Journal of the Korean Society of Food Science and Nutrition (한국식품영양과학회지)

The Korean Society of Food Science and Nutrition (한국식품영양과학회)
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Biological Activities of Dried Garlic, Red Ginseng and Their Mixture

건조 마늘, 홍삼 및 이들 혼합물의 생리활성

  • Shin, Jung-Hye (Namhae Garlic Research Institute) ;
  • Jung, Kang-Min (Namhae Garlic Research Institute) ;
  • Lee, Soo-Jung (Dept. of Food Science and Nutrition, Gyeongsang National University) ;
  • Yang, Seung-Mi (Dept. of Food Science and Nutrition, Gyeongsang National University) ;
  • Rue, Gi-Hyun (Dept. of Food Science and Nutrition, Gyeongsang National University) ;
  • Sung, Nak-Ju (Namhae Garlic Research Institute, Dept. of Food Science and Nutrition, Gyeongsang National University)
  • 신정혜 ((재)남해마늘연구소) ;
  • 강민정 ((재)남해마늘연구소) ;
  • 이수정 (경상대학교 식품영양학과) ;
  • 양승미 (경상대학교 식품영양학과) ;
  • 류지현 (경상대학교 식품영양학과) ;
  • 성낙주 ((재)남해마늘연구소,경상대학교 식품영양학과)
  • Published : 2009.12.31
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Abstract

Water extracts were extracted on water bath for 3 hrs at 90${^{\circ}C}$ after 5 times water was added to hot-air dried garlic (DG) and red ginseng (RG), respectively. Its extracts were dried on rotary evaporator, and then the mixture samples were prepared from RG extracts added to DG extracts at 5, 10, and 15%. To test biological activities such as DPPH, nitrite scavenging, tyrosinase, $\alpha$-glucosidase, human gastric (AGS), and human colon cancer cell (HT-29) growth, dryness of DG, RG, and mixture samples were diluted 500-10,000 $\mu$g/mL adding deionized water, respectively. DPPH scavenging activities of mixture sample were slightly higher than DG and RG sample alone. Nitrite scavenging activity was the highest in DG, and the other samples were below 45%. Inhibition activity of tyrosinase was below 35.0% in tested all samples. Inhibition activity of $\alpha$-glucosidase was lower in DG or RG alone, while its activity of mixture sample was increased in proportion to concentration of RG extracts. Inhibition of AGS cell growth was more effective in mixture samples than DG and RG alone, while inhibition of HT-29 cell growth was more effective in DG or RG alone than mixture samples.

열풍건조 마늘 및 홍삼 추출물과 혼합물의 생리활성을 평가하고자 마늘 열수추출물에 홍삼 열수추출물을 5-15%(v/v) 첨가한 혼합물을 제조하여 500-10,000 $\mu$g/mL 농도에서 항산화활성, tyrosinase 및 glucosidase 저해활성, 위암 및 대장암 세포에 대한 생육저해 활성을 실험하였다. 열풍건조 마늘과 홍삼 추출물의 전자공여능은 1,000 $\mu$g/mL 이하의 농도에서는 15% 미만으로 낮았으나, 이들의 혼합물의 경우 38% 이상의 높은 활성을 나타내었다. 2,500 $\mu$g/mL 이상의 농도에서 아질산염 소거능은 열풍건조 마늘 추출물에서 가장 높고 다음으로 홍삼 추출물 15% 첨가군, 10% 첨가군의 순이었다. Tyrosinase 저해활성은 10,000 $\mu$g/mL 농도에서 열풍건조 마늘은 29.56%, 홍삼 추출물은 34.59%이던 것이 이들의 혼합물에서는 그 활성이 급격히 저하하여 15% 미만이었다. $\alpha$-Glucosidase 저해활성은 열풍건조 마늘 추출물에서 더 높아 10,000 $\mu$g/mL 농도에서 22.22%였고, 동일농도에서 홍삼 추출물의 경우 13.84%, 이들의 15% 혼합물에서 활성은 25.27%로 유의적으로 증가하였다. AGS 세포 성장억제능은 시료의 첨가농도가 증가함에 따라 유의적으로 증가하였으며 열풍건조 마늘이나 홍삼 단독 추출액에 비하여 이들의 혼합 시료에서 더 활성이 높았다. HT-29 세포의 성장도 시료의 첨가 농도에 의존적으로 억제되었는데, 1,000 $\mu$g/mL 농도에서 열풍건조 마늘과 홍삼 추출물의 암세포 성장억제능은 50% 이상이었으나 이들의 혼합물의 경우 활성이 저하하여 28.25-39.62%에 불과하였다.

