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Title: An investigation of the action of porcine pancreatic alpha-amylase on native and gelatinised starches. Author: Slaughter SL, Ellis PR, Butterworth PJ. Journal: Biochim Biophys Acta; 2001 Feb 16; 1525(1-2):29-36. PubMed ID: 11342250. Abstract: The action of pancreatic alpha-amylase (EC 3.2.1.1) on various starches has been studied in order to achieve better understanding of how starch structural properties influence enzyme kinetic parameters. Such studies are important in seeking explanations for the wide differences reported in postprandial glycaemic and insulinaemic indices associated with different starchy foodstuffs. Using starches from a number of different sources, in both native and gelatinised forms, as substrates for porcine alpha-amylase, we showed by enzyme kinetic studies that adsorption of amylase to starch is of kinetic importance in the reaction mechanism, so that the relationship between reaction velocity and enzyme concentration [E0] is logarithmic and described by the Freundlich equation. Estimations of catalytic efficiencies were derived from measurements of kcat/Km performed with constant enzyme concentration so that comparisons between different starches were not complicated by the logarithmic relationship between E0 and reaction velocity. Such studies reveal that native starches from normal and waxy rice are slightly better substrates than those from wheat and potato. After gelatinisation at 100 degrees C, kcat/Km values increased by 13-fold (waxy rice) to 239-fold (potato). Phosphate present in potato starch may aid the swelling process during heating of suspensions; this seems to produce a very favourable substrate for the enzyme. Investigation of pre-heat treatment effects on wheat starch shows that the relationship between treatment and kcat/Km is not a simple one. The value of kcat/Km rises to reach a maximum at a pre-treatment temperature of 75 degrees C and then falls sharply if the treatment is conducted at higher temperatures. It is known that amylose is leached from starch granules during heating and dissolves. On cooling, the dissolved starch is likely to retrograde and become resistant to amylolysis. Thus the catalytic efficiency tends to fall. In addition, we find that the catalytic efficiency on the different starches varies inversely with their solubility and we interpret this finding on the assumption that the greater the solubility, the greater is the likelihood of retrogradation. We conclude that although alpha-amylase is present in high activity in digestive fluid, the enzymic hydrolysis of starch may be a limiting factor in carbohydrate digestion because of factors related to the physico-chemical properties of starchy foods.[Abstract] [Full Text] [Related] [New Search]