学术
Red/ET重组在基因打靶载体快速构建中的应用
王军平[1] 张友明[2]
[1]第三军医大学军事预防医学院全军复合伤研究所、创伤烧伤复合伤国家重点实验室,重庆400038 [2]基因桥研究室,德累斯顿01307,德国
摘 要:
通过合理应用Red/ET重组技术实现基因打靶载体的快速构建。在Red/ET重组介导下,首先从基因组DNA中将靶基因片段亚克隆至打靶质粒载体中,随后将两端带有50bp同源臂的抗性筛选基因插入并替换靶基因上的目标序列,如此两步操作即可完成一个传统型基因敲除打靶载体的构建;结合Cre-IoxP系统,在传统型基因敲除打靶载体的基础上,经过再一轮的Red/ET重组就能够成功实现条件性基因敲除打靶载体的构建。整个实验过程不需要PCR扩增长、短臂序列,也不涉及酶切、连接反应,因此,不仅省时、省力,而且所构建的基因打靶载体序列准确,无突变。实验方法的建立为加速后基因组时代的基因功能研究提供了一条捷径。[著者文摘]
文章出处:
《遗传》-2005年27卷6期 -953-958页
栏目信息:
分 类 号:
文献标识码:
A
文章编号:
0253-9772(2005)06-0953-06
The Application of Red/ET Gene-targeting Recombination to High Efficient Vector Construction
WANG Jun-Ping, ZHANG You-Ming( 1. State Key Laboratory of Trauma, Burns and Combined Injury, Institute of Combined Injury, College of Preventive Medicine The Third Military Medical University, Chongqing 400038, China;2. Gene Bridge GmbH , Dresden 01307, Germany)
Abstract:
A rapid and high efficient working system for gene-targeting vector construction was developed by using Red/ET recombination. Mediated by Red/ET recombination, the objective genomic DNA was first subcloned into the targeting vector. After insertion of a PCR amplified selectable marker gene flanked with short homology arms into the targeted position, a conventional gene knock-out targeting vector was then constructed. For conditional gene knock-out targeting vector construction, with the co-operation of Cre-loxP site-specific recombination, two rounds of Red/ET recombination was just needed. Being different from PCR and endonuclease-based gene-targeting vector construction, the homologous regions used for gene targeting can be chosen as long as possible. Furthermore, no enzyme digestion, ligation and sequencing identification were involved, so that it is very efficient and labor-saving. Several different genetargeting vectors were successfully constructed by using this system. The establishment of this working system will accelerate the gene function studies in the post-genome stage.[著者文摘]
Key words:
gene-targeting vector construction ; Red/ET recombination; gene knock-out
基金资助:
基金项目:第三军医大学留学回国人员启动基金项目资助
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