High-resolution microscopy shows that during the initial stages of demosponge spicule formation, a primordial crystalline structure is formed within the axial filament. The recently developed electron diffraction tomography technique reveals that the nanorods have a layered structure that matches smectitic phyllosilicates. These intracellular nanorods have been considered as precursors of mature spicules.
Mugnaioli, E., Natalio, F., Schlossmacher, U., Wang, X.H., Muller, W.E.G., Kolb, U. (2009). Crystalline Nanorods as Possible Templates for the Synthesis of Amorphous Biosilica during Spicule Formation in Demospongiae. CHEMBIOCHEM, 10(4), 683-689 [10.1002/cbic.200800623].
Crystalline Nanorods as Possible Templates for the Synthesis of Amorphous Biosilica during Spicule Formation in Demospongiae
Mugnaioli, E.;
2009-01-01
Abstract
High-resolution microscopy shows that during the initial stages of demosponge spicule formation, a primordial crystalline structure is formed within the axial filament. The recently developed electron diffraction tomography technique reveals that the nanorods have a layered structure that matches smectitic phyllosilicates. These intracellular nanorods have been considered as precursors of mature spicules.
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https://hdl.handle.net/11365/841704
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