is a highly pathogenic and prevalent pathogen that is a class I carcinogen. More than 50% of the world's population is infected with . An anti-adhesive strategy is an effective way to antagonize infection, which does not cause resistance and is safer compared to antibiotic therapy. In the present study, to obtain rice bran protein-derived anti-adhesive activity peptides against , an efficient enzymatic hydrolysis system was established, and it was found that rice bran protein hydrolysate prepared under specific conditions possessed anti-adhesive activity against . The anti-adhesive activity of rice bran protein hydrolysate (RPH) was 43.74 ± 1.12% (4 mg mL), and gastric digestion (RPHA) had no significant effect on its activity. Hydrophobic amino acids and aromatic amino acids were important for its anti-adhesive activity. Further, 284 peptide sequences with potential anti-adhesive activity were isolated and identified from RPHA. Combined with molecular docking results, four novel anti-adhesive activity peptides were finally screened, namely LS5 (LSFRL), SN8 (SNTPGMVY), VV7 (VVNFGNL) and PV9 (PVLWGVPKG). Among them, PV9 showed the highest anti-adhesive activity of 59.64 ± 2.00% (4 mg mL). These four peptides could bind adhesins BabA and SabA, occupying the binding sites of cell receptors and acting as anti-adhesion agents. In conclusion, four rice bran protein-derived anti-adhesive activity peptides against can be used for the development of novel functional foods antagonizing infection.
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Article Synopsis
- * Anti-adhesive therapy aims to block bacteria from attaching to host cells, thereby preventing infections, and natural compounds from food sources show promise in this area.
- * The review highlights several dietary components that have anti-adhesive properties against various harmful bacteria, suggesting potential for these agents as nutraceuticals or to enhance traditional antibiotic treatments.
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