We report on inhibition of α-amylase activity by cellulose based on in vitro experiments. The presence of cellulose in the hydrolysing medium reduced the initial velocity of starch hydrolysis in a concentration dependent manner. α-Amylase adsorption to cellulose was reversible, attaining equilibrium within 30min of incubation, and showed a higher affinity at 37°C compared to 20 and 0°C. The adsorption was almost unchanged in the presence of maltose (2.5-20mM) but was hindered in the presence of excess protein, suggesting non-specific adsorption of α-amylase to cellulose. Kinetic analyses of α-amylase hydrolysis of maize starch in the presence of cellulose showed that the inhibition is of a mixed type. The dissociation constant (Kic) of the EI complex was found to be ca. 3mg/mL. The observed inhibition of α-amylase activity suggests that cellulose in the diet can potentially attenuate starch hydrolysis.
Keywords: Adsorption isotherm; Alpha-amylase; Cellulose; Inhibition; Michaelis–Menten kinetics; Starch.
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