Pang Yong-qi, Jia Hong-ge, Fang Rong-xiang, Guo Ai-guang, Chen Xiao-ying
National Key Laboratory of Plant Genomics, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100080, China.
Wei Sheng Wu Xue Bao. 2005 Feb;45(1):125-8.
The Cre/loxP system derived from bacteriophage P1 is widely used to carry out complex manipulations of DNA molecules both in vitro and in vivo. In order to further characterize and modify the Cre/loxP system, a convenient method for assaying the recombination efficiency is needed. A simple and visible assay is described, in which two incompatible plasmids, separately carrying the cre gene and loxP-flanked gfp gene, were co-transferred into E. coli. The cre gene was inserted into a kanamycin-resistant bacterial expression vector, designated pET30a-Cre. The gfp gene, flanked by directly repeated loxP sites, was cloned into an ampicillin-resistant expression vector to generate pET23b-loxGFP. E. coli BL21 (DE3) was cotransformed with pET30a-Cre and pET23b-loxGFP, and cultured in the presence of both ampicillin and kanamycin. Under UV illumination, the Cre-mediated recombination events can be easily detected. The fidelity of recombination was verified by SDS-PAGE analysis and restriction analysis followed by DNA sequencing. Thus, this cotransformation method provides a straightforward assay that can be used to modify the Cre/loxP system.
源自噬菌体P1的Cre/loxP系统被广泛用于在体外和体内对DNA分子进行复杂操作。为了进一步表征和改造Cre/loxP系统,需要一种方便的方法来检测重组效率。本文描述了一种简单且可见的检测方法,即将分别携带cre基因和loxP侧翼gfp基因的两个不相容质粒共转入大肠杆菌。cre基因被插入到一个耐卡那霉素的细菌表达载体中,命名为pET30a-Cre。侧翼带有同向重复loxP位点的gfp基因被克隆到一个耐氨苄青霉素的表达载体中,构建成pET23b-loxGFP。将大肠杆菌BL21(DE3)用pET30a-Cre和pET23b-loxGFP共转化,并在氨苄青霉素和卡那霉素存在的情况下培养。在紫外线照射下,可以很容易地检测到Cre介导的重组事件。通过SDS-PAGE分析、限制性分析以及随后的DNA测序验证了重组的保真度。因此,这种共转化方法提供了一种可用于改造Cre/loxP系统的直接检测方法。
