CHARACTERIZATION OF GLUCOAMYLASE ADSORPTION TO RAW STARCH

The adsorption of Aspergillus niger glucoamylase forms (GA-I and GA-II) to raw corn starch was studied as a function of pH, ionic strength, and temperature. A three-parameter model was developed to account for the specific and nonspecific adsorption of GA-I to starch. The adsorption of the GA-II form to raw starch was weak and independent of the pH and ionic strength of the mixture. GA-I was bound strongly to the starch surface, with association constant values ranging from 2 to 5 x 10(6) M-1. Maximum adsorption capacities (saturation concentrations) Q(max) for GA-I were affected by pH, ionic strength, and temperature and varied between 1.6 and 4.3 mg protein g-1 starch. The tightly bound GA-I could be specifically eluted from the starch surface with maltose, maltodextrin, or soluble starch. The adsorption of GA-II to starch in the presence of acarbose (glucoamylase activity inhibitor) indicated that the active site participates minimally in the adsorption process. The comparison of the distribution coefficients of GA-I and GA-II showed that the starch-binding domain, present only in GA-I, increases the affinity of GA-I for starch by two orders of magnitude.