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Analysis of Dyeing Components from Neolitsea sericea Koidz Bark  

Lee, Sang-Kueg (Korea Forest Research Institute)
Jo, Hyun-Jin (Korea Forest Research Institute)
Kim, Yun-Geun (Food Science Research Institute, Jinju National University)
Lee, Hak-Ju (Korea Forest Research Institute)
Kang, Ha-Young (Korea Forest Research Institute)
Publication Information
Journal of the Korean Wood Science and Technology / v.34, no.3, 2006 , pp. 64-72 More about this Journal
Abstract
Two compounds were isolated from the diethylether and ethyl acetate fraction of hot water extracts by TLC and column chromatography as dyeing components. The isolated compounds were characterized as H-dibenzoquinoline-2,10-diol,5,6,6a,7-tetrahydro-1,9-dimethoxy-6-methyl (compoundI) and lyoniresinol (compoundII) by NMR and Mass spectrophotometry. To investigate if the isolated compounds are involved in the dyeing process, HPLC analysis was used. The retention time of the components from dye used in the study and the dye decolorized from the dyed substrate, silk by ethyl acetate were compared to conform the identity of those compounds. The retention time of the components from the dye and decolorized solution were identical. As a results, those two compounds were considered as dye bound to the silk.
Keywords
Neolitsea sericea Koid; lyoniresinol; dibenzoquinoline; dyeing; dyeing component;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 남성우. 2000. 천연염색의 이론과 실제(1). 보성문화사. pp.1-15
2 임업연구원. 1987. 한국수목도감. pp.496.
3 홍성천, 변수현, 김삼식. 1987. 원색한국수목도감. 계명 사 pp.93
4 Kanchanapoom, T., R. Kasai, and K. Yamasaki. 2001. Lignan and phenylpropanoid glycosides from Fernandoa adenophylla. Phytochemistry 57: 1245-1248 8. Komae, H. and N. Hayashi. 1971. Palmitone and phytosterols from Neolitsei sericea. Phytochemistry 10: 1953-1954   DOI   ScienceOn
5 Zhang, Z., D. Guo, C. Li, J. Zheng, and K. Koike. 1999. Gaultherins A and B, two lignans from Gaultheria yunnanensis. Phytochemistry. 51: 469-472   DOI   ScienceOn
6 Marsaioli, A. J., F. A. M. Reis, A. F. Magalhaes, and E. A. Ruveda. 1979. $^{B}C$-NMR Analysis of apprphine alkaloids. Phytochemistry. 18: 165-169   DOI   ScienceOn
7 Kanchanapoom, T, M. S. Kamel, R. Kasai, K. Yamasaki, C Picheansoonthon, and Y. Hiraga. 2001. Lignan glucosides from Acanthus iliciiolius; Phytochemistry 56: 369-372   DOI   ScienceOn
8 Yano, K, T. Akihisa, R Kawaguchi, T. Tamura, and T. Matsumoto. 1992 24-Methylene-25-methylcydoartanol and 24$\alpha$ -ethyl-5$\alpha$ -chlestan-3$\alpha$-Ol from Neolitses seticee. Phytochemistry. 31: 1741-1746   DOI   ScienceOn
9 Piyanuch, T, S. Rutt, B. Rapepol, and V. Robert. 2004. Antioxidant lignan glucoside from Strychnos vanprukii. Fitoterapia. 75: 623-628   DOI   ScienceOn
10 Hanawa, F., M. Shiro, and Y. Hayashi. 1997. Heartwood constituents of Betula maximowieziana Phytochemistry 45: 589- 595
11 Komae, H. and N. Hayashi. 1971. Palmitone and phytosterols from Neolitsea sericea. Phytochemistry. 10: 1953-1954   DOI   ScienceOn
12 . Haq, A., A. Malik, A. T. H. Khan, A. Haq, S. B. Khan, A. Ahmad, and M. I. Chaudhary. 2005. Tyrosinase inhibitory lignans from the methanol extract of the roots of Vitex nejundo Linn. and their structure-activity relationship. Phytomedicine. 7: 235-240
13 Thongphasuk, P., R. Suttisri, R. Bavovada, and R. Berpoorte. 2004. Antioxidant lignan glucosides from Strychnos vanprukii. Fitoterapia. 75: 623-628   DOI   ScienceOn
14 Sharma, M. C, T Ohira, and M. Yatagai. 1994. Lanostane triterpenes from the bark of Neolitsea sericea. Phytochemistry 37: 201- 203   DOI   ScienceOn
15 Rehman, A. U., M Abdul, R. Naheed, A. Habib, N. S. Ahmad, and C. M. Iqba. 2005. Lipoxgenase inhibiting constituents from Indigofera hetrantha. Chemical & Pharmaceutical Bulletin. 53(3): 263-266   DOI   ScienceOn
16 Lin, L. Z., S. F. Hu, M. Chu, T. M. Chan, H. Chai, C. K. Angerhofer, J. M Pezzuto, and G. A.Cordell. 1999. Phenolic aporphine-benzylisoquinoline alkaloids from Thalietrum tsbeti. Phytochemistry 50: 829-834   DOI   ScienceOn