatory Amino Acid AntagonistsExcitatory Postsynaptic PotentialsGene Expression Regulation, DevelopmentalGTP-Binding ProteinsIn Vitro TechniquesMiceMice, Inbred C57BLMice, KnockoutMice, Mutant StrainsModels, NeurologicalNeural PathwaysNeuronal PlasticityNeurotransmitter AgentsN-MethylaspartatePatch-Clamp TechniquesSomatosensory CortexSynapsinsThalamusTime FactorsConceptsThalamocortical afferentsEfficient neurotransmitter releaseNeurotransmitter releaseBarrelless miceActivity-dependent processesNeuronal circuit formationAdenylyl cyclase IBarrel mapSynaptic transmissionPresynaptic terminalsPresynaptic functionCircuit formationCortical mapsMutant miceMiceNeuronal modulesRelease efficacyEfficient synaptic transmissionActive zone proteinsZone proteinEfficacyMap developmentRIM proteinsAC1 functionRelease
1999
The Nuclear Orphan Receptor COUP-TFI Is Required for Differentiation of Subplate Neurons and Guidance of Thalamocortical Axons
Zhou C, Qiu Y, Pereira F, Crair M, Tsai S, Tsai M. The Nuclear Orphan Receptor COUP-TFI Is Required for Differentiation of Subplate Neurons and Guidance of Thalamocortical Axons. Neuron 1999, 24: 847-859. PMID: 10624948, DOI: 10.1016/s0896-6273(00)81032-6.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntimetabolitesAxonsBromodeoxyuridineCarbocyaninesCell DeathCell DifferentiationCerebral CortexCOUP Transcription Factor IDNA-Binding ProteinsFluorescent DyesImmunohistochemistryIn Situ HybridizationMaleMiceMutationNeural PathwaysNeuronsReceptors, GlucocorticoidThalamusTranscription FactorsConceptsSubplate neuronsThalamocortical projectionsCortical layer IVLayer IV neuronsCell deathCorticothalamic connectivityAfferent innervationCerebral cortexThalamocortical axonsLayer IVNervous systemExcessive cell deathFactor INeuronal developmentNeuronsNuclear receptorsPremature cell deathInnervationImproper differentiationImportant regulatorOrphan memberDeathCritical roleDifferentiationFailureNeuronal activity during development: permissive or instructive?
Crair M. Neuronal activity during development: permissive or instructive? Current Opinion In Neurobiology 1999, 9: 88-93. PMID: 10072369, DOI: 10.1016/s0959-4388(99)80011-7.Peer-Reviewed Original Research