Search results for "Biominéralisation"
showing 4 items of 4 documents
Approches protéomiques en archéologie et héritage culturel : caractérisation de protéines anciennes préservées dans des coquilles de mollusques
2021
Archaeological mollusc shell artifacts and ecofacts are valuable sources to study past cultures and provide insights on how people exploited their environments. Mollusc shells were often used as raw materials to make personal ornaments and are abundantly found in archaeological sites. However, minute, heavily worked and/or fragmented shell ornaments are rarely identified at different taxonomic levels, due to limited availability of analytical approaches to determine taxon-specific (diagnostic) features. In recent years, proteomics, which exploits the high sensitivity of modern mass spectrometry techniques, has been successfully applied to the study of a variety of bioarchaeological remains,…
Biominéralisation chez les Céphalopodes (Mollusca) : processus moléculaires et évolution
2021
Molluscs constitute one of the most diversified phyla within metazoans, known for their ability to mineralize a shell. The shell biomineralization is a genetically controlled process that is performed extracellularly via a calcifying organic matrix. This latter, which remains finally occluded (at least, partially) into the shell, is a mixture of proteins, glycoproteins, lipids and polysaccharides, that are collectively secreted by the external calcifying epithelium of the mantle. Today, the shell matrix is usually considered as the ‘molecular toolbox’ for constructing the shell. Since its discovery, it has been the focus of numerous studies, but mainly on bivalves and gastropods leaving cep…
Production, fonction et localisation d'Orchestine: calciprotéine spécifique de la matrice organique des structures minéralisées élaborées par le crus…
2002
As most Crustaceans, Orchestia cavimana possesses a mineralized exoskeleton which is periodically replaced. Because of the terrestrial behaviours of this animal, this molting cycle is related to calcium storage and resorption processes. Calcium storage occurs, as calcareous concretions, in diverticula of the midgut called posterior cæca. Calcareous concretions are essentially composed of amorphous calcium carbonate precipitated within a proteinaceous organic matrix composed of a soluble fraction and an insoluble one in an EDTA-buffer. Among the soluble components of the organic matrix, a previous study led to characterize a polypeptide of 23 kDa in SDS-PAGE called Orchestin. This protein, w…