High frequency targeted mutagenesis using engineered endonucleases and DNA-end processing enzymes.

Fabien Delacôte; Christophe Perez; Valérie Guyot; Marianne Duhamel; Christelle Rochon; Nathalie Ollivier; Rachel Macmaster; George H Silva; Frédéric Pâques; Fayza Daboussi; Philippe Duchateau

doi:10.1371/journal.pone.0053217

PLoS ONE (Jan 2013)

High frequency targeted mutagenesis using engineered endonucleases and DNA-end processing enzymes.

Fabien Delacôte,
Christophe Perez,
Valérie Guyot,
Marianne Duhamel,
Christelle Rochon,
Nathalie Ollivier,
Rachel Macmaster,
George H Silva,
Frédéric Pâques,
Fayza Daboussi,
Philippe Duchateau

Affiliations

Fabien Delacôte
Christophe Perez
Valérie Guyot
Marianne Duhamel
Christelle Rochon
Nathalie Ollivier
Rachel Macmaster
George H Silva
Frédéric Pâques
Fayza Daboussi
Philippe Duchateau

DOI: https://doi.org/10.1371/journal.pone.0053217
Journal volume & issue: Vol. 8, no. 1
p. e53217

Abstract

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Targeting DNA double-strand breaks is a powerful strategy for gene inactivation applications. Without the use of a repair plasmid, targeted mutagenesis can be achieved through Non-Homologous End joining (NHEJ) pathways. However, many of the DNA breaks produced by engineered nucleases may be subject to precise re-ligation without loss of genetic information and thus are likely to be unproductive. In this study, we combined engineered endonucleases and DNA-end processing enzymes to increase the efficiency of targeted mutagenesis, providing a robust and efficient method to (i) greatly improve targeted mutagenesis frequency up to 30-fold, and; (ii) control the nature of mutagenic events using meganucleases in conjunction with DNA-end processing enzymes in human primary cells.

Published in PLoS ONE

ISSN: 1932-6203 (Online)
Publisher: Public Library of Science (PLoS)
Country of publisher: United States
LCC subjects: Medicine; Science
Website: https://journals.plos.org/plosone/

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