Food Science and Preservation (한국식품저장유통학회지)

The Korean Society of Food Preservation (한국식품저장유통학회)
권호 표지

Changes in Free Sugars, Organic Acids and Fatty Acid Composition of Kanjang Prepared with Different Cooking Conditions of Whole Black Bean

원료콩의 증자조건을 달리한 검정콩 간장의 유리당, 유기산 및 지방산의 변화

  • 권선화 (한국전통발효식품연구소) ;
  • 최재훈 (한국전통발효식품연구소) ;
  • 고영란 (순천대학교 식품영양학과) ;
  • 손미예 (한국전통발효식품연구소) ;
  • 박석규 (순천대학교 식품영양학과)
  • Published : 2003.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

pH values in all samples were in the range of 5.04 to 5.32. pH of kanjang prepared with normal pressure(NPK) was higher than that of kanjang prepared with high pressure(HPK) and kanjang prepared with steam(SPK). Titratable acidity(TA) in all samples were found to be 4.26~7.72 mL. TA in HPK(5.99~6.96 mL) was lower than that in SPK(4.26~5.61 mL) and NPK(7.32 mL). Reducing sugar(RS) contents in all samples were in the range of 25.18 to 194.81 mg%. RS contents of HPK and SPK were a similar pattern and were higher than that of NPK. Major free sugars(FS) were glucose, fructose and xylose. In total FS, SPK was higher than that of NPK and HPK. Major organic acids(OA) were succinic acid, oxalic acid, tartaric acid, malic acid and citric acid. In total OA contents, SPK(40.38~76.96 mg%) was higher than that of NPK(55.85 mg%)and HPK(27.78~34.21mg%). OA contents in HPK and SPK were decreased slightly according to the heating time of whole black bean. The highest percentage of fatty acid (FA) in all samples was palmitic acid(33.28~43.51 % as area % of GC chromatogram), followed in a decreasing order by stearic acid(14.15~19.16%) and myristic acid(5.93~19.14%). The composition ratios of three FA to total FA ranged from 55.97 to 72.85&. In all samples, there was myristic acid that was not contained in raw soybean.

콩의 증자조건에 따른 검정콩 전통간장의 숙성 후 유리당, 유기산, 지방산조성을 조사하였다. pH 값은 5.04~5.32로 시험구간의 큰 차이를 나타내지 않았고, 원료 콩을 상압증자한 검정콩 간장이 가압이나 스팀보다는 약간 높은 수치를 나타내었다. 적정산도는 4.26~7.72 mL로 나타났으며, 가압 증자한 검정콩 간장(4.26~5.61 mL)이 가장 높았으며, 다음으로 상압(7.32 mL), 스팀(5.99~6.96 mL)의 순으로 나타났다. 환원당은 25.18~194.81 mg%로 나타났고, 상압이 25.18mg%로 가장 낮았으며. 가압이나 스팀증자한 검정콩 간장의 경우 상호간에는 큰 차이가 없지만, 상압한 것보다는 7~8배 높은 함량을 나타내었다. 주요 유리당은 glucose, fructose, xylose였으며, 스팀증자한 검정콩 간장이 상압이나 가압보다 각각의 유리당 모두가 많았고, 상압증자는 유리당이 극히 미량으로 검출되었다. 주요 유기산은 succinic acid, oxalic aicd, tartaric aci, malic acid, citric acid였고, 총 유기산은 스팀증자(40.38~76.96 mg%)한 검정콩 간장이 상압(55.85 mg%)이나 가압(27.78~34.21 mg%)한 것보다 많았다. 증자 처리시간이 길수록 가압과 스팀으로 처리하여 제조된 검정콩 간장은 약간씩 감소되는 경향을 나타내었다. 주요 지방산은 palmitic acid(33.28~43.51%), stearic acid(14.15~19.16%), myristic acid(5.93~19.14%)였으며, 전체 지방산 중에 55.97~72.85% 비율을 차지하였고, 원료 콩에 존재하지 myristic acid가 상당히 많이 존재하였다.

