Development of a Technology for Extraction of a complex of Biologically Active Substances from in Vitro Root Crops of Medicinal Plants

The paper presents the results of scientific research on the development of technology for the extraction of dry extracts from the biomass of root cultures in vitro of cells of medicinal plants of the Siberian Federal District of Codonopsis pilosula, Platanthera bifolia and Schisandra chinensis. The Soxhlet extraction method was used as a method for extracting biologically active substances from plant samples. The extraction of extracts was optimized according to three parameters: temperature, duration of the process, and the ratio of the volume of the organic solvent to the mass of the plant sample (hydromodule), i.e. these parameters were modifiable. During the experiment, it was possible to select the optimal parameters for the isolation of dry extracts from each medicinal plant. Optimum parameters for Codonopsis pilosula are: the extraction temperature is 40 ° C, the process duration is 60 min, and the ratio of the volume of the solvent to the amount of dried biomass of root cultures of plant cells is 1:10. The most effective extractant for Codonopsis pilosula is ethyl acetate. The following parameters were used for the root cultures of Platanthera bifolia: temperature 40 ° C, extraction time 60 min, hydromodule 1:10. Extraction was performed with acetone. The process of extracting biologically active substances from Schisandra chinensis was carried out with acetone at a process temperature of 40 ° C for 60 min in a ratio of the extractant to the sample of 1:10. The use of the values of these parameters in the experiment will make it possible to achieve the maximum yield of BAS extracts from medicinal plants at the lowest possible cost of resources (cost of time, reagents, etc.).

1. Babich O., Sukhikh S., Pungin A., Ivanova S., Asyakina L., Prosekov A. Modern Trends in the In Vitro Production and Use of Callus, Suspension Cells and Root Cultures of Medicinal Plants. Molecules, 2020, vol. 25, pp. 1–18.

2. Marchev A.S., Georgiev M.I. Plant In Vitro Systems as a Sustainable Source of Active Ingredients for Cosmeceutical Application. Molecules, 2020, vol. 25, pp. 1–19.

3. Asyakina L.K., Babich O.O., Pungin A.V., Prosekov A.Yu., Popov A.D., Voblikova T.V. Optimization of extraction parameters of biologically active substances from dried biomass of callus, suspension cells and root cultures in vitro. IOP Conference Series: Earth and Environmental Science, 2020, vol. 613, pp. 1–5.

4. Chupakhin E., Babich O., Prosekov A., Asyakina L., Gureev M., Krasavin M. Plants of the Russian Federation pharmacopeia: An unexhausted natural products research opportunity. Natural Product Research, 2020, pp. 1–3.

5. Limonnik kitajskij [Elektronnyj resurs]. – Rezhim dostupa: https://ru.wikipedia.org/wiki/%D0%9B%D0%B8%D0%BC%D0%BE%D0%BD%D0%BD%D0%B8%D0%BA_%D0%BA%D0%B8%D1%82%D0%B0%D0%B9%D1%81%D0%BA%D0%B8%D0%B9.

6. Kodonopsis melkovolosistyj [Elektornnyj resurs]. – Rezhim dostupa: https://www.asienda.ru/plants/kodonopsis-melkovolosistyj/.

7. Lyubka dvulistnaya [Elektornnyj resurs]. – Rezhim dostupa: https://ru.wikipedia.org/wiki/%D0%9B%D1%8E%D0%B1%D0%BA%D0%B0_%D0%B4%D0%B2%D1%83%D0%BB%D0%B8%D1%81%D1%82%D0%BD%D0%B0%D1%8F.

8. Georgiev V., Slavov A., Vasileva I., Pavlov A. Plant cell culture as emerging technology for production of active cosmetic ingredients. Eng Life Sci, 2018, vol. 18, pp. 779–798.

9. Efferth T. Biotechnology Applications of Plant Callus Cultures. Engineering, 2019, vol. 5, pp. 50–59.

10. Bibi A., Khan M.A., Adil M., Mashwani Z.-R. Production of callus biomass and antioxidant secondary metabolites in black cumin. Journal of Animal and Plant Sciences, 2018, vol. 28, pp. 1321–1328.

11. Asyakina L.K., Dyshlyuk L.S., Stepanova A.A. Opredelenie effektivnosti ekstraktsii biologicheski aktivnykh veshchestv iz biomassy kallusnykh kul'tur lekarstvennykh rastenii razlichnymi rastvoritelyami [Determination of the efficiency of extraction of biologically active substances from the biomass of callus cultures of medicinal plants with various solvents]. Sbornik tezisov Vserossiiskoi s mezhdunarodnym uchastiem onlain-konferentsii «Sovremennaya biotekhnologiya: aktual'nye voprosy, innovatsii i dostizheniya» [Collection of abstracts of the All-Russian with international participation online conference "Modern biotechnology: topical issues, innovations and achievements"], Kemerovo, 2020, pp. 19–21.

