Search results for " invertebrate"

showing 10 items of 91 documents

Cholinergic Control of Synchronized Seminal Emissions in Drosophila

2004

0960-9822 (Print) Comparative Study Journal Article Research Support, Non-U.S. Gov't; In many animal species, copulation involves the coordinated release of both sperm and seminal fluid, including substances that change female fertility and postmating behavior. In Drosophila melanogaster, these substances increase female fertility and prevent mating with a second male. By using a PGal4 strain, we targeted together with other cells a dozen cholinergic neurons found only in the male abdominal ganglion (Abg-MAch). Genetic feminization apparently deleted these neurons in males and significantly increased their copulation duration, blocked their fertility in 60% of cases, and only weakly repress…

MaleSemen/*metabolismSexual Behavior Animal0302 clinical medicineHuman fertilizationDrosophila ProteinsMatingmedia_commonGenetics0303 health sciencesAgricultural and Biological Sciences(all)ReproductionNuclear ProteinsImmunohistochemistryCell biologyDrosophila melanogasterCholinergic FibersFemaleDrosophila melanogasterGeneral Agricultural and Biological SciencesDrosophila melanogaster/genetics/*metabolism/physiologymedia_common.quotation_subjectFeminization (biology)Sexual BehaviorInvertebrate/physiologyTranscription Factors/geneticsFertilityBiologyCrossesGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesGeneticSemenCholinergic Fibers/*metabolism/physiologyAnimalsFeminizationCholinergic neuronReproduction/physiologyCrosses Genetic030304 developmental biologyBiochemistry Genetics and Molecular Biology(all)Animalbiology.organism_classificationSpermGanglia InvertebrateNuclear Proteins/geneticsCholinergicGangliaFeminization/*genetics030217 neurology & neurosurgeryTranscription FactorsCurrent Biology
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GHOST NETS AS SUBSTRATE FOR MARINE INVERTEBRATES

Marine InvertebratesSettore BIO/05 - ZoologiaBiodiversityGhost nets
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Marine molecular biology : An emerging field of biological sciences

2007

An appreciation of the potential applications of molecular biology is of growing importance in many areas of life sciences, including marine biology. During the past two decades, the development of sophisticated molecular technologies and instruments for biomedical research has resulted in significant advances in the biological sciences. However, the value of molecular techniques for addressing problems in marine biology has only recently begun to be cherished. It has been proven that the exploitation of molecular biological techniques will allow difficult research questions about marine organisms and ocean processes to be addressed. Marine molecular biology is a discipline, which strives t…

Marine biologyEcology (disciplines)FisheriesMarine BiologyBioengineeringMarine lifemarine biology ; molecular biology ; marine microbiology ; marine natural products ; marine ecology ; fisheriesMarine invertebratesBiological Science DisciplinesBiologyEcology and Evolutionary BiologyApplied Microbiology and BiotechnologyMolecular biologyBiological Science DisciplinesField (geography)General partnershipAnimalsMolecular BiologyEcosystemBiotechnology
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The immune mediators in echinoderms as souce of novel AMPs against microbial biofilms

2012

Marine invertebrate coelomocytes innate immunity staphylococcal biofilmsSettore BIO/19 - Microbiologia Generale
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Evaluating anthropogenic impacts on naturally stressed ecosystems: Revisiting river classifications and biomonitoring metrics along salinity gradients

2019

Naturally stressed ecosystems hold a unique fraction of biodiversity. However, they have been largely ignored in biomonitoring and conservation programmes, such as the EU Water Framework Directive, while global change pressures are threatening their singular values. Here we present a framework to classify and evaluate the ecological quality of naturally stressed rivers along a water salinity gradient. We gathered datasets, including aquatic macroinvertebrate assemblages and environmental information, for 243 river locations across the western Mediterranean to: a) gauge the role of natural stressors (salinity) in driving aquatic community richness and composition; b) make river classificatio…

Mediterranean climateSettore BIO/07 - EcologiaSalinityEnvironmental Engineering010504 meteorology & atmospheric sciencesMacro invertebratesBiodiversity010501 environmental sciences01 natural sciencesSaline riversRiversAbundance (ecology)MacroinvertebrateBiomonitoringAnimalsEnvironmental ChemistryEcosystemWaste Management and DisposalGlobal changeEcosystemSaline river0105 earth and related environmental sciencesEcologyBiodiversityAbiotic stressPollutionSalinityMoroccoAbiotic streWater Framework DirectiveItalySpainSettore BIO/03 - Botanica Ambientale E ApplicataBiomonitoringEnvironmental scienceWater framework directiveSpecies richnessEnvironmental MonitoringScience of the Total Environment 658: 912-921 (2019)
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CONSERVED CELLULAR AND MOLECULAR MECHANISMS IN DEVELOPMENT

2002

This review discusses examples of conserved cellular and molecular mechansims in development, including the pathway of signal transduction between the photoreceptors R8 and R7 in Drosophila, which is compared to vulval induction in Caenorhabditis elegans. The Wg pathway in Drosophila is compared, first, to the Wnt pathway in dorsal mesoderm specification in Xenopus: second, to the same pathway in sea urchins; third, to the equivalent in the mom cascade of C. elegans; and finally, to parts of the equivalent pathway in Dictyostelium discoideum. The conserved expression of some hox genes in vertebrate limb buds and in the heads or tails of several invertebrate and vertebrate embryos is also il…

