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A Research Trend of Natural Product on Well-Being Industry  

Kim Ki Ho (R&D Center, Bioland Ltd.)
Ko Kang Il (R&D Center, Bioland Ltd.)
Kang En Jung (R&D Center, Bioland Ltd.)
Yang En Kyung (R&D Center, Bioland Ltd.)
Park Soo Nam (Department of Fine Chemistry, Seoul National University of Technology)
Publication Information
Journal of the Society of Cosmetic Scientists of Korea / v.30, no.3, 2004 , pp. 329-343 More about this Journal
Abstract
Recently, our society has prominently raised the desire to well-being life since not only our economical situations are better than before, but environmental pollution become serious. In well-being trends, the natural or nature-related products are also issued on their usages as bio-/raw materials for our living industries, such as cosmetics, household goods, and so on. Especially, various materials which comes from medicinal plants has been discovered their physiological properties and validated their functions. Thus, they have been subjected to several processes, including extraction, isolation and concentration, and popularly introduced to cosmetic industry. In these reasons, a variety of cosmetic Products using natural materials has been developed, which are focused on whitening, wrinkle improvement, and anti-aging. In this report, we present a brief review of the function and classification of natural products interested in until now, and introduce the natural materials for cosmetics having physiological activities on skin, including Fructan, Acrea extract, Portulaca extract, Licorce extract, Dandelion extract, Ulmus extract, SC-glucan, Arbutin, and Sophora extract.
Keywords
well-being; natural product; cosmetic materials; whitening; wrinkle improvement;
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1 특허청 약품화학심사담당관실, 2003 신기술동향조사 보고서: 천연물 의약 및 화장품, 특허청, 대전, vol. I, II (2003)
2 약용 천연물의 기능연구, 건강산업신문사, 도쿄, 일본, 197 (1999)
3 G. A. F. Hendry and R. K. Wallace, The origin, distribution, and evolutionary significance of fructan, in Science and Technology of Fructans, M. Suzuki and N. J. Chatterton Eds., CRC Press, Boca Raton, FL. 119 (1993)
4 T. N. Warner and C. H. Miller, Cell-associated levan of Actinomyces viscosus, Infect. Immun., 19, 711 (1978)
5 이재섭, 양은경, 이정하, 김철호, 박수남, 이종원, 김기호, Zymomonas mobilis에 의해 생성된 Fructan (Levan)의 특성 및 화장품 원료로의 개발, 대한화장품학회지, 28(1), 186 (2002)
6 S. O. Kang, K. K. Lee, and J. D. Choi, Free radical scavenging activity and charcaterization of the extracts from Alpinia katsumadai and Areca catechu, J. Cosmet. Sci., 27(1), 133 (2001)
7 K. K. Lee and J. D. Choi, Areca catechu L. extract. I. Effect on elastase and aging, J. Cosmet. Sci., 49, 285 (1998)
8 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 227 (1999)
9 M. Takeyoshi, S. Noda, and K. Yamasaki, Differences in responsiveness of mouse strain against p-benzoquinone as assessed by non-radioisotopic murine local lymph node assay, Exp Anim., 53(2), 171 (2004)
10 C. H. Jeong and K. H. Shim, Tyrosinase inhibitor isolated from the leaves of Zanthoxylum piperitum, Biosci Biotechnol Biochem., 68(9), 1984 (2004)
11 K. H. Lee, E. K. Jeon, S. Y. Yoo, and M. J. Oh, Antioxidative activity of Ulmus cortex extract, Korean J. Postharvest Sci, Technol., 7(4), 373 (2000)
12 KR Patent 10-0407455 (2003)
13 J. Yamahara, M. Mochizuki, H. Fujimura, Y. Takaishi, M. Yoshida, T. Tomimatsu, and Y. Tamai, Antiulcer action of sophora flavescens root and active constituent I, J Ethnopharmacol., 29(2), 173 (1990)   DOI   ScienceOn
14 약용 허브의 기능연구, 건강산업신문사, 도쿄, 일본, 122 (1999)
15 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 137 (1999)
16 M. S. Lee, Looking at 'Well-Being' in terms of lifestyle: Healthy or trendy, Korean Living Science Assoiation, 13(3), 477 (2004)
