«Department of scientific and publishing activities»
Ru En
Open access
Subscription/purchasing
Submit manuscript
Home >Food Processing: Techniques and Technology > Archive > Volume 49, Issue 1, 2019 > Biologically Active Substances of Siberian Medical Plants in Functional Wgey-Based Drinks
ISSN 2074-9414 (Print),
ISSN 2313-1748 (Online)

Biologically Active Substances of Siberian Medical Plants in Functional Wgey-Based Drinks

S.A. Ivanova a
,
Irina S. Milentyeva a
,
Lyudmila K. Asyakina a
,
A.A. Lukin a
,
Olga V. Kriger b
,
Andrey N. Petrov c
Affiliation
a Kemerovo State University, Kemerovo, Russia
b Immanuel Kant Baltic Federal University, Kaliningrad, Russia
c All-Russian Research Institute of Canning Technology, Vidnoe, Russia
Copyright ©Ivanova et al. This is an open access article distributed under the terms of the Creative Commons Attribution 4.0. (http://creativecommons.org/licenses/by/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material for any purpose, even commercially, provided the original work is properly cited and states its license.
DOI: http://doi.org/10.21603/2074-9414-2019-1-14-22
Abstract
The use of infusions and extracts from domestic plant materials is a promising direction in the development of functional beverages since they contain a wide range of substances of various pharmacological properties. Drinks fortified with physiologically active natural components maintain a certain level of this content in human body. They can have a healing or prophylactic effect. However, there is a lack of technologies for the effective production of biologically active substances from plant materials. Moreover, the development of cultivated botanical medicinal plant species remains quite poor. The present study features the qualitative and quantitative composition of biologically active substances of medicinal plants that are endemics of Siberia. They are Rhodiola rosea (Rhodiola rosea L.) and maral root (Rhaponticum carthamoides). The paper introduces a method for increasing their biosynthetic activity. An experiment helped to select a composition of the nutrient medium for the cultivation of callus cultures of Rhodiola rosea (Rhodiola rosea L.) and maral root (Rhaponticum carthamoides) in vitro, which contributed to an increase in the biosynthesis of biologically active substances. For callus cultures of Rhodiola Rosea (line R.r-1k) the following composition was used: mineral base – MS; sucrose – 30 g; inositol – 100 mg; thiamine – 1.0 mg; pyridoxine – 1.0 mg; Ca-panthetonate – 10 mg; kinetin – 0.05 g; naphthyl acetic acid – 0.1 g; 2.4-D – 0.5. For callus cultures of maral root (line R.c -2k): mineral base – SH; sucrose – 30 g; inositol – 100 mg; thiamine – 5.0 mg; pyridoxine – 0.5 mg; nicotinic acid – 5.0 mg; kinetin – 0.1 g; indoleacetic acid – 1.0 g. The authors developed a technology for the production of functional whey-based tonic drink fortified with extract of carotenoids isolated from the fruits of mountain ash and the extract of biologically active substances Rhodiola rosea and maral root. The presence of biologically active substances in the plant and medicinal raw materials gives the drink antioxidant and bactericidal properties, as well as helps to raise the overall state of the organizm and strengthen the immune system.
Keywords
Biologically active substances, endemics of Siberia, whey, functional drink
REFERENCES
  1. Prosekov AYu, Ivanova SA. Food security: The challenge of the present. Geoforum. 2018;91:73–77. DOI: https://doi. org/10.1016/j.geoforum.2018.02.030.
  2. Kriger OV, Kashirskikh EV, Babich OO, Noskova SYu. Oat protein concentrate production. Foods and Raw Materials. 2018;6(1):47–55. DOI: https://doi.org/10.21603/2308-4057-2018-1-47-55.
  3. Prosekov AYu, Ivanova SA. Food security in the existing tendencies of population growth and political and economic instability in the world. Foods and Raw Materials. 2016;4(2):201–211. DOI: https://doi.org/10.21179/2308-4057-2016-2-201-211.
  4. Zaprometov MN. Metabolizm fenolʹnykh soedineniy v rasteniyakh [Metabolism of phenolic compounds in plants]. Biochemistry. 1977;42(1):3–20. (In Russ.).
  5. Reshetnic EI, Utochkina EA. Modification of traditional recipes of dairy products. Materialy I Natsionalʹnoy nauchno- tekhnicheskoy konferentsii s mezhdunarodnym uchastiem “Innovatsionnye i resursosberegayushchie tekhnologii produktov pitaniya” [Proceedings of the I National Scientific and Technical Conference with international participation “Innovative and Resource-Saving Food Technologies”]; 2018. Rybnoe. Astrakhanʹ: Astrakhan State Technical University; 2018. (In Russ.).
  6. Prosekov AYu. Rolʹ mezhfaznykh poverkhnostnykh yavleniy v proizvodstve dispersnykh produktov s pennoy strukturoy (obzor) [The role of interfacial surface phenomena in the production of dispersed products with foam structure (review)]. Storage and processing of farm products. 2001;(8):24–27. (In Russ.).
