KOREAN JOURNAL OF CROP SCIENCE (한국작물학회지)

The Korean Society of Crop Science (한국작물학회)
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Variation of Isoflavone and Saponin During Maturity in Black Soybean

검정콩의 등숙기간 중 Isoflavone과 Saponin 함량변이

  • Yi, Eun-Seob (Gyeonggido Agricultural Research and Extension Services) ;
  • Kim, Hee-Dong (Gyeonggido Agricultural Research and Extension Services) ;
  • Chae, Jae-Cheon (College of Bio-resources Science, Dankook Univ.) ;
  • Kim, Yong-Ho (College of Natural Science, Soonchunhyang University)
  • Published : 2008.03.31
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Abstract

This study was conducted to investigate antioxidant component content during maturity for judgement of optimum harvest time in black soybean. For high-functional black soybean production, accumulation pattern of isoflavone and saponin contents and anti oxidative activity according to maturity stage were investigated. Varieties used in this experiment were Ilpumgemojeongkong and heukcheongkong, which are the recommended black soybean in Korea. Isoflavone and saponin contents during maturity period in black soybean was the highest at $6{\sim}7$ days earlier than general harvesting time. It was indicated that optimum harvesting time for high quality soybean were $3{\sim}7$ days earlier than harvesting time for higher yield. As a result of investigation about accumulation pattern of antioxidant components by maturity stages in seed, total isoflavone content was the highest at 61 DAF in Ilpumgeomjeongkong and at 77 DAF in Heukcheongkong. Contents of total saponin were the highest at 61 DAF and at 71 DAF, respectively. In case of leaf, total isoflavone content was the highest at 55 DAF in Ilpumgeomjeongkong and Heukcheongkong. Contents of total saponin were the highest at 18 DAF and at $55{\sim}71$ DAF, respectively. It showed that black soybean's leaf could be developed as a new health food material, owing to high contents of antioxidant components and biological activity and it's suitable harvest time was at $R_7$.

건강 기능성 농산물로 주목을 받고 있는 검정콩의 isoflavone과 soyasaponin ${\alpha}g$${\beta}g$의 축적 추이를 검토하였다. 또한 이들 항산화 성분을 고함유한 고 기능성 검정콩 생산을 위한 재배기술 확립에 기여하고자 하였다. 얻어진 결과는 다음과 같다. 1. 검정콩의 등숙기간 중 항산화 성분인 isoflavone과 soyasaponin ${\alpha}g$${\beta}g$의 함량은 대체로 수확기$(R_8)\;6{\sim}7$일전에 가장 높았다. 이는 고항산화 콩을 생산하려면 수량 중심의 수확시기보다 $3{\sim}7$일 정도 빨라야 함을 의미한다. 2. 검정콩 종실의 등숙기간 중 총 isoflavone 함량은 일품 검정콩은 개화 후 61일, 흑청콩은 개화 후 77일에 가장 높았다. 검정콩 종실의 soyasaponin ${\alpha}g$${\beta}g$의 함량은 일품 검정콩은 개화 후 61일에, 흑청콩은 개화 후 71일에 가장 높았다. 3. 검정콩 잎의 등숙기간 중 총 isoflavone함량은 일품검정콩과 흑청콩 모두 개화 후 55일에 가장 높았다. 검정콩 잎의 soyasaponin ${\alpha}g$의 함량은 일품검정콩은 개화 후 $18{\sim}41$일, 흑청콩은 개화 후 $55{\sim}71$일에 높았다. 4. 검정콩 잎의 생리활성 성분 함량이 높은 것으로 보아 이를 신소재 기능성 농산물로 활용 및 개발할 수 있을 것으로 사료되었다. 검정콩 잎을 신소재 기능성 농산물로 활용하기 위한 수확적기는 종실비대가 완료되는 생리적성숙기($R_7$)이었다.

