Site-directed mutagenesis for quantitation of base-base interactions at defined sites.

Two alkylation products implicated in initiation of carcinogenesis are O6-alkylguanine (m6G) and O4-alkylthymine (m4T). We have used site-specific insertion of these derivatives into oligonucleotides and measured the kinetic constants of various pairings, using both prokaryotic and eukaryotic polymerases for replication. Preliminary data are also reported for another carcinogen product, N2,3-ethenodeoxyguanosine ( epsilon G). The immediate neighbor bases play an important role in determining the frequency of specific changed basepairing and subsequent elongation of the annealed primer. However, both m4T and m6G prefer to form a type of G.T pairing which would lead to the transitions: G.C----A.T or T.A----C.G. The enzymes were the Klenow fragment of E. coli DNA polymerase I (Kf), engineered 3'----5' exonuclease-free Kf (exo-free Kf), polymerase alpha-primase complex from Drosophila melanogaster or calf thymus, and human immunodeficient virus-I reverse transcriptase (HIV-I RT). All enzymes led to approximately the same frequency of transitions. It is postulated that the mutation frequency at a given site is primarily a function of the structure of the sequence around the target site.