Browse > Article

Development of a Reliable Technique to Eliminate Sweet potato leaf curl virus through Meristem Tip Culture Combined with Therapy of Infected Ipomoea Species  

Cheong, Eun-Ju (USDA-ARS, National Germplasm Resources Laboratory, Plant Disease Research Unit)
Hurtt, Suzanne (USDA-ARS, National Germplasm Resources Laboratory, Plant Disease Research Unit)
Salih, Sarbagh (USDA-ARS, National Germplasm Resources Laboratory, Plant Disease Research Unit)
Li, Ruhui (USDA-ARS, National Germplasm Resources Laboratory, Plant Disease Research Unit)
Publication Information
Korean Journal of Plant Resources / v.23, no.3, 2010 , pp. 233-241 More about this Journal
Abstract
In vitro elimination of Sweet potato leaf curl virus (SPLCV) from infected sweet potato is difficult due to low number of virus-free plants obtained from meristem tip culture and long growth period required for the virus detection. In this study, efficient production of the SPLCV-free sweet potato by in vitro therapy coupled with a PCR assay for virus detection was investigated. Infected shoots cultured on Murashige and Skoog medium were treated at three different temperatures for 7 weeks followed by meristem tip culture on the medium with or without ribavirin at 50 mg/L. The regenerated plantlets were tested for virus infection by a PCR assay. The results showed that the both heat- and cold-treatments, and addition of the ribavirin did not have significant effect on efficiency of the virus elimination. The meristem size, however, greatly affected the survival rate. Meristems sized over 0.4 mm survived better than smaller ones (0.2-0.3 mm). The PCR assay was approved to be a rapid, sensitive and reliable for the SPLCV detection in regenerated plantlets. Therefore, combination of cultivating meristem tips sized 0.4-0.5 mm on the medium at $22^{\circ}C$ without ribavirin and detection of SPLCV in the regenerated plantlets by the PCR assay was an efficient system for the SPLCV elimination from infected sweet potato.
Keywords
Meristem tip culture; Sweet potato leaf curl virus; Ipomoea spp. thermotherapy; ribavirin;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Luan, Y. S., J. Zhang, D. M. Liu and W.L. Li. 2007. Molecular characterization of sweet potato leaf curl virus isolate from China (SPLCV-CN) and its phylogenetic relationship with other members of the Geminiviridae. Virus Genes 35: 379-385.   DOI   ScienceOn
2 Okamoto, T., H. Suzuki, T. Umezaki, Y. Nagaya and T. Taniyama. 2001. Effects of using virus free plants in the Chinese yam (Dioscorea opposita Thunb.) Cultivation and practical method to distinguish a Japanese yam mosaic virus plant. Japanese Journal of Crop Science 70(2): 179-185.   DOI   ScienceOn
3 Adejare, G. O. and R. H. A. Coutts. 1981. Eradication of cassava mosaic disease from Nigerian cassava clones by meristem-tip culture. Plant Cell Tissue and Organ Culture 1: 25-32.   DOI
4 Briddon, R. W., S. E. Bull and I.D. Bedford. 2006. Occurrence of Sweet potato leaf curl virus in Sicily. Plant Pathology 55: 286.
5 Valverde, R. A., J. Sim and P. Lotrakul. 2004. Whitefly transmission of sweet potato viruses. Virus Research 100: 123-128.   DOI   ScienceOn
6 Zhang, L. M., Q. M. Wang, D. F. Ma and Y. Wang. 2006. The effect of major viruses and virus-free materials on sweet potato root yield in China. Acta Horticulturae 703: 71-77.
7 Reyes, G., A. C. Ronnberg-Wastljung, A. C. and M. Nyman. 2006. Comparison of field performance between dasheen mosaic virus-free and virus-infected in vitro plants of cocoyam (Xanthosoma spp.) in Nicaragua. Experimental Agriculture 42(3): 301-310.   DOI   ScienceOn
8 Sertkaya, G. 2002. Obtaining cucumber mosaic virus (CMV)-free production material by meristem tip and nodal segment culture in sweet potato (Ipomoea batatas (L.) Lam.). Biotechnology and Biotechnology Equipment 16(2): 33-38.
9 Shang Y., C. Yang, X. Xin, J. Zhao, C. Li and R. Luo. 1996. Technique of sweet potato virus-free by means of meristem tip culture. Plant Protection 22(5): 14-16 (in Chinese).
10 Truskinov, E. V.and E.V. Rogozina. 1997. Elimination of viruses from a potato clone collection by tissue culture. Russian Journal of Plant Physiology 44(3): 374-380.
11 Wang, Q. C. and J. P. T. Valkonen. 2008. Elimination of two viruses which interact synergistically from sweetpotato by shoot tip culture and cryotherapy. Journal of Virological Methods 154: 135-145.   DOI   ScienceOn
12 Yang, X., W. W. Jiang and B. Y. Ding. 2006. In vitro propagation of virus-free yacon (Smallanthus sonchifolius). Journal of Zhejiang University (Agricultural Life Science). 32(1): 51-55.
13 Moyer, J. M., G.V. H. Jackson and E. A. Frison. 1989. FAO/IBPGR Technical Guidelines for the Safe Movement of Sweet Potato Germplasm. Food and Agriculture Organization of the United Nations, Rome/International Board for Plant Genetic Resources, Rome. pp. 29.
