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Engineered zinc finger nickases induce homology-directed repair with reduced mutagenic effects.


ABSTRACT: Engineered zinc finger nucleases (ZFNs) induce DNA double-strand breaks at specific recognition sequences and can promote efficient introduction of desired insertions, deletions or substitutions at or near the cut site via homology-directed repair (HDR) with a double- and/or single-stranded donor DNA template. However, mutagenic events caused by error-prone non-homologous end-joining (NHEJ)-mediated repair are introduced with equal or higher frequency at the nuclease cleavage site. Furthermore, unintended mutations can also result from NHEJ-mediated repair of off-target nuclease cleavage sites. Here, we describe a simple and general method for converting engineered ZFNs into zinc finger nickases (ZFNickases) by inactivating the catalytic activity of one monomer in a ZFN dimer. ZFNickases show robust strand-specific nicking activity in vitro. In addition, we demonstrate that ZFNickases can stimulate HDR at their nicking site in human cells, albeit at a lower frequency than by the ZFNs from which they were derived. Finally, we find that ZFNickases appear to induce greatly reduced levels of mutagenic NHEJ at their target nicking site. ZFNickases thus provide a promising means for inducing HDR-mediated gene modifications while reducing unwanted mutagenesis caused by error-prone NHEJ.

SUBMITTER: Ramirez CL 

PROVIDER: S-EPMC3384306 | biostudies-literature | 2012 Jul

REPOSITORIES: biostudies-literature

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Engineered zinc finger nickases induce homology-directed repair with reduced mutagenic effects.

Ramirez Cherie L CL   Certo Michael T MT   Mussolino Claudio C   Goodwin Mathew J MJ   Cradick Thomas J TJ   McCaffrey Anton P AP   Cathomen Toni T   Scharenberg Andrew M AM   Joung J Keith JK  

Nucleic acids research 20120228 12


Engineered zinc finger nucleases (ZFNs) induce DNA double-strand breaks at specific recognition sequences and can promote efficient introduction of desired insertions, deletions or substitutions at or near the cut site via homology-directed repair (HDR) with a double- and/or single-stranded donor DNA template. However, mutagenic events caused by error-prone non-homologous end-joining (NHEJ)-mediated repair are introduced with equal or higher frequency at the nuclease cleavage site. Furthermore,  ...[more]

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