Search results for "Cuticle"

showing 10 items of 70 documents

Histological and electron microscopical observations on the effects of lead on gills and midgut gland ofProcambarus clarkii

1991

Adult intermolt specimen of Procambarus clarkii (Crustacea, Decapoda) have been treated for 96 hours in aquaria with 100mg/l of lead. The gills and midgut gland were processed and studied in the electron microscope. The gill filament shows important changes in the ultrastructure of the epithelial cells and the cuticle. The hepatopancreatic cells studied (i.e. the vacuolated and dark cells) do not show noticeable structural changes but accumulate lead (electrondense precipitates) mainly in lysosomes.

GillProcambarus clarkiiPathologymedicine.medical_specialtyanimal structuresbiologyDecapodaHealth Toxicology and MutagenesisfungiMidgutbiology.organism_classificationPollutionCrustaceanlaw.inventionlawmedicineUltrastructureEnvironmental Chemistrysense organsElectron microscopeCuticle (hair)Toxicological & Environmental Chemistry
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Analysis of composition, morphology, and biosynthesis of cuticular wax in wild type bilberry (Vaccinium myrtillus L.) and its glossy mutant

2021

Abstract In this study, cuticular wax load, its chemical composition, and biosynthesis, was studied during development of wild type (WT) bilberry fruit and its natural glossy type (GT) mutant. GT fruit cuticular wax load was comparable with WT fruits. In both, the proportion of triterpenoids decreased during fruit development concomitant with increasing proportions of total aliphatic compounds. In GT fruit, a higher proportion of triterpenoids in cuticular wax was accompanied by a lower proportion of fatty acids and ketones compared to WT fruit as well as lower density of crystalloid structures on berry surfaces. Our results suggest that the glossy phenotype could be caused by the absence o…

Glossy type mutantBilberryWax compositionMutantVaccinium myrtillusBerryVaccinium myrtillus01 natural sciencesAnalytical ChemistryAnthocyaninschemistry.chemical_compound0404 agricultural biotechnologyBiosynthesisVDP::Mathematics and natural science: 400::Zoology and botany: 480Food scienceWaxbiologyChemistryPlant Extracts010401 analytical chemistryFatty AcidsWild typefood and beverages04 agricultural and veterinary sciencesGeneral MedicineTriterpenoidsbiology.organism_classification040401 food science0104 chemical sciencesCuticular waxvisual_artFruitWaxesvisual_art.visual_art_mediumComposition (visual arts)Gene expressionMicroscopy Electrochemical ScanningFruit cuticleFood ScienceVDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
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Histochemical and biochemical investigations concerning the function of larval oenocytes of Tenebrio molitor L. (Coleoptera, Insecta).

1980

Larval oenocytes of Tenebrio molitor were investigated histochemically. In contrast to the lipid droplets of the fat body, they did not stain with Sudan black. A positive reaction for lipoproteins appeared only after destructive oxidation with sodium hypochlorite. These lipoproteins are the remnants of degenerated membranes, as revealed by ultrastructural analysis. Polyphenols could be identified in the exocuticle of exuvia, and in the newly formed procuticle. Endocuticle, epidermis and oenocytes showed no staining reaction. In oenocytes a great amount of lipase is also present which could be detected with several Tweens as substrates. The significance of these lipases remains unclear, sinc…

HistologySodium HypochloriteCuticleGlycerideArthropod cuticleBiologyAcetatesPhenolsPolysaccharidesLipid dropletAnimalsTenebrioMolecular BiologyWaxEpidermis (botany)HistocytochemistryCell BiologyGeneral MedicineLipaseLipid MetabolismStainingMedical Laboratory TechnologyMicroscopy ElectronBiochemistryvisual_artLarvavisual_art.visual_art_mediumUltrastructureAnatomyEpidermisGeneral Agricultural and Biological SciencesHistochemistry
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The regulation of expression of insect cuticle protein genes

2010

International audience; The exoskeleton of insects (cuticle) is an assembly of chitin and cuticle proteins. Its physical properties are determined largely by the proteins it contains, and vary widely with developmental stages and body regions. The genes encoding cuticle proteins are therefore good models to study the molecular mechanisms of signalling by ecdysteroids and juvenile hormones, which regulate molting and metamorphosis in insects. This review summarizes the studies of hormonal regulation of insect cuticle protein genes, and the recent progress in the analysis of the regulatory sequences and transcription factors important for their expression.

