Search results for "Factory"

showing 10 items of 490 documents

Synaptogenesis in the mouse olfactory bulb during glomerulus development

2008

Synaptogenesis is essential for the development of neuronal networks in the brain. In the olfactory bulb (OB) glomeruli, numerous synapses must form between sensory olfactory neurons and the dendrites of mitral/tufted and periglomerular cells. Glomeruli develop from E13 to E16 in the mouse, coincident with an increment of the neuropil in the border between the external plexiform (EPL) and olfactory nerve layers (ONL), coupled to an extensive labelling of phalloidin and GAP-43 from the ONL to EPL. We have tracked synaptogenesis in the OB during this period by electron microscopy (EM) and immunolabelling of the transmembrane synaptic vesicle glycoprotein SV-2. No SV-2 labelling or synapses we…

Olfactory systemNeuropilTime FactorsPhalloidineSynaptic MembranesSynaptogenesisGAP-43Nerve Tissue ProteinsBiologymitral cellsSynaptic TransmissionOlfactory Receptor NeuronsMiceGAP-43 ProteinOlfactory MucosaOlfactory nerveolfactory sensory neuronsNeuropilmedicineAnimalsGlomerulus (olfaction)Membrane GlycoproteinsGeneral NeuroscienceSV-2Cell DifferentiationDendritesOlfactory BulbOlfactory bulbmedicine.anatomical_structureSynapsesembryonic structuresSynaptic VesiclesOlfactory ensheathing gliaolfactory epitheliumsense organsNeuroscienceOlfactory epitheliumBiomarkers
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Bilateral olfactory deprivation reveals a selective noradrenergic regulatory input to the olfactory bulb.

2001

Unilateral olfactory deprivation in the rat induces changes in the catecholaminergic system of the olfactory bulb. Nevertheless, evidence suggests that unilateral deprivation does not fully prevent stimulation of the deprived bulb. The present report analyses the response of the catecholaminergic system of the olfactory bulb in fully deprived rats obtained by bilateral naris occlusion. The complete deprivation produces more rapid and dramatic changes in both the intrinsic and extrinsic catecholaminergic systems of the olfactory bulb. Intrinsic responses involve a rapid decrease in dopamine-containing cells to about 25% of controls, correlated with a decreased Fos expression in juxtaglomerul…

Olfactory systemOlfactory NerveTyrosine 3-MonooxygenaseDopamineCentral nervous systemOlfactionDopamine beta-HydroxylaseBiologyNorepinephrinemedicineAnimalsSensory deprivationOlfactory memoryRats WistarCatecholaminergicAfferent PathwaysNeuronal PlasticityGeneral NeuroscienceOlfactory tubercleDenervationOlfactory BulbAxonsOlfactory bulbRatsSmellOlfactory Nerve Injuriesmedicine.anatomical_structureFemaleLocus CoeruleusSensory DeprivationNeuroscienceProto-Oncogene Proteins c-fosNeuroscience
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Types of cholecystokinin-containing periglomerular cells in the mouse olfactory bulb

2010

The periglomerular cells (PG) of the olfactory bulb (OB) are involved in the primary processing and the refinement of sensory information from the olfactory epithelium. The neurochemical composition of these neurons has been studied in depth in many species, and over the last decades such studies have focused mainly on the rat. The increasing use of genetic models for research into olfactory function demands a profound characterization of the mouse olfactory bulb, including the chemical composition of bulbar interneurons. Regarding both their connectivity with the olfactory nerve and their neurochemical fate, recently, two different types of PG have been identfied in the mouse. In the prese…

Olfactory systemOlfactory NervebiologyOlfactory tubercleMice TransgenicOlfactory BulbOlfactory bulbMice Inbred C57BLMiceCellular and Molecular NeuroscienceNeurochemicalmedicine.anatomical_structureOlfactory nerveInterneuronsSynapsesGenetic modelbiology.proteinmedicineAnimalsCholecystokininNeuroscienceOlfactory epitheliumParvalbuminJournal of Neuroscience Research
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Perforated Patch-clamp Recording of Mouse Olfactory Sensory Neurons in Intact Neuroepithelium: Functional Analysis of Neurons Expressing an Identifie…

