Extended pegRNAs enhance the editing capability of Prime editing

Genome editing is highly valuable in biomedical research. Despite their versatility, current Prime editing (PE) techniques are limited to short sequence alterations [up to ~44 base pairs (bp)], and exhibit inconsistent or low efficiency across genomic loci, particularly when faced with poly-T sequences. To address these challenges, we developed an extended PE (exPE) technique that can potentially execute any precise genome editing. By harnessing RNA polymerase II (Pol II) promoters to transcribe extended PE guide RNAs (expegRNAs), exPE substantially improves editing efficiency and overcomes the challenges posed by poly-T sequences. Compared with conventional PE, exPE achieves up to a 14-fold increase in the efficiency of base conversions and short insertions, and, remarkably, up to a 259-fold improvement in regions with poly-T sequences. Uniquely, exPE enables seamless insertion of gene-sized DNA fragments into genomes, potentially correcting nearly 90% of human genetic variants, thereby broadening its applications in genetic research and therapy.