2008
Cellular Mechanisms Underlying Stimulus-Dependent Gain Modulation in Primary Visual Cortex Neurons In Vivo
Cardin JA, Palmer LA, Contreras D. Cellular Mechanisms Underlying Stimulus-Dependent Gain Modulation in Primary Visual Cortex Neurons In Vivo. Neuron 2008, 59: 150-160. PMID: 18614036, PMCID: PMC2504695, DOI: 10.1016/j.neuron.2008.05.002.Peer-Reviewed Original ResearchConceptsSynaptic activationPrimary visual cortex neuronsCat primary visual cortexVisual cortex neuronsCellular mechanismsPrimary visual cortexNeuronal gainBackground synaptic activityVisual stimuliPostsynaptic effectsCortex neuronsIntracellular recordingsSynaptic activitySynaptic inputsVisual cortexInput resistanceVisual stimulationGain modulationSustained changesVivoSensory contextMembrane potentialNeuronal phenomenaActivationModulation
1999
Memory suppressor genes: Enhancing the relationship between synaptic plasticity and memory storage
Cardin J, Abel T. Memory suppressor genes: Enhancing the relationship between synaptic plasticity and memory storage. Journal Of Neuroscience Research 1999, 58: 10-23. PMID: 10491568, DOI: 10.1002/(sici)1097-4547(19991001)58:1<10::aid-jnr3>3.0.co;2-2.Peer-Reviewed Original ResearchConceptsMemory suppressor genesSuppressor gene productGene productsSuppressor geneTranscriptional regulatory proteinsCell-cell interactionsIntracellular signaling cascadesSynaptic plasticityTranscriptional controlRegulatory proteinsSignaling cascadesKinase activityHuman disordersGenesInhibitory constraintCell surfaceFuture pharmaceuticalsLong-term potentiationProteinPotential targetMammalian hippocampusPlasticityLong-term facilitationRecent evidenceDrosophila