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Variation of Anthocyanin, and Isoflavone Contents in Korean Black Soybeans Grown at Different Latitudinal Locations
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 Title & Authors
Variation of Anthocyanin, and Isoflavone Contents in Korean Black Soybeans Grown at Different Latitudinal Locations
Hong, Seung-Beom; Lee, Su-Jin; Kim, Young-Hak; Hwang, Young-Sun; Yoon, Kwang-Hee; Lee, Sung-In; Nam, Mi-Young; Song, Lee-Seul; Choung, Myoung-Gun;
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 Abstract
This experiment was conducted to investigate the variation of anthocyanin, and isoflavone contents in five cultivars and two lines of Korean domestic black soybeans grown at different latitudinal locations, a high latitude, Suwon (16`N) and a low latitude, Milyang (30`N). Delphinidin-3-glucoside (D3G) contents of anthocyanin in Geomjeongkong # 3 and Ilpumgeomjeongkong, cyanidin-3-glucoside (C3G) content in Milyang # 113, petunidin-3-glucoside (Pt3G) contents in Milyang # 113, and Ilpumgeomjeongkong, and total anthocyanins in Milyang # 113 were highest among the seven black soybean cultivars and lines. D3G, C3G, and total anthocyanins in Geomjeongkong # 3, C3G, and total anthocyanins in Ilpumgeomjeongkong grown at high latitude were higher compared to low latitude. Daidzein, glycitein, genistein, and total isoflavone contents in Geomjeongkong # 4 were highest among the seven cultivars and lines. Daidzein contents of isoflavone in Geomjeongkong # 3, Milyang # 112, and Milyang # 113 grown at high latitude were higher compared to low latitude. Glycitein contents in Geomjeongkong # 3, and # 4 grown at high latitude were higher compared to low latitude, while it in Milyang # 113 grown at low latitude was higher compared to high latitude. Genistein contents in most black soybeans except Milyang # 113, and total isoflavone contents in Geomjeongkong # 4 and Cheongjakong grown at low latitude were higher compared to high latitude. The variations of anthocyanin except Pt3G and isoflavone contents seemed to be affected by environmental conditions like different latitude than the genotype because they showed the significant interaction between cultivars and locations.
 Keywords
Anthocyanin;Black soybean;Isoflavone;Latitude;
 Language
Korean
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 References
1.
Choung, M. G., Baek, I. Y., Kang, S. T., Han, W. Y., Shin, D. C., Moon, H. P., Kang, K. H., 2001. Isolation and determination of anthocyanins in seed coats of black soybean(Glycine max(L) Merr.), J Agic. Food. Chem. 49, 5848-5851. crossref(new window)

2.
Choung M. G., Hwang, Y. S., Lee, H. J., Choi, S. S., Lim, J. D., Kang, S. T., Han, W. Y., Baek, I. Y., Kim, H. K., 2008. Optimal extraction condition of anthocyanins in soybean (Glycine max) with black seed coats, Korean J. Crop Sci. 53(1), 110-117.

3.
Choung, M. G., Kang, S. T., Han, W. Y., Baek, I. Y., Kim, H. K., Shin, D. C., Kang, N. S., Hwang, Y. S., An, Y. N., Lim, J. D., Kim, K. S., Park, S. H., Kim, S. L., 2006. Variation of isoflavone contents in Korean soybean germplasm, Korean J. Crop Sci. 51(S), 146-151.

4.
Coward, L., Barnes, N. C., Setchell, K. D. R., Barnes, S., 1993. Genistein, daidzein, and their ${\beta}$-glucoside conjugates : Antitumor isoflavones in soybean foods from American and Asian diets, J. Agric. Food Chem. 41, 1961-1967. crossref(new window)

5.
Han, W. Y., Park, K. Y., Choung, M. G., Kim, H. T., Ko, J. M., Baek, I. Y., Lee, C. Y., 2008. Growth characteristics and qualities of Korean soybean landraces, Korean J. Crop Sci. 53(S), 89-95.

6.
Joo, Y. H., Park, J. H., Choung, M. G., Yun, S. G., Chung, K. W., 2004A. Variation of contents and color difference of anthocyanin by different cultivation year in black soybean seed, Korean J. Crop Sci. 49(6), 507-511.

7.
Joo, Y. H., Park, J. H., Kim, Y. H., Choung, M. G., Chung, K. W., 2004B. Change in anthocyanin contents by cultivation and harvest time in black-seeded soybean, Korean J. Crop Sci. 49(6), 512-515.

8.
Kim, S. R., Kim, S. D., 1996. Studies on soybean isoflavones. I. Content and distribution of isoflavones in Korean soybean cultivars, J. Agri. Sci. 38, 155-165.

9.
Kim, S. Y., Ko, K. O., Lee, Y. S., Kim, H. S., Kim, Y. H., 2008A. Extraction efficiency and stability of antohocyanin pigments in black soybean seed coat, Korean J. Crop Sci. 53(S), 84-88.

10.
Kim, Y. H., 2002. Current achievement and perspectives of seed quality evaluation in soybean, Korean J. Crop Sci. 47(S), 95-106.

11.
Kim, Y. H., Kim, D. S., Woo, S. S., Kim, H. H., Lee. Y. S., Kim, H. S., Ko, K. O., Lee, S. K., 2008B. Antioxidant activity and cytotoxicity on human cancer cells of anthocyanin extracted from black soybean, Korean J. Crop Sci. 53(4), 407-412.

12.
Kitamura, K., Ijita, K., Kikuchi, A., Kudou, S., Okubo. K., 1991. Low isoflavone content in some early maturing cultivars, so-called "summer-type soybeans" (Glycine max(L) Merrill), Japan J. Breed. 41, 651-654. crossref(new window)

13.
Lee, M. J., Park, J. C., Oh, Y. J., Kim, K. H., Kim, H. S., Lee, S. B., Kim, J. C., 2006. Effect of nitrogen fertilization levels on growth and isoflavone content in soybean, Korean J. Crop Sci. 51(5), 445-450.

14.
Ok, H. C., Yoon, Y. H., Jeong, J. C., Hur, O. S., Lee, C. W., Kim, C. G., Cho, H. M., 2008. Yield and isoflavone contents of soybean cultivar in highland area, Korean J. Crop Sci. 53(1), 102-109.

15.
Shin, S. O., Shin, S. H., Ha, T. J., Lim, S. G., Choi, K. J., Baek, I. Y., Lee, S. C., Park, K. Y., 2009. Soybean ecological response and seed quality according to altitude and seeding dates, Korean J. Crop Sci. 54(2), 143-158.

16.
Tsukamoto, C., Shimata, S., Igita, K., Kukdou, S., Kokubun, M., Okubo, K., Kitamura, K., 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. crossref(new window)

17.
Yi, E. S., Yi, Y. S., Yoon, S. T., Lee, H. G., 2009. Variation in antioxidant componets of black soybean as affected by variety and cultivation region, Korean J. Crop Sci. 54(1), 80-87.

18.
Yi, M. A., Kwon, T. W., Kim, J. S., 1997. Changes in isoflavone contents during maturation of soybean seed, J. Food Sci. 2(3), 255-258. crossref(new window)

19.
Yun, H. T., Kim, W. H., Lee, Y. H., Suh, S. J., Kim. S. J., 2006. Isoflavone contents of soybean according to different planting dates, Korean J. Crop Sci. 51(S), 174-178.

20.
Yun, H. T., Seo, M. J., Kim, S. L., An, S. O., Kim, S. J., 2005. Variation of seed component contents in wild soybean (Glycine soja Sieb. & Zucc.), Korean J. Crop Sci. 50(S), 108-111.