Search results for " embryo model"

showing 3 items of 3 documents

Mn(II) complexes of scorpiand-like ligands. A model for the MnSOD active centre with high in vitro and in vivo activity

2015

Manganese complexes of polyamines consisting of an aza-pyridinophane macrocyclic core functionalised with side chains containing quinoline or pyridine units have been characterised by a variety of solution techniques and single crystal x-ray diffraction. Some of these compounds have proved to display interesting antioxidant capabilities in vitro and in vivo in prokaryotic (bacteria) and eukaryotic (yeast and fish embryo) organisms. In particular, the Mn complex of the ligand containing a 4-quinoline group in its side arm which, as it happens in the MnSOD enzymes, has a water molecule coordinated to the metal ion that shows the lowest toxicity and highest functional efficiency both in vitro …

Fish ProteinsSaccharomyces cerevisiae ProteinsStereochemistryOryziasSaccharomyces cerevisiaeLigandsFish embryo modelsBiochemistryAntioxidantsInorganic Chemistrychemistry.chemical_compoundAntioxidant activityIn vivoCatalytic DomainPyridineSide chainEscherichia coliAnimalschemistry.chemical_classificationManganeseBacteriaLigandSuperoxide DismutaseEscherichia coli ProteinsQuinolineYeastIn vitroYeastMn(II) complexesEnzymechemistryModels ChemicalPolyazamacrocyclic scorpiandsQuinolines
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The Role of Autophagy and Apoptosis During Embryo Development

2015

Programmed cell death (PCD) and cell survival are two sides of the same coin. Autopha‐ gy and apoptosis are crucial processes during embryo development of Invertebrates and Vertebrates organisms, as they are necessary for the formation of a new organism, start‐ ing from a fertilized egg. Fertilization triggers cell remodeling from each gamete to a toti‐ potent zygote. During embryogenesis, the cells undergo various processes, thus allowing the transformation of the embryo into an adult organism. In particular, cells require the appropriate tools to suddenly modify their morphology and protein content in order to respond to intrinsic and external stimuli. Autophagy and apoptosis are involved…

Programmed cell deathbiologyAutophagyCellMorphogenesisEmbryobiology.organism_classificationEmbryonic stem cellCell biologyMulticellular organismmedicine.anatomical_structuremedicineSettore BIO/06 - Anatomia Comparata E CitologiaDrosophila melanogasterCell death apoptosis-autophagy crosstalk stress differentiation embryo model systems
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Nickel, lead, and cadmium induce differential cellular responses in sea urchin embryos by activating the synthesis of different HSP70s.

2004

Treatment with heavy metals, such as nickel, lead or cadmium, elicits different cellular stress responses according to the metal used and the length of treatment. In Paracentrotus lividus embryos the inducible forms of HSP70 (HSP70/72) are different in molecular mass from the constitutively expressed HSP75, and they can be used as markers of cellular stress. Even a short treatment with each metal induces the synthesis of HSP70/72 which remain stable for at least 20 h and differ little in their isoelectric points. Continuous treatment from fertilization with nickel or lead produces late irregular pluteus embryos, with peak HSP70/72 synthesis at blastula followed by the arrest of synthesis by…

animal structuresEmbryo NonmammalianBiophysicschemistry.chemical_elementBiochemistryParacentrotus lividusstress HSP70 embryo modelMethionineNickelMetals HeavyBotanyAnimalsHSP70 Heat-Shock ProteinsPluteusMolecular BiologyCadmiumbiologyMolecular massEmbryoCell BiologyGastrulaBlastulabiology.organism_classificationCell biologyHsp70GastrulationKineticschemistryLeadSea Urchinsembryonic structuresCadmiumBiochemical and biophysical research communications
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