高效迭代逆转录介导的大肠杆菌体内重组

IF 3.2 4区 生物学 Q1 Agricultural and Biological Sciences
A. Ellington, Christopher R. Reisch
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引用次数: 2

摘要

重组是基因编辑的重要工具,能够实现微生物基因组的快速、精确和高度特异性的体内修饰。通过在体内产生单链DNA的寡核苷酸介导的重组可以克服传统重组方法依赖外源传递编辑模板的局限性。通过修改先前报道的基于质粒的全体内单链DNA重组系统,我们展示了独立位点的迭代编辑,利用温度敏感的复制起源,使编辑质粒易于从重组细胞中固化。优化驱动系统功能组件表达的启动子,结合针对Cas9核酸酶未编辑细胞的靶向反选择,使编辑效率达到90-100%。在系统中添加一个显性负互l等位基因允许单核苷酸编辑,否则由于错配修复而无法实现。最后,我们测试了替代重组酶,发现某些目标的效率显著提高。只需要一个克隆步骤重定位,我们的系统提供了一种易于使用的方法,快速,有效地构建所需的突变体。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient and iterative retron-mediated in vivo recombineering in Escherichia coli
Abstract Recombineering is an important tool in gene editing, enabling fast, precise and highly specific in vivo modification of microbial genomes. Oligonucleotide-mediated recombineering via the in vivo production of single-stranded DNA can overcome the limitations of traditional recombineering methods that rely on the exogenous delivery of editing templates. By modifying a previously reported plasmid-based system for fully in vivo single-stranded DNA recombineering, we demonstrate iterative editing of independent loci by utilizing a temperature-sensitive origin of replication for easy curing of the editing plasmid from recombinant cells. Optimization of the promoters driving the expression of the system’s functional components, combined with targeted counterselection against unedited cells with Cas9 nuclease, enabled editing efficiencies of 90–100%. The addition of a dominant-negative mutL allele to the system allowed single-nucleotide edits that were otherwise unachievable due to mismatch repair. Finally, we tested alternative recombinases and found that efficiency significantly increased for some targets. Requiring only a single cloning step for retargeting, our system provides an easy-to-use method for rapid, efficient construction of desired mutants. Graphical Abstract
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来源期刊
Synthetic Biology
Synthetic Biology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.50
自引率
3.10%
发文量
28
审稿时长
25 weeks
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