Increasing the efficiency and precision of prime editing with guide RNA pairs

The recently reported prime editor (PE) can produce all types of base substitution, insertion and deletion, greatly expanding the scope of genome editing. However, improving the editing efficiency and precision of PE represents a major challenge. Here, we report an approach termed the homologous 3' extension mediated prime editor (HOPE). HOPE uses paired prime editing guide RNAs (pegRNAs) encoding the same edits in both sense and antisense DNA strands to achieve high editing efficiency in human embryonic kidney 293T cells as well as mismatch repair-deficient human colorectal carcinoma 116 cells. In addition, we found that HOPE shows greatly improved product purity compared to the original PE3 system. We envision that this enhanced tool could broaden both fundamental research and therapeutic applications of prime editing.

Automated summary

The HOPE method utilizes paired pegRNAs encoding the same edits to achieve high editing efficiency in human embryonic kidney and colorectal carcinoma cells, showing improved product purity compared to the original PE3 system. This enhanced tool has the potential to broaden both fundamental research and therapeutic applications of prime editing.