Search results for "MESH: Odors"

showing 8 items of 8 documents

Independence of first- and second-order memories in newborn rabbits

2011

WOS:000291649400006; International audience; The mammary pheromone promotes the acquisition of novel odorants (CS1) in newborn rabbits. Here, experiments pinpoint that CS1 becomes able to support neonatal learning of other odorants (CS2). We therefore evaluated whether these first- and second-order memories remained dependent after reactivation. Amnesia induced after CS2 recall selectively blocked this memory, when recall and amnesia of CS1 left the souvenir of CS2 safe; this finding partially differed from results obtained in adult mammals. Thus, in this model of neonatal appetitive odor learning, second-order memory seems to depend on first-order memory for its formation but not for its m…

MaleAging[SDV]Life Sciences [q-bio]MESH: Mental RecallMESH: RabbitsMESH: Conditioning OperantPheromonesMESH : PheromonesMESH: Animals NewbornDevelopmental psychologyMESH : Learning0302 clinical medicineMESH: SmellComputingMilieux_COMPUTERSANDEDUCATIONMESH : FemaleMESH: AgingMESH: AnimalsMESH: MemoryMESH : AnisomycinProtein Synthesis InhibitorsMESH: Pheromones0303 health sciencesMESH : Animals NewbornMESH : MemoryMESH : OdorsSmellNeuropsychology and Physiological PsychologyMESH : MotivationFemaleMemory consolidationRabbitsmedicine.symptomMESH: AmnesiaPsychologyAnisomycinpsychological phenomena and processesOlfactory perceptionMESH : MaleCognitive NeuroscienceMESH: MotivationAmnesiaMESH: AnisomycinMESH : Conditioning Operant03 medical and health sciencesCellular and Molecular NeuroscienceMESH : AmnesiaMemoryparasitic diseasesmedicineAnimalsLearningMESH : RabbitsMESH : Protein Synthesis Inhibitors030304 developmental biologyMotivationMESH: Odors[ SDV ] Life Sciences [q-bio]MESH: Protein Synthesis InhibitorsRecallMESH : Mental RecallMESH : AgingMESH: MaleAnimals NewbornOdorMental RecallOdorantsConditioning OperantMESH : Smell MESH: LearningAmnesiaMESH : AnimalsMESH: FemaleNeuroscience030217 neurology & neurosurgeryLearning & Memory
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Proportion of odorants impacts the configural versus elemental perception of a binary blending mixture in newborn rabbits.

2011

WOS: 000295167200002; International audience; Processing of odor mixtures by neonates is weakly understood. Previous studies showed that a binary mixture of ethyl isobutyrate/ethyl maltol (odorants A/B) blends in newborn rabbits at the 30/70 ratio: Pups would perceive a configural odor in addition to the components' odors. Here, we investigated whether the emergence of this additional odor in AB is determined by specific ratio(s) of A and B. To that goal, we tested whether pups discriminated between AB mixtures with lower (A(-)B, 8/92 ratio) or higher (A(+)B, 68/32) proportion of A. In Experiment 1, pups conditioned to A (or B) responded to A(-)B and A(+)B but not to AB. In Experiment 2, pu…

MaleMESH: Olfactory PerceptionPhysiology[SDV]Life Sciences [q-bio]pupMESH: RabbitsMESH: Animals NewbornDevelopmental psychologystimuliBehavioral Neurosciencechemistry.chemical_compound0302 clinical medicineDiscrimination Psychologicalemissionrabbit (Oryctolagus cuniculus)MESH : FemaleMESH: AnimalsMESH: Discrimination (Psychology)configural perceptionodorant proportionChemistryMESH : Animals Newborn05 social sciencesEthyl maltolmammary pheromoneMESH : OdorsSensory SystemsqualityFemaleRabbitsolfactionmedicine.medical_specialtyMESH : MaleOlfactioncomponents03 medical and health sciencesPhysiology (medical)Internal medicineMESH : Olfactory PerceptionmedicineAnimalsMESH : Rabbits0501 psychology and cognitive sciences050102 behavioral science & comparative psychologyodor mixtureMESH: Odors[ SDV ] Life Sciences [q-bio]Olfactory PerceptionMESH : Discrimination (Psychology)neonatesMESH: MaleEndocrinologyOdorAnimals NewbornOdorantsConditioningMESH : AnimalsMESH: Female030217 neurology & neurosurgery
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UDP-glucuronosyltransferases (UGTs) in neuro-olfactory tissues: expression, regulation, and function.

