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pubmed:abstractText |
We wanted to establish whether strand breaks and gaps, arising during the removal of uracil from newly-synthesized DNA, can be utilized as strand discrimination signals by the methyl-directed mismatch repair system of Escherichia coli. For this purpose, we constructed a series of M13 heteroduplexes that contained a single uracil residue situated either upstream or downstream from a G/T or an A/C mispair. Transfections of these constructs into E. coli strains, either proficient of deficient in mismatch or uracil repair, allowed us to follow the fate of these mispairs in vivo. Our data show that the intermediates of uracil repair cannot substitute for the strand-discrimination signals generated by the MutH protein, which is thought to initiate the methyl-directed mismatch repair process by nicking the unmethylated strand of a newly-synthesized DNA duplex at d(GATC) sites. However, processing of uracil residues situated upstream from the mispair was shown to reduce the yield of the progeny phage arising from the uracil-containing strand, presumably as a result of co-repair of the base analogue and the mispair.
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