Journal of Ginseng Research

The Korean Society of Ginseng (고려인삼학회)
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Effect of Puffing on Quality Characteristics of Red Ginseng Tail Root

팽화처리가 홍미삼의 품질특성에 미치는 영향

  • Published : 2007.09.30
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Abstract

Effect of puffing treatment on saponins, total sugars, acidic polysaccharide, phenolic compounds, microstructure and pepsin digestibility of dried red ginseng tail root were tested. Puffing samples of dried red ginsneng tail root were pre-pared at 20rpm, 15 $kg/cm^2$, $120{\sim}150^{\circ}C$, and for 30 min by a rotary type apparatus of 5 L capacity. Crude saponin content of puffing red ginseng tail root was increased 26.5% compared to non-puffing, especially $Rg_3$ content was increased from 0.49 mg/g to 0.72 mg/g. Total sugar content was not changed, but acidic polysaccharide content was slightly decreased from 7.15% to 6.44% by puffing treatment. Total phenolic compounds was increased from 7.86% to 9.94% by puffing. In terms of individual phenolic compounds, salicylic acid was quantified in puffing tail root, but gentisic acid was quantified in non-puffing. Syringic acid was the most predominant phenolic acid, increased to about 6 times by puffing treatment. On the other hand, gallic acid, p-coumaric acid, caffeic acid and ferulic acid were highly decreased. Microstructure of cross-section in puffing tail root was shown to more uniform shape compared to non-puffing. Pepsin digestibilities of puffing and non puffing red ginseng tail root were 22.4% and 46.2%, respectively (p<0.05). The results indicated that puffing treatment might be useful increasing the bioactive components, preference and digestibility.

팽화처리가 홍미삼의 사포닌 성분, 당류, 페놀성분, 미세구조 및 소화율 등에 미치는 영향을 조사하였다. 홍미삼의 추출된 조사포닌 함량은 팽화처리후 약 26.5% 증가하였다. 사포닌 조성에서 팽화홍미삼은 홍미삼에 비해 $Rb_1$, $Rb_2$, Rc, Re, $Rg_1$함량이 다소 감소하였으나 Rd와 $Rg_3$함량은 증가하였고, 특히 $Rg_3$함량은 0.49 mg/g에서 0.72 mg/g로 증가하였다. 가용성 총당은 팽화전후 비슷하였고, 산성다당체 함량은 각각 7.15, 6.44%로 팽화후 다소 감소하였다. 총페놀함량은 7.86%에서 9.94%로 증가하였다. 개별 페놀산의 경우 gentisic acid는 홍미삼에서만, salicylic acid는 팽화후 홍미삼에서만 검출되었고, gallic acid, p-coumaric acid, caffeic acid 및 ferulic acid 등은 팽화로 크게 감소한 반면 syringic acid는 약 6배 증가하였다. 팽화후 홍미삼의 절단면 미세구조는 팽화전보다 훨씬 균일화한 입자모양을 나타내었으며, 팽화전후 펩신소화율은 각각 22.4, 46.2%로 통계적으로 유의한 차이가 있었다 (p<0.05). 본 결과는 팽화처리에 의해 홍미삼의 생리활성성분의 증가와 기호성 및 소화율을 높일 수 있음을 시사하는 것으로 판단되었다.

