• Home
  • Quantitative and qualitative extraction of stevioside from Stevia rebaudiana Bertoni. using solid phase molecularly imprinted technique

Share To

Article Url


Manuscript ID : EJMP-1701-1189 (R1) Visit : 180 Page: 86 - 99

20.1001.1.23223235.1396.5.2.7.8

Article Type: Original Research

Quantitative and qualitative extraction of stevioside from Stevia rebaudiana Bertoni. using solid phase molecularly imprinted technique

Subject Areas : Chemistry and analysis of natural compounds

somayeh aghabeyk 1 , Maziar Ahmadi Golsefidi 2 , mohammad hadi soleimani 3

1 - Department of Chemistry, Faculty of Science, Gorgan Branch, Islamic Azad University, Gorgan, Iran
2 - 2Department of Chemistry, Faculty of Science, Gorgan Branch, Islamic Azad University, Gorgan, Iran
3 - Essential Oil Pharmacy, Gorgan, Iran

Received: 2017-01-27 Accepted : 2017-05-09 Published : 2017-08-23

Keywords: Stevia rebaudiana Bertoni, Molecularly imprinted, Polarography, Solid phase, Stevioside,

Abstract :

Stevia rebaudiana Bertoni. with non-calorie steviol glycoside  is an effective drug to decrease of blood glucose in treat of  diabetics. The goal of this study is obtaining of  a novel method in order to a quantitative and qualitative extraction of stevioside as a non-calorie sweetener from Stevia. In this study the dry leaves of Stevia was prepared from Golsaran Shomal company and then in order to extraction of stevioside a solid phase molecularly imprinted extractor was prepared and some parameters affective on extraction of stevioside were optimized. An acrylate functional monomer and a cross linker were used to preparation of stevioside extractor polymer. Functional monomer to cross linker ratio and size and fining degree of the extractor were studied and evaluated. In this study analysis of the stevioside beside of HPLC was accrued by polarography method .The best ratio of functional monomer to cross linker was obtained in 0.2, also the best polymer particle size was obtained in 1000 micron for extraction of stevioside by the extractor and the amount of stevioside was determined 11.6% w/w in this plant.

References:


