Abstract

The application of CRISPR-Cas9 ribonucleoprotein (RNP) for gene editing is commonly used in plants and animals, but its application in bacteria has not been reported. In this study, we employed DNA single-strand binding protein (SSB) to construct an SSB/CRISPR-Cas9 RNP-editing system for non-homologous recombination and homologous recombination gene editing of the upp gene in bacteria. The RNP targeting the upp gene, along with SSB, was introduced into the protoplasts of Escherichia coli, Pseudomonas, and Bacillus subtilis. Transformants were obtained on plates containing 5-fluorouracil (5-FU) with gene editing efficiencies (percentage of transformants relative to the number of protoplasts) of 9.75 %, 5.02 %, and 8.37 %, respectively, and sequencing analysis confirmed 100 % non-homologous recombination. When RNP, SSB, and a 100-nucleotide single-stranded oligodeoxynucleotide (ssODN) donor were introduced into the protoplasts of these bacteria, transformants were obtained with editing efficiencies of 45.11 %, 30.13 %, and 27.18 %, respectively, and sequencing confirmed 100 % homologous recombination knockout of the upp gene. Additionally, introducing RNP, SSB, and a 100 base-pair double-stranded oligodeoxynucleotide (dsODN) donor containing a tetracycline resistance gene (tetR-dsODN) resulted in transformants on 5-FU plates with editing efficiencies of 35.94 %, 22.46 %, and 19.08 %, respectively, with sequencing confirming 100 % homologous recombination replacement of the upp gene with tetR. These results demonstrate that the SSB/CRISPR-Cas9 RNP system can efficiently, simply, and rapidly edit bacterial genomes without the need for plasmids. This study is the first to report the use of RNP-based gene editing in bacteria.

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