Abstract
Spray drying is used in the food industry to convert liquids into dry powders. The effect of the addition of salt ions before spray drying to improve the heat- and cold-induced gel properties of soy protein isolate (SPI) was investigated. Certain concentrations of Na+ (0.005–0.01 M), Mg2+ (0.005 M), and Ca2+ (0.005 M) significantly increased the hardness, springiness, cohesiveness, chewiness, gumminess, resilience, and water holding capacity of the heat- and cold-induced gels. This effect arises predominantly due to the functional groups buried in the protein matrix that are partially exposed to improve the interactions between the protein molecules. The main interactions that promoted gel formation and maintained the three-dimensional structure of the heat- and cold-induced gels were hydrophobic and disulfide interactions. Analysis using scanning electron microscopy showed that the heat- and cold-induced gels were uniform, had smooth surfaces, and had smaller pores with added Na+ (0.01 M), Mg2+ (0.005 M), and Ca2+ (0.005 M). The results indicate that we might broaden the applications of SPI by simulating the industrial gel manufacturing process for products such as fish balls and chiba tofu. Overall, adding salt ions before spray drying could offer great potential for the development of SPI with enhanced functionality suitable for comminuted meat products.
Highlights
Soy protein isolate (SPI) is an important food ingredient and is often used in human foods due to its nutritional value and technological properties, as well as its relatively low price [1]
Sodium chloride (NaCl), calcium chloride (CaCl2 ), magnesium chloride (MgCl2 ), and other required reagents not otherwise specified were of analytical grade and purchased from Sinopharm Chemical Reagent Shenyang Co., Ltd. (Shenyang, Liaoning, China)
The results showed thatshowed appropriate properties protein was investigated
Summary
Soy protein isolate (SPI) is an important food ingredient and is often used in human foods due to its nutritional value and technological properties, as well as its relatively low price [1]. The gel properties are important functional properties of SPI. SPI has the ability to form a gel when heated. SPI is added in the industrial production of emulsified muscle foods to improve product texture and yield [2,3]. This increases the cost because of the gel softening of natural soy protein isolate (N-SPI) with the extension of the storage period [1,4].
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