Search results for "MESH : Drosophila"

showing 7 items of 7 documents

Expression profiling of prospero in the Drosophila larval chemosensory organ: Between growth and outgrowth

2010

AbstractBackgroundThe antenno-maxilary complex (AMC) forms the chemosensory system of theDrosophilalarva and is involved in gustatory and olfactory perception. We have previously shown that a mutant allele of the homeodomain transcription factor Prospero (prosVoila1,V1), presents several developmental defects including abnormal growth and altered taste responses. In addition, many neural tracts connecting the AMC to the central nervous system (CNS) were affected. Our earlier reports on larval AMC did not argue in favour of a role ofprosin cell fate decision, but strongly suggested thatproscould be involved in the control of other aspect of neuronal development. In order to identify these fu…

Central Nervous SystemMESH : Transcription FactorsMESH: DrosophilaOF-FUNCTION SCREEN;MUSCA-DOMESTICA L;HOUSE-FLY LARVA;FINE-STRUCTURE;AXON GUIDANCE;TRANSCRIPTION FACTOR;PATTERN-FORMATION;GENETIC-ANALYSIS;NERVOUS-SYSTEMGenes InsectMESH: Genes InsectAXON GUIDANCEMUSCA-DOMESTICA L0302 clinical medicineMESH: Gene Expression Regulation DevelopmentalCluster AnalysisDrosophila ProteinsMESH: AnimalsTRANSCRIPTION FACTORMESH: Nerve Tissue ProteinsMESH : Nerve Tissue ProteinsOF-FUNCTION SCREENOligonucleotide Array Sequence AnalysisGenetics0303 health sciencesMESH : Central Nervous SystemMicrobiology and ParasitologyMESH : Genes InsectGene Expression Regulation DevelopmentalNuclear ProteinsMESH: Transcription FactorsNull alleleMicrobiologie et ParasitologieMESH : Oligonucleotide Array Sequence Analysis[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Larva[SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]DrosophilaDrosophila ProteinResearch ArticleBiotechnologylcsh:QH426-470MESH: Drosophila Proteinslcsh:BiotechnologyNerve Tissue ProteinsBiotechnologiesBiology03 medical and health sciencesMESH: Gene Expression ProfilingGENETIC-ANALYSIS[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]lcsh:TP248.13-248.65GeneticsAnimalsMESH : Cluster AnalysisMESH: Central Nervous SystemAlleleMESH : DrosophilaAlleles030304 developmental biologyMESH : LarvaMicroarray analysis techniquesHOUSE-FLY LARVAGene Expression ProfilingMESH : Gene Expression ProfilingMESH: AllelesWild typeMESH : Nuclear ProteinsProsperobiology.organism_classificationMESH : Drosophila ProteinsMESH: Cluster AnalysisNERVOUS-SYSTEMGene expression profilinglcsh:GeneticsMESH: Oligonucleotide Array Sequence AnalysisHomeoboxMESH : AnimalsMESH : Gene Expression Regulation DevelopmentalMESH : AllelesMESH: Nuclear ProteinsMESH: Larva030217 neurology & neurosurgeryTranscription FactorsPATTERN-FORMATIONFINE-STRUCTURE
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The consequences of regulation of desat1 expression for pheromone emission and detection in Drosophila melanogaster.

2010

AbstractSensory communication depends on the precise matching between the emission and the perception of sex- and species-specific signals; understanding both the coevolutionary process and the genes involved in both production and detection is a major challenge. desat1 determines both aspects of communication—a mutation in desat1 simultaneously alters both sex pheromone emission and perception in Drosophila melanogaster flies. We investigated whether the alteration of pheromonal perception is a consequence of the altered production of pheromones or if the two phenotypes are independently controlled by the same locus. Using several genetic tools, we were able to separately manipulate the tw…

Fatty Acid DesaturasesMaleTranscription Genetic[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : Animals Genetically ModifiedMESH : GenotypeMESH: GenotypeAnimals Genetically ModifiedSexual Behavior AnimalMESH : HydrocarbonsMESH: Reverse Transcriptase Polymerase Chain ReactionMESH : Drosophila melanogasterDrosophila ProteinsMESH: AnimalsMESH : FemaleMESH: Sexual Behavior AnimalSex AttractantsGeneticsMESH: Nursing AssessmentMESH : Craniocerebral TraumabiologyMESH : Gene Expression RegulationReverse Transcriptase Polymerase Chain ReactionMESH : Fatty Acid DesaturasesMESH : Reverse Transcriptase Polymerase Chain ReactionMESH: Fatty Acid DesaturasesMESH: Gene Expression RegulationPhenotypeMESH: Intracranial PressureMESH: Sex AttractantsDrosophila melanogasterSex pheromonePheromoneFemaleDrosophila melanogasterMESH : MutationMESH: MutationGenotypeMESH : ComaMESH: Drosophila ProteinsMESH : MaleMESH: Craniocerebral TraumaSensory systemLocus (genetics)InvestigationsMESH: Drosophila melanogasterMESH: Animals Genetically ModifiedMESH: HydrocarbonsMESH: Education Nursing ContinuingGeneticsMESH : Nursing AssessmentAnimalsMESH : Sexual Behavior AnimalGeneMESH: ComaTranscriptional activityMESH : Sex AttractantsMESH: HumansMESH: Transcription GeneticMESH : HumansMESH : Transcription Geneticbiology.organism_classificationMESH : Drosophila ProteinsMESH: MaleHydrocarbonsMESH : Intracranial PressureGene Expression RegulationMutationMESH : AnimalsMESH : Education Nursing ContinuingMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition
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Tenectin is a novel alphaPS2betaPS integrin ligand required for wing morphogenesis and male genital looping in Drosophila.

