Investigation of the binding mechanism of glucoamylase to alkylamine derivatives of titanium(IV)-activated porous inorganic supports

Glucoamylase (exo-1,4-α-d-glucosidase, EC 3.2.1.3) has been coupled to several porous silica matrices by a new covalent process using alkylamine derivatives of titanium(IV)-activated supports. In order to investigate the interaction of the titanium element with the silanol groups of the inorganic matrices, activation was performed at different times, using titanium(IV) chloride, either pure or as a 15% w/v solution, in 15% w/v hydrochloric acid at 25, 45 and 80°C, followed by washing with sodium acetate buffer (0.02m, pH 4.5) or chloroform. Using pure TiCl₄, the highest activities of all preparations were obtained at 80°C and with acetate buffer washing, resulting from a higher content of titanium coating of the carrier. When activation was performed in aqueous TiCl₄ solution, followed by a drying step, the highest activity was obtained with preparations washed with chloroform, with or without amination. When reacting pure TiCl₄ with controlled pore glass (CPG) and with porous silica (Spherosil), colour formation was observed after reaction of glutaraldehyde with the aminated support. This did not happen when Celite was used as the support. As a criterion for comparison of the different immobilized enzyme preparations, the concept of an ‘instability factor’, which measures the percentage of immobilized enzyme activity due to release of enzyme into solution, is introduced. Instability factors of immobilized enzyme preparations on Celite were always higher than those obtained with the other matrices, confirming that there was no covalent coupling of the enzyme to Celite. However, when the activation was performed with aqueous TiCl₄ solution with drying, Schiff's base formation was observed in all preparations and very stable immobilized enzyme preparations were obtained. The results of the activation of controlled pore glass and porous silica with pure titanium(IV) chloride suggest the existence of a true reaction between the titanium element and the silanol groups of these carriers by formation of a bridge, Si-O-Ti, while with the titanium(IV) chloride solution in hydrochloric acid, a coating of hydrous titanium(IV) oxide is obtained.