Combining CRISPR–Cpf1 and Recombineering Facilitates Fast and Efficient Genome Editing in Escherichia coli

重组工程 清脆的 基因组编辑 质粒 基因组工程 大肠杆菌 终端(太阳能) 生物 基因 计算生物学 Cas9 遗传学 同源重组 基因敲除 转化效率 转化(遗传学) 基因组 基因靶向 物理 农杆菌 电离层 天文
作者
Xuewen Zhu,Yaokang Wu,Xueqin Lv,Yanfeng Liu,Guocheng Du,Jianghua Li,Long Liu
出处
期刊:ACS Synthetic Biology [American Chemical Society]
卷期号:11 (5): 1897-1907 被引量:60
标识
DOI:10.1021/acssynbio.2c00041
摘要

Clustered regularly interspaced short palindromic repeat (CRISPR)-based gene-editing technology has been widely used in various microorganisms due to its advantages of low cost, high efficiency, easy operation, and multiple functions. In this study, an efficient and fast double-plasmid gene-editing system pEcCpf1/pcrEG was constructed in Escherichia coli based on CRISPR/Cpf1. First, gene knockout and integration efficiency were verified in eight different kinds of protospacer adjacent motif (PAM) regions. Then, the transformation method was optimized, and the efficiency of gene knockout or gene integration of this system increased to nearly 100%, and the large-length fragments could be integrated into the genome in E. coli BL21 (DE3). The system was also optimized by replacing the homologous recombination system in plasmid pEcCpf1, resulting in pEcCpf1H, which could perform precise single-point mutation, terminator insertion, short-sequence insertion, or gene knockout with high efficiency using a 90 nt (nucleotide) single-stranded primer. Further, multiple genes could be edited simultaneously. Next, these two systems were demonstrated in other E. coli strains. Finally, as an application, the system was used to engineer the synthesis pathway of l-histidine in the engineered strain. The titer of l-histidine in a shake flask reached 7.16 g/L, a value increased by 84.1% compared to the starting strain. Thus, this study provided an effective tool for metabolic engineering of E. coli.
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