Journal of Life Science (생명과학회지)

Korean Society of Life Science (한국생명과학회)
권호 표지
DOI QR코드

DOI QR Code

Antioxidation Activities of Organic Solvent Fractions Obtained from Seaweed, Hizikia fusiformis

톳(Hizikia fusiformis)에서부터 분리된 유기용매 분획물의 항산화활성

  • 김민정 (동아대학교 생명공학과) ;
  • 이혜현 (동아대학교 생명공학과) ;
  • 서민정 (Medi-Farm 산업화 연구사업단) ;
  • 강병원 (Medi-Farm 산업화 연구사업단) ;
  • 박정욱 (Medi-Farm 산업화 연구사업단) ;
  • 정영기 (동아대학교 생명공학과)
  • Received : 2012.07.23
  • Accepted : 2012.12.20
  • Published : 2013.03.30
Download PDF
⟨ Previous Next ⟩

Abstract

Hizikia fusiformis has been widely used in Oriental herbal medicine and health food. To identify antioxidation properties that contain natural bioactive substances, we investigated the distribution of active compounds existing in batches of organic solvent fractionation. A dried form of H. fusiformis was subjected to sequential fractionation using n-hexane, ethyl acetate, n-BuOH, and aqueous n-BuOH. The results showed that among the four isolated fractions, the n-BuOH fraction showed the highest antioxidation activities. The n-BuOH fraction was applied to reserve-phase silica gel column chromatography, which produced three fractions: BA, BB, and BC. Among these fractions, BB showed the highest antioxidation activities, which increased in a concentration-dependent manner. At a concentration of 1.0 mg/ml n-BuOH fraction, the activities of DPPH (1,1-diphenyl-2-picrylhydrazyl) radical scavenging and reducing power were approximately $45{\pm}0.14%$ and $1.34{\pm}0.23$, respectively. In addition, the activities of ${\beta}$-carotene-linoleic acid, hydrogen peroxide scavenging, and ABTS (2,2'-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid)) radical scavenging were $76{\pm}0.12%$, $82{\pm}0.06%$, and $65{\pm}0.17%$, respectively. These findings suggest that the BB fraction contains potent antioxidation properties and that it could be used in the production of natural and functional foods.

Hizikia fusiformis을 80% EtOH 추출물을 용매의 극성에 따라 n-hexane, ethyl acetate, n-BuOH, Aqueous n-BuOH fraction으로 순차적으로 분리하였다. 분리된 4개의 분획물 중에 항산화 활성이 높은 n-BuOH 분획물을 reserve-phase column chromatography를 실시하여 분리된 3개의 BA, BB, BC 분획물에 대한 항산화 활성을 검토하였다. 가장 항산화능이 높은 BB 분획물은 모든 실험에서 농도의존적으로 활성이 증가하는데, 시료의 농도가 1.0 mg/ml일때 DPPH radical scavenging activity와 Reducing power activity는 $45{\pm}0.14%$, $1.34{\pm}0.23$로 가장 높게 나타난다. ${\beta}$-carotene-linoleic acid activity와 Hydrogen peroxide scavenging activity도 $76{\pm}0.12%$$82{\pm}0.06%$로 가장 높았으며, ABTS radical scavenging activity도 $65{\pm}0.17%$의 활성을 나타낸다. 이상의 연구 결과에서, 최종 분리된 BB분획물은 높은 항산화능을 가진 물질을 함유하고 있을 것으로 예상되며, 이는 앞으로 새로운 천연 기능성 식품으로서의 이용 가능성을 시사하고 있다.

