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| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.author | 汪天祥 | zh_TW |
| dc.date.accessioned | 2021-07-01T08:18:18Z | - |
| dc.date.available | 2021-07-01T08:18:18Z | - |
| dc.date.issued | 1995 | |
| dc.identifier.citation | 1.林英助.1992.蓮儲存蛋白及其cDNA選殖株之分析.私立輔仁大學生物學研究所碩士論文. 2.許海珠.1993.藕蛋白基因群及24kD藕蛋白基因序列之分析.國立臺灣大學植物科學研究所碩士論文. 3.劉淑美.1994.藕蛋白的酵素活性及組織定位之研究.私立輔仁大學生物學研究所碩士論文. 4.戴國禎.1990.蓮藕主要蛋白之研究.私立輔仁大學生物學研究所碩士論文. 5. Anderws, O.L., Beams, B., Summers, M.D. and Park, W.D. 1988. Characterization of the lipid acylhydrolase activity of the major potato (Solanum tuberosum) tuber protein, patatin, by cloning and abundant expression a baculovirus vector. Biochem. J. 252:199-206. 6. Andorson, M.A., Corinish, E.C., Mau, S.-L., Williams, E.G., Hoggart, R., Atkinson, A., Bonig, I., Grego, E., Simpson, R., Roche, P.J., Haley, J.D., Penschow, J.D., Niall, H.D., Tregear, G.W., Coghlan, J.P., Crawford, R.J. and Clarke, A.E. 1986. Clonig of cDNA for a stylar glycoprotein associtated with expression of self-incompatibilty in Nicotiana alata. Nature 321:38-44. 7. Baker, J., Steele, C. and Dure III, L. 1988. Sequence and characterization of 6 Lea protein and their genes from cotton. Plant Mol. Biol. 11:277-291. 8. Bariola, P.A., Howard, C.T., Taylor, C.B., Verburg, M.T., Jaglan, V.D. and Green, P.J. 1994. The Arabidopsis ribonuclease gene RNS 1 is tightly controled in response to phosphate limitation. The Plant J. 6:673-685. 9. Benfey, P.N., Ren, L. and Chua, N.-H. 1989. The CaMV 35S enhancer contains at least two domains which can confer different developmental and tissue-specific expression pattern. EMBO J. 8:2195-2202. 10. Blackman, S.A., Wattlanfer, S.H., Obendorf, R. L. and Leopold, A.C. 1991. Maturation protein associated with desiccation tolerance in soybean. Plant Physiol. 96:868-874. 11. Doyle, J.J., Doyle, J.L. and Hortorium, L.H.B. 1990. Isolation of plant DNA from fresh tissue. Focus 12:13-15. 12. Dure III, L. 1993. A repeating 11-mer amino acid motif and plant desiccation. The Plant J. 3:363-369. 13. Dure III, L. 1993. The Lea proteins of higher plants. In Control of plant gene expression, ed. Verma, D.P.S., pp.325-335, Boca Raton, FL:CRC. 14. Finnegan, J. and McElroy, D. 1994. Transgene inactivation: Plants fight black. Bio/Technology 12:883-888. 15. Gallagher, S.R. 1992. GUS protocols: Using the GUS gene as a reporter of gene expression. Academic press, Inc. 16. Goldberg, R.B., Barker, S.T. and Perez-Grau, J. 1989. Regulation of gene expression during plant embryogenesis. Cell 56:149-160. 17. Green, P.J. 1994. The ribonuclease of higher plants. Annu. Rev. Plant Physiol. Plant Mol. Biol. 45:421-445. 18. Hooykaas, P.J.J. and Schipleroot, R.A. 1992. Agrobacterium and plant geneic engineering. Plant Mol. Biol. 19:15-38. 19. Horsch, R.B., Fry, J.E., Hoffmann, N.L., Eichholtz, D., Rogers, S.G. and Fraley, R.T. 1985. A simple and general method for transferring genes into plants. Science 227:1229-1231. 