Targeted genome editing with a DNA-dependent DNA polymerase and exogenous DNA-containing templates.

Xiaolong Dong,Zexiang Chen,Erik J. Sontheimer,David Keener,Wen Xue,Bin Liu,Haoyang Cheng,Chunwei Zheng,Jonathan K. Watts

doi:10.1038/s41587-023-01947-w

Targeted genome editing with a DNA-dependent DNA polymerase and exogenous DNA-containing templates.

Xiaolong Dong, Zexiang Chen + Show 7 more

https://doi.org/10.1038/s41587-023-01947-w

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Journal: Nature biotechnology	Publication Date: Sep 14, 2023
Citations: 9

Affiliation: University of Massachusetts Chan Medical School

#Efficiency In Human Cells #DNA Polymerase + Show 8 more

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Abstract

Reverse transcriptases, used in prime editing systems, exhibit lower fidelity, processivity and dNTP affinity than many DNA-dependent DNA polymerases. We report that a DNA-dependent DNA polymerase (phi29), untethered from Cas9, enables editing from a synthetic, end-stabilized DNA-containing template at up to 60% efficiency in human cells. Compared to prime editing, DNA polymerase editing avoids autoinhibitory intramolecular base pairing of the template, facilitates template synthesis and supports larger insertions (>100 nucleotides).

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