Generating Single Nucleotide Point Mutations in E. coli with the No-SCAR System

点突变 点(几何) 核苷酸 遗传学 生物 计算生物学 突变 基因 数学 几何学
作者
Adam J. Ellington,Christopher R. Reisch
出处
期刊:Methods in molecular biology [Springer Science+Business Media]
卷期号:: 119-133
标识
DOI:10.1007/978-1-0716-2233-9_9
摘要

Genetic manipulation of microbial genomes is highly relevant for studying biological systems and the development of biotechnologies. In E. coli, λ-Red recombineering is one of the most widely used gene-editing methods, enabling site-specific insertions, deletions, and point mutations of any genomic locus. The no-SCAR system combines λ-Red recombineering with CRISPR/Cas9 for programmable selection of recombinant cells. Recombineering results in the transient production of heteroduplex DNA, as only one strand of DNA is initially altered, leaving the mismatched bases susceptible to repair by the host methyl-directed mismatch repair (MMR) system and reduces the efficiency of generating single nucleotide point mutations. Here we describe a method, where expression of cas9 and the MMR-inhibiting mutLE32K variant are independently controlled by anhydrotetracycline- and cumate-inducible promoters from the pCas9CyMutL plasmid. Thus, MMR is selectively inhibited until recombinant cells have undergone replication and the desired mutation is permanently incorporated. By transiently inhibiting MMR, the accumulation of off-target mutations typically associated with MMR-deficient cell types is minimized. Methods for designing the editing template and sgRNA, cloning of the sgRNA, induction of λ-Red and MutLE32K, the transformation of editing oligo, and induction of Cas9 for mutant selection are detailed within.
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