Full Paper View Go Back
Temurbek Khajibaev Atakhanovich1 , Ravshanjon Khalilov Murodjonovich2
Section:Research Paper, Product Type: Journal-Paper
Vol.10 ,
Issue.6 , pp.1-7, Dec-2023
Online published on Dec 31, 2023
Copyright © Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
View this paper at Google Scholar | DPI Digital Library
How to Cite this Paper
- IEEE Citation
- MLA Citation
- APA Citation
- BibTex Citation
- RIS Citation
IEEE Style Citation: Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich, “The Process Optimization of Furostanol Saponins Extraction from the Aerial Part of Tribulus Terrestris,” International Journal of Scientific Research in Chemical Sciences, Vol.10, Issue.6, pp.1-7, 2023.
MLA Style Citation: Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich "The Process Optimization of Furostanol Saponins Extraction from the Aerial Part of Tribulus Terrestris." International Journal of Scientific Research in Chemical Sciences 10.6 (2023): 1-7.
APA Style Citation: Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich, (2023). The Process Optimization of Furostanol Saponins Extraction from the Aerial Part of Tribulus Terrestris. International Journal of Scientific Research in Chemical Sciences, 10(6), 1-7.
BibTex Style Citation:
@article{Atakhanovich_2023,
author = {Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich},
title = {The Process Optimization of Furostanol Saponins Extraction from the Aerial Part of Tribulus Terrestris},
journal = {International Journal of Scientific Research in Chemical Sciences},
issue_date = {12 2023},
volume = {10},
Issue = {6},
month = {12},
year = {2023},
issn = {2347-2693},
pages = {1-7},
url = {https://www.isroset.org/journal/IJSRCS/full_paper_view.php?paper_id=3361},
publisher = {IJCSE, Indore, INDIA},
}
RIS Style Citation:
TY - JOUR
UR - https://www.isroset.org/journal/IJSRCS/full_paper_view.php?paper_id=3361
TI - The Process Optimization of Furostanol Saponins Extraction from the Aerial Part of Tribulus Terrestris
T2 - International Journal of Scientific Research in Chemical Sciences
AU - Temurbek Khajibaev Atakhanovich, Ravshanjon Khalilov Murodjonovich
PY - 2023
DA - 2023/12/31
PB - IJCSE, Indore, INDIA
SP - 1-7
IS - 6
VL - 10
SN - 2347-2693
ER -
Abstract :
Data on the research of the selection of parameters of influencing factors to the stage extraction of furostanol saponins from Tribulus terrestris in the literature are not enough. This article presents the results of research on the stage of extraction of furostanol saponins from the aerial part of Tribulis terrestris. In this study, the optimal conditions for the extraction process were used technological methods, such as studying the effect of alcohol concentration, the degree of comminuting of raw materials, temperature, and process dynamics on the yield of furostanol saponins from the aerial part of Tribulus terrestris. To optimize the extraction process, the method of mathematical modeling of the experiment according to Box–Wilson. Determination of the yield of furostanol saponins was carried out by spectrophotometry method. During the study of the process of furostanol saponins extraction from the aerial part of Tribulus terrestris, it was found that the comminuted raw materials with a particle size of 2-6 mm are necessary to extract seven times with 70% ethanol at room temperature (20-25°C), the seventh overflow of which is used to enrich subsequent extraction. The necessary time insisting at the first contact of the phases should be at least 8 hours, by the second phase contact is achieved after 7 hours, the third and fourth - 6 hours, the fifth and sixth - 4 hours, and the seventh - 2 hours. The proposed conditions of furostanol saponins extraction from the aerial part of Tribulus terrestris approved by processing 40 tons of plant raw material at the Scientific Center for Technology to International GMP Requirements at the Institute of Chemistry of Plant Substances. On the industrial scale, the introduced extraction conditions increased the extraction of furostanol saponins up to 96% of the content in the raw material.
