Search results for "olfactory"

showing 10 items of 319 documents

Maternal Caloric Restriction Implemented during the Preconceptional and Pregnancy Period Alters Hypothalamic and Hippocampal Endocannabinoid Levels a…

2016

Journal Article; Exposure to inadequate nutritional conditions in critical windows of development has been associated to disturbances on metabolism and behavior in the offspring later in life. The role of the endocannabinoid system, a known regulator of energy expenditure and adaptive behaviors, in the modulation of these processes is unknown. In the present study, we investigated the impact of exposing rat dams to diet restriction (20% less calories than standard diet) during pre-gestational and gestational periods on: (a) neonatal outcomes; (b) endocannabinoid content in hypothalamus, hippocampus and olfactory bulb at birth; (c) metabolism-related parameters; and (d) behavior in adult mal…

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Odorant metabolizing enzymes in the peripheral olfactory process

2016

Odorant metabolizing enzymes in the peripheral olfactory process

0301 basic medicineMetabolizing enzymesanatomyChemistry[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutritionmusculoskeletal neural and ocular physiologymammalOlfactionolfactoryCell biologyPeripheral03 medical and health sciences[SDV.AEN] Life Sciences [q-bio]/Food and Nutrition030104 developmental biology0302 clinical medicinemedicine.anatomical_structurecortexmedicineepitheliumOlfactory epitheliumProcess (anatomy)[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgerypsychological phenomena and processes

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Neural Stem Cell Regulation by Adhesion Molecules Within the Subependymal Niche

2019

In the mammalian adult brain, neural stem cells persist in neurogenic niches. The subependymal zone is the most prolific neurogenic niche in adult rodents, where residing stem cells generate large numbers of immature neurons that migrate into the olfactory bulb, where they differentiate into different types of interneurons. Subependymal neural stem cells derive from embryonic radial glia and retain some of their features like apico-basal polarity, with apical processes piercing the ependymal layer, and a basal process contacting blood vessels, constituting an epithelial niche. Conservation of the cytoarchitecture of the niche is of crucial importance for the maintenance of stem cells and fo…

0301 basic medicineMini Reviewextracellular matrixNicheBiologyQuiescenceAdult neurogenesis03 medical and health sciencesCell and Developmental Biologyneural stem cell0302 clinical medicineSubependymal zoneNicheSubependymal zoneadhesion moleculesquiescencelcsh:QH301-705.5Ecological nicheNeurogenesisCell BiologyExtracellular matrixEmbryonic stem cellNeural stem cellCell biologyOlfactory bulbadult neurogenesisniche030104 developmental biologylcsh:Biology (General)Neural stem cell030220 oncology & carcinogenesissubependymal zoneStem cellAdhesion moleculesDevelopmental BiologyFrontiers in Cell and Developmental Biology

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Synchronized Activity in The Main and Accessory Olfactory Bulbs and Vomeronasal Amygdala Elicited by Chemical Signals in Freely Behaving Mice

2017

AbstractChemosensory processing in mammals involves the olfactory and vomeronasal systems, but how the activity of both circuits is integrated is unknown. In our study, we recorded the electrophysiological activity in the olfactory bulbs and the vomeronasal amygdala in freely behaving mice exploring a battery of neutral and conspecific stimuli. The exploration of stimuli, including a neutral stimulus, induced synchronic activity in the olfactory bulbs characterized by a dominant theta rhythmicity, with specific theta-gamma coupling, distinguishing between vomeronasal and olfactory structures. The correlated activation of the bulbs suggests a coupling between the stimuli internalization in t…

0301 basic medicineNasal cavityOlfactory systemMaleVomeronasal organmedia_common.quotation_subjectOlfactelcsh:MedicineNeutral stimulusBiologyAmygdalaArticle03 medical and health sciencesMice0302 clinical medicineSex FactorsXarxes neuronals (Neurobiologia)medicineAnimalsOlfactory memoryInternalizationlcsh:Scienceneural circuitsmedia_commonMultidisciplinaryBehavior Animallcsh:RamygdalaAmygdalaOlfactory BulbElectric StimulationElectrophysiology030104 developmental biologymedicine.anatomical_structurenervous systemolfactory bulbFemalelcsh:QVomeronasal OrganNeuroscience030217 neurology & neurosurgery

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Neural stem cells in the adult olfactory bulb core generate mature neurons in vivo.

