Vestnik of Volga State University of Technology. Series: Forest. Ecology. Nature Management

Pol 1 was a bidesmoside of oleanolic acid containing three residues of β-D-glucopyranose and one  residue of β-D-glucuronepyranose. β-configuration of anomeric centers of  monosaccharides was determined in accordance with high values of  spin-spin coupling constants (КССВ) J1,2 (6.8-7.8 Hz) and presence in ROESY experiment of  typical for β-sugar of correlation peaks H1/H3,H5. Connection places  of carbohydrate  elements to  aglycon as well as consequence of monosaccharides combination with each other were determined by means of ROESY and HMBC experiments. Pol 1 has a structure of 28-О-β-D-glupiranosyl  ether 3-О-β-D- glucopyranosyl -(1→4)-O-[β-D- glucopyranosyl -(1→2)]-O-β-D-glucuronopyranoside of oleanolic acid  and is identic to polyscioside E, earlier discovered  in the roots of Polyscias fruticosa, leaves of  P. scutellaria and  P. guilfoylei. It was revealed there was polyscioside Е both in the  biomass of P. filicifolia («new strain») and in P. fruticosa. At that, the biggest contain  of this glycoside (14^th day of growth) was found in P. filicifolia («new strain »). According to TLC and HPLC, other glycosides, found in the  biomass of the studied cells, were identic to glycosides of Pol 3, Pol 5 and Pol 7 from the leaves of  P. filicifolia. Nevertheless, their structure needs to be studied yet. In P. filicifolia («new strain») the main  glycoside was Pol 3 (together with  polyscioside Е) and  in P. fruticosa — Pol 3 and Pol 7.

Еляков, Г. Б. Гликозиды аралиевых / Г.Б. Еляков, Ю.С. Оводов // Химия природных соединений. – 1972. – Т. 6. – C. 697-709.

Гришковец, В. И. Тритерпеновые гликозиды аралиевых: выделение, установление строения, биологическая активность и хемотаксономическое значение: дис. докт. хим. наук / Гришковец Владимир Иванович // URL: http://www.ukrreferat.com/index.php?referat=70466&pg=0, – 2004. – 460 с.

Christensen, L. P. Ginsenosides chemistry, biosynthesis, analysis, and potential health effects // Advances in Food Nutrition Research. – 2008. – Vol. 55. – P. 1–99.

Dinda, B. Naturally occurring triterpenoid saponins / B. Dinda, S. Debnath, B.C. Mohanta, Y. Harigaya // Chemistry & Biodiversity. – 2010. – Vol. 7. – P. 2327–2580.

Qi, L.-W. Isolation and analysis of ginseng: advances and challenges / L.-W. Qi, C.-Z. Wang, C.-S. Yuan // Natural Product Reports. – 2011. – Vol. 28. – P. 467–495.

Суханова, Е. С. Ростовые и биосинтети-ческие характеристики разных штаммов культур клеток растений рода Polyscias / Е. С. Суханова, Д. В. Кочкин, М. В. Титова, А. М. Носов // Вестник Поволжского государственного технологического университета. Сер.: Лес. Экология. Природопользование. – 2012. – № 2(16). – С. 57-66.

Бутенко, Р. Г. Культура изолированных тканей и физиология морфогенеза растений / Р. Г. Бутенко. – М.: Наука, 1964. – 272 с.

Слепян, Л. И. Культура тканей некоторых видов рода Polyscias J.R. et G. Forst. (Araliaceae) / Л.И. Слепян, Н.Н. Арнаутов, И.В. Грушвицкий // Растительные ресурсы. – 1975. – T. 11. – C. 198-204.

Wu, J. Production of ginseng and its bioactive components in plant cell culture: Current technological and applied aspects / J. Wu, J.J. Zhong // Journal of Biotechnology. – 1999. – Vol. 68. – P. 89–99.

Суханова, Е. С. Получение и характерис-тика каллусных и суспензионных культур клеток Polyscias filicifolia и Polyscias fruticosa / Е.С. Суханова, Н.Д. Черняк, А.М. Носов // Биотехнология. – 2010. – № 4. – С. 44-50.

Суханова, Е. С. Влияние предшественника синтеза изопреноидов на ростовые и биосинтетические характеристики культуры клеток Polyscias fruticosa (L.) Harms. / Е.С. Суханова, Д.В. Кочкин, Э.И. Гафиятова, А.М. Носов // Вестник СВФУ им. А.К. Амосова. – 2011. – Т. 8. – С. 40-44.

Court, W. E. The principal active chemicals in Panax species // Ginseng: The Genus Panax. [ed. Court W.E.]. – New York : Harwood Academic Publishers, 2000. – P. 551–16.

Huan, V. D. Oleanane saponins from Polyscias fruticosa / V.D. Huan, S. Yamamura, K. Ohtani, R. Kasai, K. Yamasaki, N.T. Nham, H.M. Chau // Phytochemistry. – 1998. – Vol. 47. – P. 451-457.

Paphassarang, S. Triterpenoid saponins from Polyscias scutellaria / S. Paphassarang, J. Raynaud, M. Lussignol // Journal of Natural Products. – 1989. – Vol. 52. – P. 239-242.

Thi, N. A. T. Oleanane saponins from Polyscias guilfoylei Bail. (Araliaceae) / N.A.T. Thi, N.A.T. Thuy, N.T.H. Thi, N.S. Ngoc, N.P.P. Kim // Science & Technology Development. – 2009. – Vol. 12. – P. 21-28.

Verpoorte, R. Biotechnology for the production of plant secondary metabolites / R. Verpoorte, A. Contin, J. Memelink // Phytochemistry Reviews. – 2002. – Vol. 1. – P. 13–25.