2015

Analyzing the physiological responses of olfactory sensory neurons (OSN) when stimulated with specific ligands is critical to understand the basis of olfactory-driven behaviors and their modulation. These coding properties depend heavily on the initial interaction between odor molecules and the olfactory receptor (OR) expressed in the OSNs. The identity, specificity and ligand spectrum of the expressed OR are critical. The probability to find the ligand of the OR expressed in an OSN chosen randomly within the epithelium is very low. To address this challenge, this protocol uses genetically tagged mice expressing the fluorescent protein GFP under the control of the promoter of defined ORs. O…

Olfactory systemPatch-Clamp TechniquesGeneral Chemical EngineeringGene ExpressionSensory systemMice TransgenicBiology[ SDV.BA ] Life Sciences [q-bio]/Animal biologyReceptors OdorantGeneral Biochemistry Genetics and Molecular BiologyOlfactory Receptor Neurons03 medical and health sciencesOlfactory mucosaMice0302 clinical medicineOlfactory Mucosaolfactory sensory neuronsGenes ReportermedicineAnimalsPatch clampissue 101030304 developmental biology0303 health sciencesOlfactory receptorGeneral Immunology and MicrobiologyGeneral Neuroscience[SDV.BA]Life Sciences [q-bio]/Animal biologygene-targeted mouserespiratory systemelectrophysiologytransductionperforated patch-clampEpitheliumSmellmedicine.anatomical_structure[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Odorants[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]sense organspharmacologyNeuroscienceTransduction (physiology)Olfactory epithelium030217 neurology & neurosurgeryNeuroscienceJournal of visualized experiments : JoVE
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Postnatal odorant exposure induces peripheral olfactory plasticity at the cellular level

2014

Mammalian olfactory sensory neurons (OSNs) form the primary elements of the olfactory system. Inserted in the olfactory mucosa lining of the nasal cavity, they are exposed to the environment and their lifespan is brief. Several reports say that OSNs are regularly regenerated during the entire life and that odorant environment affects the olfactory epithelium. However, little is known about the impact of the odorant environment on OSNs at the cellular level and more precisely in the context of early postnatal olfactory exposure. Here we exposed MOR23-green fluorescent protein (GFP) and M71-GFP mice to lyral or acetophenone, ligands for MOR23 or M71, respectively. Daily postnatal exposure to …

Olfactory systemPatch-Clamp TechniquessourisReceptors Odorant[ SDV.BA ] Life Sciences [q-bio]/Animal biologybiologie neurosensorielleMembrane Potentials0302 clinical medicinemolecular biology[SDV.BDD]Life Sciences [q-bio]/Development BiologydéveloppementAnimal biology0303 health scienceseducation.field_of_studyNeuronal PlasticityGeneral Neuroscience[SDV.BA]Life Sciences [q-bio]/Animal biologyBiologie du développementArticlesOlfactory BulbDevelopment BiologySmellmedicine.anatomical_structureélectrophysiologie[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]development;développement;electrophysiology;électrophysiologie;mice;souris;molecular biology;biologie moléculaire;olfaction;plasticity;plasticiténeurone récepteur olfactifolfactionmiceGreen Fluorescent ProteinsPopulationMice Transgenicneurone olfactifSensory systemOlfactionBiologybiologie moléculaireOlfactory Receptor Neurons03 medical and health sciencesOlfactory mucosaBiologie animalemedicineAnimalsOlfactory Transduction Pathway[ SDV.BDD ] Life Sciences [q-bio]/Development Biologyeducationdevelopment030304 developmental biologyOlfactory receptorplasticitéNeuroscienceselectrophysiologyElectrooculographyAnimals NewbornGene Expression RegulationNeurons and Cognitionplasticity[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]OdorantsNeuroscienceOlfactory epithelium030217 neurology & neurosurgery
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New neurons follow the flow of cerebrospinal fluid in the adult brain

2006

Autores: Sawamoto, K. et al. .- PMID:16410488

Olfactory systemRecombinant Fusion ProteinsSubventricular zoneNerve Tissue ProteinsBiologyCerebral VentriclesLateral ventriclesMiceCerebrospinal fluidNeuroblastCell MovementNeuroblast migrationEpendymamedicineAnimalsBrain Tissue TransplantationCiliaCerebrospinal FluidNeuronsMultidisciplinaryCell PolarityEpithelial CellsAnatomyOlfactory BulbOlfactory bulbmedicine.anatomical_structurenervous systemChoroid PlexusIntercellular Signaling Peptides and ProteinsNeuronNeuroscience
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Modifications de l’olfaction au cours du vieillissement et de certaines pathologies neurodégénératives : mise au point