20. Howard, E.A., Zupan, J.R., Citovsky, V. and Zambryski, P.C. 1992. The Vir D2 protein of A. tumefaciens contains a C-terminal nuclear localization signal: implication for nuclear uptake of DNA in plant cell. Cell 68:109-118. 21. Jerfferson, R.A., Kavanagh, T.A. and Bevan, M.W. 1987. Gus fusion: β-glucuronidase as a sensitive and versatile gene fusion marker in higher plants. EMBO J. 6:3901-3907. 22. Kawata, Y., Sakiyama, F. and Tamaoki, H. 1988. Aminoacid sequence of ribonuclease T2 from Aspergillus oryzae. Eur. J. Biochem. 176:683-697. 23. Koster-Topfer, M., Frommer, W.B., Rocha-Sosa, M., Rosabl, S., Schell, J. and Willmitzer, L. 1989. A class II patatin promoter is under development control in both transgenic potato and tobacco plants. Mol. Gen. Gent. 219:390-396. 24. Lee, H.S., Huang, S. and Kao, T.-H. 1994. S proteins control rejection of incompatibile pollen in Petunia inflata. Nature 367:560-563. 25. Liu, X.-J., Part, S., Willmitzer, L. and Frommer, W.B. 1990. Cis-regulatory elements directing tuber-specific and sucrose-inducible expression of a chimeric class I patatin promoter/GUS-gene fusion. Mol. Gen. Gent. 223:401-406. 26. Liu, X.-J., Rocha-Sosa, M., Hummel, S., Willmitzer, L. and Frommer, W.B. 1991. A detailed study of the regulation and evolution of the two classes of potato genes in Solanum tuberosum L.. Plant Mol. Biol. 17:1139-1154. 27. Maliga, P. 1993. Towards plastid transformation in flowering plant. Trend in Biol. Tech. 11:101-107. 28. McClure, B.A., Haring, V., Ebert, P.R., Anderson, M.A., Simpson, R.J., Sakiyama, F. and Clarke, A.E. 1989. Style self-incompatibility gene products of Nicotiana alata are ribonuclease. Nature 342:955-957. 29. Mignery, G.A., Pikaard, C.S. and Park, W.D. 1988. Molecular characterization of patatin multigene family of potato. Gene 62:24-44. 30. Murfett, J., Atherton, J.L., Mou, B., Gasser, C.S. and McClure, B.A. 1994. S-RNase are expressed in transgenic Nicotiana cause S-allele-specific pollen rejection. Nature 367:563-566. 31. Ohgi, K., Horiuchi, H., Watanable, H., Iwama, M., Takagi, M. and Irie, M. 1992. Evidence that three histidine residues of a base non-specific and adenylic acid preferential ribonuclease from Rhizopus niveus are involved in the catalytic function. J. Biochem. 112:132-138. 32. Roberts, J.K., DeSimone, N.A., Lingle, W.L. and Dure III, L. 1993. Cellular concentration and uniformity of cell-type accumulation of two Lea protein in cotton embryos. The Plant Cell 5:769-780. 33. Rosahl, S., Schell, J. and Willmitzer, L. 1987. Expression of a tuber-specific storage protein in transgenic tobacco plants: demonstration of an esterase activity. EMBO J. 6:1155-1159. 34. Pikaard, C.S., Brusca, J.S., Hannapel, D.J. and Park, W.D. 1987. The two classes of gene for the major potato tuber protein, patatin, are differentially expressed in tubers and roots. Nucleic Acid Res. 15:1979-1994. 35. Taylor, C.B., Bariola, P.A., delCardayer, S.B., Raines, R.T. and Green, P.T. 1993. RNS 2: A senescence-associated RNase of Arabidopsis that diverged from the S-RNase before speciation. Proc. Natl. Acad. Sc. USA 90:5118-5122. 