An Accessible Method to Improve the Stability and Reusability of Porcine Pancreatic α-Amylase via Immobilization in Gellan-Based Hydrogel Particles Obtained by Ionic Cross-Linking with Mg2+ Ions

Amylase is an enzyme used to hydrolyze starch in order to obtain different products that are mainly used in the food industry. The results reported in this article refer to the immobilization of α-amylase in gellan hydrogel particles ionically cross-linked with Mg2+ ions. The obtained hydrogel parti...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2023-06, Vol.28 (12), p.4695
Main Authors: Tincu (Iurciuc), Camelia Elena, Bouhadiba, Brahim, Atanase, Leonard Ionut, Stan, Corneliu Sergiu, Popa, Marcel, Ochiuz, Lăcrămioara
Format: Article
Language:English
Subjects:
Amylases
Biocatalysts
Crosslinking
Diffusion rate
Environmental factors
Enzymatic activity
Enzyme activity
Enzymes
Food industry
Gellan gum
gellan hydrogel particles
Hydrogels
hydrolysis
Immobilization
ionic cross-linking
Ions
Magnesium
magnesium acetate
Methods
Polymerization
Polymers
Proteins
Solvents
Starch
Substrates
Zeolites
α-Amylase
α-amylase immobilized
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Summary:Amylase is an enzyme used to hydrolyze starch in order to obtain different products that are mainly used in the food industry. The results reported in this article refer to the immobilization of α-amylase in gellan hydrogel particles ionically cross-linked with Mg2+ ions. The obtained hydrogel particles were characterized physicochemically and morphologically. Their enzymatic activity was tested using starch as a substrate in several hydrolytic cycles. The results showed that the properties of the particles are influenced by the degree of cross-linking and the amount of immobilized α-amylase enzyme. The temperature and pH at which the immobilized enzyme activity is maximum were T = 60 °C and pH = 5.6. The enzymatic activity and affinity of the enzyme to the substrate depend on the particle type, and this decreases for particles with a higher cross-linking degree owing to the slow diffusion of the enzyme molecules inside the polymer’s network. By immobilization, α-amylase is protected from environmental factors, and the obtained particles can be quickly recovered from the hydrolysis medium, thus being able to be reused in repeated hydrolytic cycles (at least 11 cycles) without a substantial decrease in enzymatic activity. Moreover, α-amylase immobilized in gellan particles can be reactivated via treatment with a more acidic medium.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules28124695