Articolo in rivista, 2020, ENG, 10.3390/nano10010108

Covalent immobilization of ?-glucosidase into mesoporous silica nanoparticles from anhydrous acetone enhances its catalytic performance

Sannino, Filomena; Costantini, Aniello; Ruffo, Francesco; Aronne, Antonio; Venezia, Virginia; Califano, Valeria

STEMS; Università degli Studi di Napoli Federico II

An immobilization protocol of a model enzyme into silica nanoparticles was applied. This protocol exploited the use of the bifunctional molecule triethoxysilylpropylisocyanate (TEPI) for covalent binding through a linker of suitable length. The enzyme ?-glucosidase (BG) was anchored onto wrinkled silica nanoparticles (WSNs). BG represents a bottleneck in the conversion of lignocellulosic biomass into biofuels through cellulose hydrolysis and fermentation. The key aspect of the procedure was the use of an organic solvent (anhydrous acetone) in which the enzyme was not soluble. This aimed to restrict its conformational changes and thus preserve its native structure. This approach led to a biocatalyst with improved thermal stability, characterized by high immobilization efficiency and yield. It was found that the apparent KM value was about half of that of the free enzyme. The Vmax was about the same than that of the free enzyme. The biocatalyst showed a high operational stability, losing only 30% of its activity after seven reuses.

Nanomaterials (Basel) 10 (1)

Keywords

Covalent immobilization, Mesoporous silica nanoparticles, ?-glucosidase

CNR authors

Califano Valeria

CNR institutes

STEMS – Istituto di Scienze e Tecnologie per l'Energia e la Mobilità Sostenibili