Keywords

References

  1. Ha, D. C. and Ryu, G. H. : Chemical components of red, white and extruded root ginseng. J. Korea Soc. Food Sci. Nutr. 34(2), 247-254 (2005) https://doi.org/10.3746/jkfn.2005.34.2.247
  2. Park, C. K., Jeon, B. S. and Yang, J. W. : The chemical components of Korean Ginseng. Food Industry and Nutrition 8, 10-23 (2003)
  3. Shibata, S. : Studies on constituents of Japanese and Chinese crude drugs XI. Panaxadol, a sapogenin of ginseng roots(1). Chem. Pharm. Bull. 11, 59-76 (1973)
  4. Horhammer, L., Wagner, H. and Lay, B. : Zur Kenntnis der Inhartsstoffevon radix Panax ginseng C.A. Meyer, Pharm. Ztg. 106, 1307-1311 (1961)
  5. Han, B. H. : Current status of Korean ginseng research. Korean J. Pharmacol. 3(3), 151-160 (1972)
  6. Kitakawa, I., Taniyama, T., Yoshikawa, M., Ikenishi, Y. and Nakagawa, Y. : Chemical studies on crude drug Processing VI. Chemical Structures of malonyle-ginsenosides $Rb_1,\;Rb_2$, Rc and Rd isolated from the root of panax ginseng C. A. Meyer. Chem. Pharm. Bull. 37(11), 2961-2970 (1989) https://doi.org/10.1248/cpb.37.2961
  7. Zhang, S., Takeda, T., Zhu, T., Chen, Y., Yao, X., Tanaka, O. and Okihara, Y. : A new minor saponin from the leaves of panax ginseng. Plant Med. 56, 298-300 (1990) https://doi.org/10.1055/s-2006-960963
  8. Choi, H. J., Zhang, Y. B., An, B. J. and Choi, C. : Identification of biologically active compounds from Panax ginseng C.A. Meyer. Korean J. Food Sci Technol. 34(3), 493-497 (2002)
  9. Kwak, Y. S., Park, J. D. and Yang, J. W. : Present and prospect of red ginseng efficacy research. Food Industry and Nutrition 8(2), 30-37 (2003)
  10. Han, B. H., Park, M. H. and Han, Y. N. : Studies on antioxidant components of Korean ginseng. Identification of phenolic acid. Arch. Pharm. Res. 4, 53-58 (1981) https://doi.org/10.1007/BF02856441
  11. Wee, J. J., Park, J. D. and Kim, M. W. : Structural study on permethyl ether of new polyphenolic compound isolated from panax ginseng. Korean J. Ginseng Sci. 14, 27-29 (1990)
  12. Choi, M., Shin, G. J., Choi, G. P., Do, J. H. and Kim, J. D. : Synergistic effects of extracts from Korean red ginseng, Saururus chinensis(Lour.) Baill. and Rubus coreanus Miq. on antioxidative activities in rats. Korean J. Medicinal Crop Sci. 14(1), 27-30 (2003)
  13. Han, B. H., Park, M. H. and Wee, J. J. : Studies on antioxidant components of Korean ginseng (V). The mechanism of antioxidant activity of maltol and phenolic acid. Korean Biochem. J. 18, 337-340 (1985)
  14. Lee, S. E., Lee, S. W., Bang, J. K., Yu, Y. J. and Seong, N. S. : 2001. Antioxidant activities of leaf, stem, and root of Panax ginseng C.A. Meyer. Korean J. Medicinal Crop. Sci. 12(3), 237-242 (2001)
  15. Korea Ginseng & Tobacco Research Institute. 1994. Korean ginseng: Chapter 5. Process of ginseng. Korea Ginseng & Tobacco Research Institute. p. 43-62
  16. Suh, C. S. and Chun, J. K. : Relationships among the roasting conditions, colors and extractable solid contents of roasted barley. Korean J. Food Sci. 13(4), 334-339 (1981)
  17. Harper, J. M. : Food extruders and their application. In Extrusion Cooking. Mercier C. Linko P, Harper JM, eds. AACC, St. Paul, MN. p. 1-8 (1989)
  18. Whang, J. K., Kim, C. T., Hong, S. I. and Kim, C. J. : Solubilization of plant cell walls by extrusion. J. Korea Soc. Food Nutr. 23, 358-370 (1994)
  19. Ryu, G. H. and Lee, J. W. : Development of extrusion process on red ginseng from raw ginseng and its products. Final Report of Venture Research. Ministry of Health and Welfare, Seoul (2003)
