Enhanced gelling property and freeze‐thaw stability of potato, tapioca, and corn starches modified by mild heating in aqueous ethanol solution

BACKGROUND

Physically modified starches can be classified as natural ingredients on food labels and clean label products. Thus, the market demand for physically modified starch is increasing. Potato, tapioca, and corn starches were physically modified by mild heat treatment in an alcoholic solution to enhance their gelling property and freeze‐thaw stability.

RESULTS

During mild heating of starch suspension (40% w/w) in 10% ethanol solution at the onset gelatinization temperature, granular swelling of starch occurred, followed by amylose leaching with medication of the surface structure of the starch granules. All treated starches exhibited increased gelatinization and pasting temperatures and decreased breakdown for pasting due to improved stability against shear and heat. The treated starches had higher hardness, cohesiveness, and springiness of gel than the respective native starches, and these gel properties were more pronounced in potato starch than in tapioca and corn starches. The treated starches showed substantially reduced gel syneresis during freeze‐thawing.

CONCLUSION

Physical modification of starch by mild heat treatment in an alcoholic solution substantially improved its gelation ability and freeze‐thaw stability.

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