Establishment of an Agrobacterium-mediated Inoculation System for Cucumber Green Mottle Mosaic Virus |
Kang, Minji
(Department of Agricultural Biotechnology and Research Institute of Agriculture and Life Sciences, Seoul National University)
Seo, Jang-Kyun (Crop Protection Division, National Academy of Agricultural Science) Song, Dami (Department of Agricultural Biotechnology and Research Institute of Agriculture and Life Sciences, Seoul National University) Choi, Hong-Soo (Crop Protection Division, National Academy of Agricultural Science) Kim, Kook-Hyung (Department of Agricultural Biotechnology and Research Institute of Agriculture and Life Sciences, Seoul National University) |
1 | Dawson, W. O., Lewandowski, D. J., Hilf, M. E., Bubrick, P., Raffo, A. J., Shaw, J. J., Grantham, G. L. and Desjardins, P. R. 1989. A tobacco mosaic virus-hybrid expresses and loses an added gene. Virology 172:285-292. DOI |
2 | Domingo, E., Martinez-Salas, E., Sobrino, F., de la Torre, J. C., Portela, A., Ortin, J., Lopez-Galindez, C., Perez-Brena, P., Villanueva, N., Najera, R. et al. 1985. The quasispecies (extremely heterogeneous) nature of viral RNA genome populations: biological relevance--a review. Gene 40:1-8. |
3 | Hajimorad, M. R., Eggenberger, A. L. and Hill, J. H. 2003. Evolution of Soybean mosaic virus-G7 molecularly cloned genome in Rsv1-genotype soybean results in emergence of a mutant capable of evading Rsv1-mediated recognition. Virology 314:497-509. DOI |
4 | Hebrard, E., Pinel-Galzi, A., Bersoult, A., Sire, C. and Fargette, D. 2006. Emergence of a resistance-breaking isolate of Rice yellow mottle virus during serial inoculations is due to a single substitution in the genome-linked viral protein VPg. J. Gen. Virol. 87:1369-1373. DOI |
5 | Kim, S. M., Lee, J. M., Yim, K. O., Oh, M. H., Park, J. W. and Kim, K.-H. 2003. Nucleotide sequences of two Korean isolates of Cucumber green mottle mosaic virus. Mol. Cells 16:407-412. |
6 | Lee, K. Y. 1996. Current occurrence and control of CGMMV 'Konjak' disease. Plant Dis. Agric. 2:38-39. |
7 | Lee, K. Y., Lee, B. C. and Park, H. C. 1990. Occurrence of cucumber green mottle mosaic virus disease of watermelon in Korea. Kor. J. Plant Pathol. 6:250-255. |
8 | Park, S.-H. and Kim, K.-H. 2006. Agroinfilteration-based Potato virus X replicons to dissect the requirements of viral infection. Plant Pathol. J. 22:386-390. DOI |
9 | Ruiz, M. T., Voinnet, O. and Baulcombe, D. C. 1998. Initiation and maintenance of virus-induced gene silencing. Plant Cell 10:937-946. DOI |
10 | Seo, J.-K., Lee, S.-H. and Kim, K.-H. 2009a. Strain-specific cylindrical inclusion protein of soybean mosaic virus elicits extreme resistance and a lethal systemic hypersensitive response in two resistant soybean cultivars. Mol. Plant-Microbe Interact. 22:1151-1159. DOI |
11 | Seo, J.-K., Lee, H. G. and Kim, K.-H. 2009b. Systemic gene delivery into soybean by simple rub-inoculation with plasmid DNA of a Soybean mosaic virus-based vector. Arch. Virol. 154:87-99. DOI |
12 | Zhong, M., Zhao, X., Liu, Y., Wang, Y. and Cao, K. 2015. Completion sequence and cloning of the infectious cDNA of a chb isolate of cucumber green mottle mosaic virus. Acta Virol. 59:49-56. DOI |
13 | Seo, J.-K., Sohn, S.-H. and Kim, K.-H. 2011. A single amino acid change in HC-Pro of soybean mosaic virus alters symptom expression in a soybean cultivar carrying Rsv1 and Rsv3. Arch. Virol. 156:135-141. DOI |
14 | Ugaki, M., Tomiyama, M., Kakutani, T., Hidaka, S., Kiguchi, T., Nagata, R., Sato, T., Motoyoshi, F. and Nishiguchi, M. 1991. The complete nucleotide sequence of cucumber green mottle mosaic virus (SH strain) genomic RNA. J. Gen. Virol. 72:1487-1495. DOI |