Soybean can not only be used to extract edible oil, but its rich soybean protein is an important source of vegetable protein. There are many types of soy protein commonly used in food processing, such as soy protein isolate, soy protein concentrate, and soy tissue protein. Among them, soybean protein isolate (SPI) is a full-value protein produced from defatted soybean meal under low temperature conditions, with a protein content of more than 90%. SPI is cholesterol-free, nutrient-rich, inexpensive and easy to obtain. , Containing the characteristics of various amino acids required by the human body, it can be used as an animal protein substitute in the food industry, and has great development potential.
The production process and technology of soybean protein isolate abroad have developed rapidly. From extraction methods to modification methods, a series of formulation technologies have been formed. According to the application field and product performance of the product, the extraction method and modification method are different. The products produced from this are widely suitable for different needs in the fields of meat, dairy products, light chemical industry, etc., and truly reflect the high nutrition and high value-added characteristics of soybean protein.
However, natural SPI is difficult to meet the requirements of food industry production. SPI is easily denatured under some extreme conditions, and the denatured protein will further form water-insoluble aggregates or even precipitate, resulting in poor solubility.
SPI can form a mixed gel with myofibrillar pro-tein (MP) in meat at a certain temperature. Studies have shown that mixing natural SPI with meat products will reduce the gelatinity of the finished product. In the production of the product, the central temperature is around 70 °C. The 7S and 11S proteins, as the two most important proteins in the SPI, have not been denatured at this temperature. At this time, the MP has reached the denaturation temperature, and the gel begins to form. The gel formation process The need to continuously absorb water in SPI leads to not only loose structure but also poor elasticity of the composite gel, which limits the ability of SPI to improve the texture-related properties of MP gels. Modification of SPI can improve its functional properties and expand its application range in the production and processing of meat products.
Main functional properties of modified soybean protein isolate in meat processing
MP is a salt-soluble protein that plays a major role in the production and processing of meat products, and can impart many desirable physical and chemical properties to meat products. In the production of food industry, SPI can not only be added to meat products as a non-functional filler, but also can be used as an additive to be mixed with myofibrillar protein to improve the quality of meat products.
1. Water holding capacity
Water holding capacity is an important indicator to detect the quality of meat products in the production and processing, because the three-dimensional network structure of the protein can lock the water in the muscle tissue, and the hydrophilicity of the polar groups on the SPI peptide chain can be used in the production process of meat products. The juice of the meat is preserved in the medium, which improves the quality and productivity of the meat product.
Ma Yuxiang et al. made a mixed gel of SPI and salt-soluble muscle protein. After high temperature treatment of SPI, the ultrastructure of the composite gel became rough but the water holding capacity was significantly improved. The low-field NMR technique can study the water distribution of the mixed protein. The water loss rate of the minced meat gel after adding modified SPI and carrageenan decreased, and the water holding capacity of the mixed gel was improved.
2. Emulsifying
Emulsifying property and emulsifying stability refer to the ability of water and oil to mix to form an emulsion, and are also an important indicator for evaluating meat quality. The addition of SPI to meat products can prevent the exudation of oils and fats in minced meat products, improve the organizational structure of the products, and thus improve the emulsification of meat products. In processed meat products, the emulsification effect of modified SPI can be enhanced. Nitrogen soluble index (NSI) determines its emulsification. When NSI is 80%, it is beneficial to improve the emulsification effect of SPI in meat products. .
He Jinwu et al. added natural SPI and glycosylated SPI to carp myofibrillar protein. Compared with natural SPI, the SPI treatment after glycosylation significantly improved the emulsification of the mixed protein.
Jiang Lianzhou et al. studied the emulsification changes of SPI and pork MP after ultrasonic treatment, and the composite system after 400 W, 20 min treatment had the best emulsification activity and emulsification stability.
Liang Jing et al. studied the emulsification changes of modified SPI and myofibrillar protein blends, and the results show that thermal modification can improve the emulsification activity, followed by alkali modification, but ultrasonic and irradiation modification effects are not obvious. The SPI modified at 95 ℃ high temperature can significantly improve the emulsifying property of the composite system.
3. Gel
In a high pressure or high temperature environment, the myofibrillar protein molecules are first denatured, and then aggregated into a network structure, and water and fat are encapsulated, which is the process of gel formation. In the process of myofibrillar protein gelation, cross-linked and mixed proteins can only form non-elastic protein particles. Only when the proteins are connected in an orderly manner can the formed gel be elastic.
