The inhibition effect and mechanism of typical hydrocolloids on the formation of heterocyclic amines: A study based on quantum chemical computation analysis

Hydrocolloids, as thickeners, have been receiving increasing attention from researchers. Although they exhibit significant free radical quenching abilities, which demonstrate potential heterocyclic amines (HAs) inhibitory capabilities by blocking the free radical pathway, the inhibitory effect and mechanism are still unclear. This study investigated the effects of three typical hydrocolloids (alginic acid, chitosan, and carrageenan) on both free and bound HAs in fried meatballs, along with their mechanisms of free radical quenching using density functional theory. The result showed that all three hydrocolloids can effectively inhibit the generation of HAs. The maximum inhibition rate reached 33.33% for free HAs and 23.18% for bound HAs. Phenylacetaldehyde, glyoxal and methyl glyoxal, were significantly inhibited, indicating that hydrocolloids alleviated the production of HAs by inhibiting the generation of intermediates. At moment, three hydrocolloids effectively inhibited the generation of total free radicals. Frontier orbital and density functional theory analysis revealed that carrageenan had the lowest HOMO-LUMO energy gaps, ionization potential, highest nucleophilic index, chemical potential, and was more likely to react with free radicals. The results of this study indicate that three hydrocolloids can effectively inhibit HAs and provide theoretical support for their applications in food processing and safety.