Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purity

Alexis C. Komor; Kevin T. Zhao; Michael S. Packer; Nicole M. Gaudelli; Amanda L. Waterbury; Luke W. Koblan; Y. Bill Kim; Ahmed H. Badran; David R. Liu

doi:https://doi.org/10.1126/sciadv.aao4774

doi.org/10.1126/sciadv.aao4774

Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purity

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..., David R. Liu

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Science Advances13.60

Volume: 3, Issue: 8

Published: Aug 4, 2017

Abstract

We recently developed base editing, the programmable conversion of target C:G base pairs to T:A without inducing double-stranded DNA breaks (DSBs) or requiring homology-directed repair using engineered fusions of Cas9 variants and cytidine deaminases. Over the past year, the third-generation base editor (BE3) and related technologies have been successfully used by many researchers in a wide range of organisms. The product distribution of base...

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Paper Details

Title

Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purity

DOI

doi.org/10.1126/sciadv.aao4774

Published Date

Aug 4, 2017

Journal

Science Advances

Volume

3

Issue

8

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