Browse > Article
http://dx.doi.org/10.4014/jmb.1208.08042

Development of an Indirect ELISA and Immunocapture RT-PCR for Lily Virus Detection  

Kim, Jin Ha (Department of Microbiology, Dankook University)
Yoo, Ha Na (Department of Microbiology, Dankook University)
Bae, Eun Hye (Department of Microbiology, Dankook University)
Jung, Yong-Tae (Department of Microbiology, Dankook University)
Publication Information
Journal of Microbiology and Biotechnology / v.22, no.12, 2012 , pp. 1776-1781 More about this Journal
Abstract
Multiple viruses such as Lily symptomless virus (LSV), Lily mottle virus (LMoV), and cucumber mosaic virus (CMV) are the most prevalent viruses infecting lilies in Korea. Leaf samples and bulbs showing characteristic symptoms of virus infection were collected from Gangwon, Chungnam, and Jeju provinces of Korea in 2008-2011. Coat protein (CP) genes of LSV and LMoV were amplified from collected samples by reverse transcription-polymerase chain reaction (RT-PCR) and cloned into a pET21d(+) expression vector to generate recombinant CPs. The resulting carboxy-terminal His-tagged CPs were expressed in Escherichia coli strain BL21(DE3) by isopropyl-1-thio-${\beta}$-D-galactoside induction. The recombinant proteins were purified using Ni-NTA agarose beads, and the purified proteins were used as an immunogen to produce polyclonal antibodies in rabbits. The resulting polyclonal antisera recognized specifically LSV and LMoV from infected plant tissues in Western blotting assays. Indirect enzymelinked immunosorbent assay and immunocapture RT-PCR using these polyclonal antisera were developed for the sensitive, efficient, economic, and rapid detection of Lily viruses. These results suggest that large-scale bulb tests and economic detection of Lily viruses in epidemiological studies can be performed routinely using these polyclonal antisera.
Keywords
Coat protein; IC-RT-PCR; ID-ELISA; polyclonal antisera;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Wu, J., C. Meng, H. Shang, S. Rong, C. Zhang, J. Hong, and X. Zhou. 2011. Monoclonal antibody-based triple antibody sandwich-enzyme-linked immunosorbent assay and immunocapture reverse transcription-polymerase chain reaction for Odontoglossum ringspot virus detection. J. Virol. Methods 171: 40-45.   DOI   ScienceOn
2 Zein, H. S., M. Nakazawa, M. Ueda, and K. Miyatake. 2007. Development of serological procedures for rapid and reliable detection of Cucumber mosaic virus with dot-immunobinding assay. World J. Agric. Sci. 3: 430-439.
3 Zheng, H. Y., J. Chen, M. F. Zhao, L. Lin, J. P. Chen, J. F. Antoniw, and M. J. Adams. 2003. Occurrence and sequences of Lily mottle virus and Lily symptomless virus in plants grown from imported bulbs in Zhejiang province, China. Arch. Virol. 148: 2419-2428.   DOI   ScienceOn
4 Berniak, H., T. Malinowski, and M. Kaminska. 2010. Characterization of polyclonal antibodies raised against two isolates of cucumber mosaic virus. J. Plant Pathol. 92: 231-234.
5 Beuve, M., L. Sempé, and O. Lemaire. 2007. A sensitive onestep real-time RT-PCR method for detecting Grapevine leafrollassociated virus 2 variants in grapevine. J. Virol. Methods 141: 117-124.   DOI   ScienceOn
6 Boonham, N., L. Laurenson, R. Weekes, and R. Mumford. 2009. Direct detection of plant viruses in potato tubers using real-time PCR. Methods Mol. Biol. 508: 249-258.
7 Chen, Y. K., A. F. Derks, S. Langeveld, R. Goldbach, and M. Prins. 2001. High sequence conservation among Cucumber mosaic virus isolates from Lily. Arch. Virol. 146: 1631-1636.   DOI   ScienceOn
8 Choi, S. A. and K. H. Ryu. 2003. The complete nucleotide sequence of the genome RNA of Lily symptomless virus and its comparison with that of other carlaviruses. Arch. Virol. 148: 1943-1955.   DOI   ScienceOn
9 Ha, C., S. Coombs, P. A. Revill, R. M. Harding, M. Vu, and J. L. Dale. 2008. Design and application of two novel degenerate primer pairs for the detection and complete genomic characterization of potyviruses. Arch. Virol. 153: 25-36.   DOI   ScienceOn
10 Kong, B., J. Yu, H. Chen, D. Li, C. Han, and J. Wang. 2009. Production of antiserum to recombinant coat protein for detecting Lily mottle virus in Yunnan, China. J. Phytopathol. 157: 362-369.   DOI   ScienceOn
11 Kwon, S. B., J. H. Ha, J. Y. Yoon, and K. H. Ryu. 2002. Zantedeschia mosaic virus causing leaf mosaic symptom in calla Lily is a new potyvirus. Arch. Virol. 147: 2281-2289.   DOI   ScienceOn
12 Laemmli, U. K. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227: 1487-1494.
13 Niimi, Y., T. Gondaira, 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. Japan. Soc. Hort. Sci. 68: 176-183.   DOI   ScienceOn
14 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. Kor. J. Microbiol. 45: 251-256.
15 Lim, J. H., E. H. Bae, S. H. Park, K. J. Lee, S. R. M. Kim, E. Y. Kwon, et al. 2010. Development of a real time RT-PCR with SYBR Green dye for the detection of several viruses from the bulbs and leaves of Lily. Acta Virol. 54: 319-321.
16 Mortimer-Jones, S. M., M. G. Jones, R. A. Jones, G. Thomson, and G. I. Dwyer. 2009. A single tube, quantitative real-time RTPCR assay that detects four potato viruses simultaneously. J. Virol. Methods 161: 289-296.   DOI   ScienceOn
17 Wang, R., G. Wang, Q. Zhao, Y. Zhang, L. An, and Y. Wang. 2010. Expression, purification and characterization of the Lily symptomless virus coat protein from Lanzhou isolate. Virol. J. 7:34: 1-7.
18 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   ScienceOn