Search results for "Drosophila"

showing 10 items of 782 documents

Optical Cross-Sectional Muscle Area Determination of <em>Drosophila Melanogaster</em> Adult Indirect Flight Muscles

2018

Muscle mass wasting, known as muscle atrophy, is a common phenotype in Drosophila models of neuromuscular diseases. We have used the indirect flight muscles (IFMs) of flies, specifically the dorso-longitudinal muscles (DLM), as the experimental subject to measure the atrophic phenotype brought about by different genetic causes. In this protocol, we describe how to embed fly thorax muscles for semi thin sectioning, how to obtain a good contrast between muscle and the surrounding tissue, and how to process optical microscope images for semiautomatic acquisition of quantifiable data and analysis. We describe three specific applications of the methodological pipeline. First, we show how the met…

0301 basic medicineGeneral Immunology and MicrobiologyGeneral Chemical EngineeringGeneral NeurosciencefungiMuscle degenerationBiologybiology.organism_classificationMuscle massmedicine.diseasePhenotypeMyotonic dystrophyGeneral Biochemistry Genetics and Molecular BiologyMuscle atrophy03 medical and health sciences030104 developmental biologymedicineDrosophila melanogastermedicine.symptomWastingProcess (anatomy)NeuroscienceJournal of Visualized Experiments
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ICTV Virus Taxonomy Profile: Metaviridae

2020

Metaviridae is a family of retrotransposons and reverse-transcribing viruses with long terminal repeats belonging to the order Ortervirales. Members of the genera Errantivirus and Metavirus include, respectively, Saccharomyces cerevisiae Ty3 virus and its Gypsy-like relatives in drosophilids. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the family Metaviridae, which is available at ictv.global/report/metaviridae.

0301 basic medicineGenes ViralRetroelements030106 microbiologyeducationRetrotransposonInsect VirusesGenome ViralSaccharomyces cerevisiaeBiologyFungal VirusesVirus ReplicationVirus03 medical and health sciencesICTVVirologyRetrovirusesAnimalsRNA VirusesErrantivirusMetaviridaeVirus classificationGeneticsMetaviridaeAnimalretrotransposonVirionfood and beveragesbiology.organism_classificationVirologyLong terminal repeat3. Good health030104 developmental biologytaxononmy[SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/VirologyTaxonomy (biology)DrosophilaIctv Virus Taxonomy ProfileThe Journal of General Virology
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m6A modulates neuronal functions and sex determination in Drosophila

2016

N6-methyladenosine RNA (m6A) is a prevalent messenger RNA modification in vertebrates. Although its functions in the regulation of post-transcriptional gene expression are beginning to be unveiled, the precise roles of m6A during development of complex organisms remain unclear. Here we carry out a comprehensive molecular and physiological characterization of the individual components of the methyltransferase complex, as well as of the YTH domain-containing nuclear reader protein in Drosophila melanogaster. We identify the member of the split ends protein family, Spenito, as a novel bona fide subunit of the methyltransferase complex. We further demonstrate important roles of this complex in …

0301 basic medicineGeneticsMessenger RNAMultidisciplinarybiologyProtein familyMethyltransferase complexEffectorRNA-binding proteinbiology.organism_classificationCell biology03 medical and health sciences030104 developmental biology0302 clinical medicineNuclear proteinDrosophila melanogaster030217 neurology & neurosurgeryDrosophila ProteinNature
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The desaturase1 gene affects reproduction before, during and after copulation in Drosophila melanogaster

2019

Desaturase1 (desat1) is one of the few genes known to be involved in the two complementary aspects of sensory communication — signal emission and signal reception — in Drosophila melanogaster. In p...

0301 basic medicineGenetics[SDV.GEN]Life Sciences [q-bio]/Geneticsbiologymedia_common.quotation_subject[SDV]Life Sciences [q-bio]MARCMSensory systembiology.organism_classification03 medical and health sciencesCellular and Molecular Neuroscience030104 developmental biology0302 clinical medicineGeneticsDrosophila melanogasterReproductionGene[SDV.BDD]Life Sciences [q-bio]/Development Biology030217 neurology & neurosurgeryComputingMilieux_MISCELLANEOUSmedia_common
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Molecular partners of hNOT/ALG3, the human counterpart of the Drosophila NOT and yeast ALG3 gene, suggest its involvement in distinct cellular proces…

