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XRCC3 promotes homology-directed repair of DNA damage in mammalian cells
October 15 1999
October 15 1999
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Abstract
Homology-directed repair of DNA damage has recently emerged as a major mechanism for
the maintenance of genomic integrity in mammalian cells. The highly conserved strand
transferase, Rad51, is expected to be critical for this process. XRCC3 possesses a
limited sequence similarity to Rad51 and interacts with it. Using a novel fluorescence-based
assay, we demonstrate here that error-free homology-directed repair of DNA double-strand
breaks is decreased 25-fold in an XRCC3-deficient hamster cell line and can be restored
to wild-type levels through XRCC3 expression. These results establish that XRCC3-mediated
homologous recombination can reverse DNA damage that would otherwise be mutagenic
or lethal.