Abstract
There has been a growing interest in developing natural antioxidants with high efficiency and low cost. Bioactive protein hydrolysates could be a potential source of natural and safer antioxidants. The objectives of this study were to hydrolyze corn gluten meal using three plant-derived proteases, namely papain, ficin, and bromelain, to produce antioxidative hydrolysates and peptides and to characterize the antioxidant performances using both chemical assays and a ground meat model. The optimum hydrolysis time for papain was 3 h, and for ficin and bromelain was 4 h. The hydrolysates were further separated by sequential ultrafiltration to 5 hydrolysate fractions named F1 to F5 from low molecular weight (MW) (<1 kDa) to high MW range (>10 kDa), which were further characterized for TPC, free radical scavenging capacity against DPPH and ABTS, and metal chelating activity. The fraction F4 produced by papain (CH-P4), F1 produced by ficin (CH-F1), and F3 produced by bromelain (CH-B3) showed the strongest antioxidant activity and yield, respectively. These three fractions were incorporated into ground pork to determine their inhibition effects on lipid oxidation during a 16-day storage period. The inhibition effect was enhanced with the addition of higher amount of hydrolysate (e.g., 1000 vs. 500 mg/kg). The CH-P4 reduced lipid oxidation in ground meat by as much as 30.45%, and CH-B3 reduced oxidation by 27.2% at the same level, but the inhibition was only 13.83% with 1000 mg/kg of CH-F1. The study demonstrated that CGM protein hydrolysates and peptides could be used as naturally derived antioxidant in retarding lipid oxidation and improving product storage stability.
Highlights
Corn is one of the most important food and industrial crops in the world
Antioxidant yield increased as the hydrolysis time prolonged for Corn gluten meal (CGM) hydrolysates prepared by papain (CH-P), ficin (CH-F), and bromelain (CH-B) (Figure 1)
Comparing the antioxidant yield among different types of CGM hydrolysates prepared under the same hydrolysis time, ficin was the most efficient enzyme leading to the highest antioxidant yield than the other two enzymes, while papain was the least efficient
Summary
Corn is one of the most important food and industrial crops in the world. It typically contains10–15% protein. Corn is one of the most important food and industrial crops in the world. The major seed proteins in corn are zein (68%) and glutelin (28%) [1]. Protein quality in corn is poor due to relatively low content of certain essential amino acids, such as Lys and Trp [1,2]. Corn gluten meal (CGM) is a protein-rich coproduct generated during corn wet-milling, containing. It is traditionally used as feed materials or otherwise underutilized due to poor protein quality and lack of desired functional properties. Modification of proteins in CGM will broaden its applications and add additional values
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