  1. Anvari, M. and  Khayati, G. 2016. Separation and purification of rebaudioside A from extract of Stevia Rebaudiana leaves by macroporous adsorption resins. Chemical Technology, 18:127-132.‏
    2.
  2. Abolghasembeyk, T., Shahriari, S., Salehifar, M. 2016. Extraction of stevioside using aqueous two-phase systems formed by choline chloride and K 3 PO 4. Food and BioproductsProcessing,‏102:107-115.
    3.
  3. Andrade-Eiroa, A., Canle, M., Leroy-Cancellieri, V., Cerdà, V. 2016. Solid-phase extraction of organic compounds: a critical review (part I). TrAC Trends in Analytical Chemistry, 80: 641-654.‏
    4.
  4. Ashley, J., Shahbazi, M. A., Kant, K., Chidambara, V. A., Wolff, A., Bang, D. D., Sun, Y. 2017. Molecularly imprinted polymers for sample preparation and biosensing in food analysis: Progress and Perspectives. Biosensors and Bioelectronics,‏91:606-615
    5.
  5. Atteh, J.O., Onagbesan, O.M, Tona, K., Decuypere, E., Geuns, J.M et al 2007. Evaluation of supplementary stevia(stevia rebaudiana Bertoni) leave and stevioside in broiler diets: effects on feed intake,nutrient metabolism,blood parameters and growth performance. Anim Physiol Anim Nutr,92: 640-649
    6.
  6. Brandle, J.E. and Telmar P.G. 2007. Steviol glycoside biosynthesis.Phytochemistry, 68:1855-1863.
    7.
  7. Chen, X., Zhang, Z., Yang, X., Li, J., Liu, Y., Chen, H., Yao, S. 2012. Molecularly imprinted polymers based on multi-walled carbon nano tubes for selective solid-phase extraction of oleanolic acid from the roots of kiwi fruit samples. Talanta, 99: 959-965.‏
    8.
  8. Deshmukh, S. R and Kedari, V. R. 2014. Isolation, purification and characterization of sweetners from Stevia rebaudiana (Bertoni) for their anti cancerous activity against colon cancer.Pharmacy and Pharmaceutical Sciences. 3:1394-1410.‏
    9.
  9. Erkuk, K., Akgun, I.H., Yesil-Celiktas, O. 2009. Supercritical co2 extraction of glycosides and optimization. Supercritical Fluids, 51:29-35.
    10.
  10. Ebarvia, B.S., Binag, C.A. and sevilla, F. 2004. Biomimetic piezoelectric quartz sensor for caffeine based on a molecularly imprinted polymer.Analyticaland Bioanaytical chemistry,378:1331-1337
    11.
  11. Fuh, W.Sh and Chiang, B.H. 1990. Purification of steviosides by membrane and ion exchange processes. Food Science.55:1454-1457
    12.
  12. Gama, M.R and Bottoli, C.B.G. 2016. Molecularly imprinted polymers for bioanalytical sample preparation. Chromatography B.‏1043:107-121
    13.
  13. Gardana, C., Simonetti, P., Canzi, E., Zanchi, R., Pietta,  P. 2003. Metabolism of  stevioside and  rebaudioside A from stevia rebaudiana extracts by human microflora..AgriFood Chem, 51:6618-6622.
    14.
  14. He, C., Long, Y., Pan, J., Li, K., Liu,  F. 2007. Application of molecularly imprinted polymers to solid-phase extraction of analytes from real samples. Biochemical and Biophysical Methods,70: 133-150.‏
    15.
  15. Komorsky-Lovric, S., Novak, I., Novak, B. 2010. Measurement of stevioside by square-wave polarography. Electroanalysis, 22(19): 2211-2215.
    16.
  16. Lorenzo, C., Serrano, Dlaz J., Plaza, M., Quintanilla, C. 2014. Fast methodology of analyzing major steviol glycosides from stevia rebaudiana leaves. Food Chem. 157: 518-523.
    17.
  17. Ma, Ya., Shen, X. L., Zeng, Q., Wang,  H.S., Wang,  L.S. 2017. A multi-walled carbon nanotubes based molecularly imprinted polymers electrochemical sensor for the sensitive determination of HIV-p24. Talanta, 164:121-127.‏
    18.
  18. Mondase, R.L., Antonio, V.G., Liliana, Z.B., Kong, A.H-Hen. 2012. Stevia rebaudiana Bertoni,source of a high-potency natural sweetener: A comprehensive review on the biochemical,nutritional and functional aspects. Food Chemistry, 132:1121-1132
    19.
  19. Pol, J., Hohnova,B.and  Hyotylainen, T. 2007. Characterisation of stevia rebaudiana by comprehensive two-dimensional liquid chromatography time-of-flight mass spectrometry. Chroma, 1150: 85-92.
    20.
  20. Pol, J., Varadova Ostra, E., Karasek, P., Roth, M., Benesova K et al 2007. Comparison of two different solvents employed for pressurized fluid extraction of stevioside from stevia rebaudiana:methanol versus water. Anal Bioanal Chem, 388:1847-1857
    21.
  21. Puri, M., Sharma, D., Barrow, C.J., Tiwary, A.K 2013. Optimisation of novel method for the extraction of steviosides from stevia rebaudiana leaves. Food Chem, 132:1113-1120.
    22.
  22. Płotka-Wasylka, J., Szczepańska, N., de la Guardia, M., Namieśnik,  J. 2016. Modern trends in solid phase extraction: new sorbent media. TrAC Trends in Analytical Chemistry, 77: 23-43.‏
    23.
  23. Quaglia, M.,De lorenzi, E.,Sulitzkyc.,Massolini, G., sellergren, B. 2001. Surface initiated molecularly imprinted polymer films: a new approach in chiral capillary electromatography.Analyst, 126:1495-1498.
    24.
  24. Striedner, J., Czygan, F.C., Braunegg, G. 1991. Contributions to the biotechnological production of sweeteners from stevia rebaudiana Bertoni.A method for the serials Analysis of diterpene glycosides by HPLC . Acta Biotechnol, 11:495-499.
    25.
  25. Teo,C.C., Tan, S.N., Hong Yong, J.W., Hew, C.S. 2009. Validation of green-solvent extraction combined with chromatographic chemical fingerprint to evaluate quality of stevia rebaudiana bertoni. Separation Science, 32:613-622.
    26.
  26. Tianwei, T., Xiaojing, H., Weixia, D.2001. Adsorption behaviour model of metal ion on imprinting chitosan resin.Chem Technol Biotechnol, 76:191-195
    27.
  27. Wang, H., Yao, S., Liu, Y., Wei, S., Su, J., Hu, G. 2017. Molecularly imprinted electrochemical sensor based on Au nano particles in carboxylated multi-walled carbon nano tubes for sensitive determination of olaquindox in food and feedstuffs. Biosensors and Bioelectronics, 87: 417-421.‏
    28.
  28. Weiss, R.,Molinelli, A.,Jakusch, M.,Mizaikoff, B. 2001. Molecular imprinting and solid phase extraction of flavonoid aomponds.Bioseparation,10: 379-87
    29.
  29. Wuff, G., and sarhan, A. 1972. The use of polymers with enzyme-analogous structures for the resolution of racemate. Angewandte chemie International Edition,11:341-345
    30.
  30. Yildiz-ozturk, E., Nalbantsoy, A., Tag, O., Yesil-Celiktas, O. 2015. A comparative study on extraction processes of Stevia rebaudiana leaves with emphasis on antioxidant, cytotoxic and nitricoxide inhibition activities. Industrial Crops and Products, 77: 961-971.
    31.
  31. Ye, L. and Mosbach, K. 2001. Molecularly imprinted microspheres as antibody binding mimics. Reactive and Functional Polymers, 48: 149-157.‏
    32.
  32. Yildiz-ozturk, E., Tag, O., Yesil-Celiktas, O. 2014. Subcritical water extraction of steviol glycosides from Stevia rebaudiana leaves and characterization of the raffinate phase. Supercritical Fluids, 95:422-430.
    33.

 

 

 

_||_

Related articles

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]