The Plant Pathology Journal

한국식물병리학회 (The Korean Society of Plant Pathology)
권호 표지
DOI QR코드

DOI QR Code

Virus Disease Incidences of Sweet Potatoes in Korea

  • Kwak Hae-Ryun (Department of Plant Pathology, National Institute of Agricultural Science and Technology) ;
  • Kim Mi-Kyeong (Department of Plant Pathology, National Institute of Agricultural Science and Technology) ;
  • Chung Mi-Nam (Director for Evaluation and Coordination, Rural Development Administration) ;
  • Lee Su-Heon (Department of Plant Pathology, National Institute of Agricultural Science and Technology) ;
  • Park Jin-Woo (Department of Plant Pathology, National Institute of Agricultural Science and Technology) ;
  • Kim Kook-Hyung (School of Agricultural Biotechnology and Center for Plant Molecular Genetics and Breeding Research, Seoul National University) ;
  • Choi Hong-Soo (Department of Plant Pathology, National Institute of Agricultural Science and Technology)
  • 발행 : 2006.09.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

In 2003, a survey of sweet potato virus disease was carried out in seed boxes as well as in various sweet potato fields. Virus infection rate was $5\sim100%$ and 100% at seed boxes and fields, respectively. No relationship of the disease incidence and severity was observed between sweet potato cultivating areas and cultivars. A total of 179 samples were collected and analyzed based on serological, electron microscopic and molecular properties. Field-grown sweet potatoes were examined to inspect 8 different viruses using NCM-ELISA, resulting that 30% of sweet potato was infected by one virus, whereas 70% was by more than 2 viruses. However, RT-PCR using primers selected for seven viruses, such as Sweet potato feathery mottle virus (SPFMV) revealed that of one-hundred seventy-nine tested; 71 of SPFMV, 29 of SPGV, 19 of SPFMV+SPGV, 1 of SPFMV+SwPLV, 1 of SPFMV+SPLCV, 2 of SPFMV+SPGV+SwPLV, 6 of SPFMV+SPGV+SPLCV, 2 of SPFMV+SPGV+SwPLV+SPLCV and 48 of unknown viruses were identified from the field samples. In root, viral diseases were severer in Yeoju than in Mokpo Experiment Station and infection rate was much different depending on sweet potato cultivars.

