The conformational properties of pyrodextrins from waxy maize starch were investigated by high performance size exclusion chromatography with multiple detectors, and the relationships (Mark-Houwink equations) between molecular weights and intrinsic viscosities of pyrodextrins in water were established. Pyrodextrin was prepared by adjusting waxy maize starch to pH 3 or 2, heating at 170 °C or 150 °C. As heating time increased from 0.5 to 4 h, the molecular size was decreased in the order of pH 2 and 150 °C > pH 3 and 170 °C > pH 3 and 150 °C. The measured exponent α values in Mark-Houwink equation indicated that the pyrodextrins prepared at pH 3, 170 °C and 150 °C only had one compact spherical conformation (α 0.27-0.31) during dextrinization, whereas the pyrodextrins prepared at pH 2 and 150 °C had a mixture of two shapes of molecules: compact sphere (α 0.26) and rigid coil (α 0.89) conformation.
Keywords: Conformation; Pyrodextrin; Size exclusion chromatography; Starch; Thermal treatment.
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