2015

Olfaction is a complex sensory system, and increasing interest is being shown in the link between olfaction and cognition, notably in the elderly. In this literature review, we revisit the specific neurophysiological features of the olfactory system and odorants that lead to a durable olfactory memory and an emotional memory, for which the implicit component produces subconscious olfactory conditioning. Olfaction is known to affect cognitive abilities and mood. We also consider the impairment of olfactory function due to ageing and to neurodegenerative diseases, in particular Alzheimer's disease and Parkinson's disease, through anatomopathological changes in the peripheral and central olfac…

Olfactory systemSensory stimulation therapybusiness.industryGastroenterologyCognitionSensory systemOlfactionmedicine.disease3. Good health03 medical and health sciences0302 clinical medicineInternal MedicinemedicineDementia030212 general & internal medicineOlfactory memoryAlzheimer's diseasebusinessNeuroscience030217 neurology & neurosurgeryLa Revue de Médecine Interne
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Neural Substrate to Associate Odorants and Pheromones: Convergence of Projections from the Main and Accessory Olfactory Bulbs in Mice

2012

In rodents olfactory stimuli are essential for socio-sexual behaviour. Volatile stimuli mainly activate the main olfactory system, whereas non-volatile ones, some of them considered as pheromones, activate the accessory olfactory system. Traditionally, it has been considered that the efferent projections of the main and the accessory olfactory bulbs innervate different telencephalic areas. Recent studies performed in rats and mice have challenged this view. In this work we explore in mice, through the use of anterograde tracer injections in the olfactory bulbs, the brain centres where olfactory and vomeronasal information might converge.

Olfactory systemStria terminalisVomeronasal organNeural substrateSex pheromoneEfferentBiologyAccessory Olfactory BulbNeuroscienceOlfactory bulb
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A putative social chemosignal elicits faster cortical responses than perceptually similar odorants.

2006

Social chemosignals, so-called pheromones, have recently attracted much attention in that effects on women's psychophysiology and cortical processing have been reported. We here tested the hypothesis that the human brain would process a putative social chemosignal, the endogenous steroid endrostadienone, faster than other odorants with perceptually matched intensity and hedonic characteristics. Chemosensory event-related potentials (ERP) were recorded in healthy women. ERP analyses indicate that androstadienone was processed significantly faster than the control odorants. Androstadienone elicited shorter latencies for all recorded ERP components but most so for the late positivity. This fin…

Olfactory systemVisual perceptionMotion PerceptionCortical processingPheromoneschemistry.chemical_compound0302 clinical medicineAttentionHydrogen SulfideEvoked PotentialsCerebral Cortex0303 health sciencesBrain MappingAndrostadienoneElectroencephalographyHuman brainOlfactory PathwaysMiddle AgedChemoreceptor CellsSmellmedicine.anatomical_structureNeurologyPattern Recognition VisualSex pheromoneSensory Thresholds[ SCCO.NEUR ] Cognitive science/NeuroscienceAndrogensFemalePsychologyERPpsychological phenomena and processesAdultCognitive NeuroscienceOlfactionAndrosterone03 medical and health sciencesmedicinePsychophysicsReaction TimeHumansSocial Behavior030304 developmental biologyCommunicationDose-Response Relationship Drugbusiness.industry[SCCO.NEUR]Cognitive science/NeuroscienceOlfactionAndrostadienesPsychophysiologychemistrybusinessNeuroscience030217 neurology & neurosurgeryPsychomotor PerformanceNeuroImage
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Chemosensory Function of the Amygdala

2010

The chemosensory amygdala has been traditionally divided into two divisions based on inputs from the main (olfactory amygdala) or accessory (vomeronasal amygdala) olfactory bulbs, supposedly playing different and independent functional roles detecting odors and pheromones, respectively. Recently, there has been increased anatomical evidence of convergence inputs from the main and accessory bulbs in some areas of the amygdala, and this is correlated with functional evidence of interrelationships between the olfactory and the vomeronasal systems. This has lead to the characterization of a third division of the chemosensory amygdala, the mixed chemosensory amygdala, providing a new perspective…

Olfactory systemVomeronasal organAnatomyBiologyAmygdalamedicine.anatomical_structurenervous systemOdormedicinePheromoneOlfactory memoryFunctional organizationNeurosciencepsychological phenomena and processesFunction (biology)
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