2018

This study provides first insights into the involvement of hNOT/ALG3, the human counterpart of the Drosophila Neighbour of TID and yeast ALG3 gene, in various putative molecular networks. HNOT/ALG3 encodes two translated transcripts encoding precursor proteins differing in their N-terminus and showing 33% identity with the yeast asparagine-linked glycosylation 3 (ALG3) protein. Experimental evidence for the functional homology of the proteins of fly and man in the N-glycosylation has still to be provided. In this study, using the yeast two-hybrid technique we identify 17 molecular partners of hNOT-1/ALG3-1. We disclose the building of hNOT/ALG3 homodimers and provide experimental evidence f…

0301 basic medicineGlycosylationSaccharomyces cerevisiae ProteinsRNA-binding proteinSaccharomyces cerevisiaeBiologyEndoplasmic ReticulumMannosyltransferases03 medical and health scienceschemistry.chemical_compoundCongenital Disorders of GlycosylationNeoplasmsNuclear Receptor Subfamily 4 Group A Member 2GeneticsAnimalsDrosophila ProteinsHumansMolecular BiologyTranscription factorOSBPGeneGenetics (clinical)Cellular compartmentEndoplasmic reticulumMembrane ProteinsRNA-Binding ProteinsGeneral MedicineLRP1Cell biology030104 developmental biologychemistryNerve DegenerationDrosophilaCarrier ProteinsHuman molecular genetics
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The Drosophila junctophilin gene is functionally equivalent to its four mammalian counterparts and is a modifier of a Huntingtin poly-Q expansion and…

2018

[EN] 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 in C…

0301 basic medicineHuntingtinNotchProtein familyCardiomyopathyNeuroscience (miscellaneous)Notch signaling pathwayMedicine (miscellaneous)lcsh:Medicinemedicine.disease_causeGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesImmunology and Microbiology (miscellaneous)JPH2BIOQUIMICA Y BIOLOGIA MOLECULARHuntingtin Proteinmedicinelcsh:PathologyGeneticsMutationbiologylcsh:RHuntington's diseasebiology.organism_classification030104 developmental biologyJunctophilinDrosophilaDrosophila melanogasterDrosophila Proteinlcsh:RB1-214Disease Models & Mechanisms
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Targeting RNA structure in SMN2 reverses spinal muscular atrophy molecular phenotypes

2018

Modification of SMN2 exon 7 (E7) splicing is a validated therapeutic strategy against spinal muscular atrophy (SMA). However, a target-based approach to identify small-molecule E7 splicing modifiers has not been attempted, which could reveal novel therapies with improved mechanistic insight. Here, we chose as a target the stem-loop RNA structure TSL2, which overlaps with the 5′ splicing site of E7. A small-molecule TSL2-binding compound, homocarbonyltopsentin (PK4C9), was identified that increases E7 splicing to therapeutic levels and rescues downstream molecular alterations in SMA cells. High-resolution NMR combined with molecular modelling revealed that PK4C9 binds to pentaloop conformati…

0301 basic medicineIndolesCOMPOUND LIBRARIESDrug Evaluation PreclinicalGeneral Physics and AstronomyBiotecnologiaAnimals Genetically ModifiedExonMolecular Targeted TherapyRegulatory Elements Transcriptionallcsh:ScienceHUMAN-DISEASE GENESBIOACTIVE SMALL MOLECULESMultidisciplinaryChemistryDrug discovery[CHIM.ORGA]Chemical Sciences/Organic chemistryQImidazolesMUTATION PATTERNExonsSMA*3. Good healthCell biologySurvival of Motor Neuron 2 ProteinPhenotypeCribratgeRNA splicingNUCLEOTIDE STRUCTUREDrosophilaMESSENGER-RNACOMPUTATIONAL TOOLSMedical screeningMYOTONIC-DYSTROPHYScienceMuscular atrophyArticleGeneral Biochemistry Genetics and Molecular BiologyGenètica molecularMuscular Atrophy Spinal03 medical and health sciencesddc:570SPLICING MODIFIERSmedicineAnimalsHumansHIV-1 TARRNA MessengerAtròfia muscularMessenger RNAAlternative splicingRNAGeneral ChemistrySpinal muscular atrophymedicine.diseaseAlternative Splicing030104 developmental biologyRNAlcsh:QRNA Splice SitesHeLa CellsNature Communications
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The 40-Year Mystery of Insect Odorant-Binding Proteins

2021

International audience; The survival of insects depends on their ability to detect molecules present in their environment. Odorant-binding proteins (OBPs) form a family of proteins involved in chemoreception. While OBPs were initially found in olfactory appendages, recently these proteins were discovered in other chemosensory and non-chemosensory organs. OBPs can bind, solubilize and transport hydrophobic stimuli to chemoreceptors across the aqueous sensilla lymph. In addition to this broadly accepted “transporter role”, OBPs can also buffer sudden changes in odorant levels and are involved in hygro-reception. The physiological roles of OBPs expressed in other body tissues, such as mouthpar…

