Response surface methodology was used for establishing the amplitude (72.67%) and time (17.29 min) high-intensity ultrasound (HIUS) conditions leading to an optimized faba bean protein isolate (OFPI) with lower interfacial tension, zeta potential and viscosity, and higher solubility than native faba bean protein isolate (NFPI). OFPI showed significantly higher adsorption dynamics at the air-water interface, and produced foam with significant smaller bubble diameter, higher overrun, stability and yield stress, and lower liquid drainage than NFPI. Fourier Transform Spectroscopy (FT-IR) revealed that the secondary structure of OFPI deferred from NFPI in terms of increases in β conformations (6.61% β-sheet, 19.6% β-turn, 0.8% anti-parallel β-sheet) and decreases in inter-molecular aggregates (43.54%). Multienzyme study pinpointed that the structural changes could have induced a decrease on the relative protein digestibility of OFPI respect that of NFPI. The results of this work demonstrate that HIUS technology improves the surface and foaming properties of faba bean protein isolate, which may favour the revalorisation of this crop.
Introduction: Legumes and pseudocereals protein hydrolysates have been recognized as having improved potential health-promoting properties as compared with native proteins. Objectives: 1) Produce bioactive hydrolysates from lupin and faba bean proteins by enzymatic hydrolysis (EH) and solid-state fermentation (SF), 2) compare the angiotensin converting enzyme (ACE)-inhibitory and antioxidant activities of the hydrolysates and 3) evaluate the effect of in vitro gastrointestinal digestion on the antioxidant and antihypertensive activities of the hydrolysates. Methodology: Hydrolysates from proteins of faba bean (Vicia faba) and lupin (Lupinus gredensis) were obtained by EH using Flavourzyme and SF by Aspergillus niger. The antioxidant and ACE-inhibitory activities of the hydrolysates were assessed. Results: All the hydrolysates presented DPPH radical scavenging activity, with IC50 ranging from 1.23-2.08 mgprotein·mL-1. Only EH and SF hydrolysates obtained from lupin proteins had ACE-inhibitory activity (IC50: 2.39 and 14.08 mgprotein·mL-1, respectively). Radical scavenging activity hydrolysates was significantly reduced after in vitro gastrointestinal digestion, while ACE-inhibitory activity showed variable behavior. Study limitations: Specific molecules responsible for the in vitro health-promoting properties should be identified. Originality: Relevant information is provided on health-promoting attributes of faba bean and lupin hydrolysates obtained by EH and SF. Conclusions: EH and SF improved the health-promoting properties of faba bean and lupin native proteins.
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