Search results for "Drosophilidae"

showing 10 items of 47 documents

Differences in gene activity in a Drosophila species cluster belonging to the Obscura group

1993

The polytene chromosome puffing pattern of Drosophila madeirensis was established and compared with those of the related species D. subobscura and D. guanche. A total of 145 loci, active in some of the 12 developmental stages analysed, were described, 38 of which were found to form the puffing pattern characteristic to this species. Taking into account the number of puffs as well as the mean puff expression, D. madeirensis shows a similar activity level to D. guanche, both species being less active than D. subobscura. The low gene activity of D. madeirensis and D. guanche was explained as a consequence of their ecological characteristics.

Geneticsmedicine.medical_specialtyPolytene chromosomePortugalbiologyPolytene chromosome puffingCytogeneticsGene Expressionbiology.organism_classificationChromosomesDrosophila subobscuraGene mappingEvolutionary biologyLarvaDrosophilidaeGeneticsmedicineAnimalsDrosophilaFemaleGene activityDrosophila (subgenus)PhylogenyGenetics (clinical)Heredity
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Gypsy homologous sequences in Drosophila subobscura (gypsyDS).

1993

Characterization of sequences homologous to the Drosophila melanogaster gypsy transposable element was carried out in Drosophila subobscura (gypsyDS). They were found to be widely distributed among natural populations of this species. From Southern blot and in situ analyses, these sequences appear to be mobile in this species. GypsyDS sequences are located in both euchromatic and heterochromatic regions. A complete gypsyDS sequence was isolated from a D. subobscura genomic library, and a 1.3-kb fragment which aligns with the ORF2 of the D. melanogaster gypsy element was sequenced. Comparisons of this sequence in three species (D. subobscura, D. melanogaster, and D. virilis) indicate that th…

HeterochromatinMolecular Sequence DataTransfectionHomology (biology)Species SpecificityMolecular evolutionDrosophilidaeSequence Homology Nucleic AcidGeneticsMelanogasterAnimalsAmino Acid SequenceCloning MolecularMolecular BiologyEcology Evolution Behavior and SystematicsSouthern blotGeneticsbiologyBase SequenceSequence Homology Amino AcidNucleic acid sequenceChromosome MappingDNAbiology.organism_classificationBiological EvolutionDrosophila subobscuraDrosophila melanogasterDNA Transposable ElementsDrosophilaJournal of molecular evolution
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Puff activity after heat shock in two species of theDrosophila obscura group

1987

When individuals of Drosophila guanche are submitted to heat shock, five new puffs are induced. These puffs usually do not appear during normal development. Comparing these results with those obtained in Drosophila subobscura, also belonging to the obscura group, differences between the induced puffing pattern of both species have been found.

Hot TemperatureDrosophila guancheZoologyChromosomesCellular and Molecular NeuroscienceSpecies Specificitystomatognathic systemDrosophilidaeBotanymedicineAnimalsMolecular BiologyPharmacologyPolytene chromosomebiologyCell Biologybiology.organism_classificationDrosophila subobscurarespiratory tract diseasesbody regionsGene Expression RegulationShock (circulatory)Molecular MedicineDrosophilasense organsmedicine.symptomDrosophila obscuraExperientia
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Transcriptional and translational study of the Drosophila subobscura hsp83 gene in normal and heat-shock conditions

1993

In this paper we report a transcriptional and translational study of the hsp83 gene of Drosophila subobscura. This gene is located at the 18C region of the J chromosome. A monoclonal antibody raised against hsp83 was used for the immunological detection of this protein by Western blotting throughout the development of D. subobscura in control and heat-shock conditions. Our results indicate that puff 18C is not only heat-shock inducible but is also expressed during normal development and its level of expression increases at the end of the prepupa period. We detected hsp83 at normal temperatures, in particular developmental stages with the exception of the larval and the beginning of prepupa…

Hot TemperaturePolytene chromosomeTranscription GeneticGene ExpressionGenes InsectGeneral MedicineBiologybiology.organism_classificationMolecular biologyDrosophila subobscuraGene productTranscription (biology)Protein BiosynthesisHeat shock proteinDrosophilidaeGene expressionGeneticsAnimalsDrosophilaMolecular BiologyGeneHeat-Shock ProteinsBiotechnologyGenome
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On the analysis of viability data: an example with Drosophila.

1990

Larval competition experiments involving two wild type and eight mutant strains of Drosophila melanogaster have been carried out following the substitution procedure proposed by Mather and Caligari (1981). Our main goal has been to compare the competitive abilities of two phenotypically indistinguishable strains (wild and Oregon-R) by means of their responses with eight different mutants. Prior to the analyses of viability data, we have studied the normalizing effect of several transformations in order to determine which was best suited for the analyses. The differences found among the five transformations tested and the untransformed data were not very great. The folded power transformatio…

InsectaArthropodaSurvivalmedia_common.quotation_subjectMutantBiologyIntraspecific competitionCompetition (biology)Species SpecificityDrosophilidaeterrestrialfliesGeneticsAnimaliaAnimalsDrosophilidaeGenetics (clinical)media_commonTaxonomyGeneticsEcologyDipteraWild typeBiodiversitybiology.organism_classificationPhenotypeTransformation (genetics)Drosophila melanogasterPhenotypefruit fliesData Interpretation StatisticalMutationDrosophila melanogasterHeredity
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Larval competition in Drosophila melanogaster: frequency-dependence of viability

1988

The application of the overfeeding technique (interruption of the competition during larval development) to the study of larval competition in two-strain cultures of Drosophila melanogaster demonstrates the following points: (1) viability is a function of competition time; (2) viability becomes more frequency-dependent as competition time increases; (3) the dynamics of the “inner” subpopulation (adults that have passed all their development in a crowded condition) and “outer” subpopulation (adults coming from larvae recovered by interruption of competition) vary with time as regards frequency-dependence; and (4) the wild type strain Oregon is the active agent in competition with the strain …