Keywords

References

  1. Anderson, D. 1999. Antioxidant defences against reactive oxygen spicies causing genetic and other damage. Mutation Res 350, 103-108.
  2. Brand-Williams, W., Cuvelier, M. E. and Berset, C. 1995. Use of a free radical method to evaluate antioxidant activity. Food Sci Technol 28, 25-30.
  3. Cho, K. J., Lee, Y. S. and Ryu, B. H. 1990. Antitumor effect and immunology activity of seaweeds toward sarcoma-180. J Korean Fish Soc 23, 345-352.
  4. Choi, S. I., Lee, Y. M. and Hoo, T. R. 2003. Screening of hyaluronidase inhibitory and free radical scavenging activity in vitro of traditional herbal medicine extracts. Koean J Biotech Bioeng 18, 282-288.
  5. Cutler, R. G. Antioxidants aging, and longevity. 1984. Free Radicals in Biology. pp. 371-423, 6th eds., In Pryor, W. A. (ed), Academic press.
  6. Gomes, A., Vedasiromoni, J. R., Das, M., Sharma, R. M. and Ganguly, D. K. 1995. Anti-hyperglycemic effect of black tea (Camellia sinensis) in rat. J Ethnopharmacol 45, 223-226. https://doi.org/10.1016/0378-8741(95)01223-Z
  7. Gordon, M. H. 1990. The mechanism of antioxidant action in vitro. In Food Antioxidant. pp. 1-18, In Hudson, B. J. F. (ed.), Elsevier Applied Science, London/New York.
  8. Haung, H. L. and Wang, B. G. 2004. Antioxidant capacity and lipophilic content of seaweeds collected from the Qungdao coastline. J Agric Food Chem 52, 4993-4997. https://doi.org/10.1021/jf049575w
  9. Hur, S. K., Kim, S. S., Heo, Y. H., Ahn, S. M., Lee, B. G. and Lee, S. K. 2001. Effect of the grapevine shoot extracton free radical scavenger activity and inhibition of pro-inflammatory mediator production in raw macrophages. J Appl Pharmacol 9, 188-193.
  10. Jeon, M. H. and Kim, M. 2011. Effect of Hijikia fusiforme fractions on proliferation and differentiation in osteoblastic MC3T3-E1 Cells. J Life Sci 21, 300-308. https://doi.org/10.5352/JLS.2011.21.2.300
  11. Jeong, D. S., Sohn, Y. K., Lee, Y. I., Yun, I. H. and Kim, J. K. 1986. Study on the chemical constituents and processings of Ganoderma lucidum. Ann Res Report 28, 140-148.
  12. Jeong, J. W., Lee, Y. C., Jung, S. W. and Lee, K. M. 1994. Flavor components of citron juice as affected by the extraction method. Korean J Food Sci Technol 26, 709-712.
  13. Jimenez-Escrig, A. and Cambrodon, I. G. 1999. Nutritional evaluation and physiological effects of edible seaweeds. Arch Latinoam Nutr 49, 114-120.
  14. Joung, E. Y. and Lee, S. K. 2007. Antioxidant activity and regeneration effect in HaCat cell by Jeju Island aboriginal Ecklonia cava. J Korean Soc Cosm 13, 1071-1077.
  15. Juma, B. F., Yenesew, A., Midiwo, J. O. and Waterman, P. G. 2001. Flavones and phenylpropenoids in the surface exudate of psiadia punctulata. Phytochemistry 57, 571-574. https://doi.org/10.1016/S0031-9422(01)00147-9
  16. Karawita, R., Siriwardhana, N., Lee, K. W., Heo, M. S., Yeo, I. K., Lee, Y. D. and Jeon, Y. J. 2005. Reactive oxygen species scavenging, metal chelatin, reducing power and lipid peroxidation inhibition properties of different solvent fractions from Hizikia fusiformis. Eur Food Res Technol 220, 363-371. https://doi.org/10.1007/s00217-004-1044-9
  17. Kim, H. K., Kim, Y. E., Do, J. R., Lee, Y. C. and Lee, B. Y. 1995. Antioxidative activity and physiological activity of some Korean medicinal plants. Korean J Food Sci Technol 27, 80-85.
  18. Kang, K., Park, Y., Hwang, H. J., Kim, S. H., Lee, J. G. and Shin, H. C. 2003. Antioxidative properties of brown algae polyphenolics and their perspectives as chemopreventive agents against vascular risk factors. Arch Pharm Res 26, 286-293. https://doi.org/10.1007/BF02976957
