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Mutation-specific reporter for optimization and enrichment of prime editing

Author

Listed:
  • I. F. Schene

    (University Medical Center Utrecht
    University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • I. P. Joore

    (University Medical Center Utrecht
    University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • J. H. L. Baijens

    (Utrecht University Graduate School of Life Sciences)

  • R. Stevelink

    (Utrecht University)

  • G. Kok

    (University Medical Center Utrecht
    University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • S. Shehata

    (University Medical Center Utrecht
    University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • E. F. Ilcken

    (University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • E. C. M. Nieuwenhuis

    (University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • D. P. Bolhuis

    (University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • R. C. M. Rees

    (University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

  • S. A. Spelier

    (Regenerative Medicine Center Utrecht
    Utrecht University)

  • H. P. J. Doef

    (University Medical Center Groningen)

  • J. M. Beekman

    (Regenerative Medicine Center Utrecht
    Utrecht University)

  • R. H. J. Houwen

    (University Medical Center Utrecht)

  • E. E. S. Nieuwenhuis

    (University Medical Center Utrecht
    University College Roosevelt)

  • S. A. Fuchs

    (University Medical Center Utrecht
    Regenerative Medicine Center Utrecht)

Abstract

Prime editing is a versatile genome-editing technique that shows great promise for the generation and repair of patient mutations. However, some genomic sites are difficult to edit and optimal design of prime-editing tools remains elusive. Here we present a fluorescent prime editing and enrichment reporter (fluoPEER), which can be tailored to any genomic target site. This system rapidly and faithfully ranks the efficiency of prime edit guide RNAs (pegRNAs) combined with any prime editor variant. We apply fluoPEER to instruct correction of pathogenic variants in patient cells and find that plasmid editing enriches for genomic editing up to 3-fold compared to conventional enrichment strategies. DNA repair and cell cycle-related genes are enriched in the transcriptome of edited cells. Stalling cells in the G1/S boundary increases prime editing efficiency up to 30%. Together, our results show that fluoPEER can be employed for rapid and efficient correction of patient cells, selection of gene-edited cells, and elucidation of cellular mechanisms needed for successful prime editing.

Suggested Citation

  • I. F. Schene & I. P. Joore & J. H. L. Baijens & R. Stevelink & G. Kok & S. Shehata & E. F. Ilcken & E. C. M. Nieuwenhuis & D. P. Bolhuis & R. C. M. Rees & S. A. Spelier & H. P. J. Doef & J. M. Beekman, 2022. "Mutation-specific reporter for optimization and enrichment of prime editing," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28656-3
    DOI: 10.1038/s41467-022-28656-3
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    References listed on IDEAS

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    Cited by:

    1. Jianli Tao & Daniel E. Bauer & Roberto Chiarle, 2023. "Assessing and advancing the safety of CRISPR-Cas tools: from DNA to RNA editing," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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