Abstract
In this study, chicken blood hemoglobin hydrolysates were subjected to separation and purification. A novel peptide (TAEDKKLIQ) with high ferrous ion chelating activity was identified from chicken blood hemoglobin hydrolysate. The binding mechanism between TAEDKKLIQ and ferrous ions was elucidated using a combination of structural characterization, molecular docking, and molecular dynamics simulation. The results indicated that TAEDKKLIQ formed a monodentate coordination bond with ferrous ions via the carboxyl group on the Asp side chain, exhibiting a single binding site. Furthermore, the stability and cellular activity experiments demonstrated that TAEDKKLIQ-Fe not only exhibited good chemical stability but also surpassed lactoferrin, the conventional iron supplement, in cellular activity. This study provided new scientific evidence for the application of peptides derived from chicken blood in food processing and nutritional fortification systems, and provided theoretical support for developing highly efficient and safe peptide-based iron supplements.