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Template-jumping prime editing enables large insertion and exon rewriting in vivo

Author

Listed:
  • Chunwei Zheng

    (University of Massachusetts Chan Medical School)

  • Bin Liu

    (University of Massachusetts Chan Medical School)

  • Xiaolong Dong

    (University of Massachusetts Chan Medical School)

  • Nicholas Gaston

    (University of Massachusetts Chan Medical School)

  • Erik J. Sontheimer

    (University of Massachusetts Chan Medical School
    University of Massachusetts Chan Medical School
    University of Massachusetts Chan Medical School)

  • Wen Xue

    (University of Massachusetts Chan Medical School
    University of Massachusetts Chan Medical School
    University of Massachusetts Chan Medical School
    University of Massachusetts Chan Medical School)

Abstract

Targeted insertion of large DNA fragments holds promise for genome engineering and gene therapy. Prime editing (PE) effectively inserts short ( 400 bp) remains low and in vivo application has not been demonstrated. Inspired by the efficient genomic insertion mechanism of retrotransposons, we develop a template-jumping (TJ) PE approach for the insertion of large DNA fragments using a single pegRNA. TJ-pegRNA harbors the insertion sequence as well as two primer binding sites (PBSs), with one PBS matching a nicking sgRNA site. TJ-PE precisely inserts 200 bp and 500 bp fragments with up to 50.5 and 11.4% efficiency, respectively, and enables GFP (~800 bp) insertion and expression in cells. We transcribe split circular TJ-petRNA in vitro via a permuted group I catalytic intron for non-viral delivery in cells. Finally, we demonstrate that TJ-PE can rewrite an exon in the liver of tyrosinemia I mice to reverse the disease phenotype. TJ-PE has the potential to insert large DNA fragments without double-stranded DNA breaks and facilitate mutation hotspot exon rewriting in vivo.

Suggested Citation

  • Chunwei Zheng & Bin Liu & Xiaolong Dong & Nicholas Gaston & Erik J. Sontheimer & Wen Xue, 2023. "Template-jumping prime editing enables large insertion and exon rewriting in vivo," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39137-6
    DOI: 10.1038/s41467-023-39137-6
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