2021

17 páginas, 7 figuras.

0301 basic medicineNeurobiologia del desenvolupamentRostral migratory streamNeurogenesisSubventricular zoneStem cellsAdult neurogenesis03 medical and health sciencesMiceOlfactory bulb0302 clinical medicineCalretininNeural Stem CellsInterneuronsmedicineAnimalsDevelopmental neurobiologyNeural stem cellsNeuronsbiologyNeurogenesisCell DifferentiationCell BiologyOlfactory BulbNeural stem cellDoublecortinCell biologyOlfactory bulb030104 developmental biologymedicine.anatomical_structurenervous systemSynapsesbiology.proteinMolecular MedicineNeuronNeuNCèl·lules mare030217 neurology & neurosurgeryDevelopmental BiologyStem cells (Dayton, Ohio)REFERENCES

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Unique Organization of the Nuclear Envelope in the Post-natal Quiescent Neural Stem Cells

2017

Summary Neural stem cells (B1 astrocytes; NSCs) in the adult ventricular-subventricular-zone (V-SVZ) originate in the embryo. Surprisingly, recent work has shown that B1 cells remain largely quiescent. They are reactivated postnatally to function as primary progenitors for neurons destined for the olfactory bulb and some corpus callosum oligodendrocytes. The cellular and molecular properties of quiescent B1 cells remain unknown. Here we found that a subpopulation of B1 cells has a unique nuclear envelope invagination specialization similar to envelope-limited chromatin sheets (ELCS), reported in certain lymphocytes and some cancer cells. Using molecular markers, [3H]thymidine birth-dating, …

0301 basic medicineNuclear EnvelopeV-SVZBiologyBiochemistry*nuclear ELCSArticleMice03 medical and health sciences*neural stem cellsNeural Stem CellsLateral VentriclesGeneticsAnimalsquiescenceProgenitor celllcsh:QH301-705.5Cells CulturedGeneticslcsh:R5-920*quiescencenuclear envelope invaginationsCell CycleCell Biology*V-SVZnuclear ELCS*nuclear envelope invaginationsEmbryonic stem cellChromatinNeural stem cellOlfactory bulbCell biologyChromatinB-1 cellAdult Stem Cells030104 developmental biologylcsh:Biology (General)nervous systemAstrocytesCancer celllcsh:Medicine (General)Developmental BiologyAdult stem cell

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Soft X-Ray Tomography Reveals Gradual Chromatin Compaction and Reorganization during Neurogenesis In Vivo

2016

Summary - The realization that nuclear distribution of DNA, RNA, and proteins differs between cell types and developmental stages suggests that nuclear organization serves regulatory functions. Understanding the logic of nuclear architecture and how it contributes to differentiation and cell fate commitment remains challenging. Here, we use soft X-ray tomography (SXT) to image chromatin organization, distribution, and biophysical properties during neurogenesis in vivo. Our analyses reveal that chromatin with similar biophysical properties forms an elaborate connected network throughout the entire nucleus. Although this interconnectivity is present in every developmental stage, differentiati…

