Mammalian cell processing of a unique uracil residue in Simian virus 40 DNA

Abstract

The processing of a unique uracil in DNA has been studied in mammalian cells. A synthetic oligodeoxyribonucleotide carrying a potential Bgl II restriction site, where one base has been substituted with a uracil, was inserted in the early intron of SV40 genome. Various heteroduplexes were constructed in such a manner that the restitution of an active Bgl II restriction of the uracil by one of the four bases normally present in the DNA. DNA cuts by this restriction enzyme in one or several constructed heteroduplexes immediately determine the type of base pair substitution produced at the site of the U residue. When the uracil is inserted opposite a purine it is fully repaired; when facing a guanine it is replaced by a cytosine an opposite and adenine it is replaced by a thymine. These results indicate the error-free repair of uracil when it appears in the cell with the usual mechanisms such as cytosine deamination or incorporation of dUTP in place of dTTP during replication. When the uracil is inserted opposite a pyrimidine no error-free repair at all is detected for U:C or U:T mismatches. It appears, moreover, that in approximately 18% of the cases U:T mismatch leads to a C:G base pairing. In the majority of the U:pyrimidine mismatches, mutations occur in the vicinity of the uracil, including base substitutions and frameshifts by addition of one or several bases.