A HIGHLY DEFECTIVE HIV-1 GROUP-O PROVIRUS - EVIDENCE FOR THE ROLE OF LOCAL SEQUENCE DETERMINANTS IN G-]A HYPERMUTATION DURING NEGATIVE-STRAND VIRAL-DNA SYNTHESIS

The sequence of 2350 nucleotides in the env and IN regions of a group O HIV-1 genome which is hypermutated throughout its entirety was compa red to the equivalent sequence of a nonhypermutated genome from the sa me isolate. Almost 30% of G residues were affected by G --> A transiti ons. As previously reported, transitions occurred mainly at GpA and Gp G dinucleotides, with a marked preference for changes of the 5-proxima l G residues in poly(G) stretches. Inspection of the sequences around the hypermutation sites revealed no bias when the mutation was at the 5' G residue of a GpG dinucleotide. In contrast, a preferred context f or hypermutation at the 3' G (or al single G residues) could be define d. In addition to a preference for A residues immediately downstream o f hypermutated 3' G residues, C residues were underrepresented in thes e positions. The observed context fits well with a model whereby G --> A mutation occurs by a combination of dislocation mutagenesis at GpA dinucleotides and direct misincorporation of dTTP at the 5' G of GpG d inucleotides. Furthermore, both runs of six G residues present in the polypurine tracts (PPTs) had escaped hypermutation, despite the fact t hat 95% of runs of three G residues contained at least one G --> A tra nsition. This finding suggests that genomes with hypermutated PPT moti fs had been selected against and provides direct evidence that hypermu tation occurs during negative-strand DNA synthesis. (C) 1995 Academic Press, Inc.