Search results for "Life Cycles"

showing 10 items of 20 documents

Identification of the essential protein domains for Mib2 function during the development of the Drosophila larval musculature and adult flight muscles

2016

The proper differentiation and maintenance of myofibers is fundamental to a functional musculature. Disruption of numerous mostly structural factors leads to perturbations of these processes. Among the limited number of known regulatory factors for these processes is Mind bomb2 (Mib2), a muscle-associated E3 ubiquitin ligase, which was previously established to be required for maintaining the integrity of larval muscles. In this study, we have examined the mechanistic aspects of Mib2 function by performing a detailed functional dissection of the Mib2 protein. We show that the ankyrin repeats, in its entirety, and the hitherto uncharacterized Mib-specific domains (MIB), are important for the…

EmbryologyLife CyclesMuscle PhysiologyMuscle FunctionsPhysiologylcsh:MedicineMuscle ProteinsAnkyrin Repeat DomainMuscle DevelopmentBiochemistryAnimals Genetically ModifiedMedicine and Health SciencesDrosophila Proteinslcsh:ScienceMusculoskeletal SystemAbdominal MusclesMusclesDrosophila MelanogasterMetamorphosis BiologicalPupaAnimal ModelsNaturwissenschaftliche FakultätAnkyrin RepeatInsectsExperimental Organism SystemsLarvaDrosophilaAnatomyResearch ArticleArthropoda-Research and Analysis MethodsModel OrganismsProtein Domainsddc:570GeneticsAnimalsMuscle SkeletalAlleleslcsh:REmbryosUbiquitinationOrganismsBiology and Life SciencesProteinsPupaeInvertebratesGenetic LociFlight AnimalMutationlcsh:QCarrier ProteinsDevelopmental Biology
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The evolution of transmission mode

2017

This article reviews research on the evolutionary mechanisms leading to different transmission modes. Such modes are often under genetic control of the host or the pathogen, and often in conflict with each other via trade-offs. Transmission modes may vary among pathogen strains and among host populations. Evolutionary changes in transmission mode have been inferred through experimental and phylogenetic studies, including changes in transmission associated with host shifts and with evolution of the unusually complex life cycles of many parasites. Understanding the forces that determine the evolution of particular transmission modes presents a fascinating medley of problems for which there is…

Infectious diseaseSpilloverSettore BIO/05 - ZOOLOGIAinfectious diseasecomplex life cyclesComputingMethodologies_DOCUMENTANDTEXTPROCESSINGHost-shiftsComplex life cycleshost shiftsGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)spill-over
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A bug's life: Delving into the challenges of helminth microbiome studies.

2020

The body of vertebrates is inhabited by trillions of microorganisms, i.e. viruses, archaea, bacteria and unicellular eukaryotes, together referred to as the ‘microbiota’. Similarly, vertebrates also host a plethora of parasitic worms (the ‘macrobiota’), some of which share their environment with the microbiota inhabiting the gastrointestinal tract [1]. Complex interactions between the helminths and the gut microbiota have been associated with establishment of parasite infection, disease manifestations, and host immune-modulation [2, 3]. Remarkably, not only enteric helminths alter the 26 gut microbiome composition [4], but also the infection with blood flukes of the genus Schistosoma has be…

Life Cycleslcsh:Arctic medicine. Tropical medicinelcsh:RC955-962Parasitic Life CyclesRC955-962ZoologyMicrobial GenomicsBiologyGut floraMicrobiologyMedical ConditionsGut bacteriaArctic medicine. Tropical medicineHelminthsparasitic diseasesGeneticsMedicine and Health SciencesParasitic DiseasesHelminthsAnimalsHumansMicrobiomeParasitic life cyclesBacterialcsh:Public aspects of medicineMicrobiotaGut BacteriaPublic Health Environmental and Occupational HealthOrganismsBiology and Life SciencesEukaryotalcsh:RA1-1270Genomicsbiology.organism_classificationInvertebratesViewpointsInfectious DiseasesParasitologyMedical MicrobiologyHelminth InfectionsWolbachiaParasitologyMicrobiomePublic aspects of medicineRA1-1270Parasitic Intestinal DiseasesZoologyBacteriaDevelopmental Biology
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Do bank voles (Myodes glareolus) trapped in live and lethal traps show differences in tick burden?

