Вестник МГТУ. 2017, том 20, № 3.
Еремеева Н. Б. и др. Влияние технологии экстракции на антиоксидантную активность… 606 19. Cheigh C. I., Chung E. Y., Chung M. S. Enhanced extraction of flavanones hesperidin and narirutin from Citrus unshiu peel using subcritical water // Journal of Food Engineering. 2012. V. 110. P. 472–477. 20. Celli G. B., Ghanem A., Su-Ling Brooks M. Optimization of ultrasound-assisted extraction of anthocyanins from haskap berries ( Lonicera caerulea L.) using response surface methodology // Ultrasonics Sonochemistry . 2015. V. 27. P. 449–455. 21. Alessandro L. G., Kriaa K., Nikov I., Dimitrov K. Ultrasound assisted extraction of polyphenols from black chokeberry // Separation and Purification Technology. 2012. V. 93. P. 42–47. 22. Rugina D., Scontxa Z., Leopold L. et al. Antioxidant activities of chokeberry extracts and the cytotoxic action of their anthocyanin fraction on HeLa human cervical tumor cells // Journal of Medicinal Food. 2012. V. 15, N 8. P. 700–706. 23. Oszmianski J., Wojdylo A. Aronia melanocarpa phenolics and their antioxidant activity // European Food Research and Technology. 2005. N 221. P. 809–813. 24. Демидова А. В., Макарова Н. В. Влияние режимов бланшировки на физико-химические свойства и антиоксидантную активность фруктового сырья на примере вишни, сливы, черноплодной рябины и клубники // Пищевая промышленность. 2016. № 2. С. 40–43. 25. Стрюкова А. Д., Макарова Н. В. Замороженные ягоды – эффективный антиоксидант в течение всего года // Пищевая промышленность. 2013. № 3. С. 28–31. 26. Karabegovic I. T. The effect of different extraction techniques on the composition and antioxidant activity of cherry laurel ( Prunus laurocerasus ) leaf and fruit extracts // Industrial Crops and Products. 2014. V. 54. P. 142–148. 27. M'hiri N. N., Ioannou I., Mihoubi Boudhrioua N., Ghoul M. Effect of different operating conditions on the extraction of phenolic compounds in orange peel // Food and Bioproducts Processing. 2015. V. 69. P. 161–170. 28. Rombaut N., Tixier A. S., Bily A., Chemat F. Green extraction processes of natural products as tools for biorefinery // Biofuels Bioproducts & Biorefining. 2014. V. 8. P. 530–544. References 1. Slimestad R., Torskangerpoll K., Nateland H. S. et al. Flavonoids from black chokeberries, Aronia melanocarpa // Journal of Food Composition and Analysis. 2005. V. 18, N 1. P. 61–68. 2. Taheri R., Connolly B. A., Brand M. H., Bolling B. W. Underutilized chokeberry ( Aronia melanocarpa , arbutifolia , prunifolia ) accessions are rich sources of anthocyanins, flavonoids, hydroxycinnamic acids, and proanthocyanidins // Journal of Agricultural and Food Chemistry. 2013. V. 61. P. 8581–8588. 3. Kim B., Park Y., Wegner C. J. et al. Polyphenol-rich black chokeberry ( Aronia melanocarpa ) extract regulates the expression of genes critical for intestinal cholesterol flux in Caco-2 cells // Journal of Nutritional Biochemistry. 2013. V. 24. P. 1564–1570. 4. McDougall G. J., Austin C., Van Schayk E., Salal M. P. Gaultheria shallon and aronia ( Aronia melanocarpa ) fruits from Orkney: Phenolic content, composition and effect of wine-making // Food Chemistry. 2016. V. 205. P. 239–247. 5. Kim J. H. et al. Aronia melanocarpa juice, a rich source of polyphenols, induces endothelium- dependent relaxations in porcine coronary arteries via the redox-sensitive activation of endothelial nitric oxide synthase // Nitric Oxide. 2013. V. 35. P. 54–64. 6. Wawer I., Wolniak M., Paradowska K. Solid state NMR study of dietary fiber powders from aronia, bilberry, black currant and apple // Solid State Nuclear Magnetic Resonance. 2006. V. 30, N 2. P. 106–113. 7. Petrov A. N., Maslennikova G. A. Physical and chemical aspects of vacuum drying of berry raw materials // Foods and Raw Materials. 2016. V. 4, N 1. P. 129–134. 8. Khramtsov A. G., Evdokimov I. A., Lodygin A. D., Budkevich R. O. Technology development for the food industry: a conceptual model // Foods and Raw Materials. 2014. V. 2, N 1. P. 22–26. 9. Terletskaya V. A., Rubanka E. V., Zinchenko I. N. Vliyanie tehnologicheskih faktorov na protsess ekstraktsii plodov ryabiny chernoplodnoy [Influence of technological factors on the process of black chokebery extraction] // Tehnika i tehnologiya pischevyh proizvodstv. 2013. N 4 (31). P. 127–131. 10. Vongsak B. et al. Maximizing total phenolics, total flavonoids contents and antioxidant activity of Moringa oleifera leaf extract by the appropriate extraction method // Industrial Crops and Products. 2013. V. 44. P. 566–571. 11. Cai Y., Yu Y., Duan G., Li Y. Study on infrared-assisted extraction coupled with high performance liquid chromatography (HPLC) for determination of catechin, epicatechin, and procyanidin B2 in grape seeds // Food Chemistry. 2011. V. 127. P. 1872–1877. 12. Mischenko E. V. Obzor ispolzovaniya ultrazvukovogo ekstragirovaniya komponentov iz rastitelnogo syrya [Use of ultrasound for the extraction of components from plant materials – a review] // Vestnik OrelGAU. 2015. V. 53, N 2. P. 51–61.
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