KOREAN JOURNAL OF CROP SCIENCE (한국작물학회지)

  • Volume 48
  • /
  • Pages.58-64
  • /
  • 2003
  • /
  • 0252-9777(pISSN)
  • /
  • 2287-8432(eISSN)
The Korean Society of Crop Science (한국작물학회)
권호 표지

Functional Characteristics of Soybean Oligosaccharide

콩 함유 올리고당의 기능적 특성

  • 정명근 (삼척대학교 생약자원개발학과) ;
  • 이재철 (삼척대학교 식품영양학과)
  • Published : 2003.12.01
Download PDF
⟨ Previous Next ⟩

Abstract

To enjoy a healthy life, it is important to have a well-balanced diet. However, in today's society, there is an increase in the consumption of preprocessed foods and frequency of eating out. Also the western diet, which is becoming move popular worldwide, contains relatively high levels of protein and fat, and a low amount of fiber, Furthermore, the increased availability of favorite foods has created a condition were the individual diet is less variable. With these conditions, it is difficult to maintain a diet that is nutritionally balanced. With these unbalanced diets, which are difficult to change, there has been an increase in adult disease and health problems, such as colon and breast cancer, It is speculated that metabolites for carcinogens are produced from diet components and that intestinal bacteria contribute to the production of these metabolites. Therefore, it is necessary to evaluate the relationships between health, diet, and intestinal microflora. Soybean oligosaccharide is composed of water-soluble saccharides that have been extracted from soybean whey, a by-product from the production of soy protein. This is mainly a mixture of mono-, di-, tri-, and tetrasac-charides, with the principle components being the oligosaccharide raffinose and stachyose. When consumed by humans, the oligosaccharides cannot be digested in the human duodenal and small intestinal mucosa, and these are selectively utilized by beneficial bifidobacteria in intestines. The results of acute and subacute toxicity tests, soy-bean oligosaccharides were nonpoisonous. Soybean oligosaccharides promote the growth of indigenous bifido-bacteria in the colon which by their antagonistic effects, suppress the activity of putrefactive bacteria. Also, they reduce toxic metabolites, detrimental enzymes and plasma lipid, and increase in the frequency of bowel evacuation and fecal quantities. Consequently, soybean oligosaccharides as functional foods components have potential roles in the prevention and medical treatment of chronic adult diseases. The study of processing property and physiological function of soybean oligosacchavides and development of high oligosaccharide variety allow the creation of new and exciting foodstuffs that aye functional healthy.

