FrCas9 is a CRISPR/Cas9 system with high editing efficiency and fidelity

Genome editing technologies hold tremendous potential in biomedical research and drug development. Therefore, it is imperative to discover gene editing tools with superior cutting efficiency, good fidelity, and fewer genomic restrictions. Here, we report a CRISPR/Cas9 from Faecalibaculum rodentium, which is characterized by a simple PAM (5 '-NNTA-3 ') and a guide RNA length of 21-22 bp. We find that FrCas9 could achieve comparable efficiency and specificity to SpCas9. Interestingly, the PAM of FrCas9 presents a palindromic sequence, which greatly expands its targeting scope. Due to the PAM sequence, FrCas9 possesses double editing-windows for base editor and could directly target the TATA-box in eukaryotic promoters for TATA-box related diseases. Together, our results broaden the understanding of CRISPR/Cas-mediated genome engineering and establish FrCas9 as a safe and efficient platform for wide applications in research, biotechnology and therapeutics. Gene editing tools have tremendous potential for biomedical and basic research. Here the authors report a Cas9 from Faecalibaculum rodentium (FrCas9) that achieves efficient and specific gene editing in human cells with a NNTA palindrome PAMs for targeting optimal sites at TATA-boxes to enhance CRISPRa/i screening.

Automated summary

Genome editing technologies have great potential in biomedical research and drug development. This study introduces a CRISPR/Cas9 tool called FrCas9 from Faecalibaculum rodentium, which has efficient and specific gene editing capabilities and can be used for the treatment of TATA-box related diseases.