울산지역 생산 단감 과피.과육의 품종별 이화학적 특성 및 생리활성

Physicochemical Properties and Physiological Activities of Ulsan Sweet Persimmon Peel.Flesh According to Cultivars

  • 최정환 (울산광역시 보건환경연구원) ;
  • 이은영 (울산광역시 보건환경연구원) ;
  • 김경진 (울산광역시 보건환경연구원) ;
  • 박인해 (울산광역시 보건환경연구원) ;
  • 김종수 (울산광역시 보건환경연구원) ;
  • 최길배 (울산광역시 보건환경연구원) ;
  • 정수근 (울산광역시 보건환경연구원) ;
  • 함유식 (울산광역시 보건환경연구원)
  • Choi, Jeong-Hwan (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Lee, Eun-Young (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Kim, Gyung-Jin (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Park, In-Hae (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Kim, Jong-Su (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Choi, Gil-Bae (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Jung, Su-Geun (Food and Drug Research Division, Ulsan Institute of Health and Environment) ;
  • Ham, Yu-Sik (Food and Drug Research Division, Ulsan Institute of Health and Environment)
  • 발행 : 2006.12.31

초록

울산지역에서 생산된 단감의 품종 및 부위의 생리활성을 체계적으로 조사하고자, 주요성분과 70% 에탄올 추출물의 전자공여능 등을 분석한 결과는 다음과 같다. 일반성분 함량은 수분 $77.68{\sim}84.65%$, 조회분 $0.3{\sim}0.6%$, 조지방 $0.29{\sim}0.39%$, 조단백질 $0.52{\sim}0.61%$로 나타났다. 확인된 유기산 및 유리당은 각각 malic acid, citric acid, succinic acid, fumaric acid 및 glucose, fructose, sucrose 이었다. 지방산은 linolenic acid, vaccenic acid, palmitic acid가 주된 지방산이었고, 무기질의 함량은 K이 $84.9{\sim}103.7mg%$로 가장 높아 전체 무기질의 약 60% 이상을 차지하였다. 비타민 C, 총페놀성화합물 및 총플라보노이드 함량은 각각 139.91, 169.36 및 60.79mg%로 부유과피에서 가장 높았다. 전자공여능 및 xanthine oxidase 저해활성은 부유과피가 각각 $30.6{\sim}91.2$$26.3{\sim}91.9%$로 가장 높았고, 아질산염소거능은 과피가 $51.0{\sim}76.4%$로 과육에 비해 높았으며, 품종별 차이는 없었다.

This study was performed to confirm the physicochemical properties and physiological activities according to cultivar and parts of Ulsan sweet persimmons. The proximate composition of the sweet persimmons was moisture $77.68{\sim}84.65%$, crude ash $0.3{\sim}0.6$, crude fat $0.29{\sim}0.39$ and crude protein $0.52{\sim}0.61%$. Confirmed organic acids and free sugars in sweet persimmons were malic, citric, succinic, and fumaric acids, along with fructose, glucose and sucrose. The major fatty acids were linolenic, vaccenic and palmitic acids. Also, K is the highest mineral in sweet persimmons that accounts for the majority of mineral, more than 60% as $84.9{\sim}103.7mg%$. Contents of vitamin C, total phenolic compounds and flavonoids were the highest in Fuyu peel as 139.91, 169.36 and 60.79mg%, respectively, Electron donating ability and xanthine oxidase inhibition were the highest in Fuyu peel as $30.6{\sim}91.2$ and $26.3{\sim}91.9mg%$, respectively. Nitrite scavenging activity was higher in peel than flesh as $51.0{\sim}76.4mg%$ with slight difference depending on cultivar.

