Amylases encapsulated in organosilane-modified silicas prepared by sol–gel: evaluation of starch saccharification

A series of amylases were encapsulated within silica matrices taking into account the nature of the amylase: α-amylase ( Bacillus subtilis ), α-amylase ( Aspergillus oryzae ), and β-amylase (barley), and the nature of the organosilane (alkyl-, amine- and mercaptan-based organosilanes). The results f...

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Bibliographic Details
Published in:Journal of sol-gel science and technology 2021-02, Vol.97 (2), p.340-350
Main Authors: Caresani, José Rodrigo Fernandez, Dallegrave, Alexsandro, Santos, João Henrique Zimnoch Dos
Format: Article
Language:English
Subjects:
Amylases
Bioconversion
Ceramics
Chemistry and Materials Science
Composites
Diameters
Encapsulation
Glass
Inorganic Chemistry
Materials Science
Nanotechnology
Natural Materials
Optical and Electronic Materials
Original Paper: Sol-gel and hybrid materials for catalytic
photoelectrochemical and sensor applications
Porosity
Saccharification
Silicon dioxide
Sol-gel processes
Sugar
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Summary:A series of amylases were encapsulated within silica matrices taking into account the nature of the amylase: α-amylase ( Bacillus subtilis ), α-amylase ( Aspergillus oryzae ), and β-amylase (barley), and the nature of the organosilane (alkyl-, amine- and mercaptan-based organosilanes). The results for the biocatalytic activity were shown to be dependent on the nature of the encapsulated enzymes and on the nature of the employed organosilane. Organosilanes containing the amine group showed different effects and lower biocatalytic conversions (on average). In general, β-amylase increased in biocatalytic activity after encapsulation. There was a strong correlation between the nature of the organosilane and the resulting porosity of the matrix as well as the reducing sugars produced from the saccharification tests. The lower the particle radius of gyration and the higher degree ramification of the secondary particles, the higher the catalyst bioactivity was. Generally, glucose production during saccharification was favored by the encapsulation of the enzyme. Highlights Different organosilanes (7) were employed to modify silica surface. The organosilanes containing the amine group showed lower bioconversion. β-amylase increased in biocatalytic activity after encapsulation. Organosilanes increase the pore diameter.
ISSN:0928-0707
1573-4846
DOI:10.1007/s10971-020-05446-1