0301 basic medicineNucleolusChromosomal Proteins Non-Histonenuclear organizationCellular differentiationBioinformaticsImagingMicechemistry.chemical_compound0302 clinical medicineHeterochromatinTomographyMice KnockoutNeuronsTomography X-RayNeurogenesisCell DifferentiationdifferentiationOlfactory BulbChromatin3. Good healthChromatinCell biologyChromosomal Proteinsneurogenesismedicine.anatomical_structureCell NucleolusHeterochromatinKnockoutNeurogenesisBiologyGeneral Biochemistry Genetics and Molecular BiologyArticleCell fate commitment03 medical and health sciencesImaging Three-Dimensionalolfactory sensory neuronsmedicineAnimalsta114nucleusEpithelial CellsNon-Histonesoft X-ray tomography030104 developmental biologychemistryChromobox Protein Homolog 5Three-DimensionalX-RaychromatinBiochemistry and Cell BiologyNucleus030217 neurology & neurosurgeryDNACell Reports

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Afferent and efferent projections of the anterior cortical amygdaloid nucleus in the mouse

2017

The anterior cortical amygdaloid nucleus (ACo) is a chemosensory area of the cortical amygdala that receives afferent projections from both the main and accessory olfactory bulbs. The role of this structure is unknown, partially due to a lack of knowledge of its connectivity. In this work, we describe the pattern of afferent and efferent projections of the ACo by using fluorogold and biotinylated dextranamines as retrograde and anterograde tracers, respectively. The results show that the ACo is reciprocally connected with the olfactory system and basal forebrain, as well as with the chemosensory and basomedial amygdala. In addition, it receives dense projections from the midline and posteri…

0301 basic medicineOlfactory systemBasal forebrainVomeronasal organLateral hypothalamusGeneral NeuroscienceEfferentThalamusAnatomyBiologyAmygdala03 medical and health sciencesStria terminalis030104 developmental biology0302 clinical medicinemedicine.anatomical_structurenervous systemmedicineNeuroscience030217 neurology & neurosurgeryJournal of Comparative Neurology

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Odour perception: A review of an intricate signalling pathway

2015

The perception of odours is the result of the complex processing of a signal, which initiates at peripheral receptors and ends in the brain. Along this pathway, olfactory signal processing proceeds through several steps; each step possesses its own complexity, and all steps are also intricately connected. This review aims to describe the main intricate steps of olfactory processing in mammals, some of which remain unclear, and the close associations and overlapping nature of these steps. The causes of both the complexity and the variability of olfactory signals are examined: the nature of olfactory receptors, involving the diversity of the genome; the spatial organization of the olfactory e…

0301 basic medicineOlfactory systemChemistrymedia_common.quotation_subjectfungiOdour perceptionGeneral ChemistryOlfactionHedgehog signaling pathwayOlfactory bulb03 medical and health sciences030104 developmental biology0302 clinical medicinemedicine.anatomical_structurePerceptionmedicineIdentification (biology)NeuroscienceOlfactory epitheliumpsychological phenomena and processes030217 neurology & neurosurgeryFood Sciencemedia_commonFlavour and Fragrance Journal

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Cranial Pair I: The Olfactory Nerve

2018

The olfactory nerve constitutes the first cranial pair. Compared with other cranial nerves, it depicts some atypical features. First, the olfactory nerve does not form a unique bundle. The olfactory axons join other axons and form several small bundles or fascicles: the fila olfactoria. These fascicles leave the nasal cavity, pass through the lamina cribrosa of the ethmoid bone and enter the brain. The whole of these fascicles is what is known as the olfactory nerve. Second, the olfactory sensory neurons, whose axons integrate the olfactory nerve, connect the nasal cavity and the brain without any relay. Third, the olfactory nerve is composed by unmyelinated axons. Fourth, the olfactory ner…

0301 basic medicineOlfactory systemHistologyCranial nervesCentral nervous systemSensory systemOlfactionBiology03 medical and health sciences030104 developmental biology0302 clinical medicinemedicine.anatomical_structurenervous systemOlfactory nerveNeuropilmedicineOlfactory ensheathing gliaAnatomyNeuroscience030217 neurology & neurosurgeryEcology Evolution Behavior and SystematicsBiotechnologyThe Anatomical Record

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