Search results for "melanization"

showing 5 items of 5 documents

Evaluating responses to temperature during pre-metamorphosis and carry-over effects at post-metamorphosis in the wood tiger moth (Arctia plantaginis)

2019

Insect metamorphosis is one of the most recognized processes delimiting transitions between phenotypes. It has been traditionally postulated as an adaptive process decoupling traits between life stages, allowing evolutionary independence of pre- and post-metamorphic phenotypes. However, the degree of autonomy between these life stages varies depending on the species and has not been studied in detail over multiple traits simultaneously. Here, we reared full-sib larvae of the warningly coloured wood tiger moth ( Arctia plantaginis ) in different temperatures and examined their responses for phenotypic (melanization change, number of moults), gene expression (RNA-seq and qPCR of candidate ge…

0106 biological sciences0301 basic medicinelife-stage autonomymelanizationMothsWARNING SIGNALTrade-off01 natural sciencestäpläsiilikäsGENE-EXPRESSIONmedia_commonPOLYMORPHIC MOTHLarvamuodonvaihdosCOMPLEX LIFE-CYCLES70Metamorphosis BiologicalTemperaturewood tiger mothArticlesPhenotypeREAD ALIGNMENTPupacarry-over effectsTRADE-OFFLarva1181 Ecology evolutionary biologylämpötilaGeneral Agricultural and Biological SciencesResearch Article1001media_common.quotation_subjectZoologyLARVAL COLORBiology010603 evolutionary biologyGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesAnimalsMetamorphosisADAPTIVE SIGNIFICANCElife stage autonomyWingTigerEVOLUTION030104 developmental biologyCOLOR PATTERNBasal metabolic ratehyönteisettranscriptomePhilosophical Transactions of the Royal Society B: Biological Sciences
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First extensive characterization of the venom gland from an egg parasitoid: structure, transcriptome and functional role.

2018

The venom gland is a ubiquitous organ in Hymenoptera. In insect parasitoids, the venom gland has been shown to have multiple functions including regulation of host immune response, host paralysis, host castration and developmental alteration. However, the role played by the venom gland has been mainly studied in parasitoids developing in larval or pupal hosts while little is known for parasitoids developing in insect eggs. We conducted the first extensive characterization of the venom of the endoparasitoid Ooencyrtus telenomicida (Vassiliev), a species that develops in eggs of the stink bug Nezara viridula (L.). In particular we investigated the structure of the venom apparatus, its functio…

0106 biological sciences0301 basic medicinePhysiologyGlycosylasesWaspsVenomLaccasesHymenopteraInsectmelanization01 natural sciencesvirulence factorParasitoidTranscriptomePhysiological suppressionLaboratory of EntomologyArthropod Venomsmedia_commonLarvabiologyVirulence factorsPhenotypeNezara viridulalaccazesInsect ProteinsFemaleMelanizationmedia_common.quotation_subjectZoologycomplex mixturesHost-Parasite InteractionsHeteroptera03 medical and health sciencesglycosylasesExocrine GlandsMicroscopy Electron TransmissionAnimalsPeptidaseHost (biology)Laccasefungibiology.organism_classificationLaboratorium voor Entomologiephysiological suppression010602 entomology030104 developmental biologySettore AGR/11 - Entomologia Generale E ApplicatapeptidasesInsect ScienceEPS[SDE.BE]Environmental Sciences/Biodiversity and EcologyPeptidasesTranscriptomeGlycosylaseJournal of insect physiology
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The ovipositing female of Ooencyrtus telenomicida relies on physiological mechanisms to mediate intrinsic competition with Trissolcus basalis

2012

Ongoing studies by our group showed that the outcome of the intrinsic competition between two solitary egg parasitoids, Trissolcus basalis (Wollaston) (Hymenoptera: Scelionidae) and Ooencyrtus telenomicida (Vassiliev) (Hymenoptera: Encyrtidae), is dominated by O. telenomicida. In this article we investigated the role played by the ovipositing O. telenomicida female in the suppression of a T. basalis competitor. Laboratory experiments were conducted by allowing an O. telenomicida female to puncture the eggs of Nezara viridula (L.) (Heteroptera: Pentatomidae) with her ovipositor (= no oviposition) or to parasitize them. The results show that O. telenomicida relies on some physiological mechan…

physiological suppressionstink bugHeteropteraSettore AGR/11 - Entomologia Generale E Applicataegg parasitoid; physiological suppression; melanization; stink bug; parasitoid-parasitoid interaction; host-parasitoid interaction; Hymenoptera; Scelionidae; Encyrtidae; Heteroptera; Pentatomidaeparasitoid-parasitoid interactionPentatomidaeegg parasitoidEncyrtidaemelanizationhost-parasitoid interactionHymenopteraScelionidae
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Predator-Induced Plasticity on Warning Signal and Larval Life-History Traits of the Aposematic Wood Tiger Moth, Arctia plantaginis

2021

Correction Frontiers in Ecology and Evolution Volume 9 Article Number 737651 DOI 10.3389/fevo.2021.737651 Published JUL 29 2021 Predator-induced plasticity in life-history and antipredator traits during the larval period has been extensively studied in organisms with complex life-histories. However, it is unclear whether different levels of predation could induce warning signals in aposematic organisms. Here, we investigated whether predator-simulated handling affects warning coloration and life-history traits in the aposematic wood tiger moth larva, Arctia plantaginis. As juveniles, a larger orange patch on an otherwise black body signifies a more efficient warning signal against predators…

varoitusväriREACTION NORMSperhosetcostsmelanizationcolorationtäpläsiilikästoukatlarvaddc:570PHENOTYPIC PLASTICITYBENEFITSCOLORaposematismFORAGING BEHAVIORplastic responseRISKsopeutuminenfungiMELANIZATIONEVOLUTIONsaalistusmaladaptationLepidopteraelinkiertoTRADE-OFF1181 Ecology evolutionary biologyfenotyyppi
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Data from: Temporal relationship between genetic and warning signal variation in the aposematic wood tiger moth (Parasemia plantaginis)

2014

Many plants and animals advertise unpalatability through warning signals in the form of colour and shape. Variation in warning signals within local populations is not expected because they are subject to directional selection. However, mounting evidence of warning signal variation within local populations suggests that other selective forces may be acting. Moreover, different selective pressures may act on the individual components of a warning signal. At present, we have a limited understanding about how multiple selection processes operate simultaneously on warning signal components, and even less about their temporal and spatial dynamics. Here, we examined temporal variation of several w…

medicine and health care2009-2011UV-signalingcolour polymorphismFluctuating PopulationsLife SciencesMedicineParasemia plantaginisMelanization
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