0301 basic medicineInsectaChemoreceptorOdorant bindinglcsh:QR1-502Gene ExpressionReviewInsectReceptors OdorantBiochemistryPheromoneslcsh:MicrobiologytasteSexual Behavior Animal0302 clinical medicinemedia_commonbiologyRihanichemosensory functionsArthropod mouthparts3. Good healthCell biologyDrosophila melanogasterodorant-protein-binding assayInsect ProteinsPheromoneDrosophila melanogasterolfactionmedia_common.quotation_subjectK.OlfactionFerveurEvolution Molecularnon-chemosensory functions03 medical and health sciencesAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyL. The 40-Year Mystery of Insect Odorant-Binding Proteins insectMolecular BiologyJ.-F.fungiBriandTransporterbiology.organism_classificationodorantprotein-binding assayHematopoiesis030104 developmental biologyinsect[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryBiomolecules
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Increased survival of honeybees in the laboratory after simultaneous exposure to low doses of pesticides and bacteria

2018

Recent studies of honeybees and bumblebees have examined combinatory effects of different stressors, as insect pollinators are naturally exposed to multiple stressors. At the same time the potential influences of simultaneously occurring agricultural agents on insect pollinator health remain largely unknown. Due to different farming methods, and the drift of applied agents and manure, pollinators are most probably exposed to insecticides but also bacteria from organic fertilizers at the same time. We orally exposed honeybee workers to sub-lethal doses of the insecticide thiacloprid and two strains of the bacterium Enterococcus faecalis, which can occur in manure from farming animals. Our re…

0301 basic medicineInsecticidesmehiläisetPollinationPhysiologyThiazineslcsh:MedicineInsect010501 environmental sciencesPathology and Laboratory Medicine01 natural sciencesimmune responseCALORIC RESTRICTIONbakteeritToxicologyAPIS-MELLIFERA Lchemistry.chemical_compoundEatingNeonicotinoidsPollinatorMedicine and Health Scienceslcsh:SciencePollinationtarhamehiläinenbacteriaDIETARY RESTRICTIONmedia_common2. Zero hungerMultidisciplinarybiologyVirulenceEukaryotaAgricultureBeesThiaclopridBacterial PathogensInsectsBEE HYMENOPTERA APIDAEMedical Microbiologyimmuunivaste1181 Ecology evolutionary biologyRISK-ASSESSMENTPathogensHoney BeesAgrochemicalshenkiinjääminenResearch ArticlehoneybeesArthropodamedia_common.quotation_subjectImmunologyENTEROCOCCUS-FAECALISEnterococcus FaecalisMicrobiologysurvivalNEONICOTINOID INSECTICIDES03 medical and health sciencesHormesisStress PhysiologicalAnimalsFORAGING BEHAVIORLEARNING PERFORMANCESMicrobial Pathogens0105 earth and related environmental sciencesNutritionlcsh:RHormesisOrganismsFood ConsumptionBiology and Life Sciencestorjunta-aineetpesticidesPesticidebiology.organism_classificationManureInvertebratesHymenopteraDiet030104 developmental biologychemistryDROSOPHILA-MELANOGASTERta1181lcsh:QPest ControlPhysiological ProcessesBacteriaEnterococcus
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A screen for constituents of motor control and decision making in Drosophila reveals visual distance-estimation neurons

2016

AbstractClimbing over chasms larger than step size is vital to fruit flies, since foraging and mating are achieved while walking. Flies avoid futile climbing attempts by processing parallax-motion vision to estimate gap width. To identify neuronal substrates of climbing control, we screened a large collection of fly lines with temporarily inactivated neuronal populations in a novel high-throughput assay described here. The observed climbing phenotypes were classified; lines in each group are reported. Selected lines were further analysed by high-resolution video cinematography. One striking class of flies attempts to climb chasms of unsurmountable width; expression analysis guided us to C2 …

0301 basic medicineMaleFormative FeedbackDecision MakingWalkingBiologyMotor ActivityArticle03 medical and health sciencesInterneuronsddc:570Expression analysisAnimalsDrosophilaMultidisciplinarybusiness.industryDistance PerceptionOptic Lobe NonmammalianMotor controlDepolarizationbiology.organism_classificationVisual distance030104 developmental biologyDrosophila melanogasterClimbingGap widthFemaleArtificial intelligencebusinessNeurosciencehuman activities
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