用线性化质粒DNA转化大肠杆菌后分子内环化和缺失形成的机制。
Mechanism of intramolecular recyclization and deletion formation following transformation of Escherichia coli with linearized plasmid DNA.
作者信息
Conley E C, Saunders V A, Jackson V, Saunders J R
出版信息
Nucleic Acids Res. 1986 Nov 25;14(22):8919-32. doi: 10.1093/nar/14.22.8919.
Abstract
The deletion end-points of a number of type I (less than monomeric) plasmid deletants obtained by transforming recA+ or recA- E. coli with linear pBR322 DNA were determined by DNA sequencing. In both monodirectional and bidirectional deletions the recyclization point was normally characterized by recombination between directly repeated sequences of between 4 and 10 bp present on each arm of the linearized pBR322 molecule. Frequently, short tracts of uninterrupted homology involved in recombinational recircularization were embedded in regions of relative non-homology. A model predicting the probability of matching sequences in either end of a linear plasmid molecule is presented. It is proposed that exonucleolytic processing of the exposed termini of linear plasmid molecules generates substrates for subsequent recombinational recyclization and deletion. The activity of host recombination and repair functions in recircularizing linear DNA molecules explains the generation of many of the aberrant recombinant DNA constructs obtained during gene cloning procedures.
摘要
通过用线性pBR322 DNA转化recA⁺或recA⁻大肠杆菌获得了许多I型(小于单体)质粒缺失体,其缺失端点通过DNA测序来确定。在单向和双向缺失中,环化点通常的特征是线性化的pBR322分子每条臂上存在的4至10个碱基对的直接重复序列之间发生重组。通常,参与重组环化的短片段不间断同源性区域嵌于相对非同源区域中。本文提出了一个预测线性质粒分子两端序列匹配概率的模型。有人提出,线性质粒分子暴露末端的核酸外切酶处理会产生后续重组环化和缺失的底物。宿主重组和修复功能在使线性DNA分子环化中的作用解释了基因克隆过程中获得的许多异常重组DNA构建体的产生。
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