2020

In studies assessing tick abundance, the use of live traps to capture and euthanize rodent hosts is a commonly used method to determine their burden. However, captive animals can experience debilitating or fatal capture stress as a result prior to collection. An alternative method is the use of lethal traps, but this can potentially lead to tick drop-off between the time of capture and collection. In this study, in order to determine whether subjecting animals to capture stress is inevitable, we tested the difference in sheep tick (Ixodes ricinus) larval burdens between bank voles (Myodes glareolus) captured alive and euthanized, and lethally trapped bank voles. During 2017 and 2018, 1318 b…

Male0106 biological sciencesLife CyclesRodentMyodes glareolusDisease Vectors01 natural sciencesLarvaeMedical ConditionsTicks0302 clinical medicineMedicine and Health SciencesFlowering PlantsMammalsAlternative methodsLarvaMultidisciplinaryArvicolinaeNorwayQREukaryotaRuminantsPlantsSpringInfectious DiseasesLarvaEpidemiological MonitoringVertebratesMedicineFemaleSeasonsSex ratioResearch ArticleIxodes ricinusArthropodaScience030231 tropical medicineZoologyBiologyTickRodents010603 evolutionary biology03 medical and health sciencesbiology.animalArachnidaAnimalsCollection methodsIxodesEuthanasiaRicinusDeerVolesOrganismsBiology and Life Sciencesbiology.organism_classificationInvertebratesTick InfestationsSpecies InteractionsAmniotesEarth SciencesZoologyDevelopmental BiologyVDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
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Forward genetics inWolbachia: Regulation ofWolbachiaproliferation by the amplification and deletion of an addictive genomic island

2021

Copyright: © 2021 Duarte et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

MaleLife CyclesCancer ResearchPhysiologyEggsMutantForward geneticsQH426-470LarvaeReproductive PhysiologyTiter regulationGenomic islandreproductive and urinary physiologyGenetics (clinical)Gene EditingGenetics0303 health sciencesbiologyEukaryotaAnimal ModelsGenomicsPhenotype3. Good healthInsectsPhenotypeDrosophila melanogasterExperimental Organism SystemsDicistroviridaeOctomomFemaleDrosophilaWolbachiaDrosophila melanogasterWolbachiaResearch ArticleGenomic IslandsArthropodaLongevityGenomicsResearch and Analysis MethodsInvertebrate genomics03 medical and health sciencesModel Organismsparasitic diseasesGeneticsAnimalsSymbiosisMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biologyBacteria030306 microbiologyHost (biology)OrganismsBiology and Life SciencesSingle nucleotide polymorphismsbiochemical phenomena metabolism and nutritionbiology.organism_classificationInvertebratesBacterial LoadForward geneticsAnimal GenomicsAnimal StudiesbacteriaZoologyEntomologyGenome BacterialDevelopmental BiologyGenetic screen
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Quantitative parameters and ecological implications of a specialized tritrophic interaction involving a seed-feeding tortricid, Pseudargyrotoza conwa…

2014

Producción Científica

MaleLigustrum vulgareLigustrumWaspsPopulationEcologíaHymenopteraMothsDiapause Insectmedicine.disease_causeparasitism rateParasitoidInfestationparasitoid sex ratiomedicineAnimalseducationEcosystemeducation.field_of_studyBosques y silvicultura - Españabiologyseed infestation ratePlantas silvestresEcologyfungiPrivetfood and beveragesPlantas - Enfermedades y plagas - Españaplant fitnessFeeding BehaviorGeneral MedicineSex Determination Processesbiology.organism_classificationseed-inhabiting insectslife cycles3108 FitopatologíaSpain3103.09 Cultivos de Plantas3106 Ciencia ForestalFruitLarvaInsect ScienceOleaceaePapersSeedsFemaleInsectos perjudiciales y útilesBraconidaeJournal of Insect Science
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Parasite specificity in Podarcis bocagei and P. carbonelli (Lacertidae) from NW Portugal: a host-parasite history