2010

International audience; This work aims to review uridine diphosphate (UDP)-glucuronosyltransferase (UGT) expression and activities along different neuronal structures involved in the common physiological process of olfaction: olfactory epithelium, olfactory bulb, and olfactory cortex. For the first time, using high-throughput in situ hybridization data generated by the Allen Brain Atlas (ABA), we present quantitative analysis of spatial distribution of UGT genes in the mouse brain. The olfactory area is a central nervous system site with the highest expression of UGTs, including UGT isoforms not previously identified in the brain. Since there is evidence of the transfer of xenobiotics to th…

Olfactory systemMESH : RNA Messenger[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH: GlucuronosyltransferaseMESH : Blood-Brain BarrierMESH: Blood-Brain Barrierchemistry.chemical_compound0302 clinical medicineMESH: SmellPharmacology (medical)MESH: AnimalsMESH: Uridine DiphosphateMESH: Nerve Tissue ProteinsGlucuronosyltransferaseGeneral Pharmacology Toxicology and PharmaceuticsMESH : Olfactory BulbMESH : Nerve Tissue Proteins0303 health sciencesMESH: Gene Expression Regulation EnzymologicOlfactory PathwaysOlfactory BulbMESH : OdorsCell biologySmellmedicine.anatomical_structureBlood-Brain BarrierMESH: Olfactory Bulbmedicine.medical_specialtyCentral nervous systemNerve Tissue ProteinsIn situ hybridizationOlfactionBiologydigestive systemGene Expression Regulation EnzymologicOlfactory Receptor NeuronsUridine DiphosphateMESH : Gene Expression Regulation Enzymologic03 medical and health sciencesInternal medicinemedicineAnimalsRNA MessengerMESH : Uridine Diphosphate030304 developmental biologyMESH: RNA MessengerMESH: OdorsMESH : Olfactory PathwaysMESH : GlucuronosyltransferaseMESH: Olfactory Receptor NeuronsOlfactory bulbUridine diphosphateEndocrinologychemistryOdorantsMESH : SmellMESH : Olfactory Receptor NeuronsMESH : AnimalsOlfactory epithelium[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryFunction (biology)MESH: Olfactory Pathways
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Experience influences elemental and configural perception of certain binary odour mixtures in newborn rabbits.

2011

SUMMARY Elemental and configural olfactory perception allows interaction with the environment from very early in life. To evaluate how newborn rabbits can extract and respond to information from the highly complex chemical surroundings, and how experience acts on this sensory, cognitive and behavioural capability, we ran a study in four steps including a total of eight experiments. We mainly used a binary AB mixture comprising ethyl isobutyrate (component A) and ethyl maltol (component B), previously shown as a bearer of blending properties; in rabbit pups (as in human adults), the mixture elicits a weak configural perception, i.e. the perception of a configural odour different from the odo…

MaleMESH: Olfactory Perceptiongenetic structuresPhysiologyolfactory receptornéonatalité[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutritionneonatal perception;olfaction;mixture;experience;mammary pheromone;rabbit;olfactory receptor;individual component;spiny lobster;quality;discrimination;recognition;pheromone;honeybee;feature;object;life sciences and biomedicine ;biologyMESH: RabbitsPheromonesMESH: Animals NewbornMESH : Pheromoneschemistry.chemical_compoundpheromone0302 clinical medicineexperienceConditioning PsychologicalOrganic chemistryMESH: AnimalsMESH : Femaleindividual componentlife sciences and biomedicinemedia_commonobjectAnimal biologyMESH: PheromonesbiologyMESH : Animals Newborn05 social sciencesEthyl maltolCognitionmammary pheromoneMESH : OdorsmixturequalityFemaleRabbitsrecognitionPsychologypsychological phenomena and processesolfactionOlfactory perceptionodoratmedia_common.quotation_subjectMESH : MalerabbitSensory systemAquatic Sciencehoneybee03 medical and health sciencesPerceptual systemPerceptionBiologie animaleMESH : Olfactory PerceptionAnimals0501 psychology and cognitive sciencesMESH : Rabbitslapin050102 behavioral science & comparative psychologyneonatal perceptionphéromoneMolecular BiologyEcology Evolution Behavior and SystematicsCommunicationMESH: Odorsbusiness.industryspiny lobsterMESH: Conditioning (Psychology)Olfactory PerceptionMESH: MaleAnimals NewbornchemistryInsect ScienceOdorantsAnimal Science and ZoologyfeatureMESH : AnimalsbusinessMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgerydiscriminationMESH : Conditioning (Psychology)
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Expression and differential localization of xenobiotic transporters in the rat olfactory neuro-epithelium.

