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목차
Ⅰ. 요약
Ⅱ. 서론
Ⅲ. 본론
1. Bacillus thuringiensis의 특성과 ICPs의 이용분야
1) 살충성 단백질들(ICPs)의 성상과 분류
2) 농업에서 해충방제를 위한 ICPs의 이용
3) 임업에서 해충방제를 위한 ICPs의 이용 .
2. 한국토양에 존재하는 Bacillus thuringiensis 균주의 분포 및 동정
3. 살충성 Cry 유전자의 식물체 내 도입시의 문제점들
4. 살충성 Cry 유전자의 염기서열 변형으로 식물체 내에서 ICPs의 생성량 증가 유도
Ⅳ. 결론
Ⅴ. 고찰
Ⅵ. 인용문헌
Ⅱ. 서론
Ⅲ. 본론
1. Bacillus thuringiensis의 특성과 ICPs의 이용분야
1) 살충성 단백질들(ICPs)의 성상과 분류
2) 농업에서 해충방제를 위한 ICPs의 이용
3) 임업에서 해충방제를 위한 ICPs의 이용 .
2. 한국토양에 존재하는 Bacillus thuringiensis 균주의 분포 및 동정
3. 살충성 Cry 유전자의 식물체 내 도입시의 문제점들
4. 살충성 Cry 유전자의 염기서열 변형으로 식물체 내에서 ICPs의 생성량 증가 유도
Ⅳ. 결론
Ⅴ. 고찰
Ⅵ. 인용문헌
본문내용
y, and S. Higgs (ed), Bacillus thuringinsis, an environmental biopeticide: theory and practice. J. Wiley & Sons, New York, N.Y.
3. Bravo, A. (1997) Phylogenetic relationships of Bacillus thuringinsis δ-endotoxin family proteins and their functional domains. J. Bacteriol. 179:2793-2801
4. de Barjac, H., and D. J. Sutherland (1990) Bacterial control of mosquitoes and blackflies. Rutgers University Press, New Brunswick, N.J.
5. Dulmage, H. T. (1970) Inseciticidal activity of HD-1, a new isolate of Bacillus thuringinsis var. alesti. J. Invertebr. Pathol. 15:232-239
6. Goldberg, L. J., and J. Margalit. (1977) A bacterial spore demonstrating rapid larvicidal activity against Anopheles sergentii, Uranotaenia unguiculata, Culex univitattus, Aedes aegypti, and Culex pipiens. Mosquitoes News 37:355-358
7. Haider, M. Z.. and D. J. Ellar (1987) Analysis of the molecular basis of insecticidal specificity of Bacillus thuringinsis crystal δ-endotoxin. Biochem. J. 248:197-201
8. Machesky, H. (1989) USDA forest service gypsy moth aerial suppression/eradication projects. Gypsy Moth News 20:2-3
9. Pauda, L. E., M. Ohba, and K. Aizawa (1980) The isolates of Bacillus thuringinsis serotype 10 with a highly preferential toxicity to mosquito larvae. J. Invertebr. Pathol. 36:180-186
10. Rowe, G. E., A. Margaritis, and H. T. Dulmage (1987) Bioprocess developments in the production of bioinsecticides by Bacillus thuringinsis. Crit. Rev. Biotechnol. 6:87-127
11. Smith, G. P., J. D. Merrick, E. J. Bone, and D. J. Ellar (1996) Mosquitocidal activity of the CryⅠC δ-endotoxin from Bacillus thuringinsis subsp. aizawai. Appl. Environ. Microbiol. 62:680-684
12. Torla, R. (1998) Personal communication
13. van Frankenhuyzen, K., J. L. Gringorten, D. Gauthier, R. E. Milne, L. Masson, and M. Peferoen (1993) Toxicity of activated CryⅠproteins from Bacillus thuringinsis to six forest Lepidoptera and Bombyx mori. J. Invertebr. Pathol. 62:295-301
14. Widner, W. R., and H. R. Whiteley (1990) Location of the dipteran specificity region in a lepidopteran-dipteran crystal protein from Bacillus thuringinsis. J. Bacteriol. 172:2826-2832
15. Kim, H. S., D. W. Lee, S. D. Woo, Y. M. Yu and S. K Kang. (1998) Distribution, Serological identification and PCR analysis of Bacillus thuringiensis isolated from soils of Korea. Curr. Microbiol. 37: 52-57.
