Search results for "Cerebrum"

showing 10 items of 57 documents

Courtship Behavior of Brain Mosaics in Drosophila

2000

0167-7063 (Print) Journal Article Research Support, Non-U.S. Gov't; Sites in the brain that show functional, sexual dimorphism in courtship behavior have been mapped at high resolution in male/female mosaics of Drosophila melanogaster. The sex mosaics were produced by enhancer-trap expression of GAL4 driving the female-spliced form of the transformer gene (tra), revealing sites in the dorsal brain, lateral protocerebrum, suboesophageal, thoracic and abdominal ganglia, and suggesting the importance of cross-talk between these regions in the implementation of the courtship sequence.

MaleNuclear Proteins/analysis/*geneticsProtocerebrumNervous systemDorsumanimal structuresSexual Behaviormedia_common.quotation_subjectGene ExpressionHigh resolutionGenetically ModifiedBiologyNervous SystemAnimals Genetically ModifiedCourtshipSexual Behavior AnimalCellular and Molecular NeuroscienceGeneticsmedicineDrosophila ProteinsAnimalsCluster AnalysisDrosophila melanogaster/*geneticsNervous System/*chemistrymedia_commonBrain ChemistryGeneticsCourtship displayHistocytochemistryMosaicismAnimalfungiNuclear Proteinsbiology.organism_classificationSexual dimorphismDrosophila melanogastermedicine.anatomical_structureEvolutionary biologyGangliaFemaleDrosophila melanogasterGanglia/chemistryJournal of Neurogenetics
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Influence of Age on Brain Edema Formation, Secondary Brain Damage and Inflammatory Response after Brain Trauma in Mice

2012

After traumatic brain injury (TBI) elderly patients suffer from higher mortality rate and worse functional outcome compared to young patients. However, experimental TBI research is primarily performed in young animals. Aim of the present study was to clarify whether age affects functional outcome, neuroinflammation and secondary brain damage after brain trauma in mice. Young (2 months) and old (21 months) male C57Bl6N mice were anesthetized and subjected to a controlled cortical impact injury (CCI) on the right parietal cortex. Animals of both ages were randomly assigned to 15 min, 24 h, and 72 h survival. At the end of the observation periods, contusion volume, brain water content, neurolo…

MalePathologyAgingAnatomy and PhysiologyCritical Care and Emergency MedicineMouseT-LymphocytesInterleukin-1beta610 MedizinNitric Oxide Synthase Type IISystemic inflammationMiceAnesthesiologyCell Movement610 Medical sciencesEdemaImmune PhysiologyEdemaLungNeurosurgical CareMultidisciplinaryHematologic TestsQRAging and ImmunityAnimal ModelsOrgan SizeHead Injurymedicine.anatomical_structureNeurologyNeurointensive CareCytokinesMedicinemedicine.symptomResearch Articlemedicine.medical_specialtyTraumatic brain injuryScienceImmunologyInflammationBrain damageAtrophyModel OrganismsNeurorehabilitation and TraumamedicineAnimalsRNA MessengerBiologyCerebrumNeuroinflammationInflammationLungbusiness.industryInterleukin-6Tumor Necrosis Factor-alphaImmunityWatermedicine.diseaseMice Inbred C57BLGene Expression RegulationCyclooxygenase 2Immune SystemBrain InjuriesClinical ImmunologybusinessPhysiological ProcessesPLoS ONE
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3-Acetylpyridine-induced degeneration and regeneration in the adult lizard brain: a qualitative and quantitative analysis

1997

Abstract The neurotoxin 3-acetylpyridine (3AP) produces highly selective neuronal damage in specific areas of the lizard brain. Following 3AP intoxication, proliferation and migration of replacement neurons born in the ventricular walls lead to regeneration of the lesioned areas. Earlier studies established the time course of 3AP-induced degeneration and subsequent regeneration in the medial cerebral cortex of adult lizards (Font, E., Garcia-Verdugo, J.M., Alcantara, S. and Lopez-Garcia, C., Neuron regeneration reverses 3-acetylpyridine-induced cell loss in the cerebral cortex of adult lizards, Brain Res. , 551 (1991) 230–235 [13] ). Complementary to our previous studies, we now provide a q…

MalePathologymedicine.medical_specialtyDendritic spinePyridinesNeurotoxinsBiologyTransneuronal degenerationsymbols.namesakeCortex (anatomy)medicineAnimalsMolecular BiologyCell NucleusCerebral CortexNeuronsCerebrumGeneral NeuroscienceNeurogenesisBrainLizardsDNAAnatomyNerve Regenerationmedicine.anatomical_structureCerebral cortexNerve DegenerationNissl bodysymbolsFemaleNeurology (clinical)NeuronThymidineDevelopmental BiologyBrain Research
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Ascending projections from the optic tectum in the lizard Podarcis hispanica.

