This study investigated the effects of semi-refined κ-carrageenan (SC) and refined κ-carrageenan (RC) on the gelling properties of fish gelatin (FG) and revealed the critical role of sulfate content in the modification process of FG. RC, with higher sulfate content (23.25%), enhanced FG more effectively than SC. A data model linked sulfate content to FG's gelling properties, showing a significant correlation. Structural analysis revealed that SC/RC formed aggregates with FG, increasing hydrogen bonds and creating a denser gel network. Crucially, the distinct sulfate content and impurity levels between SC and RC, together with a shift in the dominant stabilization mechanism of RC, resulted in differential structural modifications of FG. Finally, the study proposed a schematic model to clearly illustrate the interaction mechanisms between SC/RC and FG. These findings offer new strategies for enhancing FG and provide a theoretical basis for using SC/RC in FG modification.
Ma et al. (Thu,) studied this question.