Mesodermanimal structuresMAP Kinase Signaling SystemXenopusmedicineAnimalsNogginCaenorhabditis elegansHox geneCaenorhabditis elegansGeneticsbiologyfungiGenes HomeoboxWnt signaling pathwayGene Expression Regulation DevelopmentalCell BiologyGeneral Medicinebiology.organism_classificationCell biologymedicine.anatomical_structureembryonic structuresDrosophilaPhotoreceptor Cells InvertebrateChordinGremlin (protein)Developmental BiologySignal TransductionCell Biology International
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The Origin, Location, and Projections of the Embryonic Abdominal Motorneurons ofDrosophila

1997

We have used a retrograde labeling technique to identify motorneurons for each of the 30 body wall muscles of an abdominal hemisegment in the late stage 16Drosophilaembryo. Each motorneuron has a characteristic cell body position, dendritic arborization, and axonal projection. In addition, we have determined the neuroblasts of origin for most of the motorneurons we describe. Some organizational principles for the neuromuscular system have become apparent: (1) There is no obvious topographic relationship between the cell body positions of motorneurons and the position or orientation of the muscles they innervate; (2) motorneurons that innervate muscles of similar position and orientation are…

Motor Neuronsanimal structuresMusclesGeneral NeuroscienceMorphological typefungiBody positionLate stageArticlesDendritesAnatomyBiologybiology.organism_classificationNervous SystemEmbryonic stem cellGanglia InvertebrateDendritic ArborizationNeuroblastLarvaAnimalsCell LineageDrosophilaDrosophila (subgenus)NeuroscienceAbdominal MusclesThe Journal of Neuroscience
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Ecology and Diversity of Urban Pine Forest Soil Invertebrates in Rīga, Latvia / Augsnes Bezmugurkaulnieku Bioloģiskā Daudzveidība Urbānajos Priežu Me…

2015

Abstract A study on ecology and diversity of soil invertebrates of urban pine and mixed pine forests was carried out in seven different sampling plots in Rīga during 2014. Ninety eight soil samples were processed and in total, 40 426 specimens were extracted (of them, 25 237 specimens were identified to species level and 15 189 to order level). Indices (abundance, community similarity etc.) characterising faunal diversity and species communities of Rīga city soil fauna were estimated. The most numerous soil invertebrate groups were Collembola, Oribatida and Mesostigmata, accounting for 95% of all collected animals. There was rather high diversity of soil invertebrates in the disturbed urban…

MultidisciplinaryGeneral interestScienceQEnvironmental scienceForestryurban forestsoil invertebrate faunabioindicationProceedings of the Latvian Academy of Sciences. Section B, Natural Sciences
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Voila, a New Drosophila Courtship Variant that Affects the Nervous System: Behavioral, Neural, and Genetic Characterization

1998

InDrosophila melanogaster, a specificPGAL4transposon induces theVoila1genetic variant and produces multiple phenotypes. HomozygousVoila1/1flies rarely reach adulthood, whereas heterozygousVoila1/+adult males show strong bisexual behavior. Males with a single copy ofVoila1driving the feminizing transgeneUAS-transformershow very reduced sexual activity but no overall effect on their behavior.Voila1is specifically expressed in the nervous system. In the CNS, it is expressed mainly in the mushroom bodies and, to a lesser extent, in the antennal lobes. In the peripheral nervous system, GAL4 expression is almost entirely restricted to the gustatory sensilla. Using chromosomal deficiencies, the be…

Nervous systemMaleGene ExpressionGenes InsectPheromonesWing0302 clinical medicineWings AnimalDrosophila melanogaster/*geneticsGene Expression/physiologyGenetics0303 health sciencesbiologyGeneral NeuroscienceInsect physiologyChromosome MappingInsect/*physiologyPhenotypemedicine.anatomical_structurePeripheral Nervous System/chemistryDrosophila melanogasterLac OperonPeripheral nervous systemMushroom bodiesFemaleDrosophila melanogasterTransgeneArticleChromosomesBrain Chemistry/physiology03 medical and health sciencesDNA Transposable Elements/physiologyPeripheral Nervous SystemmedicinePheromones/physiologyAnimalsGene030304 developmental biologyBrain ChemistryCourtshipExtremitiesSex Determination Processesbiology.organism_classificationGanglia InvertebrateInvertebrate/chemistryGenesDNA Transposable ElementsSex Determination (Genetics)Ganglia030217 neurology & neurosurgery
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The

2016

ABSTRACT Members of the Junctophilin (JPH) protein family have emerged as key actors in all excitable cells, with crucial implications for human pathophysiology. In mammals, this family consists of four members (JPH1-JPH4) that are differentially expressed throughout excitable cells. The analysis of knockout mice lacking JPH subtypes has demonstrated their essential contribution to physiological functions in skeletal and cardiac muscles and in neurons. Moreover, mutations in the human JPH2 gene are associated with hypertrophic and dilated cardiomyopathies; mutations in JPH3 are responsible for the neurodegenerative Huntington's disease-like-2 (HDL2), whereas JPH1 acts as a genetic modifier …

NotchGenotypeCardiomyopathyGenes InsectAnimals Genetically ModifiedAnimalsDrosophila ProteinsAllelesMammalsNeuronsHuntingtin ProteinReceptors NotchMusclesMyocardiumMembrane ProteinsReproducibility of ResultsDrosHuntington's diseaseDisease Models AnimalDrosophila melanogasterPhenotypeGene Knockdown TechniquesMutationNerve DegenerationPhotoreceptor Cells InvertebrateRNA InterferenceJunctophilinDrosophilaTrinucleotide Repeat ExpansionSignal TransductionResearch ArticleDisease modelsmechanisms
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