A. Costantini scite author profile

β-Glucosidase (BG) was immobilized by adsorption on wrinkled silica nanoparticles (WSNs) giving an active and stable biocatalyst for the hydrolysis of cellobiose. WSNs exhibiting both a central-radial pore structure and a hierarchical trimodal micro-/ mesoporous pore size distribution were synthesized. They were used as a matrix to immobilize BG, obtaining a biocatalyst (BG/WSNs) containing 150 mg of enzyme per gram of matrix. A complete textural and morphological characterization of BG/WSNs performed by the Brunauer−Emmett−Teller (BET) method, thermogravimetric (TG), Fourier transform infrared (FT-IR), and transmission electron microscopy (TEM) analyses showed that this matrix can generate a microenvironment particularly suitable for this enzyme. The immobilization procedure used allowed preserving most of the secondary structure of the enzyme and, consequently, its catalytic activity. The kinetic parameters of the cellobiose hydrolysis performed with the biocatalyst were determined and compared with those of the free enzyme. It was found that the apparent K M value of the biocatalyst was slightly lower than that of the free enzyme, indicating that the enzyme−substrate affinity was increased. A complete hydrolysis of cellobiose was observed for four consecutive runs, showing a high operational stability of the biocatalyst.

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The effect of the substitution of B2O3 to P2O5 on Tg and electrical properties of 0.65 ((1+x) Ag2O P2O5) 0.35 AgI glasses

Costantini

Buri

Branda

1994

Solid State Ionics

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Swelling properties and bioactivity of silica gel/pHEMA nanocomposites

Costantini

Luciani

Annunziata

et al. 2006

J Mater Sci: Mater Med

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5,6-Dihydroxyindole-2-carboxylic Acid–TiO₂ Charge Transfer Complexes in the Radical Polymerization of Melanogenic Precursor(s)

et al. 2016

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A combination of biomedical and technological applications is generating, over the past decades, the well-established interest toward melanins and melanogenesis. Several compounds have been explored to promote/catalyze oxidative polymerization of melanogenic precursors, such as 5,6-dihydroxyindole-2-carboxylic acid (DHICA), to melanin-like biopolymers in vitro. TiO2 has shown a photocatalytic activity driving DHICA polymerization and leading to the formation of melanin–TiO2 hybrid nanostructures with unique biocide behavior even under visible light. However, the mechanism of melanin formation in those hybrids is not yet well understood although a ligand to metal charge transfer (LMCT) process involving DHICA and Ti4+ ions was hypothesized. Here, we focus on melanin formation and apply a complementary analysis, by using photoluminescence (PL), UV–vis, electron paramagnetic resonance (EPR), and nuclear magnetic resonance (NMR) spectroscopy to reveal the mechanism of DHICA polymerization in the presence of a TiO2-sol. This study discloses TiO2 potentialities to drive and template DHICA polymerization to melanin via LMCT-based photo-oxidative process.

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Bioactivity of 1.25CaO · SiO2 glass: an FTIR and X-ray study on powdered samples

Branda¹,

Fresa²,

Costantini³

et al. 1996

Biomaterials

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A. Costantini

Wrinkled Silica Nanoparticles: Efficient Matrix for β-Glucosidase Immobilization

The effect of the substitution of B2O3 to P2O5 on Tg and electrical properties of 0.65 ((1+x) Ag2O P2O5) 0.35 AgI glasses

Swelling properties and bioactivity of silica gel/pHEMA nanocomposites

5,6-Dihydroxyindole-2-carboxylic Acid–TiO₂ Charge Transfer Complexes in the Radical Polymerization of Melanogenic Precursor(s)

Bioactivity of 1.25CaO · SiO2 glass: an FTIR and X-ray study on powdered samples

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A. Costantini

Wrinkled Silica Nanoparticles: Efficient Matrix for β-Glucosidase Immobilization

The effect of the substitution of B2O3 to P2O5 on Tg and electrical properties of 0.65 ((1+x) Ag2O P2O5) 0.35 AgI glasses

Swelling properties and bioactivity of silica gel/pHEMA nanocomposites

5,6-Dihydroxyindole-2-carboxylic Acid–TiO2 Charge Transfer Complexes in the Radical Polymerization of Melanogenic Precursor(s)

Bioactivity of 1.25CaO · SiO2 glass: an FTIR and X-ray study on powdered samples

Contact Info

Product

Resources

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5,6-Dihydroxyindole-2-carboxylic Acid–TiO₂ Charge Transfer Complexes in the Radical Polymerization of Melanogenic Precursor(s)