Development of a biocomposite based on alginate/gelatin crosslinked with genipin for ß-galactosidase immobilization: Performance and characteristics.

In this work, we studied the development of a biocomposite formulated with alginate and gelatin, crosslinked with genipin for application as support for ß-galactosidase immobilization. Also, the biocomposites with the immobilized enzyme were characterized by thermal analyses and SAXS (size, density, and interconnectivity of alginate rods) for a detailed analysis of the microstructure, as well as the thermal and operational stabilities of the enzyme. The structural modifications of the biocomposite determined by SAXS demonstrate that the addition of both genipin and enzyme produced a significant reduction in size and density of the Ca(II)-alginate rods. Immobilized ß-galactosidase could be stored for 175 days under refrigeration maintaining 80% of its initial activity. Moreover, 90% of its relative activity was kept after 11 reuses in a batch process of lactose hydrolysis. Thus, the biocomposite proved to be effective as support for enzyme immobilization.

Kinetics and Thermodynamics of Thermal Inactivation of β-Galactosidase from Aspergillus oryzae

ABSTRACT For optimization of biochemical processes in food and pharmaceutical industries, the evaluation of enzyme inactivation kinetic models is necessary to allow their adequate use. Kinetic studies of thermal inactivation of β-galactosidase from Aspergillus oryzae were conducted in order to critically evaluate mathematical equations presented in the literature. Statistical analysis showed that Weibull model presented the best adequacy to residual enzymatic activity data through the processing time and its kinetic parameters as a function of the temperature, in the range of 58-66 ºC. The investigation suggests the existence of a non-sensitive heat fraction on the enzyme structure, which is relatively stable up to temperatures close to 59 ºC. Thermodynamic parameters were evaluated and showed that such β-galactosidase presents activation energy of 277 kJ mol-1 and that the enzyme inactivation is due to molecular structural changes. Results shown that the enzyme is quite stable for biotechnological applications.

Continuous production of ß-cyclodextrin from starch by highly stable cyclodextrin glycosyltransferase immobilized on chitosan.

Cyclodextrin glycosyltransferase (CGTase) from Thermoanaerobacter sp. was covalently immobilized on glutaraldehyde-activated chitosan spheres and used in a packed bed reactor to investigate the continuous production of ß-cyclodextrin (ß-CD). The optimum temperatures were 75 °C and 85 °C at pH 6.0, respectively for free and immobilized CGTase, and the optimum pH (5.0) was the same for both at 60 °C. In the reactor, the effects of flow rate and substrate concentration in the ß-CD production were evaluated. The optimum substrate concentration was 4% (w/v), maximizing the ß-CD production (1.32 g/L) in a flow rate of 3 mL/min. In addition, the biocatalyst had good operational stability at 60 °C, maintaining 61% of its initial activity after 100 cycles of batch and 100% after 100 h of continuous use. These results suggest the possibility of using this immobilized biocatalyst in continuous production of CDs.

Utilização da β-galactosidase para prevenção da cristalização em doce de leite / Use of β-galactosidase in milk sweet: avoiding lactose crystallization

Este estudo avaliou o efeito da utilização da enzima β-galactosidase sobre a cristalização da lactose no doce de leite. As concentrações de lactase testadas variaram de 0 a 0,4 g/L. O grau de cristalização do produto foi avaliado sensorialmente (teste de ordenação em função de uma escala específica), após 30, 60, 90 e 180 dias de armazenamento à temperatura ambiente, por provadores previamente treinados. O teste de ordenação indicou não haver diferença estatística significativa (P>0,05) entre as amostras em relação à cristalização, tanto aos 30 quanto aos 60 dias de armazenamento, porém aos 90 e 180 dias essa diferença foi significativa entre o controle (T0) e os tratamentos. A utilização de 0,2 g/L de β-galactosidase (23,16 por cento de hidrólise da lactose) foi suficiente para que a arenosidade no doce de leite não fosse percebida sensorialmente pelos provadores, durante todo o período considerado.

The effect of using β-galactosidase on the crystallization of lactose in milk sweet has been studied. The concentrations of lactase ranged from 0 to 0.4 g/L of processed milk. The product was subjected to sensorial analysis (crystallization degree ranking test using a specific scale) by trained tasters after 30, 60, 90 e 180 days of storage. The ranking test showed no statistically significant difference between the samples in relation to crystallization, both at 30 and 60 days of storage, but at 90 and 180 days the difference was significant among control (T0) and the treatments. Usage of 0.2 g/L of β-galactosidase (23.16 percent lactose hydrolysis in milk) was enough to prevent sandiness in milk sweet from being noticed throughout the studied period.