LarvabiologyEcologymedia_common.quotation_subjectfungiFrequency-dependent selectionZoologyGeneral MedicineFrequency dependencebiology.organism_classificationCompetition (biology)Intraspecific competitionDrosophilidaeGeneticsDrosophila melanogasterAgronomy and Crop ScienceBiotechnologymedia_commonWild type strainTheoretical and Applied Genetics
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Intra- and intergenotypic larval competition in Drosophila melanogaster : effect of larval density and biotic residues

1987

Larvalcsh:QH426-470biologyResearchmedia_common.quotation_subjectZoology[SDV.GEN.GA] Life Sciences [q-bio]/Genetics/Animal geneticsGeneral Medicinebiology.organism_classificationPopulation densityCompetition (biology)Full articlelcsh:GeneticsEvolutionary biologyDrosophilidaeGeneticsGenetics(clinical)Animal Science and Zoologylcsh:Animal cultureDrosophila melanogasterComputingMilieux_MISCELLANEOUSEcology Evolution Behavior and Systematicslcsh:SF1-1100media_commonGenetics Selection Evolution
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Geographic distribution and inheritance of three cytoplasmic incompatibility types in Drosophila simulans.

1991

Abstract Wolbachia-like microorganisms have been implicated in unidirectional cytoplasmic incompatibility between strains of Drosophila simulans. Reduced egg eclosion occurs when females from uninfected strains (type W) are crossed with males from infected strains (type R). Here we characterize a third incompatibility type (type S) which is also correlated with the presence of Wolbachia-like microorganisms. Despite the fact that the symbionts cannot be morphologically distinguished, we observed complete bidirectional incompatibility between R and S strains. This indicates that the determinants of incompatibility are different in the two infected types. S/W incompatibility is unidirectional …

MaleCytoplasmVariation (Genetics)InvestigationsCrossesBiologyRickettsiaceaeRickettsiaceae/isolation & purificationRickettsiaceaeGeneticSymbiosisDrosophilidaeGenetic variationGeneticsAnimalsDrosophila (subgenus)SymbiosisCrosses GeneticGeneticsReproductionGenetic Variationbiology.organism_classificationDrosophila/*genetics/microbiologyDrosophilaFemaleWolbachiaRickettsialesCytoplasmic incompatibilityGenetics
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The role of cuticular pheromones in courtship conditioning of Drosophila males

2005

1072-0502 (Print) Comparative Study Journal Article Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S.; Courtship conditioning is an associative learning paradigm in Drosophila melanogaster, wherein male courtship behavior is modified by experience with unreceptive, previously mated females. While the training experience with mated females involves multiple sensory and behavioral interactions, we hypothesized that female cuticular hydrocarbons function as a specific chemosensory conditioned stimulus in this learning paradigm. The effects of training with mated females were determined in courtship tests with either wild-type virgin females as courtship targets, or with…

MaleInsect Proteins/physiologyPheromones/pharmacology/*physiologyAlkenes/*pharmacologyCognitive Neurosciencemedia_common.quotation_subjectSexual BehaviorConditioning ClassicalZoologyAlkenesPheromonesCourtshipCellular and Molecular NeuroscienceSexual Behavior AnimalDrosophilidaeAnimalsChemoreceptors/physiologyDrosophila melanogaster/*physiologyreproductive and urinary physiologymedia_commonAssociation Learning/drug effects/physiologyCommunicationbiologyCourtship displaybusiness.industryfungiCourtshipClassical conditioningAssociation Learningbiology.organism_classificationResearch PapersChemoreceptor CellsAssociative learningNeuropsychology and Physiological PsychologyDrosophila melanogasterSex pheromonebehavior and behavior mechanismsPheromoneInsect ProteinsFemaleAnimal/drug effects/*physiologyDrosophila melanogasterbusinessClassical/drug effects/*physiologyConditioning
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Mild mutations in the pan neural gene prospero affect male-specific behaviour in Drosophila melanogaster

2004

0376-6357 (Print) Journal Article Research Support, Non-U.S. Gov't; The fruitfly Drosophila melanogaster is one of the most appropriate model organisms to study the genetics of behaviour. Here, we focus on prospero (pros), a key gene for the development of the nervous system which specifies multiple aspects from the early formation of the embryonic central nervous system to the formation of larval and adult sensory organs. We studied the effects on locomotion, courtship and mating behaviour of three mild pros mutations. These newly isolated pros mutations were induced after the incomplete excision of a transposable genomic element that, before excision, caused a lethal phenotype during larv…

MaleMutantPoint Mutation/*geneticsSexual Behavior AnimalBehavioral NeuroscienceAnimal/*physiologyDrosophila ProteinsGeneticsBehavior AnimalbiologyReproductionHomozygoteNuclear ProteinsGeneral MedicinePhenotypeNerve Tissue Proteins/*geneticshumanitiesDNA Transposable Elements/geneticsDrosophila melanogasterLocomotion/physiologyFemaleDrosophila melanogasterLocomotionHeterozygoteFertility/physiologySexual BehavioreducationNerve Tissue ProteinsTranscription Factors/*geneticsAnimal/physiologyDrosophilidaeNuclear Proteins/*geneticsPoint MutationAnimalsAlleleGeneDrosophilaReproduction/physiologyAllelesBehaviorfungiDrosophila Proteins/*geneticsHeterozygote advantageRepressor Proteins/*geneticsbiology.organism_classificationRepressor ProteinsFertilityDNA Transposable ElementsAnimal Science and ZoologyTranscription Factors
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