2011

International audience; Transporters, such as multidrug resistance P-glycoproteins (MDR), multidrug resistance-related proteins (MRP) and organic anion transporters (OATs), are involved in xenobiotic metabolism, particularly the cellular uptake or efflux of xenobiotics (and endobiotics) or their metabolites. The olfactory epithelium is exposed to both inhaled xenobiotics and those coming from systemic circulation. This tissue has been described as a pathway for xenobiotics to the brain via olfactory perineural space. Thereby, olfactory transporters and xenobiotic metabolizing enzymes, dedicated to the inactivation and the elimination of xenobiotics, have been involved in the toxicological p…

Male[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : Multidrug Resistance-Associated Proteinsp glycoproteinATP-binding cassette transporterMESH : HepatocytesReceptors OdorantMESH : P-GlycoproteinMESH: HepatocytesMESH : Lymphatic Vessels0302 clinical medicineMESH : Protein Transportugt2a1MESH: SmellMESH: Receptors OdorantMESH: AnimalsReceptorxenobiotic metabolizingmucosa0303 health sciencesMESH : Gene Expression RegulationMESH : RatsGeneral NeuroscienceMESH : OdorsMESH: Gene Expression RegulationSmellProtein Transportmedicine.anatomical_structureBiochemistryLivertransporterbarrierEffluxMultidrug Resistance-Associated ProteinsMESH: Multidrug Resistance-Associated ProteinsMESH: XenobioticsMESH: Protein TransportMESH: P-GlycoproteinMESH: RatsMESH: Lymphatic VesselsMESH : Maleodorant clearancebrainMESH : XenobioticsxenobioticBiologysystemMESH : Rats WistarOlfactory Receptor NeuronsXenobiotics03 medical and health sciencesbulbOlfactory Mucosamultidrug resistanceMESH : Receptors OdorantmedicineAnimalsATP Binding Cassette Transporter Subfamily B Member 1Rats WistardetoxificationMESH: Olfactory Mucosa030304 developmental biologyLymphatic VesselsMESH : Olfactory MucosaMESH: OdorsMESH : LiverTransporterMESH: Rats WistarMESH: Olfactory Receptor NeuronsEpitheliumMESH: MaleOlfactory bulbRatsenzymeGene Expression RegulationOdorantsHepatocytesMESH : SmellMESH : Olfactory Receptor NeuronsMESH : Animalsolfactory epitheliumOlfactory epitheliumperireceptor event[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryDrug metabolismMESH: Liver
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An olfactory receptor for food-derived odours promotes male courtship in Drosophila.

2011

International audience; Many animals attract mating partners through the release of volatile sex pheromones, which can convey information on the species, gender and receptivity of the sender to induce innate courtship and mating behaviours by the receiver. Male Drosophila melanogaster fruitflies display stereotyped reproductive behaviours towards females, and these behaviours are controlled by the neural circuitry expressing male-specific isoforms of the transcription factor Fruitless (FRU(M)). However, the volatile pheromone ligands, receptors and olfactory sensory neurons (OSNs) that promote male courtship have not been identified in this important model organism. Here we describe a novel…

MaleOviposition[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : GenotypeMESH : OvipositionCourtshipMESH: GenotypeSexual Behavior Animal0302 clinical medicineMESH : Drosophila melanogasterMESH: AnimalsMESH : FemaleMatingSex AttractantsMESH: Sexual Behavior AnimalMESH: Ovipositionmedia_commonPhenylacetates0303 health scienceseducation.field_of_studyMultidisciplinaryMESH: Receptors Ionotropic GlutamateMESH : Receptors Ionotropic GlutamateAnatomyMESH: AcetaldehydeMESH : OdorsCell biologymedicine.anatomical_structureDrosophila melanogasterMESH: Sex AttractantsSex pheromonebehavior and behavior mechanismsPheromonefruitlessFemaleDrosophila melanogasterMESH : FoodMESH: FruitMESH: FoodGenotypemedia_common.quotation_subjectMESH : MalePopulationMESH: CourtshipMESH : AcetaldehydeAcetaldehydeMESH : FruitBiologyReceptors Ionotropic GlutamateOlfactory Receptor NeuronsMESH: Drosophila melanogaster03 medical and health sciencesmedicineAnimalseducationMESH : Sexual Behavior Animal030304 developmental biologyMESH : Sex AttractantsOlfactory receptorMESH: OdorsMESH: PhenylacetatesMESH : CourtshipfungiCourtshipMESH : PhenylacetatesMESH: Olfactory Receptor Neuronsbiology.organism_classificationMESH: MaleFoodFruitOdorantsMESH : Olfactory Receptor NeuronsMESH : AnimalsMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgery
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Mammary odor cues and pheromones: mammalian infant-directed communication about maternal state, mammae, and milk