Key-Words / Index Term :
Tribulus terrestris L., furostanol saponins, extraction, optimization, technological methods, process dynamics
References :
[1]. S. Grigorova, ?. Kashamov, V. Sredkova, S. Surdjiiska, H. Zlatev. “Effect of Tribulus terrestris extract on semen quality and serum total cholesterol content in white Plymouth rock-mini cocks”, Biotechnology in Animal Husbandry, No.28, pp.139-146, 2008.
[2]. K. Toyjonov, B.A. Nigmatullaev, Sh.Sh Sagdullaev. “Etymological dictionary of Latin names of medicinal plants of Uzbekistan”, Navruz, Tashkent, pp.210, 2016.
[3]. O.V. Zhurba, M.Ya. Dmitriev. “Medicinal, poisonous and harmful plants”, KolosS, Moscow, 513p, 2008.
[4]. M.H. Hammoda, M.N. Ghazy, M.F. Harraz, M.M. Radwan, A.M. ElSohly, I.I. Abdallah. “Chemical constituents from Tribulus terrestris and screening of their antioxidant activity”, Phytochemistry, Vol. 92, pp.153-159, 2013.
[5]. Ch. Saurabh, N. Tanuja, S. Gauresh, K. Divya, S. Sadhana. “Phytopharmacological overview of Tribulus terrestris”, Pharmacognosy Reviews, Vol. 8, issue 15, pp.45-51, 2014.
[6]. G.P. Yakovlev, G.A. Belodubrovskaya, K.F. Blinova, G.M. Alekseeva. “Pharmacognosy. Medicinal raw materials of plant and animal origin: a training manual”, Special Literature, St. Petersburg, 847p, 2013.
[7]. C.R. Gama, R. Lasmar, G.F. Gama, C.S. Abreu, ?.?. Nunes, M. Geller, L. Oliveira, A. Santos. “Clinical assessment of Tribulus terrestris extract in the treatment of female sexual dysfunction”, Clinical Medicine Insights: Women`s Health, No., 7. pp.45-50, 2014.
[8]. S. Singh, V. Nair, Y.K. Gupta. “Evaluation of the aphrodisiac activity of Tribulus terrestris Linn, in sexually sluggish male albino rats”, Journal of Pharmacology and Pharmacotherapeutics, Vol. 3, issue 1, pp.43-47, 2013.
[9]. J.J. Wesley, A.J.M. Christina, N. Chidambaranathan, K. Ravikumar. “Wound healing activity of the leaves of Tribulus terresiris (Linn) aqueous extract in rats”, Journal of Pharmacy Research, Vol. 2, issue 5, pp.841-843, 2009.
[10]. I. Kostova, D. Dinchev. “Saponins in Tribulus terrestris – chemistry and bioactivity” Phytochemistry Reviews, Vol. 4, issue 2, pp.111-137. 2005.
[11]. A.L. Lv, N. Zhang, M.G. Sun, Y.F. Huang, Y. Sun, H.Y. Ma, ?.M. Hua, Y.H. Pei. “One new cinnamic imide derivative from the fruits of Tribulus terrestris”, Natural product research, Vol. 22, issue 11, pp.1007-1010. 2008.
[12]. T.S. Wu, L.S. Shi, Kuo S.-C. “Alkaloids and other constituents from Tribulus terrestris”, Phytochemistry, Vol. 50, issue 8, pp. 1411-1415. 1999.
[13]. T.N. Khristich, Yu.Yu. Moseychuk, O.V. Sivous, V.V. Gusak, D.A. Gontsaryuk. “Tribestan helps athletes going in for power sports”, Bukovinian Medical Herald, Vol. 15, No., 2 (58), pp.126-129. 2011.
[14]. Z. Kamenov, S. Fileva, K. Kalinov, E.A. Jannini. “Evaluation of the efficacy and safety of Tribulus terrestris in male sexual dysfunction-A prospective, randomized, double-blind, placebo-controlled clinical trial”, Maturitas, Vol. 99, pp. 20–26. 2017.
[15]. J. Gurzhenko, M. Romaniuk, I. Gorpynchenko. “Study of the efficacy of using medicine Tribestan for the treatment of erectile dysfunction among men with benign prostatic hyperplasia”, Journal of Sexual Medicine, Vol. 11, pp.51-52, 2014.