36. Taylor, C.B. and Green, P.J. 1991. Gene with homolgy to fungal and S-gene RNase are expressed in Arabidopsis thaliana. Plant Physiol. 96:980-984. 37. Thomas, T.L. 1993. Gene expression during plant embryogenesis and germination: An overview. The Plant Cell 5:1401-1410. 38. Towbin, H., Staehlin, T. and Gordon, J. 1979. Electrophoresis transfer of proteins from polyacrylamide gels to nitrocellulose sheets: Procedure and some applications. Proc. Natl. Acad. Sci. USA 76:4350-4354. 39. Tsang, V.C.W., Bers, G.E. and Hancock, K. 1985. Enzyme-linked immunoelectrotransfer blot (EITB). In Enzyme-mediated immunoassay. eds. Ngo, T.T. and Lenhoff, H.M. pp.389-414. Plenum press, New York. 40. Twell, D. and Ooms, G. 1988. Structural diversity of the patatin gene family in potato cv. D'esir'ee. Mol. Gen. Gent. 212:325-336. 41. West, M.A.L. and Harada, J.J. 1993. Embryogenesis in higher plants: An overview. The Plant Cell 5:1361-1369. 42. Zambryski, P.C. 1992. Chronicles from the Agrobacterium - plant cell DNA transfer story. Annu. Rev. Plant Physiol. Plant Mol. Biol. 43:465-490. | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76126 | - |
| dc.description.abstract | 本篇論文主要利用轉殖菸草研究藕蛋白(lotamin)基因?動子(promoter)的調控,以及轉殖會大量累積大豆Lea蛋白的植株,進行這些蛋白質的組織定位及其生理功能分析。在藕蛋白基因?動子方面,轉殖三段不同長度的藕蛋白基因上游DNA片段於pBI 101質體的報導基因(GUS基因,β-glucuronidase)上游,分別為pNEL 819含819bp、pNEL 498含498 bp和pNEL 300含300 bp,皆以NPT II基因表現抗kanamycin作轉殖的篩選。篩選出轉殖成功的植株,並以PCR確認含GUS基因。從種子的kanamycin抗性發芽試驗,發現抗性能力的遺傳符合孟德爾遺傳律,表示轉殖基因穩定插入核染色體。從種子的萃取液作GUS螢光活性測定,pNEL 819的轉殖株GUS活性最高達419.870 U(pmole MU/min•mg protein),pNEL 498的轉殖株GUS活性最高達34.60 U,pNEL 300的轉殖株GUS活性最高達37.95 U。GUS組織化學分析,pNEL 819的轉殖株表現在莖的髓部,和維管束交接的薄壁細胞,另外在花梗的髓部,子房和果莢的中軸,以及部份種子的胚也被偵測到。pNEL 498亦有類似的表現情形,顯示更上游區域或其他區域應有對組織特異表現的調控區域。在大豆Lea蛋白方面,轉殖三個不同lea基因,GmPM 1、GmPM 2和GmPM 8的cDNA取代質體pBI 121的GUS基因,構築於CaMV 35S?動子下游,這三個構築質體分別為pGMZ 2、pGMZ 16和pGMZ 238。在pGMZ 2的轉殖株,以Western blotting確認12棵轉殖株能表現GmPM 1蛋白,其中三棵的蛋白含量較高。分離葉片葉綠體,發現大部份蛋白質留在高速離心的上清液,僅少量蛋白留在純化的葉綠體內。在pGMZ 16的轉殖株,以Western blotting確認八棵會表現GmPM 2蛋白,其中二棵蛋白含量較高。pGMZ 238以PCR找到十棵轉殖株含有GmPM 8 cDNA,其中二棵植株矮化,可能是根系發育不良的結果,以Western blotting分析發現此二棵植株的GmPM 8蛋白含量確實較高,是否因為該蛋白質的大量累積,才造成植株矮化,則有待進一步分析。 | zh_TW |
| dc.description.abstract | The goal of this thesis is to study the regulation of expression of lotamin promoter and the expression of soybean Lea protein by transgenic tobacco. Three DNA fragments of lotamin promoter with 819 bp, 498 bp and 300 bp respectively, were inserted into the upstream of promoterless GUS gene of pBI 101 plasmid. These constructs were called pNEL 819, pNEL 498 and pNEL 300 respectively. Transformants of these constructs were screened by kanamycin resistance property and were further confirmed that they contain GUS gene by PCR. Results from seed germination test show that kanamycin resistant inheritance follows the Mendel's law. This pneomenon indicates that transgenic genes were stably inserted into nuclear chromosome. Seed proteins extracted from transformant with pEL 819 or pNEL 498 or pNEL 300 were