Search results for "echinopluteu"

showing 2 items of 2 documents

Effects of magnesium deprivation on development and biomineralization in the sea urchin Arbacia lixula

2019

Echinoderms have an extensive endoskeleton composed of magnesian calcite and occluded matrix proteins. As biomineralization in sea urchin larvae is sensitive to the Magnesium:Calcium ratio of seawater, we investigated the effects of magnesium deprivation on development and skeletogenesis in the sea urchin Arbacia lixula. We focused on the localization of the skeletogenic cells (primary mesenchyme cells) and the spatial expression of associated genes. Embryos reared in Mg-free seawater exhibited developmental delay from 6-h post-fertilization and at 24 h embryos showed complete lack of biomineral formation. Larvae (48–72 h) exhibited severe skeleton malformations. Fluorescent labelling revea…

0106 biological sciencesanimal structureschemistry.chemical_elementCalcium010603 evolutionary biology01 natural scienceschemistry.chemical_compoundEndoskeletonbiology.animalSkeletogenesisSettore BIO/06 - Anatomia Comparata E CitologiaSea urchinArbacia lixulaprimary mesenchyme cellCalcitebiologyMagnesiummagnesium calcite010604 marine biology & hydrobiologyfungiPigment cellsechinopluteubiology.organism_classificationpigment cellchemistryembryonic structuresBiophysicsAnimal Science and ZoologyDevelopmental BiologyBiomineralizationInvertebrate Reproduction & Development
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Toxicological Impact of Rare Earth Elements (REEs) on the Reproduction and Development of Aquatic Organisms Using Sea Urchins as Biological Models

2022

The growing presence of lanthanides in the environment has drawn the attention of the scientific community on their safety and toxicity. The sources of lanthanides in the environment include diagnostic medicine, electronic devices, permanent magnets, etc. Their exponential use and the poor management of waste disposal raise serious concerns about the quality and safety of the ecosystems at a global level. This review focused on the impact of lanthanides in marine organisms on reproductive fitness, fertilization and embryonic development, using the sea urchin as a biological model system. Scientific evidence shows that exposure to lanthanides triggers a wide variety of toxic insults, includi…

Aquatic OrganismsCalcium uptakeReproductionOrganic ChemistryGadoliniumGeneral MedicineModels BiologicalCatalysisComputer Science ApplicationsInorganic Chemistrysea urchin embryo developmental biology reproductive toxicology rare earth elements lanthanides gadolinium gene expression echinopluteus calcium uptake.LarvaSea UrchinsAnimalsMetals Rare EarthGene expressionSettore BIO/06 - Anatomia Comparata E CitologiaPhysical and Theoretical ChemistrySea urchin embryonic developmentMolecular BiologyEcosystemSpectroscopyInternational Journal of Molecular Sciences
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