2010

International audience; Morphogenesis of the adult structures of holometabolous insects is regulated by ecdysteroids and juvenile hormones and involves cell-cell interactions mediated in part by the cell surface integrin receptors and their extracellular matrix (ECM) ligands. These adhesion molecules and their regulation by hormones are not well characterized. We describe the gene structure of a newly described ECM molecule, tenectin, and demonstrate that it is a hormonally regulated ECM protein required for proper morphogenesis of the adult wing and male genitalia. Tenectin's function as a new ligand of the PS2 integrins is demonstrated by both genetic interactions in the fly and by cell s…

MaleMESH: Extracellular Matrix ProteinsMESH: DrosophilaMESH : Immunohistochemistry[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionIntegrinLigandsLooping morphogenesisExtracellular matrixchemistry.chemical_compound0302 clinical medicineMESH: Genitalia MaleMorphogenesisMESH: LigandsDrosophila ProteinsWings AnimalMESH: AnimalsTransgenesIn Situ Hybridization0303 health sciencesExtracellular Matrix ProteinsMESH : Genitalia MaleMESH : LigandsIntegrin alpha ChainsCell adhesion moleculeMESH : In Situ HybridizationImmunohistochemistry3. Good healthCell biologyLarvaMESH : Integrin alpha ChainsAdhesionDrosophilaMESH : MutationMESH : TransgenesTenectinIntegrin alpha ChainsDrosophila ProteinEcdysoneEcdysoneMESH: MutationMESH: Drosophila ProteinsMESH : MaleIntegrinMorphogenesisMESH : WingMESH: TransgenesBiologyGenitalia MaleArticle03 medical and health sciencesMESH : Extracellular Matrix ProteinsMESH: In Situ HybridizationAnimalsMESH : DrosophilaCell adhesionMolecular Biology030304 developmental biologyMESH : LarvaMetamorphosisMESH: Integrin alpha ChainsLeft–right asymmetryMESH: ImmunohistochemistryCell BiologyMESH : Drosophila ProteinsMESH: WingMESH: MaleMESH: MorphogenesischemistryMESH : MorphogenesisMutationbiology.proteinMESH : AnimalsMESH: Larva[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryDevelopmental Biology
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Genes involved in sex pheromone discrimination in Drosophila melanogaster and their background-dependent effect.

2012

International audience; Mate choice is based on the comparison of the sensory quality of potential mating partners, and sex pheromones play an important role in this process. In Drosophila melanogaster, contact pheromones differ between male and female in their content and in their effects on male courtship, both inhibitory and stimulatory. To investigate the genetic basis of sex pheromone discrimination, we experimentally selected males showing either a higher or lower ability to discriminate sex pheromones over 20 generations. This experimental selection was carried out in parallel on two different genetic backgrounds: wild-type and desat1 mutant, in which parental males showed high and l…

MaleMESH: Olfactory Perception[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : Animals Genetically Modifiedlcsh:MedicineGenes InsectMESH: Genes InsectBreedingMESH : Behavior AnimalMESH: ReproductionCourtshipAnimals Genetically ModifiedSexual Behavior Animal0302 clinical medicineMESH : Drosophila melanogasterMESH: Behavior AnimalMESH : FemaleMESH: AnimalsMatingSex AttractantsMESH: Sexual Behavior Animal10. No inequalitylcsh:Sciencemedia_commonGenetics0303 health sciencesMultidisciplinaryEcologyBehavior AnimalReproductionMESH : Genes InsectAnimal ModelsMESH : ReproductionSensory SystemsDrosophila melanogasterMESH: Sex AttractantsMate choiceSex pheromoneAlimentation et NutritionFemaleDrosophila melanogasterMESH : MutationResearch ArticleMESH: Mutationmedia_common.quotation_subjectMESH : BreedingMESH : MaleMESH: CourtshipContext (language use)MESH: BreedingBiologyMESH: Drosophila melanogasterMESH: Animals Genetically Modified03 medical and health sciencesModel OrganismsSpecies SpecificityMESH : Olfactory PerceptionGeneticsFood and NutritionAnimalsMESH : Species SpecificityMESH: Species SpecificityAlleleMESH : Sexual Behavior AnimalBiology030304 developmental biologyEvolutionary BiologyMESH : Sex AttractantsAnimals;Animals;Genetically Modified;Behavior;Animal;Breeding;Courtship;Drosophila melanogaster;Female;Genes;Insect;Male;Mutation;Olfactory Perception;Reproduction;Sex Attractants;Sexual Behavior;Species SpecificityMESH : Courtshiplcsh:RCourtshipbiology.organism_classificationOlfactory PerceptionMESH: MaleMutationSex Attractantslcsh:QMESH : AnimalsMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryNeurosciencePLoS ONE
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Drosophila female courtship and mating behaviors: sensory signals, genes, neural structures and evolution.

