Abstract
SV40 has been used as a molecular probe to study the mutagenicity of apurinic sites (Ap) in mammalian cells. Untreated or UV-irradiated monkey kidney cells were transfected with depurinated DNA from the temperature-sensitive tsB201 SV40 late mutant which grows normally at the permissive temperature of 33°C but which is unable to grow at 41°C. Phenotypic revertants were screened at 41°C for their ability to grow at the restrictive temperature and the mutation frequency was calculated in the viral progeny. Ap sites were introduced into DNA by heating at 70°C under acid conditions (pH 4.8). This treatment induces one Ap site per SV40 genome per 15 min of heating as measured by alkaline denaturation or by treatment with the T4-encoded UV-specific endonuclease which possesses Ap-endonuclease activity. The experiments reported here show that Ap sites strongly decrease virus survival with a lethal hit corresponding roughly to 3 Ap lesions per SV40 genome, and indicate for the first time that apurinic sites produced by heating are highly mutagenic in animal cells. UV irradiation of the host cells 24 h prior to transfection with depurinated DNA did not modify the mutation frequency in the virus progeny.
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