2015

Host parasite specificity is related to several factors including the type of life cycle of the parasite, the habitat occupied by both parasites and hosts, and the food habits of the hosts. In this work, gastrointestinal helminths in two congeneric lacertid lizards, Podarcis bocagei and Podarcis carbonelli living in sintopy, have been analysed. Out of four helminth species found, three of them, the trematode Brachylaima sp., the cestode Oochoristica gallica and the nematode Skrjabinelazia hoffmanni, have indirect life cycles while the nematode Spauligodon carbonelli has a direct life cycle. Heteroxenous helminths showed low host specificity whereas S. carbonelli may be placed at an intermed…

Parasitic life cyclesbiologyEcologyZoologybiology.organism_classificationPodarcis bocageiNematodeparasitic diseasesPodarcis carbonelliHelminthsParasite hostingLacertidaeGeneral Materials ScienceBrachylaimaBasic and Applied Herpetology
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Modification of hosts' behavior by a parasite: field evidence for adaptive manipulation.

2007

9 pages; International audience; Parasites relying on trophic transmission to complete their life cycles often induce modifications of their host's behavior in ways that may increase their susceptibility to predation by final hosts. These modifications have often been interpreted as parasite adaptations, but very few studies have demonstrated that host manipulation has fitness benefits for the parasite. The aim of the present study was to address the adaptive significance of parasite manipulation by coupling observations of behavioral manipulation to estimates of trophic transmission to the definitive host in the natural environment. We show that the acanthocephalan parasite Pomphorhynchus …

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyFood ChainPopulation DynamicsMESH : Host-Parasite Interactionscomplex life cyclesMESH : Predatory BehaviorPredationAcanthocephalaHost-Parasite InteractionsPomphorhynchus laevisMESH : Parasite Egg Countbehavioral modificationsGammarus roeseliMESH : EcosystemParasite Egg Count[SDV.BID.EVO] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE][ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimalsadaptive manipulationAmphipodaMESH : Population DynamicsParasite Egg CountEcology Evolution Behavior and SystematicsEcosystemMESH : Adaptation PhysiologicalLife Cycle StagesbiologyHost (biology)EcologyMESH : AcanthocephalaIntermediate host[SDV.EE.IEO] Life Sciences [q-bio]/Ecology environment/Symbiosistrophic transmissionMESH : Life Cycle Stagesbiology.organism_classificationMESH : AmphipodaAdaptation PhysiologicalMESH : Food ChainGammarus pulexPulex[ SDV.BID.EVO ] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]Predatory BehaviorPomphorhynchus laevisMESH : Animals[SDV.MP.PAR] Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology
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Larval life history, transmission strategies, and the evolution of intermediate host exploitation by complex life-cycle parasites

2007

Complex life-cycle parasites use their intermediate hosts both as an energy source and as a vessel for transmission to the next host in the life cycle. Parasites that grow rapidly to a large size may have high fitness (e.g. time spent in uninfective stages is limited), yet those that grow too aggressively may reduce host viability and their own probability of successful transmission. I examined aspects of both the growth and transmission strategy of an acanthocephalan (Acanthocephalus lucii) in its isopod intermediate host. In an experimental infection, the relative rate of larval parasite growth slowed over time, and eventually parasites seemed to reach a threshold biomass sustainable by t…

life historyvirulencetoukatvesisiiratelinkiertoAcanthocephalus luciiisopodloisetcomplex life cyclessexual selectionhost manipulationväkäkärsämadot
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Diffusion of Software Technology Innovations in the Global Context

2002

This study examines how software businesses are acquiring new software technology innovations (STIs) in rapidly changing globalized business environment characterized by rapidly shortening software technology life cycles, changing customer demands, and intense competition. It was executed through both theoretical and empirical investigations and analyses. It describes one case company as an example of the diffusion of STI and develops a framework for the diffusion of software technology innovation. The research findings are useful for both further research and industrial settings. peerReviewed

software development managementsoftware technology life cyclesglobalized business environmentsoftware technology innovationscustomer demandssoftware businesssoftware development toolscompetitionsoftware technology transfer
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