In order to improve iron chelating ability and retain the activity of functional peptide, corn peptide was chelated with iron to form corn ACE inhibitory peptide-ferrous chelate (CP-Fe) treated by dual-frequency ultrasound. Furthermore, the chelating mechanism was revealed by analyzing various structural changes, and the stability was further evaluated. Under this study condition, the iron-binding capacity of corn ACE inhibitory peptide (CP) and chelate yield reached 66.39% and 82.87%, respectively. Ultrasound-treated CP exhibited a high iron chelating ability, meanwhile, chelation reaction had no significant effect on the ACE inhibition activity (82.21%) of the peptide. CP-Fe was formed by binding the peptides amino, carbonyl and carboxyl groups with Fe demonstrated by Ultra-violet spectroscopy, Fourier transform infrared characterization, X-ray diffraction, energy dispersion spectrum, zeta potential, amino acid composition and other multi-angle analyses. Moreover, ultrasound-treated CP-Fe chelate exhibited porous surface and uniform nanoparticle shape. Furthermore, ultrasound-treated CP-Fe chelate exhibited an excellent stability towards various pH (retention rate ≥ 95.47% at pH 6-10), temperatures (retention rate ≥ 85.10% at 25-70 °C), and gastrointestinal digestion (retention rate 79.18%). Overall, ultrasound-treated CP-Fe chelate possessed high iron-chelating ability, ACE inhibition activity and stability. This study provides a novel synthesis method of the iron-chelating corn ACE inhibitory peptide, which is promising to be applied as iron supplements with high efficiency, bioactivity, and stability.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8844830 | PMC |
| http://dx.doi.org/10.1016/j.ultsonch.2022.105937 | DOI Listing |
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Article Synopsis
- Food-derived peptides, particularly from peanuts, have been studied as effective inhibitors of angiotensin-converting enzyme (ACE), which plays a role in hypertension and cardiovascular health.
- The research involved both in vitro tests and computational methods to confirm the peptides' inhibitory effects and understand their mechanisms of action.
- Among the tested peptides, FPHPP was identified as the most potent, demonstrating strong binding affinity and beneficial effects on cell health markers related to oxidative stress and inflammation.
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