  20. Namba, T., Yoshizaki, M., Tomimori, T., Kobashi, K., Matsui, K. and Hase, J. : Fundamental studies on evaluation of the crude drugs. I. Chemical and biochemical evaluation of ginseng and related crude drugs. Yakugaku Azsshi 94, 252-258 (1974) https://doi.org/10.1248/yakushi1947.94.2_252
  21. Ando, T., Tanaka, O. and Shibata, S. : Chemical studies on the oriental plants drugs. (XXY) comparative studies on the saponins and sapogenins of ginseng and related crude drugs. Yakugaki Nutr Zasshi 25, 28-32 (1971)
  22. Dubois, M., Gilles, K. A., Hamilton, J. K., Robers, P. A. and Smith, F. : Colorimetric method for determination of sugar and related substances. Anal. Chem. 28, 350-356 (1956) https://doi.org/10.1021/ac60111a017
  23. Do, J. H., Lee, H. O., Lee, S. K., Jang, J. K., Lee, S. D. and Sung, H. S. : Colorimetric determination of acidic polysaccharide from Panax ginseng, its extraction condition and stability. Korean J. Ginseng Sci. 17, 139-144 (1993)
  24. Singleton, V. L. and Rossi, J. A. Jr. : Colorimetry of total phenolic with phosphomolybdic phosphotungstric acid reagent. American J. of Enology and Viticulture 16, 144-158 (1965)
  25. McDogall, E. I. : Studies on ruminant saliva. 1. The composition and output of sheep's saliva. Biochem. J. 43, 99-109 (1948) https://doi.org/10.1042/bj0430099
  26. Van Soest, P. J., Robertson, J. B. and Lewis, B. A. : Methods for dietary, fiber, neutral detergent fiber, and non-starch polyssacharides in relation to animal nutrition J. Dairy Sci. 74, 3583-3597 (1991) https://doi.org/10.3168/jds.S0022-0302(91)78551-2
  27. Yoon, S. R., Lee, M. H., Park, J. H., Lee, I. S., Kwon, J. H. and Lee, G. B. : Changes in physicochemical components with heating treatment of ginseng. J. Korean Soc. Food Sci. Nutr. 34(10), 1572-1578 (2005) https://doi.org/10.3746/jkfn.2005.34.10.1572
  28. Park, M. H., Park, C. K., Lee, K. S. and Kim, K. C. : Changes in the physicochemical properties of ginseng by roasting. Korean J. Ginseng Sci. 20, 184-187 (1993)
  29. Yang, S. J., Woo, K. S., Yoo, J. S., Kang, T. S., Noh, Y. H., Lee, J. S. and Jeong, H. S. : Changes of Korean ginseng components with high temperature and pressure treatment. Korean J. Food Sci. Technol. 38(4) 521-525 (2006)
  30. Min, K. C. and Jo, J. S. : Studies on the nonstarchy polysaccharide of Korean ginseng, Panax ginseng C.A. Meyer 1. Contents and composition of dietary fiber, hemicellulose, cellulose, lignin and pectin. Korean J. Ginseng Sci. 8, 91-104 (1984)
  31. Shin, J. Y. : New methods for separation and analysis of saponins and fat-soluble non-saponin components in ginseng. Graduate School, Seoul Women's University, Seoul (2000)
  32. Park, M. K., Park, J. H., Kim, K. H. and Han, S. B. : Analysis of aromatic acids in Panax Ginseng by gas chromatography. Yakhak Hoeji 38, 389-393 (1994)
  33. Jung, M. Y., Jeon, B. S. and Bock, J. Y. : Free, esterified and insoluble-bound phenolic acids in white and red Korean ginseng(Panax ginseng C.A. Meyer). Food Chemistry 79, 105-111 (2002) https://doi.org/10.1016/S0308-8146(02)00185-1
  34. Wee, J. J., Heo, J. N. and Kim, M. W. : Analysis of phenolic components in Korean red ginseng by GC/MS. Korean J. Ginseng Sci. 20, 284-290 (1996)
  35. Hwang, E. Y., Kong, Y. H., Lee, Y. C., Kim, Y. C., Yoo, K. M., Jo, Y. O. and Choi, S. Y. : Comparison of phenolic compounds contents between white and red ginseng and their inhibitory effect on melanin biosynthesis. J. Ginseng Res. 30(2), 82-87 (2006) https://doi.org/10.5142/JGR.2006.30.2.082
  36. Okuda, H. : Inhibitory substances in Korean red ginseng toward toxo-hormone-L: A toxic substance secreted from tumor cells. The Ginseng Review 15, 34-37 (1992)

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