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Mol Cell Biol. 1985 December; 5(12): 3331-3336

Effect of double-strand breaks on homologous recombination in mammalian cells and extracts.

ABSTRACT

We examined the effect of double-strand breaks on homologous recombination between two plasmids in human cells and in nuclear extracts prepared from human and rodent cells. Two pSV2neo plasmids containing nonreverting, nonoverlapping deletions were cotransfected into cells or incubated with cell extracts. Generation of intact neo genes was monitored by the ability of the DNA to confer G418r to cells or Neor to bacteria. We show that double-strand breaks at the sites of the deletions enhanced recombination frequency, whereas breaks outside the neo gene had no effect. Examination of the plasmids obtained from experiments involving the cell extracts revealed that gene conversion events play an important role in the generation of plasmids containing intact neo genes. Studies with plasmids carrying multiple polymorphic genetic markers revealed that markers located within 1,000 base pairs could be readily coconverted. The frequency of coconversion decreased with increasing distance between the markers. The plasmids we constructed along with the in vitro system should permit a detailed analysis of homologous recombinational events mediated by mammalian enzymes.