Keywords

References

  1. Ha TY. 2006. Development of functional food materials for healthy life. Korean J Crop Sci 51: 26-39
  2. Park CS, Yang KM, Kim ML. 2006. Functional properties of medicinal plant extracts. Korean J Food Cookery Sci 23: 720-727
  3. Ali M, Thomson M, Afzal M. 2000. Garlic and onions: their effect on eicosanoid metabolism and its clinical relevance. Prostaglandins Leukot Essent Fatty Acids 62: 55-73 https://doi.org/10.1054/plef.1999.0124
  4. Lancaster JE, Shaw ML. 1989. G-Glutayl peptides in the biosynthesis of S-alk(en)yl-L-cysteine sulfoxides (flavor precursours) in allium. Phytochemistry 28: 455-460 https://doi.org/10.1016/0031-9422(89)80031-7
  5. Jastrzebski Z, Leontowicz H, Leontowicz M, Namiesnik J, Zachwieja Z, Barton H. 2007. The bioactivity of processed garlic (Allium sativum L.) as shown in vitro and in vivo studies on rats. Food Chem Toxicol 45: 1626-1633 https://doi.org/10.1016/j.fct.2007.02.028
  6. Amagase H. 2006. Clarifying the real bioactive constituents of garlic. J Nutr 136: 955S-962S
  7. Lee JW, Do JH. 2006. Current studies on browning reaction products and acidic polysaccharide in Korean red ginseng. J Ginseng Res 30: 41-48 https://doi.org/10.5142/JGR.2006.30.1.041
  8. Blois MS. 1958. Antioxidant determination by the use of a stable free radical. Nature 181: 1199-1200 https://doi.org/10.1038/1811199a0
  9. Kato H, Lee IE, Chyen N, Kim SB, Hayase F. 1987. Uninhibitory of nitrosamine formation by nondialyzable melannoins. Agric Biol Chem 51: 1333-1338 https://doi.org/10.1271/bbb1961.51.1333
  10. Kim DS, Ahn BW, Yeum DM, Lee DW, Kim ST, Park YH. 1987. Degradation of carcinogenic nitrosamine formation factor by natural food components. Bull Korean Fish Soc 20: 463-468
  11. Yagi A, Kanbara T, Morinobu N. 1986. The effect of tyrosinase inhibition for aloe. Planta Med 3981: 517-519
  12. Jeon TW, Jo CR, Kim KH, Byun MW. 2002. Inhibitory effect on tyrosinase and xanthine oxidase and nitrite scavenging activities of Schizandrae Fructus extract by gamma irradiation. Korean J Food Preserv 9: 369-374
  13. Choe M, Kim DJ, Lee HJ, You JK, Seo DJ, Lee JH, Chung MJ. 2008. A study on the glucose regulating enzymes and antioxidant activities of water extracts from medicinal herbs. J Korean Soc Food Sci Nutr 37: 542-547 https://doi.org/10.3746/jkfn.2008.37.5.542
  14. Lee JW, Do JH. 2006. Current studies on browning reaction products and acidic polysaccharide in Korean red ginseng. J Ginseng Res 30: 41-48 https://doi.org/10.5142/JGR.2006.30.1.041
  15. Shin JH, Choi DJ, Lee SJ, Cha JY, Sung NJ. 2008. Antioxidant activity of black garlic (Allium sativum L.). J Korean Soc Food Sci Nutr 37: 965-971 https://doi.org/10.3746/jkfn.2008.37.8.965
  16. Kim SD, Do JH, Oh HI. 1981. Antioxidant activity of Panax ginseng browning products. J Korean Agric Chem Soc 24: 161-166
  17. Jeong JY, Woo KS, Hwang IG, Yoon HS, Lee YR, Jeong HS. 2007. Effects of heat treatment and antioxidant activity of aroma on garlic harvested in different cultivation areas. J Korean Soc Food Sci Nutr 36: 1637-1642 https://doi.org/10.3746/jkfn.2007.36.12.1637
  18. Shin JH, Ju JC, Kwon OC, Yang SM, Lee SJ, Sung NJ. 2004. Physicochemical and physicological activities of garlic from different area. Korean J Food & Nutr 17: 237-245
  19. Kim KY, Shin JK, Lee SW, Yoon SR, Chung HS, Jeong YJ, Choi MY, Lee CM, Moon KD, Kwon JH. 2007. Quality and functional properties of red ginseng prepared with different steaming time and drying methods. Korean J Food Sci Technol 39: 494-499
  20. Lee YS. 2007. Antioxidative and physiological activity of extracts of Angelica dahurica leaves. Korean J Food Preserv 14: 78-86
  21. Jung SW, Lee NK, Kim SJ, Han DS. 1995. Screening of tyrosinase inhibitor from plants. Korean J Food Sci Technol 27: 891-896
  22. Hwang EY, Kong YH, Lee YC, Kim YC, Yoo KM, Jo YO, Choi SY. 2006. Comparison of phenolic compounds contents between white and red ginseng and their inhibitory effect on melanin biosynthesis. J Ginseng Res 30: 82-87 https://doi.org/10.5142/JGR.2006.30.2.082
  23. Gua J, Jin YS, Han W, Shim TH, Sa JH, Wang MH. 2006. Studies for component analysis, antioxidative activity and α-glucosidase inhibitory activity from Equisetum arvense. J Korean Soc Appl Biol Chem 49: 77-81
  24. Bailey CJ. 1999. Insulin resistance and antidiabetic drugs. Biochem Pharmacol 58: 1511-1520 https://doi.org/10.1016/S0006-2952(99)00191-4
  25. Zhang BB, Moller DE. 2000. New approaches in the treatment of type 2 diabetes. Curr Opin Chem Biol 4: 461-467 https://doi.org/10.1016/S1367-5931(00)00103-4
  26. Maeng SH, Chun KW, Bae JW. 2002. Effects of ginseng on the formation of glycated protein. J Ginseng Res 26: 173-177 https://doi.org/10.5142/JGR.2002.26.4.173
  27. Choi WY, Chung KT, Yoon TK, Choi BT, Lee YT, Lee WH, Ryu CH, Choi YH. 2007. Water extract of Alliume sativum L. induces apoptosis in human leukemia U937 cells through reactive oxygen species generation. J Life Sci 12: 1709-1716
  28. Lim SW, Kim TH. 1997. Physiological activity of alliin and ethanol extract from Korean garlic (Allium sativum L). Korean J Food Sci Technol 29: 348-354
  29. Lee HW, Lee DS, Park BH. 2000. Inhibition of apoptosis by diallyl disulfide in human leukemia HL-60 cells. Chonbuk University Medical Journal 24: 93-98

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