1998

The ascending projections of the optic tectum, including their cells of origin, have been studied in the lizard Podarcis hispanica by means of a two-step experimental procedure. First, tracers were injected in the tectum to study the anterograde labeling in the forebrain. Second, the cells of origin of these projections have been identified by analyzing the retrograde labeling after tracer injections in the thalamus, hypothalamus, and pretectum. Three main tectal ascending pathways have been described: the dorsal tecto-thalamic tract (dtt), the medial tecto-thalamic tract (mtt), and the ventral tecto-thalamic tract (vtt). The dtt originates in radial cells of layers 5 and 7 and bipolar cell…

MaleSuperior ColliculiPhysiologyThalamusHypothalamusBiotinVisual systemPodarcis hispanicaProsencephalonThalamusmedicineAnimalsVisual PathwaysPhytohemagglutininsPretectal areaHorseradish PeroxidaseVision OcularNeuronsbiologyCerebrumRhodaminesGeniculate BodiesLizardsAnatomybiology.organism_classificationSensory Systemsmedicine.anatomical_structurenervous systemHypothalamusFemaleFluoresceinsense organsTectumNeuroscienceNucleusVisual neuroscience
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Study of adult neurogenesis in the Gallotia galloti lizard during different seasons.

2011

In a previous study we found a seasonal distribution of cell proliferation (the first stage of adult neurogenesis) in the telencephalic ventricular walls of the adult Gallotia galloti lizard. The aim of the present work was to determine the influence of seasonality on the subsequent migration of the resulting immature neurons. We used wild animals injected with bromodeoxyuridine and kept in captivity within 30 days. To confirm the neuronal identity of these cells, we used double immunohistochemical 5-bromo-2'-deoxyuridine (BrdU) and doublecortin (DCX, an early neuronal marker) labeling, as well as autoradiography after the administration of methyl-[³H]thymidine ([³H]T). We found that: (1) t…

MaleTelencephalonCell divisionNeurogenesisCaptivityAndrologychemistry.chemical_compoundNeural Stem CellsCell MovementParenchymamedicineAnimalsMolecular BiologybiologyCerebrumGeneral NeuroscienceNeurogenesisAge FactorsGallotia gallotiCell DifferentiationLizardsAnatomybiology.organism_classificationDoublecortinmedicine.anatomical_structurechemistrybiology.proteinNeurology (clinical)SeasonsBromodeoxyuridineDevelopmental BiologyBrain research
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Postnatal neurogenesis in the telencephalon of turtles: evidence for nonradial migration of new neurons from distant proliferative ventricular zones …

1997

Postnatal neurogenesis in the the turtle telencephalon was investigated by using bromodeoxyuridine immunocytochemistry and [3H]thymidine autoradiography. Red-eared slider turtles Trachemys scripta elegans (Cryptodira, Emydidae) 2-3 months old were injected with the thymidine analogue 5'-bromodeoxyuridine (BrdU) and allowed to survive for 7, 30, 90, and 180 days. Results indicate that cells in the walls of the lateral ventricles continue to proliferate postnatally. Shortly after BrdU treatment (seven days) most labelled cells were found in the walls of the lateral ventricles (ventricular zone: VZ). Labelled cells were particularly abundant in and around the ventricular sulci. The same patter…

MaleTelencephalonCryptodiraTime FactorsAntimetabolitesImmunocytochemistryCell CountEmydidaeBiologyCerebral VentriclesAndrologyLateral ventricleschemistry.chemical_compoundDevelopmental NeuroscienceCell MovementmedicineAnimalsNeuronsCerebrumTurtle (syntax)Anatomybiology.organism_classificationImmunohistochemistryOlfactory BulbTurtlesMicroscopy Electronmedicine.anatomical_structurenervous systemchemistryBromodeoxyuridineFemaleThymidineBromodeoxyuridineDevelopmental BiologyThymidineBrain research. Developmental brain research
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Perlecan controls neurogenesis in the developing telencephalon.