14 Murashige, T. and F. Skoog. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiology Plant 15: 473-497.   DOI
15 Kuo, C. G., B. J. Shen, M. J. Shen, S. K. Green and D.R. Lee. 1985. Virus-free sweet potato storage roots derived from meristem-tips and leaf-cutting. Scientia Horticulturae 26: 231-240.   DOI   ScienceOn
16 Nielsen, L.W. 1960. Elimination of internal cork virus by culturing apical meristems of infected sweet potatoes. Phytopathology 50: 840-841.
17 Ramirez-Malagon R., L. Perez-Moreno, A. Borodanenko, G. J. Salinas-Gonzalez and N. Ochoa-Alejo. 2006. Differential organ infection studies, potyvirus elimination and field performance of virus-free garlic plants produced by tissue culture. Plant Cell Tissue and Organ Culture 86: 103-110.   DOI   ScienceOn
18 Grout, B. W. 1999. Meristem-tip culture for propagation and virus elimination. In:Methods in Molecular Biology (Clifton, N.J.). 111: 115-125.
19 Li, R., S. Salih and S. Hurtt. 2004. Detection of geminiviruses in sweetpotato by polymerase chain reaction. Plant Disease 88(12): 1347-1351.   DOI   ScienceOn
20 Li, R., R. Mock, Q Huang, J. Abad, J. Hartung and G. Kinard. 2008. A reliable and inexpensive method of nucleic acid extraction for the PCR-based detection of diverse plant pathogens. Journal of Virological Methods 154: 48-55.   DOI   ScienceOn
21 Lotrakul, P., R. A. Valverde, C. A. Clark, C.A. S. Hurtt and M. W. Hoy. 2002. Sweetpotato leafcurl virus and related geminiviruses in sweetpotato. Acta Horticulturae. 583: 135-141.
22 Malaurie, B. M. F. Trouslot, J. Berthaud, M. Bousalem, A. Pinel and J. Dubern. 1998. Medium-term and long-term in vitro conservation and safe international exchange of yam (Dioscorea spp.) germplasm. Electronic Journal of Biotechnology 1(3): 3-24.
23 Mix-Wagner, G. 1999. The conservation of potato cultivars. Potato Research 42(3-4): 427-436.   DOI   ScienceOn
24 Green, S. K., Y. J. Kuo and R. D. Lee. 1988. Uneven distribution of two potyviruses (feathery mottle virus and sweet potato latent virus) in sweet potato plants and its implication on virus indexing of meristem derived plants. Tropical Pest Management 34(3): 298-302.   DOI   ScienceOn
25 Green, S. K. and C. Y. Lo. 1989. Elimination of sweet potato yellow dwarf virus (SPYDV) by meristem tip culture and by heat treatment. Journal of Plant Disease and Protection 96: 464-469.
26 Frison, E. A. 1994. Sanitation techniques for cassava. Tropical Science 34(1): 146-153.
27 Green, S. K., C. Y. Luoand S. F. Wu. 1992. Elimination of leafcurl virus of sweet potato by meristem tip culture, heat and ribavirin. Plant Protection Bulletin (Taipei) 34(1): 1-7.
28 Fletcher, P. J., J. D. Fletcher and R. J. Cross. 1998. Potato germplasm: in vitro storage and virus reduction. New Zealand Journal of Crop and Horticultural Science 26(3): 249-252.   DOI
29 Fletcher, P. J. and J. D. Fletcher. 2001. In vitro virus elimination in three Andean root crops: oca (Oxalis tuberosa), ulluco (Ullucus tuberosus), and arracacha (Arracacia xanthorrhiza). New Zealand Journal of Crop and Horticultural Science 29(1): 23-27.   DOI   ScienceOn
30 Frison, E. A. and S. Y. Ng. 1981. Elimination of sweet potato virus disease agents by meristem culture. Tropical Pest Management 27: 452-454.   DOI   ScienceOn
31 Gao, F., Y. Gong and P. Zhang. 2000. Production and deployment of virus-free sweetpotato in China. Crop Protection 19(2): 105-111.   DOI   ScienceOn
32 Faccioli, G. and C. Rubies-Autonell. 1982. PVX and PVY distribution in potato meristem tips and their eradication by the use of themotherapy and meristem-tip culture. Phytopathology Zeitschrift. 103(1): 66-76.   DOI
33 El Far, M. M. M. and A. Ashoub. 2009. Utility of thermotherapy and meristem tip for freeing sweetpotato from viral infection. Australian Journal of Basic and Applied Science 3: 153-159.
34 Faccioli, G., C. Rubies-Autonell and R. Recsca. 1988. Potato leafroll virus distribution in meristem tips and production of virus-free plants. Potato Research. 31: 511-520.   DOI
35 FAOSTAT. FAO Database. The Food and Agriculture Organization of The United Nations, Rome, Italy. 2006.
36 Fauquet, C. M., M. A. Mayo, J. Maniloff, U. Desselberger and L. A. Ball. 2005. Virus Taxonomy-Eighth Report of the International Committee on Taxonomy of Viruses. Elsevier Academic Press.
37 Alconero, R., A.G. Santiago, F. Morales and F. Rodiguez, 1975. Meristem tip culture and virus indexing of sweet potatoes. Phytopathology 65: 769-773.   DOI
38 Clark, C. A, R. A Valverde, S. Fuentes, L. F. Salazar, and J. W. Moyer. 2002. Research for improved management of sweetpotato pests and diseases: cultivar decline. In: Ames, T., (Ed.) Proc. 1st Int. Symp. Sweetpotato. Acta Horticulturae. 583: 103-112.