키워드

참고문헌

  1. Kang, C. K. (1990) A Historical Study on Fruits in Korea. Korean. J. Dietary Culture. 5, 301-312
  2. 江蘇新醫院編. (1978) In 中藥大事典. 上海科學技術出版社, 上海, p. 15
  3. Yang, Y. J. (1996) Characteristics and Distribution of Carotenoid Pigments in Peel of Fuyu Sweet Persimmon Fruit During Cold and Storage. J. Kor. Soc. Hort. Sci. 37, 787-790
  4. Kim, M. S., Oh, S. D. and Son, D. S. (1999) Effect of Seedlessness on the Incidence of Flesh Browning during MA Storage in Non-astringent Persimmons (Diospyros kaki L.). J. Kor. Soc. Hort. Sci. 40, 79-82
  5. An, G. H., Song, W. D., Choi, S. J. and Lee, D. S. (2004) The Association of Post-Storage Physiological Disorder Incidence with Respiration and Ethylene Production in Fuyu Persimmon Fruits. Korean J. Food Sci. Technol. 36, 283-287
  6. Park, Y. S. amd Kim, S. R. (2002) Effects of Prestorage Conditioning and Hot Water Dip on Fruit Quality of Nonastringent Fuyu Persimmons during Cold Storage. J. Kor. Soc. Hort. Sci. 43, 58-63
  7. Son, K. M., Kim, K. H., Sung. T. S., Kim, J. H., Shin, D. J., Jeong, J, Y. and Bae, Y. I. (2002) Physicochemical Characteristics of Sweet Persimmon by Heating Treatments. Korean J. Food & Nutr. 15, 144-150
  8. Ahn, G. H., Song, W. D., Park, D. S., Lee, Y., Lee, D. S. and Choi, S. J. (2001) Package Atmosphere and Quality as Affected by Modified Atmosphere Conditions of Persimmon (Diospyros kaki. cv. Fuyu) Fruits. Korean J. Food Sci. Technol. 33, 200-204
  9. Lee, Y. J. (2001) Discoloration Disorder as Influenced by Sealing Methods of PE Film Bag in MAP Storage of Fuyu Persimmon Fruit. J. Kor. Soc. Hort. Sci. 42, 721-724
  10. Cho, J. L., Kang, S. M., Lim, J. M., and An, J. H. (2001) Effect of Gas Composition in Polyethylene Film Bags on Storability of Fuyu (Diospyros kaki Thunb.) Persimmon Fruit. Kor. J. Hort. Sci. Technol. 19, 550-554
  11. Bae, S. M., Park, K. J., Kim, J. M., Shin, D. J., Hwang, Y. L and Lee, S. C. (2002) Preparation and Characterization of Sweet Persimmon Wine, J. Korean Soc. Appl. Biol. Chem. 45, 66-70
  12. Chung, J. Y., Kim, K. H., Shin, D. H. and Son, G. M. (2002) Effects of Sweet Persimmon Powder on the Characteristics of Bread, J. Korean Soc. Food Sci. Nutr. 31, 738-742 https://doi.org/10.3746/jkfn.2002.31.5.738
  13. Bae, S. M., Park, K. J., Kim, J. M., Shin, D. J., Hwang, Y. L and Lee, S. C. (2001) Preparation and Characterization of Jochung with Sweet Persimmons. J. Korean Soc. Appl. Biol. 44, 88-91
  14. Cheon, S. U., Yun, J. S. and Bu, H. O. (2004) Allelopathic and Antioxidant Activities of Extracts and Residues from Persimmon (Diospyros kaki Thunb.) Leaves. Korean J. Weed Science. 24, 21-29
  15. Shin, D. J., Kim, K. H., Sung. T. S., Kim, J. H., Son, G. M. and Hwang, Y. I. (2000) Physicochemical Properties of Prepersimmon. Korean J. Food & Nutr. 13, 440-445
  16. Choi, S. J., Yang, Y. J. and Lee, C. H. (1998) The Phlysiological Properties of Fuyu Persimmon Fruits Suffering from Blossom-End Browning Disorder. J. Kor. Soc. Hort. Sci. 9, 741-744
  17. Turkelson, V. T. and Richards, M. (1978) Separation of the citric acid cycle acids by liquid chromatography, Anal. Chem. 50, 1420-1429 https://doi.org/10.1021/ac50033a012
  18. Buslig, B. X., Wilson, C. W. and Shaw, P. E. (1982) Highperformance liquid chromatographic separation of carboxylic acids with anion-exchange and reverse-phase columns, J. Agric. Food chem. 30, 342-345 https://doi.org/10.1021/jf00110a032
  19. AOAC (1990) In Official methods of analysis (15th ed.) Association of official analytical chemist. Washington D.C., p. 70
