| Tài liệu tham khảo |
Loại |
Chi tiết |
| 2007. Control of coleopteran insect pests through RNA interference. Nat.Biotechnol. 25:1322–1326.Duan, X., X. Li, Q. Xue, M. Abo-El- Saad, D. Xu, and R. Wu. 1996 |
Sách, tạp chí |
| Tiêu đề: |
Nat. "Biotechnol |
|
| 1998. Transgenic plants for insect resis- tance. Plant Sci. 131:1–11 |
Sách, tạp chí |
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| 1999. Overexpression of the Bacillus thuringiensis (Bt) Cry2Aa2 protein in chloroplasts confers resistance to plants against susceptible and Bt-resistant insects. Proc. Natl. Acad.Sci. USA 96:1840–1845 |
Sách, tạp chí |
| Tiêu đề: |
Bacillus "thuringiensis" (Bt) Cry2Aa2 protein in chloroplasts confers resistance to plants against susceptible and Bt-resistant insects. "Proc. Natl. Acad. "Sci. USA |
|
| 2000. Transgenic plants expressing cat- ionic peptide chimeras exhibit broad- spectrum resistance tophytopathogens. Nat. Biotechnol |
Sách, tạp chí |
| Tiêu đề: |
Transgenic plants expressing cat- ionic peptide chimeras exhibit broad- spectrum resistance to phytopathogens |
| Nhà XB: |
Nat. Biotechnol |
| Năm: |
2000 |
|
| 1991. Modification of the coding sequence enhances plant expression of insect control protein genes. Proc. Natl.Acad. Sci. USA 88:3324–3328 |
Sách, tạp chí |
| Tiêu đề: |
Proc. Natl. "Acad. Sci. USA |
|
| 1994. Transgenic pea seeds expressing the α-amylase inhibitor of the common bean are resistant to bruchid beetles.Bio/Technology 12:793–796 |
Sách, tạp chí |
|
| 2005. Developing salt-tolerant crop plants: challenges and opportunities.Trends Plant Sci. 10:615–620 |
Sách, tạp chí |
| Tiêu đề: |
Developing salt-tolerant crop plants: challenges and opportunities |
| Nhà XB: |
Trends Plant Sci. |
| Năm: |
2005 |
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| 2. Suggest several different strategies for developing insect- resistant plants |
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| 3. How can protease inhibitors, α-amylase inhibitor, choles- terol oxidase, Vip proteins, and ricin each protect a plant against damage from insect predation |
Khác |
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| 4. How can RNAi be used to protect plants against damage from insect predation |
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| 5. Suggest a couple of strategies for simultaneously protecting a plant against damage from several different viruses |
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| 6. How can RNAi be used to protect plants against damage from plant viruses |
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| 7. What general strategies can be employed in genetically engineering plants to be resistant to herbicides |
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| 8. Suggest two different strategies for engineering plants that are resistant to the herbicide glyphosate. Why is this impor- tant |
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| 9. How can crop plants be engineered to be resistant to the herbicide dicamba |
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| 10. How can plants be engineered to resist damage from pathogenic soil fungi |
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| 11. How can plants be genetically engineered to be resistant to pathogenic bacteria |
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| 12. How can single-chain Fv antibodies be engineered to pro- tect plants against fungal pathogens |
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| 13. How can a plant’s systematic acquired resistance response be engineered to confer resistance to a broad spectrum of both fungal and bacterial pathogens |
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| 14. What is the effect of increasing the level of oxidized gluta- thione within a plant? How would you genetically manipulate a plant to do this |
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