Nonreciprocal exchanges of information between DNA duplexes coinjected into mammalian cell nuclei

Mol Cell Biol. 1985 Jan;5(1):59-69. doi: 10.1128/mcb.5.1.59-69.1985.


We have examined the mechanism of homologous recombination between plasmid molecules coinjected into cultured mammalian cells. Cell lines containing recombinant DNA molecules were obtained by selecting for the reconstruction of a functional Neor gene from two plasmids that bear different amber mutations in the Neor gene. In addition, these plasmids contain restriction-length polymorphisms within and near the Neor gene. These polymorphisms did not confer a selectable phenotype but were used to identify and categorize selected and nonselected recombinant DNA molecules. The striking conclusion from this analysis is that the predominant mechanism for the exchange of information between coinjected plasmid molecules over short distances (i.e., less than 1 kilobase) proceeds via nonreciprocal homologous recombination. The frequency of homologous recombination between coinjected plasmid molecules in cultured mammalian cells is extremely high, approaching unity. We demonstrate that this high frequency requires neither a high input of plasmid molecules per cell nor a localized high concentration of plasmid DNA within the nucleus. Thus, it appears that plasmid molecules, once introduced into the nucleus, have no difficulty seeking each other out and participating in homologous recombination even in the presence of a vast excess of host DNA sequences. Finally, we show that most of the homologous recombination events occur within a 1-h interval after the introduction of plasmid DNA into the cell nucleus.

MeSH terms

  • Animals
  • Cells, Cultured
  • DNA / genetics*
  • DNA Restriction Enzymes
  • Kinetics
  • Plasmids*
  • Recombination, Genetic*


  • DNA
  • DNA Restriction Enzymes