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Western University

Biochemistry Publications

Series

2014

DNA Repair

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Megatevs: Single-Chain Dual Nucleases For Efficient Gene Disruption, Jason M Wolfs, Matthew Dasilva, Sarah E Meister, Xu Wang, Caroline Schild-Poulter, David R. Edgell Jul 2014

Megatevs: Single-Chain Dual Nucleases For Efficient Gene Disruption, Jason M Wolfs, Matthew Dasilva, Sarah E Meister, Xu Wang, Caroline Schild-Poulter, David R. Edgell

Biochemistry Publications

Targeting gene disruptions in complex genomes relies on imprecise repair by the non-homologous end-joining DNA pathway, creating mutagenic insertions or deletions (indels) at the break point. DNA end-processing enzymes are often co-expressed with genome-editing nucleases to enhance the frequency of indels, as the compatible cohesive ends generated by the nucleases can be precisely repaired, leading to a cycle of cleavage and non-mutagenic repair. Here, we present an alternative strategy to bias repair toward gene disruption by fusing two different nuclease active sites from I-TevI (a GIY-YIG enzyme) and I-OnuI E2 (an engineered meganuclease) into a single polypeptide chain. In vitro, …