4 research outputs found
Efficient and rapid purification of lentil ?-galactosidase by affinity precipitation with alginate
PubMed ID: 20027865?-Galactosidase (?-D-galactoside galactohydrolase, EC 3.2.1.22) was purified (26-fold) from the germinating seeds of lentil (Lens culinaris) by affinity precipitation with alginate. The purified enzyme gave a single band corresponding to molecular mass of 40 kDa on SDS-PAGE. The optimum temperature and pH of the enzyme were determined as 40°C and 5.5, respectively. The enzyme was very stable at a temperature range of 4-65°C and at a pH range of 4-7. The values of kinetic constants Km and Vmax using p-nitrophenyl-?-D-galactopyranoside (PNPG) as substrate were 0.191 mM and 0.73 U, respectively. Results suggest that affinity precipitation is an attractive process for the purification of ?-galactosidase
Immobilization and stabilization of ?-galactosidase on Sepabeads EC-EA and EC-HA
PubMed ID: 21871914?-Galactosidase from tomato has been immobilized on Sepabead EC-EA and Sepabead EC-HA, which were activated with ethylendiamino and hexamethylenediamino groups, respectively. Two strategy was used for the covalent immobilization of ?-galactosidase on the aminated Sepabeads: covalent immobilization of enzyme on glutaraldehyde activated support and cross-linking of the adsorbed enzymes on to the support with glutaraldehyde. By using these two methods, all the immobilized enzymes retained very high activity and the stability of the enzyme was also improved. The obtained results showed that, the most stable immobilized ?-galactosidase was obtained with the second strategy. The immobilized enzymes were characterized with respect to free counterpart. Some parameters effecting to the enzyme activity and stability were also analyzed. The optimum temperature and pH were found as 60 °C and pH 5.5 for all immobilized enzymes, respectively. All the immobilized ?-galactosidases were more thermostable than the free enzyme at 50 °C. The stabilities of the Sepabead EC-EA and EC-HA adsorbed enzymes treated with glutaraldehyde compared to the stability of the free enzyme were a factor of 6 for Sepabead EC-EA and 5.3 for Sepabead EC-HA. Both the free and immobilized enzymes were very stable between pH 3.0 and 6.0 and more than 85% of the initial activities were recovered. Under the identical storage conditions the free enzyme lost its initial activity more quickly than the immobilized enzymes at the same period of time. The immobilized ?-galactosidase seems to fulfll the requirements for different industrial applications. © 2011 Elsevier B.V