Single strand breakage and repair in eukaryotic DNA as assayed by S1 nuclease.

A sensitive new approach for measuring the repair of single strand breaks in DNA induced by low doses of gamma irradiation was tested in cultured fibroblasts from Chinese hamster lung, human afflicted with ataxia telangiectasia or Fanconi's anemia and in normal cells of early and late passages. The assay is based on the increasing rate of strand separation of DNA duplexes in alkali for molecules with increasing numbers of single strand scissions. DNA strand separation is shown to follow the relation, in F = -(1/Mn - const) - tbeta where F is the proportion of double-stranded DNA, detected as S1 nuclease resistant, after alkaline denaturation time, t. Mn is the number-average molecular weight of DNA between single strand breaks. beta less than 1 is an empirically determined constant. The results suggest an increase in the number-average molecular weight between breaks, Mn, with increasing times for repair. The final level attained corresponds to the Mn of control DNA in unirradiated cells. As few as one break introduced into 109 daltons of single-stranded control cell DNA can be detected. The kinetics, requirements and sensitivities of this assay are described.