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Publisher: Altai State University
Journal: Khimiia rastitel'nogo syr'ia (Chemistry of plant raw material)
Languages: Russian
Types: Article
Subjects: Hydrocharitaceae, Stratiotes aloides, Elodea canadensis, Hydrocharis morsus-ranae, Hydrilla verticillata, аминокислоты, во-дорастворимые витамины, Западная Сибирь, Hydrocharitaceae, Stratiotes aloides, Elodea canadensis, Hydrocharis morsus-ranae, Hydrilla verticillata, amino acids, water-soluble vitamins, Western Siberia
The research on the amino acids (valine, arginine, tryptophan, methionine, lysine, histidine, phenylalanine, isoleucine) and water-soluble vitamins (B1, B2, B6, C) content in species of the family Hydrocharitaceae, growing in Western Siberia (Elodea canadensis, Stratiotes aloides Hydrocharis morsus-ranae, Hydrilla verticillata), has been executed.Fiveindispensable (valine, isoleucine, lysine, tryptophan, phenylalanine) and two dispensable(arginine, histidine) amino acids have been discovered at examined species of family. It has been found that all examined Hydrocharitaceae have a comparatively high content of valine (H. morsus-ranae has a maximum valine content ((420 ± 30) × 10-7 g / 100 g)). The high content of vitamin C (S. aloides ((770 ± 30) × 10-7) and H. morsus-ranae ((750 ± 30) × 10-7 g / 100 g) have a maximum content) and the equally low content in all examined species of vitamin B6 (at a rate of ((19 ± 2) × 10-7 g / 100 g) are typical.
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 1. Grebenyuk A.V. Konspekt flory Aziatskoj Rossii: sosudistye rasteniya, Novosibirsk, 2012, pp. 431 432. (in Russ.).
    • 2. Sviridenko B.F. Flora i rastitel'nost' vodoemov Severnogo Kazahstana. [Flora and vegetation of water bodies in Northern Kazakhstan]. Omsk, 2000, 196 p. (in Russ.).
    • 3. Tokar' O. E. Flora, rastitel'nost' i fitoindikaciya vodnyh ehkotopov reki Ishim i pojmennyh ozer v predelah Tyumenskoj oblasti. [Flora, vegetation and aquatic habitat bioindication Ishim River and floodplain lakes within the Chu-Tyumen region]. Ishim, 2006, 208 p. (in Russ.).
    • 4. Efremov A.N., Sviridenko B.F. Rastitel'nye resursy, 2012, vol. 8, no. 2, pp. 202-207. (in Russ.).
    • 5. Sviridenko B.F., Sviridenko T.V., Efremov A.N., Tokar' O.E., Evzhenko K.S. Vestnik Tomskogo gosudarstvennogo universiteta. Biologija, 2013, no. 3 (23), pp. 46-55. (in Russ.).
    • 6. Alehina E.A., Efremov A.N., Egoshina A.E. Fundamental'nye i prikladnye issledovanija po prioritetnym napravlenijam bio-jekologi i biotehnologii: materialy I Mezhdunarodnoj nauchno-prakticheskoj konferencii. [Basic and applied research in priority areas of biotechnology and bio-ecology: Proceedings of the I International Scientific and Practical Conference]. Ul'janovsk, 2014, pp. 33-36. (in Russ.).
    • 7. Watson L., Dallwitz M.J. The families of flowering plants. [Electronic resourse]. URL: http://deltaintkey.com/angio/www/hydrocha.htm.
    • 8. Johansson J.T. The Phylogeny of Angiosperms. Published online, 2013, URL: http://angio.bergianska.se/monocots/Alismatales/Alismatales.html#Hydrocharitaceae.
    • 9. Povydysh M.V., Petrova N.V., Bobyleva N.S. Rastitel'-nye resursy Rossii, 2014, vol. 6, pp. 11-14. (in Russ.).
    • 10. Sorokopudova O.A., Dejneka V.I., Sorokopudov V.N. Nauchnye vedomosti, 2006, no. 3 (23), pp. 75 83. (in Russ.).
    • 11. Smith P.M. The chemotaxonomy of plants. London: Edward Arnold, 1976, 265 p.
    • 12. Murav'ev D.A. Samylia I.A., Jakovlev G.V. Farmakognozija. [Pharmacognosy]. Moscow, 2007, 656 p. (in Russ.).
    • 13. Dubyna D.V., Stojko S.M., Sytnik K.M. i dr. Makrofity - indikatory izmenenij prirodnoj sredy. [Macrophytes - indicators of environmental changes]. Kiev, 1993, 434 p. (in Russ.).
    • 14. Santhanam R., Rajabalaya R., Santhanam R. Freshwater Phytopharmaceutical Compounds. New-York; London: CRC Press, 2013, 250 p.
    • 15. Ryan F.J. Journal Aquatic Plant Manage. 1994, vol. 32, pp. 67 70.
    • 16. Efremov A.N., Alehina E.A., Filimonova M.V., Sviridenko B.F., Shalygin S.P., Rusak S.N. Himija rastitel'nogo syr'ja, 2012, no. 4, pp. 161-166. (in Russ.).
    • 17. GOST 55482-2013. Mjaso i mjasnye produkty. Metod opredelenija soderzhanija vodorastvorimyh vitaminov. [GOST 55482-2013. Meat and meat products. Method for determination of water-soluble vitamins]. Moscow, 2014, 12 p. (in Russ.).
    • 18. GOST 13496.21-87 Korma, kombikorma, kombikormovoe syr'e. Metody opredelenija lizina i triptofana. [GOST 13496.21-87 Fodder, mixed fodder, feed raw materials. Methods for the determination of lysine and tryptophan] Moscow, 2011, 12 p. (in Russ.).
    • 19. GOST 32195-2013 Korma, kombikorma. Metod opredelenija soderzhanija aminokislot. [GOST 32195-2013 Forage, feed. Method determination of amino acids]. Moscow, 2014, 19 p. (in Russ.).
    • 20. Hammer Ø., Harper D.A.T., Ryan P.D. Palaeontologia Electronica, 2001, no. 4 (1), 9 p.
    • Received December 3, 2015 Revised January 29, 2016
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