Browse > Article
http://dx.doi.org/10.7235/hort.2015.15091

Elimination of Lily Symptomless Virus by In Vitro Scaling and Reinfection Rates under Various Culture Conditions in Korean Native Lilies  

Kim, Min Hui (Department of Horticulture and Life Science, Yeungnam University)
Park, In Sook (Department of Horticulture and Life Science, Yeungnam University)
Park, Kyeung Il (Department of Horticulture and Life Science, Yeungnam University)
Oh, Wook (Department of Horticulture and Life Science, Yeungnam University)
Kim, Kiu Weon (Department of Horticulture and Life Science, Yeungnam University)
Publication Information
Horticultural Science & Technology / v.33, no.6, 2015 , pp. 891-899 More about this Journal
Abstract
The lily symptomless virus (LSV) is the most common virus in Korean native lilies and causes various types of damage to overall plant growth. This study was carried out to investigate the elimination rate of the LSV by the in vitro scale culture (scaling) method in Korean native lilies and to test reinfection rates of the LSV under several field culture conditions of bulb production. Four Korean native lilies (Lilium dauricum, L. distichum, L. lancifolium, and L. maximowitzii) were used and their scales were cultured in vitro for micro-scale formation. The micro-scales were subcultured repeatedly using MS culture medium supplemented with 30 or $90g{\cdot}L^{-1}$ sucrose. The culture conditions were $24{\mu}mol{\cdot}m^{-2}{\cdot}s^{-1}$ PPFD with 16 hour daylength using fluorescent lamps and maintained at $22{\pm}2^{\circ}C$. The virus-free bulblets were grown for one to three years in the greenhouse and transplanted to the field in October or March. Virus infection rates were investigated by direct tissue blotting immunobinding assays and measurement of chlorophyll and protein contents. Virus-free plants could be obtained from the 5th subculture of micro-scales in L. lancifolium and L. maximowitzii or from primary culture in L. dauricum and L. distichum. LSV-free plants were reinfected during bulb production in the field. Reinfection rates were higher at older bulb ages and under higher planting density. The plants planted in October and at inland Gyeongsan had higher infection rates than those planted in March and at coastal area Pohang. The reinfection rate of L. maximowitzii was higher than those of L. dauricum and L. lancifolium. The LSV-infected plants had lower chlorophyll contents and unchanged protein contents compared to virus-free plants.
Keywords
Genus Lilium; in vitro scaling; micropropagation; subculture; virus-free bulb;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Allen, T.C. and W.C. Anderson. 1980. Production of virus-free ornamental plants in tissue culture. Acta Hortic. 110:245-201.
2 Asjes, C.J. 2000. Control of aphid-borne lily symptomless virus and lily mottle virus in Lilium in the Netherlands. Virus Res. 71:23-32.   DOI
3 Asjes, C.J., Blom-Barnhoorn, G.J., and van Schadewijk, A. R. 2002. Effect of seasonal detection of lily symptomless virus and lily mottle virus on aphid-borne virus spread in Lilium in the Netherlands. Acta Hortic. 568:201-207.
4 Blom-Barnhoorn, G.J., J. van Aartnjk, and P.C.G. van der Linde. 1986. Effect of virazole on the production of hyacinth plants free from hyacinth mosaic virus (HMV) by meristem culture. Acta Hortic. 177:571-574.
5 Bradford, M.M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem. 72:248-254.   DOI
6 Chang, M.U. and K.W. Kim. 1996. Virus disease of ornamental flowering bulbs. J. Korean Flower Res. Soc. 5:21-31.
7 Chinestra, S.C., C. Facchinetti, N.R. Curvetto, and P.A. Marinangeli. 2010. Detection and frequency of lily viruses in Argentina. Plant Dis. 94:1188-1194.   DOI
8 Chung, B.N., J.A. Jung, E.J. Lee, J.S. Kim, and M.I. Jeong. 2003. Influence of virus infection in quality of production of Lilium $\times$ fomolongi as cut-flowers. Res. Plant Dis. 9:237-241.   DOI
9 Cohen, D., K.S. Milne, and M.J. Hyland. 1985. In vitro manipulation of virus concentration in hybrids lilies. Acta Hortic. 164:319-324.
10 Goo, D.H., Y.R. Lee, S.Y. Choi, and H.Y. Joung. 2013. Effects of rain shelter and pyrethroid treatment on virus infection of lily (Lilium spp.) during bulb production from bulbscaling. Flower Res. J. 21:52-55.   DOI
11 Horst, R.K. 1988. Production of plants free of virus and prevention of reinfection. Acta Hortic. 234:393-402.
12 Hsu, H.T., J.Y. Kim, and R.H. Lawson. 1995. Purification of lily symptomless carlavirus and detection of the virus in lilies. Plant Dis. 79:912-916.   DOI
13 Joung, Y.H., J.H. Jeon, K.H. Choi, H.S. Kim, and H. Joung. 1996. Detection of lily symptomless virus using RT-PCR technique. Korean J. Plant Pathol. 12:187-190.
