Digestion inhibition of potato starch-botanical proteolytic polypeptides complexes subjected to heat moisture treatment based on steric hindrance and enzymatic inhibition

The effects of food components on starch digestibility is a prominent topic within the realms of food and nutritional science. In this study, complexes of potato starch (PS) and botanical proteolytic polypeptides (BPPs), including wheat peptides, maize peptides, rice peptides, and soybean peptides, were subjected to heat-moisture treatment (HMT). The physicochemical, structural, and digestibility variations of the PS-BPPs complexes were analyzed using polarized light microscopy, DSC, X-ray, FT-IR, SAXS, and in vitro simulated digestion. Additionally, we evaluated the inhibitory effects of BPPs on porcine pancreatic α-amylase (PPA). The results showed that the polarization cross of PS-BPPs complexes was weakened after HMT. The gelatinization temperatures (To, Tp, Tc) of the PS-BPPs complexes increased significantly. The starch in the PS-BPPs complexes transitioned from B-type structure to A-type structure after HMT, accompanied by an increase in short-range ordering and semicrystalline lamella thickness. In particular, the complexes exhibited higher contents of slowly digestible starch (SDS) and resistant starch (RS). Furthermore, wheat, rice, and soybean peptides exhibited a mixed type of competitive inhibition against PPA, whereas maize peptides exhibited competitive inhibition. The findings provide valuable insights into the role of BPPs in regulating starch digestion. Moreover, BPPs hold potential for enhancing the nutritional value and health benefits of foods.