  20. AOAC (1990) In Official methods of analysis (15th ed.) Association of official analytical chemist. Washington D.C. p. 963
  21. AOAC (1955) In Official methods of analysis (8th ed.) Association of official analytical chemists, Washington D.C., p. 144
  22. Kim, M. Y. (2002) Isolation and identification of antioxidative flavonol compounds from Korean garlic by-products. Ph.D. Thesis, Kyungpook National University, Daegu
  23. Williams, B.W., Cuvelier, M.E. and Berset, C. (1995) Use of free radical method to evaluate antioxidant, Lebensm.-Wiss.-u.- Technol. 28, 25-30 https://doi.org/10.1016/S0023-6438(95)80008-5
  24. Gray, J. I. and Dugan, J. L. R. (1995) Inhibition of Nnitrosoamine formation in model food system. J. Food Sci. 40, 978-985
  25. Noro, T., Oda, Y., Miyase, T., Ueno, A. and Fukusshima, S (1983) Inhibitors of xanthine oxidase from the flower and buds of Daphne Genkwa. Chem. Pharm. Bull. 31, 3982-3990
  26. National rural living science institute, R.D.A. (2001) In Food composition table
  27. Hendrik van Gorsel, Chingying Li, Eduardo L. Kerbel, Mirjam Smits, and Adel A. Kader (1992) Compositional Characterization of Prune Juice. J. Agric Food Chem. 40, 784-789 https://doi.org/10.1021/jf00017a016
  28. Choi, H. J., Son, J. H., Woo, H. S., An, B. J., Bae, M. J. and Choi, C. (1998) Changes of Composition in the Species of Persimmon Leaves (Diospyros kaki folium) during Growth. Korean J. Food Sci. Technol. 30, 529-534
  29. Zhang, Y. B. (2002) Isolation and identification of biologically active materials from Korean pear Pyus pyritolia Nikai. Ph.D. Thesis, Yeungnam University
  30. Lee, J. H. and Lee, S. R. (1994) Analysis of phenolic substances content in Korean plant foods. Korean J. Food Sci. Technol. 26, 310-316
  31. Kim, S. K., Lim, J. H., Kim, Y. C., Kim, M. Y., Lee, B. W. and Chung, S. K. (2005) Chemical composition and quality of persimmon peels according to cultivars. J. Korean Soc. Appl. Biol. Chem. 48, 70-76
  32. An, B. J., Lee, J. T., Kwak, J. H., Park, J. M., Lee, J. Y., Son, J. H., Bae, J. H. and Choi, C. (2004) Biological Activity of Polyphenol Group Fraction from Korean Pear Peel. J. Korean Soc. Appl. Biol. Chem. 47, 92-95
  33. Lee, S. E., Seong, N. S., Park, C. G. and Seong, J. S. (2002) Screening for antioxidative of oriental medicinal plant materials. Kor. J. Medicinal Crop. Sci. 10, 171-176
  34. Jeong, C. H., Joo, O. S. and Shim, K. H. (2002) Chemical components and physiological activities of young Mulberry (Morus alba) stem. Korean J. Food Preservation 9, 228-233
  35. Lee, J. T. and An, B. J. (2002) Detection of physical activity of Salicornia herbacea. Kor. J. Herbology 17, 61-69
  36. Kim S. B., Do J. R., Lee Y. W., Gu Y. S., Kim C. N. and Park Y. H. (1990) Nitrite-scavenging effects of roasted-barley extract according to processing conditions. Korean J. Food Sci. Technol. 22, 748-752
  37. Masayoshi, I., Ayako, M., Yoshiko, M., Nahoko, T. and Michi, F. (1985) Inhibition of xanthine oxidase by flavonoids. Agric. Biol. Chem. 49, 2173-2176
  38. Hayashi, T., Sawa, K., Kawasaki, M., Arisawa, M., Shimizu, M. and Morita, M. (1988) Inhibition of cow's milk xanthine oxidase by flavonids. J. Natural Products. 51, 345-348 https://doi.org/10.1021/np50056a030
  39. Hatano, T., Yashimura, T., Yoshihara, R., Ikegami, Y., Matsuda, M., Yazaki, K., Agata, I., Nishibe, S. and Noro, T. (1991) Inhibitory effect of galloylated flavonoids on xanthine oxidase. Plant Med. 57, 83-84 https://doi.org/10.1055/s-2006-960028