МАСС-СПЕКТРОМЕТРИЯ ГИНСЕНОЗИДОВ В ЖЕНЬШЕНЕ PANAX GINSENG C.A. MEYER, ПОЛУЧЕННЫХ МЕТОДОМ СВЕРХКРИТИЧЕСКОЙ ЭКСТРАКЦИИ

1. Brunner, G. Applications of supercritical fluids / G. Brunner // Annual Review of Chemical and Biomolecular engineering. 2010. № 1. P. 321-42.

2. Choi, Y.H. Optimum SFE condition for lignans of Schisandra chinensis. / Y.H. Choi, J. Kim, S.H. Jeon, K. P.

3. Yoo, H. K. Lee // Chromatographia. Vol. 48. Issue 9. P. 695-699.

4. Gouveia, L. Functional food oil coloured by pigments extracted from microalgae with supercritical СО2. / L.

5. Gouveia, B.P. Noble, F.M. Marcelo, S. Mrejen, M.T. Cardoso, A.F. Palavra, R.L. Mendes // food chemistry. -2007. Vol.

6. King, J.W. Modern supercritical fluid technology for food applications. // J.W. King / Annual review of food science and technology. 2014. № 5. P. 215-238.

7. Razgonova, M.P. Supercritical green technologies for obtaining ginsenosides from Far-Eastern wild Panax ginseng C.A. Meyer using SFE for applying in drug, food and cosmetic industries. / Razgonova M.P., Kalenik T.K., Veselov V.V., Zakharenko A.M., Ali Taghizadehghalehjoughi, Vita V., Barbuceanu F., Izotov B.N., Stratidakis A.K., Tsatsakis A.M., Golokhvast K.S. // Farmacia. 2019. Vol.67. Issue 1. P. 81-91.

8. Ren, G. Degradation of ginsenosides in American ginseng (Panax quinquefolium) extracts during microwave and conventional heating / G. Ren, F. Chen // J. Agric. Food Chem. 1999. № 47. P. 1501-1505.

9. Stavrianidi, A. New approaches to the determination and group identification of physiologically active compounds in plant materials and commercial products by HPLC-Mass spectrometry/A.N. Stavrianidi, T.M. Baygildiev, E.A. Stekolshchikova, O. Shpigun I. Rodin, // Journal of Analytical Chemistry. 2019. Vol. 74. P. 67-80.

10. Surh, Y. J. Molecular mechanism underlying anti-tumor promoting activities of heat-processed Panax ginseng C.A. Meyer // Y. J. Surh, H. K. Na, J. Y. Lee, Y.S. Keum / J. Korean Med. Sci. 2001. No. 16. P. 38-41.

11. Taylor, S.L. Enrichment and fractionation of phospholipid concentrates by supercritical fluid extraction and chromatography. // S.L Taylor, J.W. King, L. Montanari, P. Fantozzi, M.A. Blanco // Ital. J. Food Sci. 2000. № 12. P.65-76.

12. Wang, H. P. Rapid characterization of ginsenosides in the roots and rhizomes of Panax ginseng by UPLC- DAD-QTOF-MS/MS and simultaneous determination of 19 ginsenosides by HPLC-ESI-MS. / Hong-Ping Wang, You- Bo Zhang, Xiu-Wei Yang, Da-Qing Zhao, Ying-Ping Wang // Journal of Ginseng Research - 2016. Vol. 40. P. 382-394.

13. Yang, W. Z.A strategy for efficient discovery of new natural compounds by integrating orthogonal column chromatography and liquid chromatography/mass spectrometry analysis: Its application in Panax ginseng, Panax quinquefolium and Panax notoginseng to characterize 437 potential new ginsenosides. / W. Z. Yang, M. Ye, X. Qiao, C.F. Liu, W.J. Miao, H. Y Tao, D. A. Guo // Analytica Chimica Acta 2012. Vol. 739. P. 56-66.

14. Yepez, B. Producing antioxidant fractions from herbaceous matrices by supercritical fluid extraction / B.

15. Yepez, M. Espinosa, S. Lopez, G. Bolanos // Fluid Phase Equilib. 2002. № 194. P. 879-884.

16. Zancan, K.C. Extraction of ginger (Zingiber officinale Roscoe) oleoresin with СО 2 and co-solvents: a study of antioxidant action of extracts. / K.C. Zancan, M.O.M. Marques, A.J. Petenate, M.A.A. Meireles // Journal of Supercritical Fluids 2002. Vol.