Keywords

References

  1. 농촌진흥청. 2003. 농업과학기술 농사연구분석조사기준. p. 329
  2. 조재영 외 15인. 1987. 사정 전작. 향문사. p. 293
  3. Akiyama, T., S. Ishida, H., Hakagawa, S. I. Ogawara, N. Watanabe, M, Itoh, M. Shibuya, and Y. Fukami. 1987. Genistein, a specific inhibitor of tyrosine specific proteinkinases. J. Biol. Chem. 262 : 5592-5595
  4. Blois, M. S. 1958. Antioxidant determinations by the use of stable free radical. Nature 181 : 1199-1200 https://doi.org/10.1038/1811199a0
  5. Chae, J. C., and D. K. Jun. 2004. Utility of Accumulative Air Temperature during Ripening Stage for Judgment of Optimum Harvest Time in Rice Cultivation. Korean J. Crop Sci. 49(s2) : 250-251
  6. Chen, Y. C., Y. Sugiyama, N. Abe, K. N. Ryoko, R. Nozawa, and A. Hirota. 2005. DPPH radical scaevnging compounds from Dou-chi a soybeean fermented food. Biosci. Biotechnol. Biochem., 69(55) : 999-1006 https://doi.org/10.1271/bbb.69.999
  7. Eldridge, A. C. and W. F. Kwolek. 1983. Soybean Isoflavones: Effect of environment and variety on composition. J. Agric. Food Chem. 31 : 394-396 https://doi.org/10.1021/jf00116a052
  8. Ha, K. S., N. K. Heo, and T. J. Han. 2002. New Variety Developed: A Green Seed Soybean Variety "Heugcheongkong" with Black Seed Coat. Korean J. Breed. 34(1) : 80-81
  9. Kim, S. H., T. W. Kwon, Y. S. Lee, M. G. Choung, and G. S. Moon. 2005. A Major Antioxidative Components and Comparison of Antioxidative Activities in Black Soybean. Korean J. Food Sci. Technol. 37(1) : 73-77
  10. Kim, S. R.. 1999. Some properties of Isoflavone in Soybean and Soybean Foods. Bulletin Food technol. 12(4) : 3-19
  11. Kim, S. R., H. D. Hong, and S. S. Kim. 1999. Some properties and Contents of Isoflavone in Soybean and Soybean Foods. Korean Soybean Digest 16(2) : 35-46
  12. Kim, Y. H., Y. H. Hwang, and H. S. Lee. 2003. Analysis of Isoflavones for 66 Varieties of Sprout Beans and Bean Sprouts. Korean Soc. Food Sci. Technol. 35(4) : 568-575
  13. Kim, Y. H., S. D. Kim, E. H. Hong, and W. S. Ahn. 1996. Physiological Function of Isoflavones and Their Genetic and Environmental Variations in Soybean. Korean J. Crop Sci. 41(S1) : 25-45
  14. Kim, Y. H.. 2003. Biological Activities of Soyasaponins and Their Genetic and Environmental Variations in Soybean. Korean J. Crop Sci. 48(spc 1) : 49-57
  15. Kitamura, K., K. Ijita, A. Kikuchi, S. Kodou, and K. Okubo. 1991. Low isoflavone content in some early maturing cultivars, so-called "summertype soybeans" (Glycine max (L) Merrill). Japan J. Breeding 41 : 651-654 https://doi.org/10.1270/jsbbs1951.41.651
  16. Kudou, S., M. Tonomura, C. Tsukamoto, T. Uchida, M. Yoshikoshi, and K. Okubo. 1994. Structural elucidation and physiological properties of genuine soybean saponin. ACS symposium series 546 : 340-348
  17. Lee, M. H., Y. H. Park, H. S. Oh, and T. S. Kwak. 2002. Isoflavone Content in Soybean and its Processed Products. Korean Soc. Food Sci. Technol. 34(3) : 365-369
  18. Morris, P. F., M. E. Savard, and E. B. Ward. 1991. Identification and accumulation of isoflavonoidses and isoflavone glucosides in soybean leaves and hypocotyls in resistance response to Phytophtora megasperma f. sp. glycinea. Physiol. Molecular Plant Pathol 39(3) : 229-244 https://doi.org/10.1016/0885-5765(91)90006-4
  19. Mun, G. S., T. W. Kwon, and S. H. Lyu. 2003. Comparison of Antioxidative Activities of Soybean Components by Different Assays. Korean Soybean Digest 20(1) : 28-36
  20. National Agricultural Products Quality management Service. 2007. Homepage (http://www.naqs.go.kr/statisticsInfo/) Crop Products
  21. O, B. Y., B. H. Park, and G. S. Ham. 2003. Changes of Saponin during the Cultivation of Soybean Sprout. Korean Soc. Food Sci. Technol. 35(6) : 1039-1044
  22. Oh, H. N. 2001. Accumulation of anthocyanin and storage compound in the seeds of Yakkong [Glycine max L. Merr.] and dolkong [Glycine soya S. et Z.]. Korea Univ. Thesis for degree of master of science
  23. Pratt, D. E., C. D. Pietro, W. L. Porter, and J. W. Giffee. 1982. Phenolic antioxidants of soy protein in hydrolyzates. J. Food Sci. 47 : 24 https://doi.org/10.1111/j.1365-2621.1982.tb11018.x
  24. Shin, D. C., I. Y. Baek, C. K. Park, S. T. Kang, S. B. Song, S. O. Hur, Y. H. Kwack, Y. J. Oh, and Y. H. Hwang. 1998. A New Early Maturity, Diseases and Lodging Resistance , High Yielding and Black Seed Coat Soybean Variety "Ilpumgeomjeongkong". Korean J. Breed. 30(4) : 398
  25. So, E. H., J. H. Kuh, K. Y. Park, and Y. H. Lee. 2001. Varietal Difference of Isoflavone Content and Antioxidant Activity in soybean. Korean J. Breed. 33(1) : 35-39
  26. Tsukamoto, C., S. Shimata, K. Igita, S. Kudou, M. Kokubun, K. Okubo, and K. Kitamura. 1995. Factors affecting isoflavone content in soybean seeds; Change in isoflavone, saponin, and composition of fatty acids at different temperature during seed development. J. of agricultural and food chemistry 43(5) : 1184-1192 https://doi.org/10.1021/jf00053a012
  27. Tsuta, T., K. Shiga, K, Ohshima, S. Kawakishi, and T. Osawa. 1996. Inhibition of lipid peroxidation and the active oxygen radical scavenging effect of anthocyanin pigments isolated from phaseolus vulgaris L. Biochem Pharmacol. 52 : 1033-1039 https://doi.org/10.1016/0006-2952(96)00421-2
  28. Wei, H. C., H. wei, K. Frenkel, R. Bowen, and S. Barnes. 1993. Inhibition of tumor promoter induced hydrogen peroxide formation in vitro and in vivo by genistein. Nutrition and cancer 20(1) : 1-12 https://doi.org/10.1080/01635589309514265
  29. Yi, M. A., T. W. Kwon, and J. S. Kim. 1997. Changes in Isoflavone contents during maturation of soybean seed. J. Food Sci. Nutr. 2(3) : 255-258