InsectaDHR38Cuticlemedia_common.quotation_subject[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionArthropod cuticleBiologyBiochemistry03 medical and health sciencesCuticle genes0302 clinical medicineBotanyflFTZ-F1AnimalsMetamorphosisMolecular BiologyTranscription factor030304 developmental biologymedia_commonRegulation of gene expression0303 health sciencesMetamorphosisfungiGene Expression Regulation DevelopmentalEcdysteroidsCell biologyInsectsRegulatory sequenceInsect ScienceJuvenile hormoneJuvenile hormonesInsect ProteinsBody regionBroad[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryTranscription Factors
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Cuticle: Formation, Moulting and Control

1984

The relative rigidity of the arthropod exoskeleton makes it impossible for body size to increase continuously during the postembryonic development of these animals. Once they have hatched from the egg, they grow in steps, passing through a variable number of (larval) stages (Fig. 1 a). Apart from a few exceptions, there are between 3 and 10 such stages in the arachnids, 3–20 in the crustaceans, and 3–10 in the insects. In many cases a metamorphosis stage intervenes (some crustaceans; holometabolous insects) (Fig. 9b, c).

LarvaEcdysisCuticlemedia_common.quotation_subjectZoologyBiologyMetamorphosisProthoracic glandbiology.organism_classificationMoultingCrustaceanArthropod exoskeletonmedia_common
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The precocious commitment of wing Anlagen in Tenebrio molitor revealed by the addition of 20-hydroxyecdysone.

1992

Abstract An injection of 20-hydroxyecdysone (10 μg per animal) 6–13 days after the moult of the last larval instar of Tenebrio molitor induces the development of prothetelic larvae and larval-pupal intermediates. The state of larval-pupal switchover, or commitment, is only disclosed at the time of injection of the moulting hormone. Prothetelic A and B larvae, with small and medium sized wing Anlagen, undergo another larval or pupal instar. Prothetelic C larvae with bigger Anlagen are unable to moult, but the adult programme is expressed. Ecdysed larval-pupal intermediates give more or less perfect adults, while unecdysed mealworms, imprisoned in their larval cuticle, also expressed the adul…

Larvaanimal structuresWingCuticlefungi20-HydroxyecdysoneZoologyCell BiologyGeneral MedicineAnatomyBiologyPupachemistry.chemical_compoundchemistryUltrastructureInstarMoultingDevelopmental BiologyTissuecell
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Temperature affects the ontogeny of sexually dimorphic cuticular hydrocarbons inDrosophila melanogaster

2002

0022-0949 (Print) Journal Article Research Support, Non-U.S. Gov't; Hydrocarbons on the cuticle of mature Drosophila melanogaster flies play a crucial role in mate recognition, and protect against dehydration. We measured the effect of temperature on mature cuticular hydrocarbons (CHs) by (i) rearing two control strains at different temperatures, (ii) shifting the temperature after metamorphosis and (iii) inducing a single heat-shock pulse in control and heat-sensitive transgenic strains, over a period of 3 days following adult eclosion. This study describes the time course of the events involved in the production of male- and female-predominant CHs. We also found that 'immature' CHs, sexua…

