Determining the expediency of using protein-polysaccharide complexes based on dairy and vegetable proteins in the technology of butter pastes
- 1. National University of Food Technologies
Description
The expediency of using milk proteins in the technology of butter pastes, dry milk protein concentrate, and dry whey protein concentrate, has been substantiated.
It was determined that the use of protein-polysaccharide complexes in the technology of butter pastes makes it possible to reduce the caloric content of products by 2...3 % and increase the nutritional value by increasing the protein content up to 8.2 %. The biological value of the protein of new types of butter pastes, stabilized protein-polysaccharide complexes based on milk protein, was 43.6 %, based on milk and pea protein isolate ‒ 45.0 %. This can be explained by the partial compensation of the lack of essential acids at the expense of plant protein.
It was established that the introduction of dry powder of blueberries and pea protein isolate makes it possible to enrich the product with a complex of biologically active and mineral substances. The degree of meeting the daily requirement by using 10 g of the product is: calcium ‒ by 1.0 % on average; potassium ‒ 0.6 %, iron ‒ 0.3...0.6 %, rutin ‒ 2.6 %.
The introduction of blueberry micronutrients into the butter paste would increase the biological value of the protein by 2.5 %. The use of pea protein isolate could increase it by 1.5 %, which is due to partial compensation of deficient amino acids through plant components.
Thus, due to the enrichment of the pastes with high-grade protein with a high degree of digestibility, it may become possible to increase the nutritional value of products.
The social effect of the introduction of new types of butter pastes into production is to improve the nutritional structure of the population through the use of low-fat analogs of butter, enriched with protein and micronutrients of blueberries. This would help improve health and prevent microelement-dependent diseases
Files
Determining the expediency of using protein-polysaccharide complexes based on dairy and vegetable proteins in the technology of butter pastes.pdf
Files
(281.7 kB)
Name | Size | Download all |
---|---|---|
md5:416b05a5fc5636dc10ffe0cfbfaa4f8b
|
281.7 kB | Preview Download |
Additional details
References
- Hae-Soo, K., Palanivel, G., Mohammad Al, M. (2013). Butter, Ghee, and Cream Products. Milk and Dairy Products in Human Nutrition, 390–411. doi: https://doi.org/10.1002/9781118534168.ch18
- Yatsenko, O., Yushchenko, N., Kuzmyk, U., Pasichnyi, V., Kochubei-Lytvynenko, O., Frolova, N. et. al. (2020). Research of milk fat oxidation processes during storage of butter pastes. Potravinarstvo Slovak Journal of Food Sciences, 14, 443–450. doi: https://doi.org/10.5219/1283
- Vyshemirskiy, F. A. (2015). Entsiklopediya maslodeliya. Uglich, 509.
- Topnikova, E. V., Oborina, M. V., Lepilkina, O. V., Buharina, G. V. (2005). Osobennosti formirovaniya struktury slivochnogo masla ponizhennoy zhirnosti s dobavleniem stabilizatorov struktury. Hranenie i pererabotka sel'hozsyr'ya, 2, 34–38.
- Topnikova, E. V. (2018). Produkty maslodeliya ponizhennoy zhirnosti v pitanii sovremennogo cheloveka. Chast' 1. Pererabotka moloka, 2.
- Topnikova, E. V. (2018). Produkty maslodeliya ponizhennoy zhirnosti v pitanii sovremennogo cheloveka. Chast' 2. Pererabotka moloka, 3.
- Podkovko, O., Rashevskaya, T. (2015). Water phase condition in the butter paste with red beet powder. Food and Environment Safety, XIV (4), 385–390.
- Lam, R. S. H., Nickerson, M. T. (2013). Food proteins: A review on their emulsifying properties using a structure-function approach. Food Chemistry, 141 (2), 975–984. doi: https://doi.org/10.1016/j.foodchem.2013.04.038
- De Boer, R. (2017). Future Proteins for Application Success. The Word of Food Ingredients, 42–46.
