Ozonation effects on structural and functional characteristics of starch

Abstract

Ozone oxidation leads to the substitution of hydroxyl groups in the starch molecules with carboxyl or carbonyl groups, thereby increasing the degree of substitution. A thorough examination of how ozone treatment impacts the composition of various cereal crops, including wheat, rice, and maize, is provided. This review explores the repercussions of ozone on starch rheology, germination ability, and storage stability.The present review also explores the textural qualities of food products such as bread, noodles, and cakes prepared with ozonized grains. Ozone treatment is found to significantly reduce swelling capacity and solubility of natural starch, and differential scanning calorimetry reveals that the gelatinization and retrogradation temperature profiles of oxidized starches remain comparable to those of native starch. The evidence that ozone treatment holds substantial promise for enhancing the functionality of starch in various applications while simultaneously upholding the essential standards of food safety has also been explained in detail. The findings synthesized in this review shed light on the intricate interplay between ozone and starch, providing valuable insights for both the scientific community and the food industry.