Friday, November 15, 2019
Protein Thermal Stability Essay example -- Research Analysis, Isolatio
Isolation techniques for protein take the least refined forms of the protein and develop a highly concentrated product. A concentrated protein product allows utilization of functional properties of proteins without fat, moisture, or carbohydrate contributing to or inhibiting the system. For example, through the use of isolation techniques, the starting concentration of soy flour or grit, 40-50% protein, can increase to more than 90% (Petruccelli 1995). When other substituents such as starches and fats are present in a system, water absorption generally occurs within the carbohydrate instead of the protein (Wolf 1970). As a result, isolation plays a two-fold role in concentrating the selected protein as well as eliminating unneeded or undesirable constituents in a food product. Soy protein holds desirable, functional properties. Such properties of isolated soy protein include the formation of gels and emulsions. The proteinââ¬â¢s hydrophilic properties make it an ideal component in confectionary and baked goods because of its water retaining properties and ability to maintain freshness. Additional uses in food stuffs include aeration, an adhesive in meat products, color control, and inhibition or promotion of fat absorption (Wolf 1970). These functional properties have allowed soy protein to become an emerging protein and usable food constituent. Whey, an important by-product of milk, contains almost all of the milk carbohydrate and about one-fifth of milkââ¬â¢s protein (Smithers 1996). Isolated wheyââ¬â¢s value, however, derives from its protein content. Its unique functional properties provide opportunities for a variety of applications. For example, whey proteins, because of their stability to acidic conditions, are an integral part of ... ...ments DJ. 1997. Physical properties of whey protein stabilized emulsions as related to pH and NaCl. J Food Sci 62(2):342-347. De Witt JN. 1990. Thermal stability and functionality of whey proteins. J Dairy Science 73(12):3602-3612. Petruccelli S, Aà ±on MC. 1995. Soy protein components and their interactions. J Agric Food Chem 43(7):1762-1767. Smithers GW, Ballard GW, Copeland AD, De Silva KJ, Dionysius DA, Francis GL, Goddard C, Grieve PA, Mcintosh GH, Mitchell IR, Pearce H, Regester GO. 1996. New opportunities from the isolation and utilization of whey proteins. J Dairy Sci 79(8):1454-1459. Thompson, L.D., Dinh T. 2009. FDSC 4303/5305 food chemistry lab manual. Lubbock, Tx.: Texas Tech University, Department of Animal and Food Science. Wolf, WJ. 1970. Soybean proteins : their functional, chemical, and physical properties. J Agric Food Chem 18(6):969-976.
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