Male0106 biological sciencesHot TemperaturePhysiologyOntogenymedia_common.quotation_subjectPeriod (gene)CuticleTransgeneZoologyGenetically ModifiedHydrocarbons/analysis/*metabolismAquatic Science010603 evolutionary biology01 natural sciencesAnimals Genetically Modified03 medical and health sciencesBotanyAnimalsMetamorphosisMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biologymedia_commonSex Characteristics0303 health sciencesintegumentary systembiologyfungibiology.organism_classificationHeatHydrocarbonsSexual dimorphismKineticsDrosophila melanogasterInsect ScienceTime courseDrosophila melanogaster/*growth & development/metabolismFemaleAnimal Science and ZoologyDrosophila melanogasterJournal of Experimental Biology
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Effects of cuticle structure and crystalline wax coverage on the coloration in young and old males of Calopteryx splendens and Calopteryx virgo

2010

Male secondary sexual characters, such as color patterns, are often investigated at the macroscale level. However, micro- and nanoscale levels of morphological investigations may reveal functional features responsible for a particular coloration, thus providing more information, e.g., about the condition dependence of male sexual characters. The aim of this paper was to investigate cuticle color and its structure in males of two congeneric damselfly species, Calopteryx splendens and Calopteryx virgo, and reveal possible color changes with age. According to spectrometer measurements, C. splendens males were bluer and had a greater saturation of blue in their abdomen than C. virgo males, whic…

MaleAgingWaxInsectabiologySpectrum AnalysisCuticleColorArthropod cuticleOdonatabiology.organism_classificationIridescenceDamselflySpecies SpecificityWaxesvisual_artBotanyImage Processing Computer-AssistedMicroscopy Electron Scanningvisual_art.visual_art_mediumAnimalsAnimal Science and ZoologyStructural colorationHueZoology
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Morphogenesis of mechanoreceptor and epidermal cells of crickets during the last instar, and its relation to molting-hormone level.

1980

(1) The fine structure of the cercal campaniform sensilla and epidermal cells of Gryllus bimaculatus Deg. (Saltatoria, Gryllidae) was examined, and the ecdysteroid level was monitored throughout the last larval instar. (2) The epidermal cells show changes in shape, cytoplasmic inclusions and differentiation of the apical cell membrane, coupled to the phases of buildup and breakdown of the (cercus) cuticle. (3) The imaginal epicuticle of the epidermal cells begins to form later (by about approximately 6h) than that of the campaniform sensilla. (4) The campaniform sensilla were studied with respect to (a) the morphogenesis of the cuticular apparatus, (b) the inclusion of phenol oxidases in th…

MaleEcdysoneanimal structuresHistologyCuticleCampaniform sensillaApolysisMolting cyclePathology and Forensic Medicinechemistry.chemical_compoundAnimalsEcdysteroidintegumentary systembiologyGryllus bimaculatusfungiMetamorphosis BiologicalCell BiologyAnatomybiology.organism_classificationCell biologychemistryEpidermal CellsEcdysisLarvaOrthopteraFemaleMechanoreceptorsEcdysoneCell and tissue research
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Ultrastructure and formation of the physogastric termite queen cuticle

1982

0040-8166 (Print) Journal Article; The physogastric termite queen is the most striking example in insects of growth in size without cuticular moulting. This phenomenon has been studied with electron microscopy and histochemical tests in two species of higher termites, Cubitermes fungifaber and Macrotermes bellicosus. The abdominal hypertrophy (physogastry) is allowed by growth of the arthrodial membranes of the swarming imago. The growth is slow (over several years) but important: the cuticular dry weight is multiplied by 20 in C. fungifaber, by 100-150 in M. bellicosus. The termite queen cuticle arises from the transformation of the cuticle of the swarming imago or imaginal cuticle (unfold…

MaleInsectaMembranes/ultrastructureSwarming (honey bee)Arthropod cuticleElectronMacrotermes bellicosusAnimalsGlycosaminoglycansGlycosaminoglycans/analysisMicroscopyMembranesbiologyHistocytochemistryCell BiologyGeneral MedicineAnatomyPeriodic Acid-Schiff Reactionbiology.organism_classificationMicroscopy ElectronCubitermes fungifaberUltrastructureFemaleMoultingInsects/analysis/*growth & development/ultrastructureDevelopmental Biology
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