17 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 279 (1999)
18 S. N. Park, Protective effect of isoflavone, genistein from soybean on singlet oxygen induced photohemolysis of human erythrocytes, Korean J. Food Sci. Technol., 35, 510 (2003)
19 P. J. Dykes, M. J. Edwards, O. V. Merrett, H. E. Morgan, and R. Marks, In vitro reconstruction of human skin: The use of skin equivalents as potential indicators of cutaneous toxicity, Toxic. In Vitro, 5, 1 (1991)
20 약용 허브의 기능연구, 건강산업신문사, 도쿄, 일본, 19 (1999)
21 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 508 (1999)
22 J. W. Jo, Encyclopedia of oriental medicine, Vol. 10, Kyeung Hee University Press, Seoul, Korea, 514 (1999)
23 E. A. H. Pilon-Smits, M. J. M. Ebskamp, M. J. Paul, M. J. W. Jeucen, P. J. Weisbeek, and S. C. M. Smeekens, Improved performance of transgenic fructan-accumulating tobacco under drought stress, Plant Physiol., 107, 125 (1995)   DOI
24 K. Tanaka, T. Karigane, S. Fujii, T. Chinzaka, and S. Niagamura, Intermolecular fructosyl and levan biosyl transfers by levan fructotransferase of Arthrobacter ureafaciens, J. Biochem (Tokoyo)., 97, 1679 (1985)
25 약용 허브의 기능연구, 건강산업신문사, 도쿄, 일본, 139 (1999)
26 M. J. Pabst, Levan and levansucrase of Actinomyces viscosus, Infect. Immun., 15, 518 (1977)
27 G. D. Bonnett, I. M. Sims, R. J. Simpson, and A. J. Cairns, Structural diversity of fructan in relation to the taxonomy of the Poaceae, New Phytologist, 136, 11 (1997)
28 R. Lesher, Levan Production by Rothia Dentocariosa And Its Biological Activity, Ph.D. Dissertation, West Virginia University, U.S.A. (1976)
29 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 750 (1999)
30 T. Tanaka, S. Yamamoto, S. Oi, and T. Yamamoto, Structures of heterooligosaccharides synthesized by levansucrase, J. Biochem. (Tokyo), 90, 521 (1981)
31 I. K. Cohen, R. F. Diegelmann, and W. J. Lindblad, Wound Healing: Biochemical and Clinical Aspects, Saunders, (1992)
32 약용 허브의 기능연구, 건강산업신문사, 도쿄, 일본, 187 (1999)
33 A. Fuchs, Synthesis of levan by pseudomonas, Nature (London) 178, 921 (1956)
34 D. G. Massey, Y. K. Chien, and G. Fournier-Massey, Mamane:scientific therapy for asthma, Hawaii Med J., 53(120), 350 (1994)
35 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 438 (1999)
36 E. Racz-Kotilta, G. Racz, and A. Solomon, The action of Taraxacum officinale extracts on the body weight and diuresis of laboratory animals, Planta Med, 26, 212 (1974)
37 T. J. Kim, Korean resources plants. Vol. 4, Seoul National University Press, Seoul, Korea, 307 (1996)
38 KR Patent 10-0445430 (2004)
39 KR Patent 10-0328877 (2002)
40 약용 허브의 기능연구, 건강산업신문사, 도쿄, 일본, 34 (1999)
41 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 438 (1999)
42 C. A. Williams, F. Goldstone and J. Greenham, Flavonoids, cinnamic acids and coumarins from the different tissues and medicinal prepapations of Taraxacum officinale, Phytochemistry, 42(1), 121 (1996)
43 J. K. Kim, Illustrated natural drugs encyclopedia. Vol. 1, Namsundang, Seoul, Korea, 77 (1997)
44 Arbutin: Mechanism of its depigmenting action in human melanocyte culture, The Journal of Pharmacology and Experimental Therapeutics, 276, 765 (1996)
45 Z. Qin, H. Den, and H. Zhuang, Effect of oxymatrine on prolonging the survival time of cardiac tissue allograft in mice and its immunologic mechanisms, Zhong Yi jie He Za Zhi., 10(2), 99 (1990)
46 K. S. Mun, Components and uses of medical plants, Ilweolseogak, Seoul, Korea, 547 (1999)
47 N. D. Hong, Y. S. Rho, N. J. Kim, and J. S. Kim, Studies on the constiyuents of Ulmi cortex, Kor. J. Pharmcogn., 21(3) , 201 (1990)
48 R. Dedonder and C. Peaud-Lenoel, Studies on the levansucrase of Bacillus subtilis. I. Production of levans and levansucrase (levan-succharotransfructo-sidase) by cultures of Bacillus subtilis, Bull. Soc. Chim. Biol. (Paris), 39, 483 (1957)