2006

This article is available from: http://www.biomedcentral.com/1471-213X/7/29

MaleTelencephalonLaminaOrganogenesisApoptosisCell CountNeocortexPerlecanExencephalyBiologyBasement MembraneMiceFetal Organ MaturityInterneuronsPregnancymedicineAnimalsHedgehog Proteinslcsh:QH301-705.5Embryonic Stem CellsCell ProliferationBasement membraneNeuronsCerebrumNeurogenesisAnatomymedicine.diseaseImmunohistochemistryCell biologyNeuroepithelial cellmedicine.anatomical_structurelcsh:Biology (General)embryonic structuresbiology.proteinMicrocephalyBasal laminaFemaleFibroblast Growth Factor 2Heparan Sulfate ProteoglycansDevelopmental BiologyResearch ArticleBMC developmental biology
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Seasonal differences in ventricular proliferation of adult Gallotia galloti lizards.

2007

Lizards present neuronal production throughout the telencephalon in their adult state, both naturally and after experimentally induced brain lesions. As in birds, lizards present seasonal behavioural variations. In birds, such variations have been shown to alter neuronal production. In birds and mammals, lack of stimuli or exposure to stress interferes with adult neurogenetic capacity. The effect of this type of study has not been performed with lizards. In the present study we used bromodeoxyuridine to label dividing cells in the ventricular walls of Gallotia galloti lizards during all four seasons and we investigated the effect of captivity on such proliferation. We found that G. galloti …

MaleTelencephalonLightPhotoperiodCentral nervous systemCaptivityZoologyCell CountStatistics NonparametricLateral Ventriclesparasitic diseasesmedicineAnimalsSauriaMolecular BiologyCell ProliferationphotoperiodismNeuronsAnalysis of VariancebiologyCerebrumEcologyGeneral NeuroscienceStem CellsGallotia gallotiLizardsbiology.organism_classificationmedicine.anatomical_structureBrain lesionsVentricular zonesense organsNeurology (clinical)SeasonsDevelopmental BiologyBrain research
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Chronic antidepressant treatment induces contrasting patterns of synaptophysin and PSA-NCAM expression in different regions of the adult rat telencep…

2007

Structural modifications occur in the brain of severely depressed patients and they can be reversed by antidepressant treatment. Some of these changes do not occur in the same direction in different regions, such as the medial prefrontal cortex, the hippocampus or the amygdala. Differential structural plasticity also occurs in animal models of depression and it is also prevented by antidepressants. In order to know whether chronic fluoxetine treatment induces differential neuronal structural plasticity in rats, we have analyzed the expression of synaptophysin, a protein considered a marker of synaptic density, and the expression of the polysialylated form of the neural cell adhesion molecul…

MaleTelencephalonNeuropilNeuriteSynaptophysinHippocampusPrefrontal CortexNeural Cell Adhesion Molecule L1AmygdalaHippocampusRats Sprague-DawleyAnimal models of depressionFluoxetinemedicineAnimalsPharmacology (medical)Prefrontal cortexBiological PsychiatryPharmacologyNeuronal PlasticitybiologyCerebrumAmygdalaImmunohistochemistryAntidepressive AgentsRatsPsychiatry and Mental healthmedicine.anatomical_structurePhenotypenervous systemNeurologySynaptophysinbiology.proteinSialic AcidsAntidepressive Agents Second-GenerationNeural cell adhesion moleculeNeurology (clinical)NeuroscienceEuropean neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology
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Convergence of olfactory and vomeronasal projections in the rat basal telencephalon

2007

Olfactory and vomeronasal projections have been traditionally viewed as terminating in contiguous non-overlapping areas of the basal telencephalon. Original reports, however, described areas such as the anterior medial amygdala where both chemosensory afferents appeared to overlap. We addressed this issue by injecting dextran amines in the main or accessory olfactory bulbs of rats and the results were analyzed with light and electron microscopes. Simultaneous injections of different fluorescent dextran amines in the main and accessory olfactory bulbs were performed and the results were analyzed using confocal microscopy. Similar experiments with dextran amines in the olfactory bulbs plus Fl…

MaleTelencephalonOlfactory systemVomeronasal organBiologyAmygdalaRats Sprague-DawleyOlfactory MucosamedicineAnimalsNeurons AfferentBrain MappingCerebrumGeneral NeuroscienceOlfactory tubercleOlfactory PathwaysAnatomyOlfactory BulbRetrograde tracingChemoreceptor CellsRatsStria terminalismedicine.anatomical_structurenervous systemFemaleSeptal NucleiVomeronasal OrganNeuroscienceOlfactory tractThe Journal of Comparative Neurology
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