키워드

참고문헌

  1. Abad, J. A., Conkling, M. A. and Moyer, J. W. 1992. Comparison of the capsid protein cistron from serologically distinct strains of sweet potato feathery mottle virus (SPFMV). Arch. Virol. 126:147-157 https://doi.org/10.1007/BF01309691
  2. Alvarez, V., D. Ducasse, A., Biderbost, E. and Nome, S. F.1997. Sequencing and characterization of the coat protein and 3' non-coding region of a new sweet potato potyvirus. Arch. Virol. 142:1635-1644 https://doi.org/10.1007/s007050050185
  3. Banks, G. K., Bedford, J. D., Beitia, F. J., Rodriguez-Cerezo, E. and Markham, P. G. 1999. A novel geminivirus of Ipomoea indica (Convolvulaceae) from Southern Spain. Plant Dis. 83:486
  4. Brunt, A. A., Crabtree, K., Dallwitz, M. J., Gibbs, A. J., Watson, L. and Zucher, E. J. 1996. Plant viruses online: Descriptions and lists from the VIDE database Version: 20th August 1996. URL http://biology.anu.edu.au/Groups/MES/vide/
  5. Choi, H. S., Ko, S. J., Kim, M. K., Park, J. W., Lee, S. H., Kim, K. H., Hassan, K. W., Choi, J. K. and Takanami, Y. 2005. Characteristics of Potato virus Y isolated from paprika in Korea. Plant Pathol. J. 21:349-354 https://doi.org/10.5423/PPJ.2005.21.4.349
  6. Chung, M.- L., Liao, C.-H., Chen, M.-J. and Chiu, R.-J. 1985. The isolation, transmission and host range of sweet potato leaf curl disease agent in Taiwan. Plant Prot. Bull. 27:333-341
  7. Cohen, J., Milgram, M., Antignus, Y., Pearlsman, M., Lachman, O. and Loebenstein, G. 1997. Ipomoea crinkle leaf curl caused by a whitefly-transmitted gemini-like virus. Ann. Appl. BioI. 131:273-282 https://doi.org/10.1111/j.1744-7348.1997.tb05156.x
  8. Colinet, D., Kummert, J. and Lepoivre, P. 1994. The complete nucleotide sequences of the coat protein cistron and the 3'non-coding region of a newly-identified potyvirus infecting sweet potato, as compared to those of sweet potato feathery mottle virus. Arch. Viral.139:327-336 https://doi.org/10.1007/BF01310795
  9. Colinet, D., Kummert, J. and Lepoivre, P. 1996. Molecular evidence that the whitefly-transmitted sweet potato mild mottle virus belongs to a distinct genus of the Potyviridae. Arch. Viral. 141:125-135 https://doi.org/10.1007/BF01718593
  10. Fuentes, S., Mayo, M. A., Jolly, C. A., Nakano, M., Querci, M. and Salazar, L. F. 1996. A novel luteovirus from sweet potato, sweet potato leaf speckling virus. Ann. Appl. BioI. 138 :491-504
  11. Gibson, R. W., Mpembe, I., Alicai, T., Carey, E. E., Mwanga, R. O. M., Seal, S. E. and Vetten, H. J. 1998. Symptoms, etiology and serological analysis of sweet potato virus disease in Uganda. Plant Pathol, 47:95-102 https://doi.org/10.1046/j.1365-3059.1998.00196.x
  12. Gutierrez, D. L., Fuentes, S. and Salazar, L. F. 2003. Sweetpotato virus disease (SPVD): Distribution, incidence, and effect on sweetpotato yield in Peru. Plant Dis. 87:297-302 https://doi.org/10.1094/PDIS.2003.87.3.297
  13. Hahn, S. K. 1979. Effect of virus (SPDV) on growth and yield of sweet potato. Exp. Agric. 15:253-256 https://doi.org/10.1017/S0014479700010310
  14. IsHak, J. A., Kreuze, J. F., Johansson, A., Mukasa, S. B., Tairo, F., Abo EI-Abbas, F. M. and Valkonen, J. P. T. 2003. Some molecular characteristics of three viruses from SPVD-affected sweet potato plants in Egypt. Arch Virol. 148: 2449-2460 https://doi.org/10.1007/s00705-003-0187-5
  15. Karyejia, R. F., Gibson, R. W. and Valkonen, J. P. T. 1998. The significance of Sweet potato feathery mottle virus in subsistence sweet potato production in Africa. Plant Dis. 82:4-15 https://doi.org/10.1094/PDIS.1998.82.1.4
  16. Karyeija, R. F., Kreuze, J. F., Gibson, R. W. and Valkonen, J. P. T. 2000. Synergistic interactions of a potyvirus and a phloemlimited crinivirus in sweet potato plants. Virology 269:26-36 https://doi.org/10.1006/viro.1999.0169
