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http://dx.doi.org/10.3839/jabc.2017.042

Antifungal activities of β-thujaplicin originated in Chamaecyparis obtusa  

Kwon, Yubin (School of Ecology and Environmental System, Kyungpook National University)
Kim, Hyun-Sang (School of Ecology and Environmental System, Kyungpook National University)
Kim, Hyun-Woo (School of Ecology and Environmental System, Kyungpook National University)
Lee, Dong Woon (Department of Ecological Science, Kyungpook National University)
Choi, Yong-Hwa (School of Ecology and Environmental System, Kyungpook National University)
Publication Information
Journal of Applied Biological Chemistry / v.60, no.3, 2017 , pp. 265-269 More about this Journal
Abstract
Environment-friendly, commercially-available agricultural products were investigated for antimicrobial activity against Sclerotinia sclerotiorum, as a pathogen of sclerotium disease. Then ${\beta}$-thujaplicin from Chamaecyparis obtuse was investigated for antifungal activity against six kinds of pathogenic fungi. It showed a statistically significant (p <0.001) growth inhibition effect on Sclerotinia sclerotiorum as a pathogen of sclerotium disease, Rhizoctonia solani AG-4 as a pathogen of damping off, Phytophthora capsici as a pathogen of phytophthora blight, and Colletotrichum coccodes as a pathogen of anthracnose at a concentration of 50 ppm and on Stemphylium solani as a pathogen of spotting disease and Alternaria alternata as a pathogen of black mold at a concentration of 100 ppm. In conclusion, these results indicate that it may be possible to develop environment-friendly agricultural products using ${\beta}$-thujaplicin compounds.
Keywords
Antifungal active substance; Chamaecyparis obtusa; Hinokitiol; Sclerotinia sclerotiorum; ${\beta}$-thujaplicin;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Abawi GS, Grogan RG (1975) Source of primary inoculum and effects of temperature and moisture on infection of beans by Whetzelinia sclerotiorum. Phytopathology 65: 300-309   DOI
2 Agrios GN (1998) Plant pathology. 4rd ed., Academic Press. Cambridge
3 Arima Y, Hatanaka A, Tsykihara S, Fujimoto K, Fukuda K, Sakurai H (1997) Scavenging Activities of ${\alpha}$-, ${\beta}$- and $\gamma$-Thujaplicins against Active Oxygen. Chem Pharm Bull 45: 1881-1886   DOI
4 Budge SP, Whipps JM (2001) Potential for integrated control of Sclerotinia sclerotiorum in glasshouse lettuce using Coniothyrium minitans and reduced fungicide application. Phytopathology 91: 221-227   DOI
5 Endo M, Mizutoni T, Matsumura M (1998) High-performance liquid chromatographic determination of hinokitiol in cosmetics by the formation of difluoroborance compounds. J Chromatography 455: 430-433
6 Fukuzawam R, T Ito, T Matsuda (1985) Jpn. Kokkyo Koho JP60141244
7 Hong SK, Kim WG, Sung GB, Nam SH, Kim JS (2007) Aspects of Popcorn Disease Occurrence on Mulberry Fruits in Korea. Res Plant Dis 13(3):131-136   DOI
8 Inamori Y, Nishiguchi K, Matsuo N, Tsujibo H, Baba K, Ishida N (1991) Phytogrowth-inhibitory activities of tropolone and hinokioil. Chem Pharm Bull 39: 2378-2381   DOI
9 Kang JY, Kim DH, Lee DG, Kim IS, Jeon MG, Lee JD, Kim IH, Sanghyun Lee (2013) Screening of Antifungal Activities of Medicinal Plants for the Control of Turfgrass Fungal Disease. Weed Turf Sci 2(1): 70-75   DOI
10 Kim KC (1976) The effect of ray on sclerotia formation of sclerotium disease. Korean J. Plant Protect (In Korean) 15: 223-243
11 Rural Development Administration (2015) The best friends of grilled or barbecued meat. RDA Interrobang, Jeonju
12 Koyama S, Yamaguchi Y, Tanaka S, Motoyoshiya J (1997) A new substance (Yoshixol) with an interesting antiviotic mechanism from wood oil of Japanese traditional tree (Kiso-Hinoki), Chamaecyparis obtus, Gen Pharmacol 28(5): 797   DOI
13 National Institute of Agricultural Science and Technology (NAAST) (2000) Scleroatinia rot. Life and pesticides (Agrochemical news magazine) 21:42-43
14 Purdy LH (1979) Sclerotinia sclerotiorum: History, diseases and symptomatology, host range, geographic distribution, and impact. Phytopathology 69: 875-880   DOI
15 Subbarao KV (1998) Progress toward integrated management of lettuce drop. Plant Dis 82: 1068-1078   DOI
16 The Korean Society of Plant Pathology (2009) List of Plant Diseases in Korea, KSPP, Seoul
17 Trust TJ, RW Coombs (1973) Antibacterial activity of beta-thujaplicin. Can J Microbiol 19: 1341-1346   DOI
18 Whipps JM, Budge SP, McClement S, Pink DAC (2002) A glasshouse cropping method for screening lettuce lines for resistance to Sclerotinia sclerotiorum. Eur J Plant Pathol 108: 373-378   DOI
19 Whipps JM, Gerlagh M (1992) Biology of Coniothyrium minitans and its potential for use in disease biocontrol. Mycological Research 96: 897-907   DOI