CRISPR–Cas9 genome editing induces a p53-mediated DNA damage response
E Haapaniemi, S Botla, J Persson, B Schmierer… - Nature medicine, 2018 - nature.com
Nature medicine, 2018•nature.com
Here, we report that genome editing by CRISPR–Cas9 induces a p53-mediated DNA
damage response and cell cycle arrest in immortalized human retinal pigment epithelial
cells, leading to a selection against cells with a functional p53 pathway. Inhibition of p53
prevents the damage response and increases the rate of homologous recombination from a
donor template. These results suggest that p53 inhibition may improve the efficiency of
genome editing of untransformed cells and that p53 function should be monitored when …
damage response and cell cycle arrest in immortalized human retinal pigment epithelial
cells, leading to a selection against cells with a functional p53 pathway. Inhibition of p53
prevents the damage response and increases the rate of homologous recombination from a
donor template. These results suggest that p53 inhibition may improve the efficiency of
genome editing of untransformed cells and that p53 function should be monitored when …
Abstract
Here, we report that genome editing by CRISPR–Cas9 induces a p53-mediated DNA damage response and cell cycle arrest in immortalized human retinal pigment epithelial cells, leading to a selection against cells with a functional p53 pathway. Inhibition of p53 prevents the damage response and increases the rate of homologous recombination from a donor template. These results suggest that p53 inhibition may improve the efficiency of genome editing of untransformed cells and that p53 function should be monitored when developing cell-based therapies utilizing CRISPR–Cas9.
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