  17. Kim, S. J., Ryu, K. H., Choi, J. K. and Park, W. M. 1998. Sequence analysis of coat protein and 3'-noncoding region for Korean and other strains of Sweet potato feathery mottle virus. Mol. Cells 6:777-785
  18. Lotrakul, P., Valverde, R. A., Clark, C. A., Sim, J. and De La Torre, R. 1998. Detection of a geminivirus infecting sweet potato in the United States. Plant Dis. 82: 1253-1257 https://doi.org/10.1094/PDIS.1998.82.11.1253
  19. Lotrakul, P., Valverde, R. A., Clark, C. A. and Fauquet, C. M. 2001. Properties of a new geminivirus species from sweet potato infected with Sweet potato leaf curl virus. In: Proceedings of the 3rd International Geminivirus Symposium, Norwich, UK, p. 110 (Abstr.)
  20. Moyer, J. W. and Salazar, L. F. 1989. Viruses and virus-like diseases of sweet potato. Plant Dis. 73:451-455 https://doi.org/10.1094/PD-73-0451
  21. Moyer, J. W. and Salazar, L. F.1990. Viruses and virus-like diseases of sweet potato. In: CIP. Control of virus and virus-like diseases of potato. Report of the 3rd Planning Conference, pp 13-19. Lima
  22. Osaki, T. and Inouye, T. 1991. Transmission characterictics and cytopathology of a whitefly-transmitted virus isolated from the seet potato leaf curl disease. Bull. Univ. Osaka Prefecture Ser. B Agric. Biol. 43:11-19
  23. Park, W. M. and Kim, S. J., Ryu, K. H. and Chin, M. S. 1995. Characterization and detection of Sweet potato feathery mottle virus (SPFMV) from sweet potato by RT-PCR with the SPFMV specific primers and restriction analysis. Kor. J. Plant Pathol. 11:396-397
  24. Park, W. M., Ryu, K. H., Kim, S. J. and Chin, M. S. 1994. Some properties of a potyvirus isolated from sweet potato in Korea. Kor. J. Plant Pathol. 10:358-359
  25. Ryu, K. H. and Choi, S. H. 2002. Molecular detection and analysis of Sweet potato feathery mottle virus from root and leaf tissues of cultivated sweet potato plants. Plant Pathol. J. 18:12-17 https://doi.org/10.5423/PPJ.2002.18.1.012
  26. Saitou, N. and Nei, M. 1987. The neighbor-joining method: a new method for reconstruction of phylogenetic trees. Mol. Biol. Evol. 4: 406-425
  27. Sheffield, F. M. L. 1953. Virus diseases of sweet potato in parts of Africa. Empire J. Exp. Agric. 21:184-189
  28. Winter, S., Purac, A., Leggett, E, Frison, E. A., Rossel, H. W. and Hamilton, R. I. 1992. Partial characterization and molecular cloning of a closterovirus from sweet potato infected with sweet potato virus disease complex from Nigeria. Phytopathology 82:869-875 https://doi.org/10.1094/Phyto-82-869
  29. Wisler, G C., Duffus, J. E., Liu, H. Y. and Li, R. H. 1998. Ecology and epidermiology of whitefly-transmitted closteroviruses. Plant Dis. 82:270-280 https://doi.org/10.1094/PDIS.1998.82.3.270
  30. Yun, W. S., Lee, Y. H. and Kim, K. H. 2002. First report of Sweet potato latent virus and sweet potato chlorotic stunt virus isolated from sweet potato in Korea. Plant Pathol. J. 18:126-129 https://doi.org/10.5423/PPJ.2002.18.3.126

피인용 문헌

  1. The Current Incidence of Viral Disease in Korean Sweet Potatoes and Development of Multiplex RT-PCR Assays for Simultaneous Detection of Eight Sweet Potato Viruses vol.30, pp.4, 2014, https://doi.org/10.5423/PPJ.OA.04.2014.0029
  2. Effect of Virus Free Stocks of Sweetpotato Cultivated at Different Regions vol.60, pp.1, 2015, https://doi.org/10.7740/kjcs.2014.60.1.054
  3. Seed transmission ofSweet potato leaf curl virusin sweet potato (Ipomoea batatas) vol.64, pp.6, 2015, https://doi.org/10.1111/ppa.12366
  4. Molecular Characterization of Five Potyviruses Infecting Korean Sweet Potatoes Based on Analyses of Complete Genome Sequences vol.31, pp.4, 2015, https://doi.org/10.5423/PPJ.OA.04.2015.0072