2010

International audience; Neonatal mammals are exposed to an outstandingly powerful selective pressure at birth, and any mean to alleviate their localization effort and accelerate acceptance to orally grasp a nipple and ingest milk should have had advantageous consequences over evolutionary time. Thus, it is essential for females to display a biological interface structure that is sensorily conspicuous and executively easy for their newborns. Females' strategy to increase the conspicuousness of nipples could only exploit the newborns' most advanced and conserved sensory systems, touch and olfaction, and selection has accordingly shaped tactilely and olfactorily conspicuous mammary structures.…

MESH: Olfactory PerceptionMESH: Animals Suckling[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutrition[ SCCO.PSYC ] Cognitive science/PsychologyMESH: Mammary Glands HumanMESH : PheromonesPheromonesmother milkWALLABY MACROPUS-EUGENIIMESH: SmellMESH : FemaleMESH: AnimalsMESH: PheromonesMESH: Milk Humannewborn rabbittransnatal olfactory continuityMESH: Mammary Glands AnimalMESH : InfantMESH : Feeding BehaviorMESH: Pheromones HumanMESH : AdultMESH : Milk HumanMESH : OdorsMESH: InfantMother-Child RelationsAnimals Sucklingnipple-attachment behaviorSmellMESH : Mother-Child RelationsBreast FeedingMilkMESH: Breast Feeding[SCCO.PSYC] Cognitive science/Psychology[SCCO.PSYC]Cognitive science/PsychologyMESH: Feeding BehaviorFemaleCuesMESH: Animal CommunicationAdultMESH: LactationMESH: Mother-Child RelationswallabyPheromones HumanRAT PUPSamniotic-fluidMESH : Mammary Glands AnimalMESH : Mammary Glands HumanNEWBORN RABBITSMESH : Animals SucklingMammary Glands AnimalMESH : Olfactory PerceptionAnimalsHumansLactationMammary Glands Humanprenatal flavor exposureMESH: OdorsMESH: HumansMESH : CuesMilk HumanMESH : LactationMESH : Humansbreast-milkInfantMESH: AdultFeeding Behaviormajor urinary proteinOlfactory PerceptionAnimal CommunicationMESH: Milk[SDV.AEN] Life Sciences [q-bio]/Food and NutritionMOTHERS MILKMESH : MilkMESH : Breast FeedingOdorantsrat pupMESH : SmellMESH : AnimalsMESH : Pheromones Humanmacropus-eugeniiMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and NutritionMESH : Animal CommunicationMESH: Cues
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Use of ultrasonic vocalizations to assess olfactory detection in mouse pups treated with 3-methylindole.

2005

International audience; Altricial mammals use olfaction long before the olfactory bulb has reached its anatomically mature state. Indeed, while audition and vision are still not functional, the olfactory system of newborn animals can clearly process distinct odorant molecules. Although several previous studies have emphasized the important role that olfaction plays in early critical functions, it has been difficult to develop a sensitive and reliable test to precisely quantify olfactory ability in pups. One difficulty in determining early sensory capabilities is the rather limited behavioral repertory of neonates. The present study examines the use of ultrasonic vocalizations emitted by iso…

Olfactory systemMale[SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/NeurobiologyMESH: UltrasonicsMESH : Behavior AnimalMESH: Animals NewbornBehavioral NeuroscienceMice0302 clinical medicineDiscrimination PsychologicalUltrasound emissionMESH: SmellMESH: Behavior AnimalUltrasonicsMESH: AnimalsMESH: Discrimination (Psychology)OlfactotoxinBehavior AnimalMESH : Animals Newborn05 social sciencesGeneral MedicineMESH : OdorsSkatoleSmellAltricialmedicine.anatomical_structure[ SDV.NEU.NB ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]MESH : UltrasonicsMESH : Sensory DeprivationMESH : MaleMESH: Vocalization AnimalMESH: SkatoleSensory systemMESH : Mice Inbred C57BLOlfactionBiologyDevelopment03 medical and health sciencesMESH: Mice Inbred C57BLMESH : MicemedicineAnimals0501 psychology and cognitive sciencesSensory deprivation050102 behavioral science & comparative psychologyMESH: MiceBehaviorMESH: Sensory DeprivationMESH: OdorsMESH : Vocalization AnimalMESH : SkatoleMESH : Discrimination (Psychology)OlfactionMESH: MaleOlfactory bulbMice Inbred C57BLOdorAnimals NewbornOdorantsMESH : SmellAnimal Science and ZoologyMESH : AnimalsSensory DeprivationVocalization AnimalOlfactory epitheliumNeuroscience030217 neurology & neurosurgery
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