  19. Koing, G. M., Kehraus, S., Seibert, S. F., Abdel-Lateff, A. and Muller, D. 2005. Natural products from marine organism and their associated microbes. Chem Biochem 7, 229-238.
  20. Larson, R. A. 1988. The antioxidants of higher plants. Phytochemistry 27, 969-978. https://doi.org/10.1016/0031-9422(88)80254-1
  21. Lee, K. D., Chang, H. K. and Kim, H. K. 1997. Antioxidative and nitrite scavenging activities of edible mushrooms. Korean J Food Sci Technol 29, 432-436.
  22. Lee, S. K. 1997. Evaluation of cancer chemopreventive activity mediated by antioxidants and modulators of tumor promotion. Ph. D. Thesis, Illinois university, Chicago, USA.
  23. Lim, S. B., Kim, S. H., Ko Y. H. and Oh, C. K. 1995. Extraction yields of Hizikia fusiforme and Aloe vera Linne by supercritical carbon dioxide and antimicrobial activity of their extracts. Korean J Food Sci Technol 27, 68-73.
  24. Lim, S. N., Cheung, P., Ooi, V. and Ang, P. 2002. Evaluation of antioxidative activity of extracts from a brown seaweed, Sargassum siliquastrum. J Agric Food Chem 50, 3862-3866. https://doi.org/10.1021/jf020096b
  25. Matthaus, B. 2002. Antioxidant activity of extracts obtained from residues of different oilseeds. J Agric Food Chem 50, 3444-3452. https://doi.org/10.1021/jf011440s
  26. Miller, H. E. 1971. Simplified method for the evaluation of antioxidants. J Am Oil Chem Soc 48, 91.
  27. Moon, B. H., Lee, Y. S., Shin, C. S. and Lim, Y, H. Y. 2005. Complete Assignments of the 1H and 13C NMR Data of Flavone Derivatives. Bull Korean Chem Soc 26, 603-608. https://doi.org/10.5012/bkcs.2005.26.4.603
  28. Obata, T. and Yamanaka, Y. 1996. Effect of iron (II) on the generation of hydroxyl free radicals in rat mycocardium. Biochem Pharmacol 51, 1411-1413. https://doi.org/10.1016/0006-2952(96)84524-2
  29. Owen, T. A., Aronow, M. and Shahoub, V. 1990. Progressive development of the rat osteoblast phenotype in vitro: relationships in expression of genes associated with osteoblast proliferation and differentiation during formation of the bone extracellular matrix. J Cell Physiol 143, 420-430. https://doi.org/10.1002/jcp.1041430304
  30. Oyaizu, M. 1985. Studies on products of browning reaction prepared from glucoseamine. Jpn J Nutr 44, 307-314.
  31. Park, J. C. and Choi, J. W. 1996. Screenig of marine natural products on inhibitory effect of the formation of lipid peroxidation. Korean J Pharmacogn 27, 117-122.
  32. Park, K. E., Jang, M. S., Lim, C. W., Kim, Y. K., Seo, Y. G. and Park, H. Y. 2005. Anti-oxidant activity on ethanol extract from boiledwater of Hizikia fusiformis. J Korean Soc Appl Biol Chem 48, 435-439.
  33. Re, R., Pellegrini, N., Pannala, A., Yang, M. and Rice-Evans, C. 1999. Antioxidant activity applying an improved ABTs radical cation decolorization assay. Free Radical Biol Med 26, 1231-1237. https://doi.org/10.1016/S0891-5849(98)00315-3
  34. Yan, X., Nagata, T. and Fan, X. 1998. Antioxidative activities in some common seaweeds. Plant Foods Hum Nutr 52, 253-262. https://doi.org/10.1023/A:1008007014659
  35. Zhang, Q., Li, N., Zhou, G., Lu, X., Xu, Z. and Li, Z. 2003. In vivo antioxidant activity of polysaccharide fraction from Porphyra haitanesis (Rhodephta) in aging mice. Pharmacol Res 48, 151-155. https://doi.org/10.1016/S1043-6618(03)00103-8

Cited by

  1. Effects of Feral Haw (Crataegus pinnatifida BUNGE) Seed Extracts on the Antioxidant Activities vol.24, pp.4, 2014, https://doi.org/10.5352/JLS.2014.24.4.386
  2. Processing and Quality Characteristics of Glutinous Barley Gruel Containing Hizikia fusiformis vol.49, pp.3, 2016, https://doi.org/10.5657/KFAS.2016.0310
  3. Antioxidative activities of various solvent extracts from haw (Crataegus pinnatifida Bunge) vol.21, pp.2, 2014, https://doi.org/10.11002/kjfp.2014.21.2.246