12. Sposob ekstraktsii kompleksa biologicheski aktivnykh veshchestv iz biomassy kornevoi kul'tury in vitro lapchatki beloi (Potentilla Alba L.) [Method for the extraction of a complex of biologically active substances from the biomass of a root culture in vitro (Potentilla Alba L.)]: Pat. 2724487 Russian Federation. No. 2019132883. Prosekov A.Yu., Babich O.O., Dyshlyuk L.S., Asyakina L.K., Milent'eva I.S., Zaushintseva A.V.; declared 16.10.2019; publ. 23.06.2020.

13. Sposob polucheniya kornevoi kul'tury in vitro Potentilla Alba L. – produtsenta flavonoidov [Method of obtaining root culture in vitro Potentilla Alba L. – producer of flavonoids]: Pat. 2714403 Russian Federation. No. 2019108252. Babich O.O., Zaushintsena A.V., Milent'eva I.S., Prosekov A.Yu., Lukin A.A.; declared 22.03.2019; publ. 14.02.2020.

14. Sposob polucheniya biologicheski aktivnykh veshchestv-adaptogenov v kletochnoi kul'ture Rodioly rozovoi (Rhodiola Rosea L.) [The method of obtaining biologically active substances-adaptogens in the cell culture of Rhodiola Rosea]: Pat. 2726067 Russian Federation. No. 2019132882. Prosekov A.Yu., Babich O.O., Dyshlyuk L.S., Asyakina L.K., Zaushintsena A.V., Milent'eva I.S.; declared 16.10.2019; publ. 08.07.2020.

15. Qing-Wen Zhang, Li-Gen Lin, Wen-Cai Ye. Techniques for extraction and isolation of natural products: a comprehensive review. Chinese Medicine, 2018, vol. 13, pp. 1–20.

16. Bagheri F., Tahvilian R., Karimi N., Chalabi M., Shikonin Azami M. Production by Callus Culture of Onosma bulbotrichom as Active Pharmaceutical Ingredient. International Journal of Production Research, 2018, vol. 17, pp. 495–504.

17. Ligor M., Ratiu I-A., Kiełbasa A., Al-Suod1 H., Buszewski B. Extraction approaches used for thedetermination of biologically activecompounds (cyclitols, polyphenols andsaponins) isolated from plant material. Electrophoresis, 2018, vol. 0, pp. 1–15.

18. Mulabagal V. Plant Cell Cultures: Production of Biologically active Secondary Metabolites from Medicinal Plants of Taiwan. International Journal of Applied Science and Engineering, 2004, vol. 2, no 1, pp. 29–48.

19. Alamgir N.M. Biotechnology, In Vitro Production of Natural Bioactive Compounds, Herbal Preparation, and Disease Management (Treatment and Prevention). Therapeutic Use of Medicinal Plants and their Extracts, 2018, vol. 2, no. 74, pp. 585–664.

20. Sasidharan, S. Extraction, isolation and characterization of bioactive compounds from plants extracts / S. Sasidharan, Y. Chen, D. Saravanan, K.M. Sundram, L. Yoga Latha. Afr J Tradit Complement Altern Med, 2011, vol. 8, no. 1, pp. 1–10.

21. Postrash I.YU., Soboleva YU.G., Andrushchenko V.S. Ekstrakciya biologicheski aktivnyh veshchestv iz cvetkov romashki aptechnoj [Extraction of biologically active substances from chamomile flowers]. Vestnik APK Verhnevolzh'ya [Agroindustrial complex of the Upper Volga region], 2020, no. 1, pp. 22–26.

22. Vajnshtejn V.A., Kauhova I.E. Ekstragirovanie lekarstvennogo rastitel'nogo syr'ya dvuhfaznoj sistemoj ekstragentov [Extraction of medicinal plant materials with a two-phase system of extractants]. Razrabotka i registraciya lekarstvennyh sredstv [Development and registration of medicines], 2014, no. 3, pp. 82–88.

23. Belokurov S.S., Flisyuk E.V., Smekhova I.E. Vybor metoda ekstragirovaniya dlya polucheniya izvlechenij iz semyan pazhitnika sennogo s vysokim soderzhaniem biologicheski aktivnyh veshchestv [Selection of the extraction method for obtaining extracts from hay fenugreek seeds with a high content of biologically active substances]. Razrabotka i registraciya lekarstvennyh sredstv [Development and registration of medicines], 2019, no. 3, pp. 35–39.

24. Beloborodov V.V., Brik V.N., Prokof'ev A.V. Izvlechenie biologicheski aktivnyh veshchestv iz pryano aromaticheskogo syr'ya v sisteme procescov ekstragirovanie-otzhim [Extraction of biologically active substances from spicy aromatic raw materials in the system of extraction-pressing processes]. Maslozhirovaya promyshlennost' [Oil and fat industry], 1995, no. 3, pp. 24–27.

25. Sarvin B., Fedorova E., Shpigun O., Titova M., Nikitin M., Kochkin D., Rodin I., Stavrianidi A. LC-MS determination of steroidal glycosides from Dioscorea Deltoidea Wall cell suspension culture: Optimization of pre-LC-MS procedure parameters by Latin Square design. Journal of chromatography. B, Analytical Technologies in the Biomedical and Life Sciences, 2018, vol. 1080, pp. 64–70.