used in GUS fluorometic assay, and activities up to 419.78U, 34.60U, 37.95U were detected. In GUS histochemical analysis, transformants with pNEL 819 constract express GUS activity in pith of stem, parenchyma cell near vascular bundle. Such activity also shows in other tissue, including pith of pedicle, central axis of ovary and fruit and embryo of seed. Transformants with pNEL 498 shows similar GUS expression pattern of pNEL 819. This result reveals that further upstream or another region of lotamin promoter might participate in regulating lotamin expression. In soybean Lea proteins study, three constructs, pGMZ 2, pGMZ 16, pGMZ 238, were pBI 121 with cDNA of different soybean genes - pGmPM 1, pGmPM 2, pGmPM 8. 12 transformants with pGMZ 2 construct can express GmPM 1 protein confirming by Western blotting, and three of them can experss GmPM 1 protein in higher level. Analysis of isolated chloroplast of leave shows that the majority of GmPM 1 protein retains in 10000xg supernatant. In the case of transformants with pGMZ 16, 8 transformants can express GmPM 2 protein and two of them shows in higher expression level. 10 transformants with pGMZ 238 constract were confirmed by PCR, and their GmPM 8 protein was detected on Western blotting. Two transformants express GmPM 8 protein in larger qualitity and present abnormal morphology. | en |
| dc.description.provenance | Made available in DSpace on 2021-07-01T08:18:18Z (GMT). No. of bitstreams: 0 Previous issue date: 1995 | en |
| dc.description.tableofcontents | 誌謝……………………………………………………i 試劑名稱縮寫……………………………………………………ii 中文摘要……………………………………………………iii 英文摘要……………………………………………………v 壹、前言……………………………………………………1 貳、材料與方法……………………………………………………5 一、材料……………………………………………………5 二、方法……………………………………………………13 1、植物基因轉殖技術 - 葉圓盤轉形法(leaf-disc transformation)………………………………13 2、溫室種植……………………………………………………14 3、菸草總DNA抽取……………………………………………………14 4、聚合?鏈反應……………………………………………………15 5、菸草種子抗性試驗……………………………………………………16 6、GUS活性螢光測定法……………………………………………………16 7、GUS組織化學分析……………………………………………………17 8、蛋白質萃取……………………………………………………18 9、蛋白質電泳分析……………………………………………………18 10、西方墨點(Western blotting)分析……………………………………………………18 11、葉綠體分離……………………………………………………19 參、結果……………………………………………………20 一、植物基因轉殖技術……………………………………………………20 二、遺傳分析……………………………………………………21 三、GUS活性螢光測定分析之結果……………………………………………………21 四、GUS組織化學分析之結果……………………………………………………22 五、大豆Lea蛋白在轉殖菸草表現情形……………………………………………………23 肆、討論……………………………………………………24 伍、未來展望……………………………………………………29 陸、圖表……………………………………………………30 柒、參考文獻……………………………………………………56 捌、附錄……………………………………………………61 | |
| dc.language.iso | zh-TW | |
| dc.title | 利用轉殖菸草研究藕蛋白基因?動子表現的調控和大豆成熟蛋白的生理角色 | zh_TW |
| dc.title | Study on Regulation of Lotamin Promoter Expression and Physiological Role of Soybean Maturation Protein by Transgenic Tobacco (Nicotiana tabacum) | en |
| dc.date.schoolyear | 83-2 | |
| dc.description.degree | 碩士 | |
| dc.relation.page | 74 | |
| dc.rights.note | 未授權 | |
| dc.contributor.author-dept | 生命科學院 | zh_TW |
| dc.contributor.author-dept | 植物科學研究所 | zh_TW |
| 顯示於系所單位: | 植物科學研究所 | |
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