[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5423/PPJ.2002.18.5.237

Survey of Garlic Virus Disease and phylogenetic Characterization of Garlic Viruses of the Genus Allexivirus Isolated in Korea

Koo, Bong-Jin (Institute of Biotechnology, Yeungnam University, Department of Biology, Yeungnam University)
Kang, Sang-Cu (Institute of Biotechnology, Yeungnam University, Department of Biology, Yeungnam University)
Chang, Moo-Ung (Department of Biology, Yeungnam University)

Publication Information

The Plant Pathology Journal / v.18, no.5, 2002 , pp. 237-243 More about this Journal

Abstract

A survey of virus infection in garlic plants cultivated in Korea was conducted for three years. Most virus-infected garlic plants (Allium sativum) showed typical symptoms on the leaves such as yellow mosaic, stripes, and distortion. Through immunosorbent electron micro-scopy and RT-PCR analysis, the complex mixtures of viruses including garlic viruses of the genus Allerivirus, gaylic strain of Leek yellow stripe virus of the genus Potyvirus, and Garlic latent virus of the genus Carlavirus were identified in the virus-infected garlic plants. Among these viruses, Allexivirus was the most frequently detect-ed in the regions surveyed. Using sets of differential primers for Allexivirus genomes, two members of the genus were amplified and sequenced from the purified viruses. The deduced amino acid sequences for the coat proteins and the nucleic acid binding proteins of two viruses showed high homologies to Garlic virus A (CarV-A) and Garlic virus D (GarV-D) of Allekivirus. This is the first report of GarV-A and GarV-D in Korea. This suggests that Allexivirus in gavlic plants in Korea was mixed and varied. Phylogenetic analyses showed that the genus Allexivirus was diversi(ied by the processes of accumulation and evolution of viruses in garlic plants due to the long period of repeated vegetative propagation.

Keywords

Aceria tulipae; Allexivirus; garlic; garlic virus; GMbMV;