  7. Anarbaeva OEh, Kriger OV. Puti povysheniya ehffektivnosti protsessa ehkstragirovaniya iz syrʹya rastitelʹnogo proiskhozhdeniya [Ways to improve the efficiency of the extraction process from raw materials of plant origin]. Materialy V Mezhdunarodnoy nauchnoy konferentsii “Pishchevye innovatsii i biotekhnologii” [Proceedings of the V International Scientific Conference “Food Innovation and Biotechnology”]; 2017; Kemerovo. Kemerovo: KemIFST; 2017. p. 271–273. (In Russ.).
  8. Dyshlyuk L, Babich O, Belova D, Prosekov A. Comparative analysis of physical and chemical properties of biodegradable edible films of various compositions. Journal of Food Process Engineering. 2017;40(1). DOI: https://doi.org/10.1111/ jfpe.12331.
  9. Ostroumov LA, Prosekov AYu. Analiz nauchnykh i prakticheskikh aspektov ispolʹzovaniya moloka i ego proizvodnykh v tekhnologii funktsionalʹnykh produktov pitaniya [Analysis of scientific and practical aspects of the use of milk and its derivatives in functional food technology]. Materialy mezhdunarodnogo simpoziuma “Federalʹnyy i regionalʹnyy aspekty politiki zdorovogo pitaniya” [Proceedings of the International Symposium “Federal and Regional Aspects of the Healthy Nutrition Policy”]; 2002; Novosibirsk. Novosibirsk: Siberian University Publishing; 2002. p. 88–92. (In Russ.).
  10. Kupriyanov AN. Klyuchevye botanicheskie territorii Kemerovskoy oblasti [Key botanical territories of the Kemerovo Region]. Kemerovo: Irbis; 2009. 113 p. (In Russ.).
  11. Ebel AL, Buko TE, Sheremetova SA, Yakovleva GI, Kuprijanov AN. New species of vascular plants for Kemerovo Region. Botanicheskiy zhurnal [Botanical Journal]. 2009;94(1):106–113. (In Russ.).
  12. Jazir M, Shimomura AK, Yoshimatsu K, Fauconnier M-L, Marlier M, Homès J. Establishment of normal and transformed root cultures of Artemisia annua L. for artemisinin production. Journal of Plant Physiology. 1995;145(1–2):175–177. DOI: https://doi.org/10.1016/S0176-1617(11)81866-3.
  13. Piskaeva AI, Sidorin YuYu, Dyshlyuk LS, Zhumaev YuV, Prosekov AYu. Research on the influence of silver clusters on decomposer microorganisms and E. Coli bacteria. Foods and Raw Materials. 2014;2(1):62–66. DOI: https://doi. org/10.12737/4136.
  14. Zelenkov VN, Timofeev NP, Zaksas NP. Peculiarities of mineral composition of Leuzea carthamoides with perennial plantations of the European North-East Russia [Macro- and microelements in the aboveground parts of the maral root]. Aktualʹnye problemy innovatsiy s netraditsionnymi rastitelʹnymi resursami i sozdaniya funktsionalʹnykh produktov: materialy I Rossiyskoy nauchno-prakticheskoy konferentsii [Relevant issues of Innovation with Non-Traditional Plant Resources and the Development of Functional Products: Proceedings of the I Russian scientific-practical conference]; 2001; Moscow. Moscow: Netraditsionnye prirodnye resursy i funktsionalʹnye produkty; 2001. p. 56–68. (In Russ.).
  15. Qian EW, Ge DT, Kong SK. Salidroside protects human erythrocytes against hydrogen peroxide-induced apoptosis. Journal of Natural Products. 2012;75(4):531–537. DOI: https://doi.org/10.1021/np200555s.
  16. Liu Z, Li X, Simoneau AR, Jafari M, Zi X. Rhodiola rosea extracts and salidroside decrease the growth of bladder cancer cell lines via inhibition of the mTOR pathway and induction of autophagy. Molecular Carcinogenesis. 2012;51(3):257–267. DOI: https://doi.org/10.1002/mc.20780.
  17. Sun C, Wang Z, Zheng Q, Zhang H Salidroside inhibits migration and invasion of human fibrosarcoma HT1080 cells. Phytomedicine. 2012;19(3–4):355–363. DOI: https://doi.org/10.1016/j.phymed.2011.09.070.
  18. Sokolov SYa, Zamotaev IP. Spravochnik po lekarstvennym rasteniyam [Manual of medicinal plants]. Moscow: Meditsina; 1988. 464 p. (In Russ.).
  19. Novoselova MV, Prosekov AYu. Technological options for the production of lactoferrin. Foods and Raw Materials. 2016;4(1):90–101. DOI: https://doi.org/10.21179/2308-4057-2016-1-90-10.
  20. Ostroumov LA, Kriger OV, Karchin KV, Shcetinin MP. Research of chemical composition of mountain ash (Sorbus aucuparia), growsing in the Kemerovo Region. Food Processing: Techniques and Technology. 2014;35(4):38–42. (In Russ.).
  21. MR 2.3.1.1915-04. Rekomenduemye urovni potrebleniya pishchevykh i biologicheski aktivnykh veshchestv [Instructional Guidelines 2.3.1.1915-04. Recommended consumption levels of food and biologically active substances]. Moscow: Federal Center of State Sanitary and Epidemiological Surveillance of the Ministry of Health of Russia; 2004. 46 p.
How to quote?
Ivanova SA, Milentyeva IS, Asyakina LK, Lukin AA, Kriger OV, Petrov AN. Biologically Active Substances of Siberian Medical Plants in Functional Wgey-Based Drinks. Food Processing: Techniques and Technology. 2019;49(1):14–22. (In Russ.). DOI: https://doi. org/10.21603/2074-9414-2019-1-14-22.
About journal

Download
Contents
Abstract
Keywords
References
Техника и технология пищевых производств (Food Processing: Techniques and Technology) uses cookies. By continuing to use the portal, you agree to the storage and use of cookies by the portal and partner sites on your device.
Manage files