摘要
[ Objective ] This study aimed to clone and express formyltransferase (Wbkc) gene from Brucella abortus in E. coli, purify the expressed protein and analyze its immunogenicity. [Method] A gene encoding 27 -35 ku formyltransferase (Wbkc) was amplified from the genomic DNA of BruceUa abortus by PCR. The amplified fragments were digested with BamH I and Sal I, and inserted into pET28a vector. The constructed recombinant plasmid pET 28a-Wbkc was trans- formed into E. coli BL21 and was induced to express the fusion protein. Subsequently, the protein was purified by histidine-binding resin column chromatography, and the immunogenicity was detected by Western blot assay. The recombinant plasmid was identified by colony PCR, double digestion and sequencing analysis. [ Result] Wbkc was successfully cloned and expressed in E. coli. A specific protein band of 29 ku was detected by SDS-PAGE. Western blot showed specific im- munoreactivity of the purified fusion protein. [ Conclusion] This study provided a solid foundation for further investigating diagnostic proteins for brucellosis and developing Brucella gene-deletion vaccines.
[ Objective ] This study aimed to clone and express formyltransferase (Wbkc) gene from Brucella abortus in E. coli, purify the expressed protein and analyze its immunogenicity. [Method] A gene encoding 27 -35 ku formyltransferase (Wbkc) was amplified from the genomic DNA of BruceUa abortus by PCR. The amplified fragments were digested with BamH I and Sal I, and inserted into pET28a vector. The constructed recombinant plasmid pET 28a-Wbkc was trans- formed into E. coli BL21 and was induced to express the fusion protein. Subsequently, the protein was purified by histidine-binding resin column chromatography, and the immunogenicity was detected by Western blot assay. The recombinant plasmid was identified by colony PCR, double digestion and sequencing analysis. [ Result] Wbkc was successfully cloned and expressed in E. coli. A specific protein band of 29 ku was detected by SDS-PAGE. Western blot showed specific im- munoreactivity of the purified fusion protein. [ Conclusion] This study provided a solid foundation for further investigating diagnostic proteins for brucellosis and developing Brucella gene-deletion vaccines.
基金
Supported by National Natural Science Foundation of China(31260608)
Key Science and Technology Project for Colleges and Universities in Inner Mongolia Autonomous Region(NJZZ12117)
Scientific and Technological Cooperation Project between Tongliao City and Universities in Inner Mongolia Autonomous Region(SXZD2012131)
