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Highly efficient base editing in bacteria using a Cas9-cytidine deaminase fusion.

ABSTRACT: The ability to precisely edit individual bases of bacterial genomes would accelerate the investigation of the function of genes. Here we utilized a nickase Cas9-cytidine deaminase fusion protein to direct the conversion of cytosine to thymine within prokaryotic cells, resulting in high mutagenesis frequencies in Escherichia coli and Brucella melitensis. Our study suggests that CRISPR/Cas9-guided base-editing is a viable alternative approach to generate mutant bacterial strains.

SUBMITTER: Zheng K 

PROVIDER: S-EPMC6123677 | biostudies-literature | 2018

REPOSITORIES: biostudies-literature

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Highly efficient base editing in bacteria using a Cas9-cytidine deaminase fusion.

Zheng Ke K   Wang Yang Y   Li Na N   Jiang Fang-Fang FF   Wu Chang-Xian CX   Liu Fang F   Chen Huan-Chun HC   Liu Zheng-Fei ZF  

Communications biology 20180419

The ability to precisely edit individual bases of bacterial genomes would accelerate the investigation of the function of genes. Here we utilized a nickase Cas9-cytidine deaminase fusion protein to direct the conversion of cytosine to thymine within prokaryotic cells, resulting in high mutagenesis frequencies in <i>Escherichia coli</i> and <i>Brucella melitensis</i>. Our study suggests that CRISPR/Cas9-guided base-editing is a viable alternative approach to generate mutant bacterial strains. ...[more]

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