Search results for "Spicule"

showing 3 items of 73 documents

Biosilica

2012

Biomineralization, biosilicification in particular (i.e. the formation of biogenic silica, SiO(2)), has become an exciting source of inspiration for the development of novel bionic approaches following 'nature as model'. Siliceous sponges are unique among silica-forming organisms in their ability to catalyze silica formation using a specific enzyme termed silicatein. In this study, we review the present state of knowledge on silicatein-mediated 'biosilica' formation in marine demosponges, the involvement of further molecules in silica metabolism and their potential applications in nano-biotechnology and bio-medicine. While most forms of multicellular life have developed a calcium-based skel…

chemistry.chemical_compoundSpongeMulticellular organismSponge spiculechemistryTissue engineeringSilicon dioxideRegeneration (biology)Context (language use)NanotechnologyBiologybiology.organism_classificationBiomineralization
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Analysis of the Sponge [Porifera] Gene Repertoire: Implications for the Evolution of the Metazoan Body Plan

2003

Sponges [phylum Porifera] form the basis of the metazoan kingdom and represent the evolutionary earliest phylum still extant. Hence, as living fossils, they are the taxon closest related to the hypothetical ancestor of all Metazoa, the Urmetazoa. Until recently, it was still unclear whether sponges are provided with a defined body plan. Only after the cloning, expression and functional studies of characteristic metazoan genes, could it be demonstrated that these animals comprise the structural elements which allow the sponge cells to organize themselves according to a body plan. Adhesion molecules involved in cell—cell and cell—matrix interactions have been identified. Among the cell—cell a…

education.field_of_studybiologyCalcareous spongeCell adhesion moleculeAnatomybiology.organism_classificationCell biologySpongeMyotrophinBody planSponge spiculeeducationMorphogenGalectin
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Iron Induces Proliferation and Morphogenesis in Primmorphs from the Marine SpongeSuberites domuncula

2002

Dissociated cells from marine demosponges retain their proliferation capacity if they are allowed to form special aggregates, the primmorphs. On the basis of incorporation studies and septin gene expression, we show that Fe3+ ions are required for the proliferation of cells in primmorphs from Suberites domuncula. In parallel, Fe3+ induced the expression of ferritin and strongly stimulated the synthesis of spicules. This result is supported by the finding that the enzymatic activity of silicatein, converting organosilicon to silicic acid, depends on Fe3+. Moreover, the expression of a scavenger receptor molecule, possibly involved in the morphology of spicules, depends on the presence of Fe3…

inorganic chemicalsIronMolecular Sequence DataMorphogenesisFluorescent Antibody TechniqueSeptinModels BiologicalPolymerase Chain ReactionFungal ProteinsSponge spiculeGene expressionGeneticsAnimalsHistidineAmino Acid SequenceReceptors ImmunologicScavenger receptorMolecular BiologyPhylogenyReceptors LipoproteinReceptors ScavengerSequence Homology Amino AcidbiologyEcologySilicatesMembrane ProteinsDNACell BiologyGeneral MedicineScavenger Receptors Class BBlotting Northernbiology.organism_classificationCathepsinsRecombinant ProteinsPoriferaCell biologySuberites domunculaFerritinSpongeFerritinsbiology.proteinCell DivisionDNA and Cell Biology
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