Efficient prime editing in two-cell mouse embryos using PEmbryo

Rebecca P. Kim-Yip; Ryan McNulty; Bradley Joyce; Antonio Mollica; Peter J. Chen; Purnima Ravisankar; Benjamin K. Law; David R. Liu; Jared E. Toettcher; Evgueni A. Ivakine; Eszter Posfai; Britt Adamson

Journal ArticleOPEN ACCESS

Efficient prime editing in two-cell mouse embryos using PEmbryo

Nature Biotechnology (2024) 42(12) 1822-1830

DOI: 10.1038/s41587-023-02106-x

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Abstract

Using transient inhibition of DNA mismatch repair during a permissive stage of development, we demonstrate highly efficient prime editing of mouse embryos with few unwanted, local byproducts (average 58% precise edit frequency, 0.5% on-target error frequency across 13 substitution edits at 8 sites), enabling same-generation phenotyping of founders. Whole-genome sequencing reveals that mismatch repair inhibition increases off-target indels at low-complexity regions in the genome without any obvious phenotype in mice.

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APA

Kim-Yip, R. P., McNulty, R., Joyce, B., Mollica, A., Chen, P. J., Ravisankar, P., … Adamson, B. (2024). Efficient prime editing in two-cell mouse embryos using PEmbryo. Nature Biotechnology, 42(12), 1822–1830. https://doi.org/10.1038/s41587-023-02106-x

Efficient prime editing in two-cell mouse embryos using PEmbryo

Abstract

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