To construct the bi-valent genetic engineering vaccine against pseudorabies virus(PRV)and porcine reproductive and respiratory syndrome virus(PRRSV),the modified PRRSV ORF5 gene(ORF5M) and the VP22 gene of bovin...To construct the bi-valent genetic engineering vaccine against pseudorabies virus(PRV)and porcine reproductive and respiratory syndrome virus(PRRSV),the modified PRRSV ORF5 gene(ORF5M) and the VP22 gene of bovine herpesvirus 1(BHV-1),which encodes VP22 protein and has been demonstrated to exhibit the unusual protein transduction property,were inserted into a PRV universal transfer vector pIECMV by turns.A recombinant virus transfer vector pIECMV-VP22ORF5M possessing VP22-ORF5M fusion gene was generated.The recombinant virus transfer vector pIECMV-VP22ORF5M co-transfected the IBRS-2 cells with PRV TK-/gE-/LacZ+ genomic DNA digested by EcoRⅠusing liposome method.Based on homologous recombination,the recombinant virus was generated and then purified by the plaque assay and PCR amplification.After three rounds of plaque purification,the recombinant virus was further confirmed by PCR,Southern blot and Western blot.A recombinant PRV(rPRV)TK-/gE-/VP22GP5+ expressing VP22-GP5 fusion protein was constructed.The results of TCID50 tests showed that the insertion of the foreign genes had no influence on the propagation of rPRV in IBRS-2 or PK-15 cells.The construction of rPRV TK-/gE-/VP22GP5+ provides a basis for further study of bi-valent genetic engineering vaccines against PRRSV and PRV,and that this strategy may also be useful to develop more efficient genetic engineering vaccines against other pathogens.展开更多
为获得FMDV的衣壳蛋白前体P1和P1与3C基因的重组伪狂犬病毒,并评价两重组病毒的免疫效果,进行了本项研究。将构建的重组转移质粒pIESZP1和pUTK3CP1,用脂质体转染预先感染0.1 MOI PRV的Vero细胞,经120 h培养收获病毒后,再分别用蓝斑筛选...为获得FMDV的衣壳蛋白前体P1和P1与3C基因的重组伪狂犬病毒,并评价两重组病毒的免疫效果,进行了本项研究。将构建的重组转移质粒pIESZP1和pUTK3CP1,用脂质体转染预先感染0.1 MOI PRV的Vero细胞,经120 h培养收获病毒后,再分别用蓝斑筛选和BrdU加压筛选重组病毒3~5次。经过挑斑纯化、扩增培养后用PCR、IFA检测筛选表达的FMDVP1蛋白。用这2株病毒分别免疫BALB/c小鼠,通过SN和ELISA方法检测免疫小鼠的抗体水平。成功地获得了2株可以正确表达目的蛋白的重组伪狂犬病毒rPRVP1和rPRV3CP1。2株重组病毒均可诱导小鼠产生特异性抗FMDV抗体,两重组病毒各项免疫指标之间没有明显的差异。展开更多
文摘To construct the bi-valent genetic engineering vaccine against pseudorabies virus(PRV)and porcine reproductive and respiratory syndrome virus(PRRSV),the modified PRRSV ORF5 gene(ORF5M) and the VP22 gene of bovine herpesvirus 1(BHV-1),which encodes VP22 protein and has been demonstrated to exhibit the unusual protein transduction property,were inserted into a PRV universal transfer vector pIECMV by turns.A recombinant virus transfer vector pIECMV-VP22ORF5M possessing VP22-ORF5M fusion gene was generated.The recombinant virus transfer vector pIECMV-VP22ORF5M co-transfected the IBRS-2 cells with PRV TK-/gE-/LacZ+ genomic DNA digested by EcoRⅠusing liposome method.Based on homologous recombination,the recombinant virus was generated and then purified by the plaque assay and PCR amplification.After three rounds of plaque purification,the recombinant virus was further confirmed by PCR,Southern blot and Western blot.A recombinant PRV(rPRV)TK-/gE-/VP22GP5+ expressing VP22-GP5 fusion protein was constructed.The results of TCID50 tests showed that the insertion of the foreign genes had no influence on the propagation of rPRV in IBRS-2 or PK-15 cells.The construction of rPRV TK-/gE-/VP22GP5+ provides a basis for further study of bi-valent genetic engineering vaccines against PRRSV and PRV,and that this strategy may also be useful to develop more efficient genetic engineering vaccines against other pathogens.
文摘为获得FMDV的衣壳蛋白前体P1和P1与3C基因的重组伪狂犬病毒,并评价两重组病毒的免疫效果,进行了本项研究。将构建的重组转移质粒pIESZP1和pUTK3CP1,用脂质体转染预先感染0.1 MOI PRV的Vero细胞,经120 h培养收获病毒后,再分别用蓝斑筛选和BrdU加压筛选重组病毒3~5次。经过挑斑纯化、扩增培养后用PCR、IFA检测筛选表达的FMDVP1蛋白。用这2株病毒分别免疫BALB/c小鼠,通过SN和ELISA方法检测免疫小鼠的抗体水平。成功地获得了2株可以正确表达目的蛋白的重组伪狂犬病毒rPRVP1和rPRV3CP1。2株重组病毒均可诱导小鼠产生特异性抗FMDV抗体,两重组病毒各项免疫指标之间没有明显的差异。