2010

International audience; Interest in Drosophila courtship behavior has a long-standing tradition, starting with the works by Sturtevant in 1915, and by Bastock and Manning in the 50s. The neural and genetic base of Drosophila melanogaster courtship behavior has made big strides in recent years, but the studies on males far outnumber those on females. Recent technical developments have made it possible to begin to unravel the biological substrates underlying the complexity of Drosophila female sexual behavior and its decisive effect on mating success. The present review focus more on the female side and summarizes the sensory signals that the male sends, using multiple channels, and which neu…

MaleMESH: Signal Transduction[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH: NeuronsCourtshipSexual Behavior AnimalMESH : Neural PathwaysMESH : Biological EvolutionNeural PathwaysMESH : Drosophila melanogasterDrosophila ProteinsMESH : FemaleMESH: AnimalsMatingMESH: Sexual Behavior Animalmedia_commonNeuronsbiologyGeneral NeuroscienceBiological EvolutionDrosophila melanogasterFemaleDrosophila melanogasterDrosophila ProteinSignal TransductionMESH: Drosophila ProteinsMESH : Malemedia_common.quotation_subjectMESH: CourtshipSensory systemMESH: Biological EvolutionMESH : NeuronsMESH: Drosophila melanogasterBiological neural networkAnimalsDrosophila (subgenus)MESH : Sexual Behavior AnimalMESH : Signal TransductionMESH : CourtshipCourtship displayMESH: Neural PathwaysfungiCourtshipMESH : Drosophila Proteinsbiology.organism_classificationMESH: MaleMESH : AnimalsNeuroscienceMESH: Female[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition
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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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Fatty-acid preference changes during development in Drosophila melanogaster.

2011

WOS:000296521400044; International audience; Fatty-acids (FAs) are required in the diet of many animals throughout their life. However, the mechanisms involved in the perception of and preferences for dietary saturated and unsaturated FAs (SFAs and UFAs, respectively) remain poorly explored, especially in insects. Using the model species Drosophila melanogaster, we measured the responses of wild-type larvae and adults to pure SFAs (14, 16, and 18 carbons) and UFAs (C18 with 1, 2, or 3 double-bonds). Individual and group behavioral tests revealed different preferences in larvae and adults. Larvae preferred UFAs whereas SFAs tended to induce both a strong aversion and a persistent aggregation…

[ SDV.BA.ZI ] Life Sciences [q-bio]/Animal biology/Invertebrate Zoology[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutritionlcsh:MedicineInsectMESH : Behavior AnimalBiochemistrychemistry.chemical_compoundBehavioral EcologyMESH : Drosophila melanogasterMESH: Behavior AnimalMESH: AnimalsPalatabilitylcsh:ScienceMESH : Fatty Acidsmedia_commonchemistry.chemical_classificationLarvaMultidisciplinaryMESH : Food PreferencesEcologyAnimal BehaviorBehavior AnimalEcologyMESH : Fatty Acids UnsaturatedDrosophila MelanogasterFatty AcidsAge FactorsAnimal ModelsNeuroethologyMESH: Fatty Acids UnsaturatedtrpLipidsPreferenceMESH: Fatty AcidsMESH: Dietary FatsSex pheromoneLarvadietary fatFatty Acids Unsaturatedtaste receptor cellSensory PerceptionDrosophila melanogasterResearch Articlelinoleic acidmedia_common.quotation_subjectLinoleic acidZoologylarvaeBiologyMESH: Drosophila melanogasterFood PreferencesModel OrganismslipidAnimalsMESH: Food PreferencesBiologyMESH: Age FactorsEvolutionary BiologyChemical EcologyMESH : Larvalcsh:RfungiFatty acidbiology.organism_classificationDietary Fatstaste receptor cell;dietary fat;aggregation pheromone;linoleic acid;larvae;lipid;trp;palatability;metabolism;mutation[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoologychemistrypalatabilitylcsh:QMESH : Age FactorsMESH : AnimalsmutationmetabolismMESH: Larva[SDV.AEN]Life Sciences [q-bio]/Food and NutritionMESH : Dietary FatsNeuroscienceaggregation pheromone
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