Browse > Article
http://dx.doi.org/10.5658/WOOD.2010.38.5.439

Chlorinated Hydroquinone Derivatives of Fruiting Body of Russula subnigricans  

Kwon, Dong-Joo (Department of Forest Biomaterials Engineering, College of Forest and Environmental Sciences, Kangwon National University)
Bae, Young-Soo (Department of Forest Biomaterials Engineering, College of Forest and Environmental Sciences, Kangwon National University)
Publication Information
Journal of the Korean Wood Science and Technology / v.38, no.5, 2010 , pp. 439-443 More about this Journal
Abstract
The 95% aqueous EtOH extract was obtanied from the fruiting body of Russula subnigricans. Repeated silica gel column chromatography and preparative TLC afforded one fatty acid and three chlorinated hydroquinone derivatives. They were identified as nonadecanoic acid (1), 2,6-dichloro-4-methoxyphenol (2), russuphelin A (3), and russuphelin E (4) on the basis of several spectral data (MS, $^1H$ and $^{13}C$-NMR, including HMBC).
Keywords
Russula subnigricans; peparative TLC; chlorinated hydroquinone; russuphelin A; russuphelin E;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Takahashi, A., T. Agatsuma, M. Matsuda, T. Ohta, T. Nunozawa, T. Endo, and S. Nozoe. 1992. Russuphelin A, a new cytotoxic substance from the mushroom Russula subnigricans Hongo. Chemical and Pharmaceutical Bulletin 40(12): 3185-3188.   DOI   ScienceOn
2 Takahashi, A., T. Agatsuma, T. Ohta, T. Nunozawa, T. Endo, and S. Nozoe. 1993. Russuphelins B, C, D, E and F, new cytotoxic substances from the mushroom Russula subnigricans Hongo. Chemical and Pharmaceutical Bulletin 41(10): 1726-1729.   DOI   ScienceOn
3 Yoo, J. C, J. M. Han, S. K. Nam, K. S. Baik, J. S. Jo, and C. N. Seong. 2002. Characterization of a Streptomycete isolated producing the potent cytotoxic substance, nonadecanoic acid. The Journal of Microbiology 40(2): 178-181.
4 Al Dulayymi, J. R., M. S. Baird, and E. Roberts. 2005. The synthesis of a single enantiomer of a major $\alpha$-mycolic acid of M. tuberculosis. Tetrahedron 61 (50): 11939- 11951.   DOI   ScienceOn
5 Budimir, N., J. C. Blais, F. Fournier, and J. C. Tabet. 2007. Desorption/ionization on porous silicon mass spectrometry (DIOS) of model cat-ionized fatty acids. Journal of Mass Spectrometry 42(1): 42-48.   DOI   ScienceOn
6 Haggblom, M. M., J. H. A. Apajalahti, and M. S. Salkinoja-Salonen. 1988. O-methylation of chlorinated para-hydroquinones by Rhodococcus chlorophenolicus. Applied and Environmental Microbiology 54(7): 1818-1824.
7 Imazeki, R. and T. Hongo. 1989. Colored illustration of mushroom of Japan Vol. II. hoikusha Publishing Co., Ltd., Osaka, pp. 47.
8 Kim, T., B. David, S. Agnes, P. Ron, L. Brian, M. Marian, B. Patrice, and J. T. Mary. 2009. Spore Prints Newsletter. Bulletin of the Puget Sound Mycological Society 454:1-8.
9 Knuutinen, J., P. Autio, P. Klein, S. Kivela, L. Virkki, and M. Lahtipera. 1988. Synthesis and structure verification of chlorinated 4-methox-yphenols, models of metabolites of chlorophenolic compounds. Chemosphere 17(9): 1821-1829.   DOI   ScienceOn
10 Kusano, G., H. Ogawa, A. Takahashi, S. Nozoe, and K. Yokoyama. 1987. A new amino acid, (2S,3R)-(-)-3-hydroxybaikiain from Russula subnigricans Hongo. Chemical and Pharmaceutical Bulletin. 35(8): 3482-3486.   DOI
11 Ohta, T., A. Takahashi, M. Matsuda, S. Kamo, T. Agatsuma, T. Endo, and S. Nozoe. 1995. Russuphelol, a novel optically active chlorohy-droquinone tetramer from the mushroom Russula subnigricans. Tetrahedron Letters 36(29): 5223-5226.   DOI   ScienceOn
12 Pavia, D. L., G. M. Lampman, and G. S. Kriz. 2001. Introduction to spectroscopy. Thomson Learing. Washington, pp. 402.
13 Reddy, G. V. B., M. D. S. Gelpke, and M. H. Gold. 1998. Degradation of 2,4,6-trichlorophenol by Phanerochaete chrysosporium: Involvement of reductive dechlorination. Journal of Bacteriology 180(19): 5159-5164.