Keywords

References

  1. Agheli, N., M. Kabir, S. Beri-Canani, E. Petijean, A. Boussairi, J. Luo, F. Bornet, G. Slama, and S. W. Rizkalla. 1998. Plasma lipids and fatty acid synthase activity are regulated by short-chain fructo-oligosacchahdes in sucrose-fed insulin-resistant rats. J. Nutr. 128 : 1283-1288
  2. American Soybean Association. 2001. A to Z on soybean meal United Soybean Board. 56
  3. Annual report on the cause of death statistical report. 1996. The Economic Planning Board
  4. Aspinall, G. O. 1988. Chemistry of soybean carbohydrates. In Proceeding of Soybean Utilization Alternatives, L. McCann (ED.),117-129
  5. Burkitt, D. P. and H. C. Trowell. 1975. Refined carbohydrate food and disease, Some implications of dietary fiber. Academic Press, Lon-don
  6. Choi, E. H., H. Y. Kim, Y. H. Kim, W. K. Kim, S. J. Oh, and S. H. Kim. 1999. Effects of selected oligosaccharides on fecal microf-lora and lipid constitution in rats. Korean Journal of Nutrition.32(3): 221-229
  7. 조동택. 2003. 질병예방과 치료측면에서 본 콩 식품. 경북대학교.농업과학기술연구소. 학술심포지움 발표집. 109-110
  8. Choung, M. G., W. Y. Han, S. T. Kang, I. Y. Baek, S. K. Oh, D. C. Shin, S. D. Kim, and E. H. Park. 2002. Determination of SolubleCarbohydrates in Soybean Seeds, Korean Journal of Cop Science.47(Supplement 2): 56
  9. Fiordaliso, M., N. Kok, J. Desager, F. Goethals, D. Deboyser, and M Delzenne. 1995. Dietary oligofructose lowers triglycerides, Phos-pholipids and cholesterol in serum and very low density lipopro-teins of rats. Lipids 30 : 163-167 https://doi.org/10.1007/BF02538270
  10. Hill M. J., B. S. Drasar, V. Aries, J. Crowther, G. Hawkesworth, Reo Williams. 1971. Bacteria and etiology of cancer of the large bowel. Lancet 1 : 95 - 102 https://doi.org/10.1016/S0140-6736(02)95563-7
  11. Hymowitz, T, F. I. Collins, J. Panczner, and W. M. Walker. 1972. Relationship between the content of oil, Protein, and sugar in Soybean seed. Agron. J. 64 : 613 - 616 https://doi.org/10.2134/agronj1972.00021962006400050019x
  12. 김철재. 1995. 콩의 생리활성 물질. 영남대학교 장류연구소 심포지움 발표집 . 9-43
  13. Kim, S. H., W. K. Kim, Y. A. Jang. 1997. Dietary life and health. Sink-wans Press. 247-256
  14. Kok, N., M. Roberfroid, A. Robert, and N. Delzenne. 1996. Involve-ment of lipogenesis in the lower VLDL secration induced by 01i-gofructose in rats. Br. J. Nutr. 76 : 881-890 https://doi.org/10.1079/BJN19960094
  15. Kris, Etherton, Debra Krummel, Garlene Dreon, Sally Mackey, Peter D, and Wood D. Sc. 1988. The effect of diet on plasma lipids, lipoproteins, and coronary heart disease. J. AM Diet Assoc. 88(11) :1373-1400
  16. Kwon, T. W. and S. K. Kang. 1993. Development of food engineering and our dietary life. Korean Journal of dietary Culture 8(4) : 351-357
  17. Lee, I. H. 1993. The effect of Korean dietary life changes on health and diseases. Korean Journal of dietary Culture 8(4): 359-372
  18. Lee, I. H. 1993. The effect of Korean dietary life changes on health and diseases. Korean Journal of dietary Culture 8(4): 359-372
  19. Liu, KeShun. 1999. Soybeans: Chemistry, Technology, and Utilization. Aspen Publishers, Inc. 25-114
  20. McDonel, J. L., 1980. Clostridium perfringens toxins(Type A, B, C, D,E). Pharmac. Ther. 10 : 617-655 https://doi.org/10.1016/0163-7258(80)90031-5
  21. Mitsuoka T. 1982. Recent trends in research on intestinal flora. Bifidobacteria Microflora 1 : 3-24
  22. Mitsuoka T. 1992. Intestinal flora and aging. Nutr. Rev. 50 : 438-446 https://doi.org/10.1111/j.1753-4887.1992.tb02499.x
  23. Yazawa K. Z. Tamura. 1982. Search for sugar source for selective increase of Bifidobacteria. Bifidobacteria Microflora 1 : 39-44
  24. National Nutrition Survey Report. 1994. Ministration of Health and Welfare
  25. Streggerda, F. R., E. A. Richards, and J. J. Rackis. 1966. Effects Of various soybean products on flatulence in the adult man. Proc. Soc. Expt. Biol. Med. 121 : 1235-1239
  26. Tomomatsu, H. 1994. Health effects of oligosaccharides. Food Technol.,Oct.,61-65
  27. Topping, D. and P. M. Clifton. 2001. Short-chain acids and human colonic function: roles of resistant starch and nonstarch poIySaccharide. PhysioIogical Review 81 : 1031-1064
  28. Welin, L., H. Eriksson, B. Larsson, LO. Ohlson, K. Svardsudd, G. Tib-blin, and L. Wilhelmsen. 1991. Triglycerides, a major coronary risk factor in elderly men, a study of men born in 1913. Eur. Heart J. 12 : 700-704
  29. Wenxun, F, R. Parker, B. Parpia, Q. Yinsheng, P. Casano, M. Crawford, J. Leyton, J. Tian, C. Junshi, and TC. Campbell. 1990. Erythrocyte fatty acids, Plasma lipids and cardiovascular disease in rural china. Am. J. Clin Nutr. 52 : 1027-1036
  30. Yokoyama, M. T., J. R. Carlson. 1979. Microbial metabolites oftry-tophan in the intestinal tract with special reference to skatole. Am. J. Clin. Nutr. 32 : 173-178
  31. Yosushi, K-., S. Takanobu, and O. Robert. 1993. Oligosaccharides: pro-duction, Properties, and applications, Soybean oligosaccharides. Gordon and Breach Science Publishers. 176-203
  32. 山內文男.1992.大豆の科學,朝倉書店71-73
  33. 住原泰雄.1987.フ一ドケミ力ル.6:87-9