Introduction of double-strand breaks into the genome of mouse cells by expression of a rare-cutting endonuclease.

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Mol Cell Biol. 1994 December; 14(12): 8096-8106

Introduction of double-strand breaks into the genome of mouse cells by expression of a rare-cutting endonuclease.

P Rouet, F Smih and M Jasin

Cell Biology and Genetics Program, Sloan-Kettering Institute, New York, New York.

ABSTRACT

To maintain genomic integrity, double-strand breaks (DSBs) inchromosomal DNA must be repaired. In mammalian systems, theanalysis of the repair of chromosomal DSBs has been limitedby the inability to introduce well-defined DSBs in genomic DNA.In this study, we created specific DSBs in mouse chromosomesfor the first time, using an expression system for a rare-cuttingendonuclease, I-SceI. A genetic assay has been devised to monitorthe repair of DSBs, whereby cleavage sites for I-SceI have beenintegrated into the mouse genome in two tandem neomycin phosphotransferasegenes. We find that cleavage of the I-SceI sites is very efficient,with at least 12% of stably transfected cells having at leastone cleavage event and, of these, more than 70% have undergonecleavage at both I-SceI sites. Cleavage of both sites in a fractionof clones deletes 3.8 kb of intervening chromosomal sequences.We find that the DSBs are repaired by both homologous and nonhomologousmechanisms. Nonhomologous repair events frequently result insmall deletions after rejoining of the two DNA ends. Some ofthese appear to occur by simple blunt-ended ligation, whereasseveral others may occur through annealing of short regionsof terminal homology. The DSBs are apparently recombinogenic,stimulating gene targeting of a homologous fragment by morethan 2 orders of magnitude. Whereas gene-targeted clones arenearly undetectable without endonuclease expression, they representapproximately 10% of cells transfected with the I-SceI expressionvector. Gene targeted clones are of two major types, those thatoccur by two-sided homologous recombination with the homologousfragment and those that occur by one-sided homologous recombination.Our results are expected to impact a number of areas in thestudy of mammalian genome dynamics, including the analysis ofthe repair of DSBs and homologous recombination and, potentially,molecular genetic analyses of mammalian genomes.

Mol Cell Biol. 1994 December; 14(12): 8096-8106

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