[Objective]The aim was to optimize genetic transformation system in tobacco K326 mediated by Agrobacterium.[Method]The leaf of tobacco aseptic seedling was taken as explants to study the optimization of Agrobacterium-...[Objective]The aim was to optimize genetic transformation system in tobacco K326 mediated by Agrobacterium.[Method]The leaf of tobacco aseptic seedling was taken as explants to study the optimization of Agrobacterium-mediated genetic transformation system.[Result] The highest transformation efficiency was obtained when the explants were pre-cultured in the medium of MS + 2 mg/L 6-BA + 0.2 mg/L IAA for 2 d,and then infected with Agrobacterium GV3101(OD600 =0.6) for 5 min.The PCR detection proved that npt II gene had been integrated into the regenerated tobacco plants.[Conclusion]A highly efficient genetic transformation system of tobacco leaf mediated by Agrobacterium was established.展开更多
Two plastid division genes, NtFtsZ1 and NtFtsZ2 isolated from Nicotiana tabacum L. were fused with gfp and expressed in Escherichia coli . The regular localizations of full length NtFtsZs∶GFP along the fil...Two plastid division genes, NtFtsZ1 and NtFtsZ2 isolated from Nicotiana tabacum L. were fused with gfp and expressed in Escherichia coli . The regular localizations of full length NtFtsZs∶GFP along the filamentous bacteria indicated that the NtFtsZs could recognize the potential division sites in E. coli and be polymerized with heterogeneous FtsZ from bacteria. The overexpression of NtFtsZs ∶ gfp inhibited the division of host strain cells and resulted in the long filamentous bacterial morphology. These results suggested that eukaryotic ftsZs have similar function to their prokaryotic homologs. Meanwhile, the different deletions of motifs of NtFtsZs are also employed to investigate the functions of these proteins in E. coli . The results showed that the C_terminal domains of NtFtsZs were related to the correct localization of NtFtsZs in E. coli and the N_terminal domains of NtFtsZs were responsible for the polymerization of homogeneous and heterogeneous FtsZ proteins. The significance of these results in understanding the functions of NtFtsZs in plastid division were discussed.展开更多
Expression vector pE14 with double resistance to virus and insect was constructed by inserting CW-cp gene and Bt-toxin gene one by into T-DNA of the same binary vector pE3. Tobacco was then transformed with Agrbacter...Expression vector pE14 with double resistance to virus and insect was constructed by inserting CW-cp gene and Bt-toxin gene one by into T-DNA of the same binary vector pE3. Tobacco was then transformed with Agrbacterium tumefaciens (At)GV311-SE carrying PE14. Nopaline assay and PCR amplification confirmed that both CW-cp gene and Bt-toxin gene had been introduced into tobacco genome by T-DNA of PE3. Test attack with virus and demonstrated, in some of the transgenic plants, double resistance to both infection by CMV and damage by Manduca sexta.展开更多
文摘[Objective]The aim was to optimize genetic transformation system in tobacco K326 mediated by Agrobacterium.[Method]The leaf of tobacco aseptic seedling was taken as explants to study the optimization of Agrobacterium-mediated genetic transformation system.[Result] The highest transformation efficiency was obtained when the explants were pre-cultured in the medium of MS + 2 mg/L 6-BA + 0.2 mg/L IAA for 2 d,and then infected with Agrobacterium GV3101(OD600 =0.6) for 5 min.The PCR detection proved that npt II gene had been integrated into the regenerated tobacco plants.[Conclusion]A highly efficient genetic transformation system of tobacco leaf mediated by Agrobacterium was established.
文摘Two plastid division genes, NtFtsZ1 and NtFtsZ2 isolated from Nicotiana tabacum L. were fused with gfp and expressed in Escherichia coli . The regular localizations of full length NtFtsZs∶GFP along the filamentous bacteria indicated that the NtFtsZs could recognize the potential division sites in E. coli and be polymerized with heterogeneous FtsZ from bacteria. The overexpression of NtFtsZs ∶ gfp inhibited the division of host strain cells and resulted in the long filamentous bacterial morphology. These results suggested that eukaryotic ftsZs have similar function to their prokaryotic homologs. Meanwhile, the different deletions of motifs of NtFtsZs are also employed to investigate the functions of these proteins in E. coli . The results showed that the C_terminal domains of NtFtsZs were related to the correct localization of NtFtsZs in E. coli and the N_terminal domains of NtFtsZs were responsible for the polymerization of homogeneous and heterogeneous FtsZ proteins. The significance of these results in understanding the functions of NtFtsZs in plastid division were discussed.
文摘Expression vector pE14 with double resistance to virus and insect was constructed by inserting CW-cp gene and Bt-toxin gene one by into T-DNA of the same binary vector pE3. Tobacco was then transformed with Agrbacterium tumefaciens (At)GV311-SE carrying PE14. Nopaline assay and PCR amplification confirmed that both CW-cp gene and Bt-toxin gene had been introduced into tobacco genome by T-DNA of PE3. Test attack with virus and demonstrated, in some of the transgenic plants, double resistance to both infection by CMV and damage by Manduca sexta.