After pork is slaughtered, excessive air oxidation will enlarge the pores of the gel, resulting in a decrease in gel strength and a decrease in pork water holding capacity. SPI can form a gel when heated, so SPI is often added to meat products to improve the gelatinity of meat products.
Feng et al. added SPI after high temperature treatment at 90 ℃ to myofibrillar protein. The results showed that SPI can be modified to improve the hydrophobic force. After mixing with myofibrillar protein, it can significantly enhance the elasticity and stiffness of the mixed protein gel. , the unmodified SPI will reduce the gel strength.
Meng Lin studied the effect of high pressure on the physicochemical properties of low-sodium pork minced by the combination of SPI and potassium chloride. With the increase of pressure level, the hardness, elasticity and cooking loss rate of pork minced increased significantly, reaching the highest at 200 MPa, and 200 MPa could Improve the quality of low-sodium ground pork products.
Jiang et al. treated the mixed gel of SPI and myofibrillar protein with extreme pH environment of pH 12 and pH 1.5, and found that the hardness was similar to that of the gel with added transglutaminase, and significantly higher than that of the heat-treated mixed gel .
Wang Bo et al. compounded the glycosylated SPI with myofibrillar protein in different proportions. The results showed that the gel hardness and elasticity of the glycosylated mixed protein were significantly higher than those of the natural SPI mixed protein, and the microstructure was also better. Uniform and dense, but the whiteness value decreased.
Wang Lingdi treated SPI with high temperature and transglutaminase and then prepared mixed protein gel with MP. The results showed that transglutaminase could promote the cross-linking of SPI and MP to form a polymer, which was beneficial to improve the elasticity of the mixed gel.
Zhang Mingcheng studied the two methods of enzymatic hydrolysis and enzymatic cross-linking to co-process SPI, so that it was added to the minced meat. After heating, a dense gel network can be formed, and the hardness, recovery and chewiness of the product are significantly increased.
Application of modified soybean protein isolate in meat product
Modified SPI can be used in meat products to increase flavor, prevent gravy separation, improve the quality of meat products, and prolong shelf life.
1. A piece of meat products
Block meat products usually refer to large or whole meat products, but their integrity is easily damaged during processing. By adding modified SPI, syneresis can be reduced, tissue properties can be improved, and product quality can be improved. The use of modified SPI can not only maintain the appearance and moisture of meat products due to its excellent water holding capacity and gelation, but also use its natural antioxidant properties as a coating material to delay the oxidation of meat products and prolong the shelf life of food. while maintaining the organoleptic quality of the meat product.
2. Minced meat products
Meat patties, meat balls and surimi products are all minced meat products. The combination of lean meat and fat meat to form a stable meat surimi is the key to determining the quality of its production. Because of its good water and oil absorption, SPI can combine lean and fat meat to improve nutritional value and product yield. Zhou Yang et al. added egg white powder and soybean protein isolate powder during the production of fish balls. SPI can significantly enhance the gel strength of fish balls and improve the quality of fish balls. Li et al. studied the color, emulsification stability and rheology of pork minced pork after high pressure treatment of soybean protein isolate. The results showed that SPI after high pressure treatment could improve the emulsification properties of pork minced.
3. Emulsified meat products
Emulsified meat products mainly refer to sausages, hams, etc. SPI can form a stable emulsified system with salt-soluble proteins in meat, especially myofibrillar proteins. The excellent emulsifying properties of SPI can prevent the oil exudation caused by the accumulation of fat in the minced meat, improve the oil retention of meat products, and impart high-quality taste and flavor to emulsified sausages and other products. Paglarini et al. used ultrasonically modified SPI, carrageenan and inulin as raw materials to prepare Frankfurt sausages. The results showed that the modified SPI could reduce animal fat intake and improve the taste of the product.
4. Imitation meat products
SPI is often used as a raw material to replace animal protein because of its good emulsifying and gelling properties. Through extrusion and other processes, protein, fat and carbohydrates undergo complex changes under the combined action of multiple factors, so that the taste and flavor of natural meat can be imitated. Because of its high nutritional value and unique flavor, it is very popular among vegetarians. Mo Chongwen studied the use of molecular recombination technology to structure soybean protein. The results show that the protein can have a lean fibrous structure, and the imitation meat food made has good taste and a shelf life of more than 6 months.