16. Kim, H. S., D. W. Lee, S. D. Woo, Y. M. Yu and S. K Kang. (1998) Seasonal distribution and characterization of Bacillus thuringiensis isolated from sericultural environments in Korea. J. Gen. Appl. Microbiol. 44: 133-138.
17. Sims, S. R., and L. R. Holden (1996) Insect bioassay for determining soil degradation of Bacillus thuringiensis subsp. kurstaki CryⅠAb protein in corn tissue. Environ. Entonomol. 25:659-664
18. Sims, S. R., and J. E. Ream (1997) Soil inactivation of the Bacillus thuringiensis subsp. kurstaki CryⅡA insecticidal protein within transgenic cotton tissue: laboratory microcosm and field studies. J. Agric. Food Chem. 45:1502-1505
3. Bravo, A. (1997) Phylogenetic relationships of Bacillus thuringinsis δ-endotoxin family proteins and their functional domains. J. Bacteriol. 179:2793-2801
4. de Barjac, H., and D. J. Sutherland (1990) Bacterial control of mosquitoes and blackflies. Rutgers University Press, New Brunswick, N.J.
5. Dulmage, H. T. (1970) Inseciticidal activity of HD-1, a new isolate of Bacillus thuringinsis var. alesti. J. Invertebr. Pathol. 15:232-239
6. Goldberg, L. J., and J. Margalit. (1977) A bacterial spore demonstrating rapid larvicidal activity against Anopheles sergentii, Uranotaenia unguiculata, Culex univitattus, Aedes aegypti, and Culex pipiens. Mosquitoes News 37:355-358
7. Haider, M. Z.. and D. J. Ellar (1987) Analysis of the molecular basis of insecticidal specificity of Bacillus thuringinsis crystal δ-endotoxin. Biochem. J. 248:197-201
8. Machesky, H. (1989) USDA forest service gypsy moth aerial suppression/eradication projects. Gypsy Moth News 20:2-3
9. Pauda, L. E., M. Ohba, and K. Aizawa (1980) The isolates of Bacillus thuringinsis serotype 10 with a highly preferential toxicity to mosquito larvae. J. Invertebr. Pathol. 36:180-186
10. Rowe, G. E., A. Margaritis, and H. T. Dulmage (1987) Bioprocess developments in the production of bioinsecticides by Bacillus thuringinsis. Crit. Rev. Biotechnol. 6:87-127
11. Smith, G. P., J. D. Merrick, E. J. Bone, and D. J. Ellar (1996) Mosquitocidal activity of the CryⅠC δ-endotoxin from Bacillus thuringinsis subsp. aizawai. Appl. Environ. Microbiol. 62:680-684
12. Torla, R. (1998) Personal communication
13. van Frankenhuyzen, K., J. L. Gringorten, D. Gauthier, R. E. Milne, L. Masson, and M. Peferoen (1993) Toxicity of activated CryⅠproteins from Bacillus thuringinsis to six forest Lepidoptera and Bombyx mori. J. Invertebr. Pathol. 62:295-301
14. Widner, W. R., and H. R. Whiteley (1990) Location of the dipteran specificity region in a lepidopteran-dipteran crystal protein from Bacillus thuringinsis. J. Bacteriol. 172:2826-2832
15. Kim, H. S., D. W. Lee, S. D. Woo, Y. M. Yu and S. K Kang. (1998) Distribution, Serological identification and PCR analysis of Bacillus thuringiensis isolated from soils of Korea. Curr. Microbiol. 37: 52-57.
16. Kim, H. S., D. W. Lee, S. D. Woo, Y. M. Yu and S. K Kang. (1998) Seasonal distribution and characterization of Bacillus thuringiensis isolated from sericultural environments in Korea. J. Gen. Appl. Microbiol. 44: 133-138.
17. Sims, S. R., and L. R. Holden (1996) Insect bioassay for determining soil degradation of Bacillus thuringiensis subsp. kurstaki CryⅠAb protein in corn tissue. Environ. Entonomol. 25:659-664
18. Sims, S. R., and J. E. Ream (1997) Soil inactivation of the Bacillus thuringiensis subsp. kurstaki CryⅡA insecticidal protein within transgenic cotton tissue: laboratory microcosm and field studies. J. Agric. Food Chem. 45:1502-1505
추천자료
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- 등록일2004.01.17
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