- Emelin, V. P., Bokarev, A. V., Trifanov, I. Y. (2009). Structure and properties of the dairy-albuminous concentrates received in the different ways. Tehnika i tehnologiya pishchevyh proizvodstv, 4, 72–74. Available at: https://cyberleninka.ru/article/n/sostav-i-svoystva-molochno-belkovyh-kontsentratov-poluchennyh-raznymi-sposobami
- Smirnova, I. A., Gutov, N. Yu., Yurtashkina, A. V. (2017). Studying of fractional composition of milk-protein concentrates for the purpose of their application in production of dairy products. Food Processing: Techniques and Technology, 45 (2), 69–74. Available at: https://cyberleninka.ru/article/n/izuchenie-fraktsionnogo-sostava-molochno-belkovyh-kontsentratov-s-tselyu-ih-primeneniya-v-proizvodstve-molochnyh-produktov/viewer
- Huppertz, T., Smiddy, M. A., de Kruif, C. G. (2007). Biocompatible Micro-Gel Particles from Cross-Linked Casein Micelles. Biomacromolecules, 8 (4), 1300–1305. doi: https://doi.org/10.1021/bm061070m
- Moschakis, T., Murray, B. S., Biliaderis, C. G. (2010). Modifications in stability and structure of whey protein-coated o/w emulsions by interacting chitosan and gum arabic mixed dispersions. Food Hydrocolloids, 24 (1), 8–17. doi: https://doi.org/10.1016/j.foodhyd.2009.07.001
- De Kruif, C. G. (1999). Casein micelle interactions. International Dairy Journal, 9 (3-6), 183–188. doi: https://doi.org/10.1016/s0958-6946(99)00058-8
- Nepovinnykh, N. V. (2017). Investigating associative interactions of food hydrocolloids in creating milk-based products. Molochnohozyaystvenniy vestnik, 1 (25), 100–109.
- Kovtun, Y., Rashevska, T. (2014). Research process water absorption concentrate of whey proteins and microstructures its solution. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny ta biotekhnolohiy im. Gzhytskoho, 16 (2), 72–78.
- Livney, Y. D. (2010). Milk proteins as vehicles for bioactives. Current Opinion in Colloid & Interface Science, 15 (1-2), 73–83. doi: https://doi.org/10.1016/j.cocis.2009.11.002
- Ozturk, B., McClements, D. J. (2016). Progress in natural emulsifiers for utilization in food emulsions. Current Opinion in Food Science, 7, 1–6. doi: https://doi.org/10.1016/j.cofs.2015.07.008
- Topnikova, E. V. (2008). The stabilizers of structure for butter products. Pishchevaya promyshlennost', 3, 24–26.
- Han, B.-Z., Rombouts, F. M., Nout, M. J. R. (2004). Amino acid profiles of sufu, a Chinese fermented soybean food. Journal of Food Composition and Analysis, 17 (6), 689–698. doi: https://doi.org/10.1016/j.jfca.2003.09.012
- Xiong, T., Ye, X., Su, Y., Chen, X., Sun, H., Li, B., Chen, Y. (2018). Identification and quantification of proteins at adsorption layer of emulsion stabilized by pea protein isolates. Colloids and Surfaces B: Biointerfaces, 171, 1–9. doi: https://doi.org/10.1016/j.colsurfb.2018.05.068
- Merenkova, S. P., Savostina, T. V. (2014). Practical aspects of using plant protein supplements in meat product technology. Bulletin of the South Ural State University Series "Food and Biotechnology", 2 (1), 23–29.
- Smaginа, A. V., Sytova, M. V. (2011). Analysis of the Use of Soy Protein in the Food Industry. Scientific works of Dalrybvtuz, 1, 20–27.
- Bruno, Zh. (2007). Gorohoviy belok: luchshe, chem prosto funktsional'naya dobavka. Myasnaya industriya, 10, 40–41.
- Vaccinium Myrtillus (Bilberry) (2001). Alternative Medicine Review, 6 (5), 500–504. Available at: https://www.foundationalmedicinereview.com/wp-content/uploads/2019/02/v6-5-500.pdf
- Katsube, N., Iwashita, K., Tsushida, T., Yamaki, K., Kobori, M. (2003). Induction of Apoptosis in Cancer Cells by Bilberry (Vaccinium myrtillus) and the Anthocyanins. Journal of Agricultural and Food Chemistry, 51 (1), 68–75. doi: https://doi.org/10.1021/jf025781x
- Volchkov, A. (2009). Vliyanie izolyatov rastitel'nyh belkov na pishchevuyu tsennost' makaronnyh izdeliy. Hleboprodukty, 1, 42–44.
- Svyatnenko, R., Ukrainets, A., Marynin, A., Kochubei-Lytvynenko, O., Boyko, M. (2018). Effect of pulsed electric fields on the amino acid composition of whole milk. Scientific Works of National University of Food Technologies,, 24 (1), 119–125. doi: https://doi.org/10.24263/2225-2924-2018-24-1-16
- Kochubei-Lytvynenko, O., Yatsenko, O., Yushchenko, N., Kuzmyk, U. (2018). Astabilizing system for butter pastes based on the dry concentrates of milk protein. Eastern-European Journal of Enterprise Technologies, 5 (11 (95)), 30–36. doi: https://doi.org/10.15587/1729-4061.2018.143105