An efficient cloning of DNA fragments by a method based on uracil-DNA glycosylase and endonuclease IV

Jingli Hou, Xipeng Liu, Yan Zheng, Jianhua Liu
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引用次数: 2

Abstract

We introduced a novel method to clone random DNA fragments independent of ligation reaction. The method involves the generation of long protruding ends on PCR amplification DNA. Both oligonucleotides used for the amplification of the vector DNA carried one uracil residue at the tenth position from the 5′ end and this made the creation of the 3′ protruding ends of linearized vector possible by uracil-DNA glycosylase (UDG) and endonuclease IV (Endo IV). 76 groups of annealed oligonucleotides that had ten-nucleotides protruding at 3′-end, which were complementary to those at 3′-end of the linearized vector, were designed. The linearized vector and the annealed oligonucleotide were mixed together to transform E.coli directly without ligation reaction. The number of the clone that grew on the plates had been demonstrated to reach 1 × 105 transformants/μg and 96.1% of transformants harbored the cloned fragments. From the results of transformation, we can confirm that the efficiency of the creation of 3′ protruding ends in our method is high and our cloning method is benefit to produce recombinants easily and efficiently.

基于尿嘧啶-DNA糖基化酶和核酸内切酶IV的高效DNA片段克隆方法
介绍了一种不依赖于结扎反应的随机DNA片段克隆方法。该方法涉及在PCR扩增DNA上产生长而突出的末端。用于扩增载体DNA的两种寡核苷酸都在5′端第10位携带1个尿嘧啶残基,这使得尿嘧啶-DNA糖基化酶(UDG)和内切酶IV (Endo IV)可以在线性化载体的3′端产生突出的3′端。设计了76组在3′端有10个核苷酸突出的寡核苷酸,这些核苷酸与线性化载体的3′端互补。将线性化载体与退火后的寡核苷酸混合,直接转化大肠杆菌,无需结扎反应。克隆数量达到1 × 105个/μg, 96.1%的转化子含有克隆片段。从转化的结果可以证实,我们的方法产生3 '突出末端的效率高,我们的克隆方法有利于轻松高效地生产重组体。
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