6533b7dcfe1ef96bd12720fa
RESEARCH PRODUCT
Matryoshka enzyme encapsulation: Development of zymoactive hydrogel particles with efficient lactose hydrolysis capability.
Zaida Pérez-bassartMarta Martínez-sanzJulia Marín-navarroJulia Marín-navarroJulio PolainaMaría José FabraAmparo López-rubioDavid Talens-peralessubject
Thermostable enzymeImmobilized enzymeGeneral Chemical Engineeringβ-GalactosidaseLactoseFood chemistry01 natural scienceschemistry.chemical_compoundHydrolysis0404 agricultural biotechnology0103 physical sciencesEnzyme immobilizationBeta-galactosidaseLactoseChromatography010304 chemical physicsbiologySubstrate (chemistry)04 agricultural and veterinary sciencesGeneral Chemistry040401 food sciencechemistryGalactoseCell permeabilizationbiology.proteinAgaroseFood Sciencedescription
This report describes an efficient procedure for enzyme encapsulation and its application for the hydrolysis of lactose. The enzymatic material that has been developed consists of hydrogel particles (ca. 3–4 mm of diameter) composed of either alginate or an alginate-agarose combination, in which bacterial cells loaded with a thermostable β-galactosidase are embedded. The cells were rendered fully permeable to the substrate, either chromogenic p-nitrophenyl galactose or lactose, by thermal treatment at 75 °C. Hydrogel particles made of a mixture of alginate and agarose displayed high catalytic activity (i.e. 1 g of beads hydrolyze the lactose equivalent of 100 mL of milk in 15 min) and thermal stability: they could be reused at 75 °C for complete hydrolysis of 5% (w/v) lactose solution at least six consecutive times without significant loss of activity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-05-15 | Food Hydrocolloids |