Citations & Related Records

Reference

1	Haylor, M. T. M., Brunt, A. A. and Coutts, R. H. A. 1990. Conservation of the 3' terminal nucleotide sequence in five carlaviruses. Nucleic Acids Res. 18:6127 DOI ScienceOn
2	Lot, H., Delecolle, B., Boccardo, G., Marzachi, C. and Milne, R. 1994. Partial characterization ofreovirus-like particles associated with garlic dwarf disease. Ptant Pathol. 43:537-546 DOI ScienceOn
3	Kanyuka, K. V, Vishichenko, V. K., Levy, K. E., K-ondrikov, D.Y., Ryabov, E. V. and Zavriev, S. K. 1992. Nucleotidesequence of shallot virus X RNA reveals a S'-proximal cistronclosely related to those of potexvimses and a unique arrange-ment of the 3'-proximal cistrons. J. Gen. ViroI. 73:2553-2560 DOI ScienceOn
4	Sumi, S., Matsumi, T. and Tsuneyoshi, T. 1999. Complete nucleotide sequences of garlic viruses A and C, members of the newly ratified genus Allexivirus. Arch. ViroI. 144:1819-1826 DOI ScienceOn
5	Van Dijk, P. 1993a. Carlavirus isolates S-om cultivated Allium spe-cies represent three viruses. Neth. J. Plant Pathot. 99:233-257 DOI
6	Chang, M. U., Par, W. W., Chung, J. D. and Oh, J. Y. 1992. Regeneration of virus-free plants by tissue culture from garlic Korean J. PIant Pathol. 8:123-130
7	Rupasov, V. V., Morozov, S. Yu., Kanyuka, K. V. and Zavriev, S.K. 1989. Partial nucleotide sequence of potato virus M RNAshows similarities to potexviruses in gene arrangement and theencoded ammo acid sequences. J. Gen. Virot. 70:1861-1869 DOI ScienceOn
8	Sehnke, P. C., Mason, A. M., Hood, S. J., Lister, R. M. andJohnson, J. E. 1989. A 'zinc-finger'-type binding domain intobacco streak virus coat protein. Viroloey 168:48-56 DOI ScienceOn
9	Tsuneyoshi, T, Matsumi, T, Deng, T. C., Sako, I. and Sumi, S.1998a. DifFerentiation ofAHium carlaviruses isolated from dif-ferent parts of the world based on the viral coat protein sequence. Arch. Virvt. 143:1093-1107 DOI ScienceOn
10	Van Dijk, P., Verbeek, M. and Bos, L. 1991. Mite-bome vims iso-lated from cultivated AHium species, and their classificationinto two new rymoviruses in the family Potyvihdae. Neth. J.Ptant Pathol. 97:381-399 DOI
11	Van Dijk, P. 1993b. Survey and characterization ofpotyvimsesand their strains of Allium species. Neth. J. PIant Pathot. 99:1-48
12	Chen, J., Chen, J. and Adams, M. J. 2001. Molecular characterization of a complex mixture of viruses in garlic with mosaicsymptoms in China. Arch. ViroI 146:1841-1853 DOI ScienceOn
13	Van Dijk, P. 1994. Vuus diseases ofAUium species and prospectsfor their control. Acta Hort. 358:299-305
14	Chung, H. D. and Chang, M. U. 1979. Studies on the infection ofvimrus in garlic, Allium sativum L. in Korea. J. Kor. Soc. Hort.Sci. 20:123-133
15	Lin, N. S., Hsu, Y. H. and Hsu, H. T. 1990. Immunological detection of plant vimses and a mycoplasmalike organism by directtissue blotting on nitrocellulose membranes. Phytopathotogy80:824-828 DOI
16	Takaichi, M., Yamamoto, M., Nagakubo, T. and Oeda, K. 1998. Four garlic viruses identified by reverse transcription-poly-merase chain reaction and their regional distribution in northern Japan. Plant Dis. 82:694-698 DOI ScienceOn
17	Yamashita, K., Sakaai, J. and Hanada, K. 1996. Characterizationof a new virus from Garlic (AHium sativum L.), garlic mite-borne mosaic virus. Ann. Phytopathot. Soc. Japan 62:483-489 DOI ScienceOn
18	Song, S. I., Song, J. T., Chang, M. U., Lee, J. S. and Choi, Y. D.1997. Identification of one of major viruses garlic plants, gar-lie virus X. Mot. CeIIs. 7:705-709
19	Chang, M. U., Rho, M. C. and Park, W. W. 1991. Studies on thevirus in Allium tuberosum and AIlium sativum. Korean J. Nat.Sci. 11:267-282
20	Sumi, S., Tsuneyoshi, T. and Furutani, H. 1993. Novel rod-shapedviruses isolated from garlic, AHium sativum, Possessing aunique genome organization. J. Gen. ViroI 74:1879-1885 DOI ScienceOn
21	Fujisawa, J. 1989. Loss of garlic yield by double infection ofgarlie viruses. Agric. Hortic. 64:737-741
22	Tsuneyoshi, T. and Sumi, S. 1996. DifFerentiadon among garlicviruses in mixed infections based on RT-PCR procedures anddirect tissue blotting immunoassays. Phytopathotogy 86:253-259 DOI
23	Pringle, C. R. 1999. Virus taxonomy at the XIth InternationalCongress of Virology in Sydney, Australia, 1999. Arch. Virot.144:2065-2070 DOI PUBMED ScienceOn
24	Altschul, S. F., Thomas, L. M., Scaffer, A. A., Zhang, J., Zhang,Z., Miller, W. and Lipman, D. J. 1997. Gapped BLAST andPSI-BLAST: a new generation of protein database search programs. Nucleic Acids Res. 25:3389-3402 DOI ScienceOn
25	Conci, V. C., Nome, S. F. and Milne, R. G. 1992. filamentousviruses of garlic in Argenttaa. PIantDis. 76:594-596
26	Delecolle, B. and Lot, H. 1981. Garlic viruses: Detection and partial characterization with immune electron microscopy ofthree viruses in different garlic populations with mosaic.Agronomie 1:763-770 DOI
27	Milne, R. G. and Luisoni, E. 1977. Rapid immuno electronmicroscopy of virus preparations, pp. 265-281 In: Methods in Vtrology. Vol. 6. K.. Maramorosch and H. Korporowski, eds.Academic Press, New York
28	Nagakubo, T., Kubo, M. and Oeda, K. 1994. Nucleotidesequences of the 3' region of two major viruses from mosaicdiseased garlic: Molecular evidence of mixed infection by apotyvirus and carlavirus. PhytopathbIogy 84:640-645 DOI ScienceOn
29	Tsuneyoshi, T., Matsumi, T., Natsuaki, K. T. and Sumi, S. 1998b.Nucleotide sequence analysis of virus isolates indicates the presence of three potyvirus species in Allium plants. Arch.Virol. 143:97-113 DOI ScienceOn
30	Koo, B. J., Chang, M. U, and Choi, Y. D. 1998. Garlic mite-bomevirus isolated from cultivated garlic in K-orea. Korean J. PIantPathoI. 14:136-144

Reference

9	Heyam Salih Mohammed. (2013) Journal of Phytopathology Occurrence and Phylogenetic Analysis of Potyviruses, Carlaviruses and Allexiviruses in Garlic in Sudan / 161 (9) , 642
1	Seok-Jin Park. (2011) Research in Plant Disease First Report of the Virus Diseases in Victory Onion (Allium victorialis var. platyphyllum) / 17 (1) , 66
	A. Taglienti. (2018) European Journal of Plant Pathology Molecular identification of allexiviruses in a complex mixture of garlic viruses in Latium (central Italy) /
2	Maria Bereda. (2015) European Journal of Plant Pathology Low genetic diversity of a natural population of Garlic virus D from Poland / 142 (2) , 411
1	Maria Bereda. (2017) European Journal of Plant Pathology Occurrence and phylogenetic analysis of allexiviruses identified on garlic from China, Spain and Poland commercially available on the polish retail market / 149 (1) , 227
6	Leona Leisova-Svobodova. (2011) Journal of Phytopathology Detection of Garlic Viruses Using SYBR Green Real-time Reverse Transcription-Polymerase Chain Reaction / 159 (6) , 429

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