Journal of Environmental Health Sciences (한국환경보건학회지)

Korean Society of Environmental Health (한국환경보건학회)
권호 표지

Purification of Isoflavone from Soybean Hypocotyls using Various Resins

  • Choi Yeon-Bae (Department of Food and Biotechnology, Chungkang College of Cultural Industries) ;
  • Kim Kang-Sung (Department of Food Science and Nutrition, Yongin University)
  • Published : 2005.06.01
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Abstract

Isoflavone was extracted with various concentration of aqueous methanol using whole hypocotyls as the starting material. Whole hypocotyls were preferred as the raw material because the residue could be easily removed from the solvent after the extraction process. Extraction yield was almost constant at the methanol concentration of $20-80\%$. Most of the isoflavone was extracted within 1 hr, and the extraction yield remained almost constant thereafter. When the concentration of methanol was $80\%$, the content of total solid was reduced due to the reduced extraction of contaminating protein as the result of protein insolubilization. Among resins tested, Diaion HP-20, Amberlite XAD-16, and Amberlite IRC-50 showed the highest capacity to absorb the compound. Open column chromatography with Diaion HP-20 showed that $80\%$ aqueous ethanol was most efficient as the eluting solvent with final recovery of the phytochemical being more than $95\%$. Maximum adsorption of the phytochemical occurred at the acidic pH 2-4. When the spatial velocity was increased to 15 and more, the degree of adsorption was decreased, whereas below spatial velocity of 15, the adsorption capacity of isoflavone to the resin was almost constant. The purity of the isoflavone purified by column chromatography was $78\%$.

Keywords

References

  1. How, J.S.L. and Morr, C.V. : Removal of phenolic compounds from soy protein extracts using activated carbon. J. Food Sci., 47, 933-940, 1982 https://doi.org/10.1111/j.1365-2621.1982.tb12749.x
  2. Seo, A. and Morr, C.V. : Activated carbon and ion exchange treatments for removing phenolics and phytate from peanut products. J. Food Sci., 50, 262- 263, 1985 https://doi.org/10.1111/j.1365-2621.1985.tb13326.x
  3. Adlercreutz, H. : Phytoestrogens: Epidermiology and a possible role in cancer protection. Environ Health Perspect., 103, 103-112, 1995 https://doi.org/10.1289/ehp.95103s9103
  4. Potter, S.M. : Overview of proposed mechanisms for the hypocholesterolemic effect of soy. J. Nutr., 125, 606-611, 1995
  5. Molteni, A., Brizio-Molteni, L. and Persky, V. : In vitro hormonal effects of soybean isoflavones. J. Nutri., 125, 751-756, 1995
  6. Coward, L., Smith, M., Kirk, M. and Barnes, M. : Chemical modification of isoflavones in soyfoods during cooking and processing. Am. J. Clin. Nutr., 68, 1486-1491, 1998 https://doi.org/10.1093/ajcn/68.6.1486S
  7. Zheng, B., Yegge, J.A., Bailey, D.T. and Sullivan, J.L. : Process for the isolation and purification of isoflavones. US Patent, 5,679,806, 1997
  8. Waggle, D.H. and Bryan, B.A. : Recovery of isoflavones from soy molasses. US Patent, 6,323,018, 2001
  9. Ki, S.J. and In, K.W. : Optimization of hydrolysis and extraction conditions for isoflavones in defatted soybean meal. Food Sci. Biotechnol., 8, 138-244, 1999
  10. Yeo, K.E., Cho, S.B. and Kim, W.J. : Separation of isoflavone from defatted soybean flour using Amberlite XAD-2. Food Sci. Biotechnol., 12, 670- 674, 2003
  11. Eun, M.K., Kyung, J.L. and Kew, M.C. : Comparison in isoflavone contents between soybean and soybean sprouts of various soybean cultivas. Nutr. Sci., 37, 45-51, 2004
  12. Kwang, J.L., Du, Y.C. and Kyung, H.R. : Extraction and purification of isoflavones from Korean soybean and soybean paste. Hwahak Konghak, 41, 612-616, 2003
  13. Kitada, Y., Mizibuchi, M., Ueda, Y., Yamamoto, N., Ishikawa, M. and Kawanishi, S. : Recovery of isoflavone from soybean cooking drain of a Miso factory. Nippon Shokuhin Kogyo Gakkaishi, 33, 821-824, 1996
  14. Kim, M.H., Kim, J.H. and Kim, K.S. : Changes in physicochemical properties of soybean protein due to acetylation during incubation with glucose. Korean J. Environ. Health, 30, 308-313, 2004
  15. Kim, K.S., Kim, M.H., Kim, S.R. and Kwon, D.Y. : Turbidity profile of maleylated glycinin. Korean J. Environ. Health, 30, 314-319, 2004