Giuseppe Falini scite author profile

uted elther to an Inability to measure furiher reduc-t~ons In Ingestion under crcumstances in whch the nltlal uptake 1s already quite low or to alternative igand-receptor interactions between LPS-rough P. aeruginosa and AF508 CFTR-expressing cells. Purlfed 0 polysaccharides from LPS-smooth wld-type strains did not inhbt bacterial ngestlon by theairway epithelial cell lines. 13. E, T.Many mineralizing organisms selectively form either calcite or aragonite, two polymorphs of calcium carbonate with very similar crystalline structures. Understanding how these organisms achieve this control has represented a major challenge in the field of biomineralization. Macromol~cules extracted from the aragonitic shell layers of some mollusks induced aragonite formation in vitro when preadsorbed on a substrate of P-chitin and silk fibroin. Macromolecules from calcitic shell layers induced mainly calcite formation under the same conditions. The results suggest that these macromolecules are responsible for the precipitation of either aragonite or calcite in vivo.

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Structure of the Nacreous Organic Matrix of a Bivalve Mollusk Shell Examined in the Hydrated State Using Cryo-TEM

Levi‐Kalisman

Falini

Addadi

et al. 2001

Journal of Structural Biology

488

397

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Supramolecular Assembly of Amelogenin Nanospheres into Birefringent Microribbons

Falini

Fermani

et al. 2005

Science

339

368

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Although both tooth enamel and bone are composed of organized assemblies of carbonated apatite crystals, enamel is unusual in that it does not contain collagen nor does it remodel. Self-assembly of amelogenin protein into nanospheres has been recognized as a key factor in controlling the oriented and elongated growth of carbonated apatite crystals during dental enamel biomineralization. We report the in vitro formation of birefringent microribbon structures that were generated through the supramolecular assembly of amelogenin nanospheres. These microribbons have diffraction patterns that indicate a periodic structure of crystalline units along the long axis. The growth of apatite crystals orientated along the c axis and parallel to the long axes of the microribbons was observed in vitro. The linear arrays (chains) of nanospheres observed as intermediate states before the microribbon formation give an important indication as to the function of amelogenin in controlling the oriented growth of apatite crystals during enamel mineralization.

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Biologically inspired synthesis of bone‐like composite: Self‐assembled collagen fibers/hydroxyapatite nanocrystals

Tampieri

Celotti

Landi

et al. 2003

J Biomedical Materials Res

250

195

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Replacement of bone tissue by graft materials and products of tissue engineering having composition, structure, and biological features that mimic natural tissue is a goal to be pursued. A biomimetic synthesis was performed to prepare new bone-like composites constituted of hydroxyapatite nanocrystals and self-assembled type I collagen fibers. We used a biological inspired approach that proved that the biological systems stored and processed information at the molecular level. Two different methodologies were used: dispersion of synthetic hydroxyapatite in telopeptides free collagen molecules solution and direct nucleation of hydroxyapatite into reconstituted collagen fibers during their assembling. The different preparation techniques were experimented then the composites thoroughly characterized and compared. Composite obtained by direct nucleation showed an intimated interaction of the inorganic and proteic components, which modified the apatitic phase and made its composition, morphology and structure similar to the mineral component of natural bone.

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Giuseppe Falini

Control of Aragonite or Calcite Polymorphism by Mollusk Shell Macromolecules

Structure of the Nacreous Organic Matrix of a Bivalve Mollusk Shell Examined in the Hydrated State Using Cryo-TEM

Supramolecular Assembly of Amelogenin Nanospheres into Birefringent Microribbons

Biologically inspired synthesis of bone‐like composite: Self‐assembled collagen fibers/hydroxyapatite nanocrystals

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