14 Kassanis, B. 1957. The use of tissue culture to produce virus-free clones from infected potato varieties. Ann. Appl. Biol. 45: 422-427.   DOI
15 Kim, C.S., J.M. Kim, H.J. Kim, H.G. Kim, J. Ryu, J.S. La, and S.T. Lee. 1998. Effect of cultivated areas on the bulb growth of Lilium Oriental Hybrid. Korean J. Hortic. Sci. Technol. (Suppl.) 16:451. (Abstr.)
16 Kim, K.W. and A.A. De Hertogh. 1997. Tissue culture of ornamental flowering bulbs (geophytes). Hortic. Rev. 18:87-169.
17 Kim, J.Y., S.T. Choi, and H.T. Hsu. 1995a. Comparison of detection efficiency of lily symptomless virus in lily bulbs by ELISA, DBIA, and tissue blotting method. J. Korean Soc. Hortic. Sci. 36:560-566.
18 Kim, J.Y., H.K. Shin, S.Y. Lee, J.H. Lim, J.Y. Ko, S.K. Chung, and J.K. Choi. 1995b. Detections of lily symptomless virus, cucumber mosaic virus and tulip breaking virus according to the tissue positions and organs in lily plants by tissue blotting immunoassay. J. Korean Soc. Hortic. Sci. 36:843-850.
19 Kim, J.Y., S.T. Choi, M.S. Roh, and T.S. Ko. 1996. Production and detection of virus-free lily plants by shoot tip culture and virazole treatment of bulbils. J. Korean Soc. Hortic. Sci. 37:64-69.
20 Kim, K.W., K.A. Kim, and M.S. Byun. 1999. Physiological changes before and after breaking dormancy of Lilium hansonii bulblets regenerated in vitro. J. Korean Soc. Hortic. Sci. 40:751-754.
21 Kim, S.J., Y.I. Hahm, K.Y. Shin, S.Y. Ryu, D.L. Yoo, H.W. Jung, and J.K. Choi. 2001. Occurrence of viruses in lilies (Lilium spp.) in highland areas and their detection by one-step RT-PCR. Res. Plant Dis. 7:80-85.
22 Lawson, R.H. 1990. Production and maintenance of virus-free bulbs. Acta Hortic. 266:25-34.
23 Lee, H.S., J.S. Lee, and B.H. Kwack. 1997. Effect of varied elevations of Kangwon Province on growth and flowering of Hibiscus syriacus. J. Kor. Inst. Landscape Archit. 25:177-185
24 Lim, J.H., E.H. Bae, Y.J. Lee, S.H. Park, K.J. Lee, S.R.M. Kim, and Y.T. Jung. 2009. Detection of lily symptomless virus, lily mottle virus, and cucumber mosaic virus from Lilium grown in Korea by RT-PCR. Korean J. Microbiol. 45:251-256.
25 Park, K.I., J.D. Choi, I.S. Park, S.J. Eum, and K.W. Kim. 2003. Virus-infected status in imported bulbs of Lilium Oriental Hybrids. Korean J. Hortic. Sci. Technol. 21:57-61.
26 Mori, K. and D. Hosokawa. 1977. Localization of viruses in apical meristem and production of virus-free plants by means of meristem and tissue culture. Acta Hortic. 78:389-396.
27 Murashige, T. and F. Skoog. 1962. A revised medium for rapid growth and bioassay with tobacco tissue culture. Physiol. Plant. 15:473-497.   DOI
28 Niimi, Y., T. Gondaria, Y. Kutsuwada, and H. Tsuji. 1999. Detection by ELISA and DIBA tests of lily symptomless virus (LSV), tulip breaking virus-lily (TBV-L) and cucumber mosaic virus (CMV) in Lilium spp. grown in the field. J. Jpn. Soc. Hortic. Sci. 68:176-183.   DOI
29 Park, K.I. and K.W. Kim. 2003. Obtaining of lily symptomless virus-free stock by callus culture in Lilium Oriental Hybrids. Hortic. Environ. Biotechnol. 44:786-789.
30 Plattt, S.G., F. Henriques, and L. Rand. 1979. Effects of virus infection on the chlorophyll content, photosynthetic rate and carbon metabolism of Tolmiea menziesii. Physiol. Plant Pathol. 15:351-365.   DOI
31 Seo, S.Y., M.S. Ann, S.R. Choi, H.C. Lim, and J. Ryu. 1999. Effect of chemo- and thermotherapy on LSV elimination in Lilium Oriental Hybrids. Korean J. Plant Tissue Cult. 26:65-69.
32 Woo, J.H., H.H. Nam, K.B. Choi, I.S. Park, and K.W. Kim. 2004. Elimination of lily symptomless virus through shoot apex culture in Lilium Oriental Hybrids. Korean J. Hortic. Sci. Technol. 22:328-332.
33 Yoshita, S., A.F. Douglas, and H.C. James. 1971. Determination of chlorophyll in plant tissue, p.36-37. In: Laboratory manual for physiological studies of rice. The International Rice Research Institute. Los Bonos, Laguna, The Philippines.
34 Woo, J.H., H.H. Nam, H.S. Lee, K.B. Choi, M.H. Kim, M.S. Byun, and K.W. Kim. 2005. Elimination of lily symptomless virus through tissue culture and thermotherapy in Lilium Oriental Hybrids 'Casa Blanca'. J. Korean Flower Res. Soc. 13:341-346.