Search results for "Nidopallium"

showing 6 items of 6 documents

Evolution of Pallial Areas and Networks Involved in Sociality: Comparison Between Mammals and Sauropsids

2019

Birds are extremely interesting animals for studying the neurobiological basis of cognition and its evolution. They include species that are highly social and show high cognitive capabilities. Moreover, birds rely more on visual and auditory cues than on olfaction for social behavior and cognition, just like primates. In primates, there are two major brain networks associated to sociality: (1) one related to perception and decision-making, involving the pallial amygdala (with the basolateral complex as a major component), the temporal and temporoparietal neocortex, and the orbitofrontal cortex; (2) another one related to affiliation, including the medial extended amygdala, the ventromedial …

0301 basic medicineArcopalliumPhysiologyOlfactionsocial cognitionBiologyNucleus accumbensAmygdalalcsh:PhysiologyDorsal ventricular ridge03 medical and health sciences0302 clinical medicineExtended amygdalaPhysiology (medical)Hypothesis and Theorymedicinemedial amygdalaaffiliationdorsal ventricular ridgeBSTMedial amygdalaNeocortexorbito frontal cortexAffiliationlcsh:QP1-981six part pallial modelpallial amygdalaSocial cognition030104 developmental biologymedicine.anatomical_structureNidopalliumOrbitofrontal cortexNeuroscience030217 neurology & neurosurgery
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Neurons in the pigeon caudolateral nidopallium differentiate Pavlovian conditioned stimuli but not their associated reward value in a sign-tracking p…

2016

AbstractAnimals exploit visual information to identify objects, form stimulus-reward associations, and prepare appropriate behavioral responses. The nidopallium caudolaterale (NCL), an associative region of the avian endbrain, contains neurons exhibiting prominent response modulation during presentation of reward-predicting visual stimuli, but it is unclear whether neural activity represents valuation signals, stimulus properties, or sensorimotor contingencies. To test the hypothesis that NCL neurons represent stimulus value, we subjected pigeons to a Pavlovian sign-tracking paradigm in which visual cues predicted rewards differing in magnitude (large vs. small) and delay to presentation (s…

0301 basic medicineTelencephalonVisual perceptiongenetic structuresPhotic StimulationReward valueConditioning ClassicalStimulus (physiology)Synaptic TransmissionArticleDiscrimination Learning03 medical and health sciences0302 clinical medicineRewardmedicineReaction TimeAnimalsDiscrimination learningColumbidaeSensory cueNeuronsMultidisciplinaryBehavior AnimalCerebrumElectrophysiological Phenomena030104 developmental biologymedicine.anatomical_structureNidopalliumCuesPsychologyNeuroscience030217 neurology & neurosurgeryPhotic StimulationScientific Reports
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Blocking NMDA-receptors in the pigeon's "prefrontal" caudal nidopallium impairs appetitive extinction learning in a sign-tracking paradigm

2015

Extinction learning provides the ability to flexibly adapt to new contingencies by learning to inhibit previously acquired associations in a context-dependent manner. The neural networks underlying extinction learning were mostly studied in rodents using fear extinction paradigms. To uncover invariant properties of the neural basis of extinction learning, we employ pigeons as a model system. Since the prefrontal cortex of mammals is a key structure for extinction learning, we assessed the role of N-methyl-D-aspartate receptors (NMDARs) in the nidopallium caudolaterale, the avian functional equivalent of mammalian prefrontal cortex. Since NMDARs in prefrontal cortex have been shown to be rel…

Cognitive NeuroscienceSpontaneous recoveryStimulus (physiology)contextlcsh:RC321-571Behavioral NeuroscienceSign-trackingmedicinePrefrontal cortexretrievallcsh:Neurosciences. Biological psychiatry. NeuropsychiatryOriginal ResearchrenewalArtificial neural networkExtinction (psychology)social sciencesmusculoskeletal systemhumanitiesNeuropsychology and Physiological Psychologynervous systemDisinhibitionNidopalliumNMDA receptorAPVmedicine.symptomPsychologyNeurosciencegeographic locationsNeuroscience
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Expression of regulatory genes in the embryonic brain of a lizard and implications for understanding pallial organization and evolution

2017

The comparison of gene expression patterns in the embryonic brain of mouse and chicken is being essential for understanding pallial organization. However, the scarcity of gene expression data in reptiles, crucial for understanding evolution, makes it difficult to identify homologues of pallial divisions in different amniotes. We cloned and analyzed the expression of the genes Emx1, Lhx2, Lhx9, and Tbr1 in the embryonic telencephalon of the lacertid lizard Psammodromus algirus. The comparative expression patterns of these genes, critical for pallial development, are better understood when using a recently proposed six-part model of pallial divisions. The lizard medial pallium, expressing all…

0301 basic medicineCalbindinsArcopalliumLIM-Homeodomain ProteinsEMX1ReptileBiologyCalbindinLhx903 medical and health sciencesforebrain evolutiontranscription factorsmedicineTranscription factorsAnimalsDlx2Research ArticlesHomeodomain ProteinsNeocortexCerebrumGeneral NeuroscienceDLX2RRID AB_10000340BrainGene Expression Regulation DevelopmentalLizardsBiological Evolutionreptile030104 developmental biologymedicine.anatomical_structureCalbindin 1Developmental regulatory genesbiology.proteinNidopalliumEmx1TBR1developmental regulatory genesT-Box Domain ProteinsNeuroscienceForebrain evolutionResearch Article
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Working memory performance is tied to stimulus complexity

2021

1. Summary Working memory is the cognitive capability to maintain and process information over short periods. Recent behavioral and computational studies have shown that increased visual information of the presented stimulus material is associated with enhanced working memory performance. However, the underlying neural correlates of this association are unknown. To identify how stimuli of different visual information levels affect working memory performance, we conducted behavioral experiments and single unit recordings in the avian analog of the prefrontal cortex, the nidopallium caudolaterale (NCL). On the behavioral level, we confirmed that feature-rich complex stimuli demonstrated highe…

Neural correlates of consciousnessComputer scienceWorking memoryNidopalliumStimulus (physiology)Neural codingPrefrontal cortexAssociation (psychology)Affect (psychology)Neuroscience
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Neurons in the pigeon nidopallium caudolaterale signal the selection and execution of perceptual decisions

2014

Sensory systems provide organisms with information on the current status of the environment, thus enabling adaptive behavior. The neural mechanisms by which sensory information is exploited for action selection are typically studied with mammalian subjects performing perceptual decision-making tasks, and most of what is known about these mechanisms at the single-neuron level is derived from cortical recordings in behaving monkeys. To explore the generality of neural mechanisms underlying perceptual decision making across species, we recorded single-neuron activity in the pigeon nidopallium caudolaterale (NCL), a non-laminated associative forebrain structure thought to be functionally equiva…

NeuronsGeneral Neurosciencemedia_common.quotation_subjectDecision MakingSensory systemStimulus (physiology)Saccadic maskingProsencephalonPerceptionForebrainVisual PerceptionPsychophysicsAnimalsNidopalliumColumbidaePsychologyPrefrontal cortexNeurosciencePsychomotor Performancemedia_commonEuropean Journal of Neuroscience
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