Keywords

References

  1. 이서래 (1992) 한국의 발효식품. 이화여자대학교 출판부. 서울, p. 53-135
  2. Park, C.K and Hwang, I.K (1995) Consumption pattern of Korean traditional soy sauce and consumer sensory evaluation. Korean J. Soc. Food Sci., 11, 521-526
  3. Kim, J.K. and Kim, C.S. (1980) The taste components of ordinary Korean soy sauce. J. Kor. Agr. Chem. Soc., 23, 89-105
  4. Lee, H.J. (1998) Health functional peptides from soybean foods. Korea Soybean Digest, 15, 16-22
  5. Shan, M.Y. (1999) Physicochemical properties and biological activities of chungkugjang produced from Korean black bean. Ph.D. Thesis. Gyeongsang National University, Korea.
  6. Shon, M.Y, Kwon, S.H., Sung, C.K, Park, S.K and Choi, S.D. (2001) Changes in chemical components of chungkugjang prepared with small black bean. Korean J. Life Sci., 11, 284-290
  7. Kim, S.D., Kim, Y.H., Lee, S.H. and Hong, E.H. (1992) Characteristics of black soybean for cooking with rice in Korea. Korea Soybean Digest, 9, 1-13
  8. Lee, H.S., Park, E.H. and Lim, B.K. (1984) Studies on alkali digestibility of soybean seeds and its inheritance. KJCS, 29, 179-185
  9. 권태완, 송영선, 문갑순 (1997) 콩의 생리활성물질의 탐색에 관한 연구. 한국과학재단 목적기초연구보고서.
  10. Pratt, D.E. and Birac, P.M (1979) Sources of antioxidant activity of soybeans and soy products. J. Food Sci., 44, 1720-1727 https://doi.org/10.1111/j.1365-2621.1979.tb09125.x
  11. Record, l.R., Dreosti, I.E. and Mcinerney, J.K. (1995) The antioxidant activity of genistein in vitro. J. Nutr. Biochem., 6, 481-487 https://doi.org/10.1016/0955-2863(95)00076-C
  12. Wei, H., Wei, L., Frenkel, K., Bowen, R. and Barnes, S. (1993) Inhibition of tumor promotor-induced hydrogen peroxide formation in vitro and in vivo by genistein. Nutr. Cancer, 20, 1-10 https://doi.org/10.1080/01635589309514265
  13. Kim, Y.A, Kim, H.S. and Chung, M.J. (1996) Physicochrrical analysis of Korean traditional soy sauce and commercial soy sauce. J. Kor. Soc. Food Sci., 12, 273-280
  14. Andrew, P.M. and Anthong, K.T. (1985) Analysis of sugars and organic acids in ripening mango fruits by high performance liquid chromatography. J. Sci. Food Agric., 36, 561-567 https://doi.org/10.1002/jsfa.2740360707
  15. Folch, J. and Lee, M.K and Stanley, G.H.S. (1957) A simplified method for the isolation and purification of total lipids from animal tissues. J. Biol. Chem., 226, 497-513
  16. Sea, J.S. and Lee, T.S. (1995) The contents of organic acid and fatty acid in traditional soy sauce prepared from meju under different fermentations. Korean J. Food Nutr., 8, 206-211
  17. Im, M.H., Choi, J.D., Chung, H.C. and Lee, S.H. (1998) Improvement of meju preparation method for the production of Korean traditional kanjang (soy sauce). Korean J. Food Sci. Technol., 30 608-614
  18. Sea, J.S. and Lee, T.S. (1992) Free amino acids in traditional soy sauce prepared from meju under different fermentations. Korean J. Dietary Culture, 7, 323-328
  19. Kim, Y.A., Kim, H.S. and Chung, M.J. (1996) Physicochemical analysis of Korean traditional soy sauce and commercial soy sauce. J. Kor. Soc. Food Sci., 12, 273-280
  20. Seo, J.S. and Lee, T.S. (1993) The contents of free sugar and alcohol in traditional soy sauce prepared from meju under different fermentations. Korean J. Food Nutr., 6, 103-108
  21. Kim, J.K and Kim, C.S. (1980) The taste components of ordinary Korean soy sauce. Agric. Chem. Biotech., 23, 89-105