한국식물병리학회:학술대회논문집 (Proceedings of the Korean Society of Plant Pathology Conference)
- 한국식물병리학회 1994년도 Proceedings of International Symposium on BIOLOGICAL CONTROL OF PLANT DISEASES Korean Society of Plant Pathology
- /
- Pages.86-102
- /
- 1994
Molecular Biological Studies on Korean Garlic Viruses
- Choi, Jin-Nam (Department of Agricultural Chemistry Seoul National University) ;
- Song, Jong-Tae (Department of Agricultural Chemistry Seoul National University) ;
- Shin, Chan-Seok (Department of Agricultural Chemistry Seoul National University) ;
- La, Yong-Joon (Department of Agricultural Biology, Seoul National University) ;
- Lee, Jong-Seob (Department of Molecular Biology, Seoul National University) ;
- Choi, Yang-Do (Department of Agricultural Chemistry Seoul National University)
- 발행 : 1994.06.01
초록
To understand the molecular structure and pathogenesis mechanism of Korean garlic viruses, we have isolate cDNA clones for garlic viruses. The partial nucleotide sequences of 24 cDNA clones were determined and that of six clones containing poly (A) tail were compared with those of other plant viruses. One of those clones, V9 has 81.8% similarity in nucleotide sequence and 93.0% in deduced amino acid sequence, respectively, to the coat protein gene for garlic mosaic virus (GMV). Northern blot analysis with the clone V9 demonstrated that the genome of GMV is 7.8 kb long and has poly (A) tail. The anti-coat protein antibody for GMV recognizes 35 kDa polypeptide which could be the coat protein of GMV from infected garlic leaf extract or virus preparation. Clone G7 has about 62% of deduced amino acid sequence identity with the members of potyvirus group. Northern blot analysis with the clone G7 demonstrated that the genome of the potyvirus I garlic is 9.0 kb long and has poly (A) tail. The third clone, S81, shows 42% amino acid identity to the potexvirus. The other clones are under the characterization. To test the possibility of producing garlic virus resistant plant, we have designed a hairpin type ribozyme to cleave V9 RNA at the middle of the coat protein gene. From the cleavage reactions in vitro with two different sizes of RNA substrates, V9SUB (144 nucleotides) and V9 RNA (1,361 nucleotides), the ribozyme can cleave V9 sequence effectively at the predicted site. To study the activity of the ribozyme in vivo, plant transformation is in progress. Further possibilities to produce garlic virus resistant plant will be discussed.
키워드