Characterization of Proteins Extracted from Ulva sp., Padina sp., and Laurencia sp. Macroalgae Using Green Technology: Effect of In Vitro Digestion on Antioxidant and ACE‑I Inhibitory Activity
Abstract
Macroalgal proteins were extracted from Ulva rigida (URPE) (green), Padina
pavonica (PPPE) (brown), and Laurencia obtusa (LOPE) (red) using ultrasound-assisted
enzymatic extraction, which is one of the green extraction technologies. Techno-functional,
characteristic, and digestibility properties, and biological activities including antioxidant (AOA)
and angiotensin-I converting enzyme (ACE-I) inhibitory activities were also investigated.
According to the results, the extraction yield (EY) (94.74%) was detected in the extraction of L.
obtusa, followed by U. rigida and P. pavonica. PPPE showed the highest ACE-I inhibitory activity
before in vitro digestion. In contrast to PPPE, LOPE (20.90 ± 0.00%) and URPE (20.20 ±
0.00%) showed higher ACE-I inhibitory activity after in vitro digestion. The highest total
phenolic content (TPC) (77.86 ± 1.00 mg GAE/g) was determined in LOPE. On the other
hand, the highest AOACUPRAC (74.69 ± 1.78 mg TE/g) and AOAABTS (251.29 ± 5.0 mg TE/g)
were detected in PPPE. After in vitro digestion, LOPE had the highest TPC (22.11 ± 2.18 mg
GAE/g), AOACUPRAC (8.41 ± 0.06 mg TE/g), and AOAABTS (88.32 ± 0.65 mg TE/g) (p <
0.05). In vitro protein digestibility of three macroalgal protein extracts ranged from 84.35 ± 2.01% to 94.09 ± 0.00% (p < 0.05).
Three macroalgae showed high oil holding capacity (OHC), especially PPPE (410.13 ± 16.37%) (p < 0.05), but they showed
minimum foaming and emulsifying properties. The quality of the extracted macroalgal proteins was assessed using FTIR, SDSPAGE, and DSC analyses. According to our findings, the method applied for macroalgal protein extraction could have a potential the
promise of ultrasonication application as an environmentally friendly technology for food industry. Moreover, URPE, PPPE, and
LOPE from sustainable sources may be attractive in terms of nourishment for people because of their digestibility, antioxidant
properties, and ACE-I inhibitory activities.