摘要
[目的]对 cry 基因保守序列进行克隆,并使其在大肠杆菌 Rosetta(DE3)中进行表达。[方法]根据 NCBI 数据库信息设计引物序列,采用PCR 技术从抗虫棉基因组 DNA 中扩增出抗虫基因 cry 的保守序列,构建重组载体并转化到大肠杆菌 Rosetta(DE3)菌株中,利用 pGEX 原核表达系统诱导蛋白表达。同时,分析了不同 IPTG 浓度及不同诱导时间对蛋白表达量的影响。[结果]扩增出抗虫基因 cry 的两段保守序列,长度分别为304 和 853 bp;SDSPAGE 检测结果显示,经 IPTG 诱导后重组质粒 pGEX4t1304 和 pGEX4t1853 成功地表达了大量 GST 融合蛋白,分子量分别为39 和 62.4 kDa,与预期结果一致;确定了 IPTG 最佳诱导浓度为 0.15 mmol/L,最佳诱导时间为 7 h。[结论]为今后检测转 Bt 基因农作物奠定了基础。
[Objective] The aim was to clone the conserved sequences of cry gene and express them in Rosetta (DE3). [Method] Specific primers were designed according to NCBI database information and the conserved sequences of cry gene were amplified by PCR from Bt transgenic cotton. Then recombinant plasmids were constructed and expressed in E. coil strain Rosetta (DE3). Finally, the effects of different concentrations and inducing time of IPTG on the expression level of protein were investigated. [Result] Two conserved sequences (304 and 853 bp respectively) of cry gene were amplified. The result of SDS-PAGE confirmed that the recombinant plasmids pGEX-4t-I-304 and pGEX-4t-1-853 could express fusion proteins by IPTG induction and the molecular weight of protein products was 39 and 62.4 kDa respectively, which was in accordance with predicted result. The optimal protein ex- pression conditions were confirmed as induction with 0.15 mmol/L IPTG for 7 h. [Conclusion] This study prepared the ground for the further detection of Bt transgenic crops.
基金
Supported by Scientific Research Fund for Doctoral Program of Wuhan Polytechnic University (2006696)~~
关键词
BT基因
保守序列
克隆
原核表达
Bt gene
Conserved sequence
Cloning
Prokaryotic expression