[16]. N.E. Burda, E.M. Klivnyak, I.A. Zhuravel, K.B. Saidov. “Studying the elemental composition of a thick extract of grass Tribulus terrestris L.”, Bulletin of the Tajik National University, No., 1/3, pp. 216-218, 2016.
[17]. Xu Yajuan, Liu Yonghong, Xu Tunhai. “A New Furostanol Glycoside from Tribulus terrestris”, Molecules, Vol. 15, issue 2, pp. 613-618, 2010.
[18]. G.B. Iskenderov, K.F. Huseyngulieva. “Investigation of steroid glycosides Tribulus terrestris L., growing in Azerbaijan”, Khimiya rastitel`nogo syr`ya, No 2, pp. 47-52, 2016.
[19]. T. Liu, G. Chen, G.Q. Yi, J.K. Xu, T.L. Zhang, H.M. Hua, Y.H. Pei. “Two new steroidal saponins from Tribulus terrestris L.”, Journal of Asian Natural Products Research, Vol. 12, issue 1, pp.30–35, 2010.
[20]. E. De. Combarieu, N. Fuzzati, M. Lovati, E. Mercalli. “Furostanol saponins from Tribulus terrestris”, Fitoterapia, Vol. 74, issue 6, pp. 583–591, 2003.
[21]. Zhen-Fang Wang, Bing-Bing Wang, Yang Zhao, Fang-Xu Wang, Yan Sun, Rui-Jie Guo, Xin-Bo Song, Hai-Li Xin, Xin-Guang Sun. “Furostanol and Spirostanol Saponins from Tribulus terrestris” Molecules, Vol.21 issue 4, pp.1-14, 2016.
[22]. A.V. Babin, D.F. Rakipov. “Organization and mathematical planning of the experiment”, UrFU, Yekaterinburg, pp.85-94, 2014.
[23]. L.P. Ruzinov. “Statistical methods for optimizing chemical processes”, Chemistry, Moscow, pp.182-200, 1972.
[24]. J.K. Wangui, D. Onyancha, B. Ongarora. “Determination of tannin content in banana (Musa spp) midribs: a comparative study”, International Journal of Scientific Research in Chemical Sciences, Vol.10, Issue.1, pp.01-07, 2023.
[25]. H. Nasser, N. Ali, R. Salamah, A. Deeb. “Determination of the optimal conditions to produce lovastatin compound from the fungus (Penicillium digitatum)”, International Journal of Scientific Research in Chemical Sciences, Vol.10, issue 3, pp.25-28, 2023.
[26]. T.A. Hajibaev, R.M. Khalilov, T.F. Ibragimov. “???????? ??????????? ????????????? ???????? ? ????? ????????? Tribulus terrestris”, In the Proceedings of the 2020 International Conference “Science and Innovation”, Tashkent, pp.442-444, 2020.
[27]. T.A. Hajibaev, R.M. Khalilov. “Extraction of flavonoids from the Bidentis tripartite”, Chemistry and chemical technology, No.3, pp.72-75, 2018.
[28]. A.U. Mamathanov, T.A. Khajibaev, R.M. Khalilov. “Technology for obtaining the sum of iridoids from waste processing of the aerial part of Ajuga turkestanica”, Khimiya Rastitel`nogo Syr`ya, No.3, pp.293–302, 2023.
[29]. T.A. Hajibaev, R.M. Khalilov, Sh.Sh. Sagdullaev. “Optimization and dynamics of the extraction process of polysaccharides from the Bidentis tripartite”, Uzbek Biological Journal, No., 4, pp.25-28, 2017.
[30]. T.A. Hajibaev, T.F. Ibragimov, R.M. Khalilov. “Optimal conditions for cleaning and drying furostanol saponins from Tribulus terrestris” Khimiya Rastitel`nogo Syr`ya, No.2, pp.327–333, 2023.
You do not have rights to view the full text article.
Please contact administration for subscription to Journal or individual article.
Mail us at support@isroset.org or view contact page for more details.