Initiation of SV40 DNA replication after microinjection into Xenopus eggs.

We have examined the capacity of Xenopus laevis eggs to support replication of microinjected SV40 DNA. As previously reported, microinjected DNA undergoes semi-conservative replication. Unlabeled SV40 DNA was microinjected with [3H]dTTP and, after a 3 h incubation period, the DNA was recovered and adsorbed to BND-cellulose. Elution with an NaCl gradient removes molecules that are entirely double-stranded but not those with single-stranded regions. The latter DNA population is eluted with caffeine. The radioactive DNA that eluted with NaCl was comprised mostly of supercoiled and open circular SV40 DNAs. The radioactive DNA eluted with caffeine was comprised mainly of endogenous DNA but also contained replicative forms of SV40 DNA. Analysis of SV40 DNA replication intermediates by electron microscopy revealed mainly Cairn's forms of varying degrees of maturation. Digestion with BamH1, which cleaves SV40 DNA almost opposite the normal viral replication origin, indicated that SV40 DNA microinjected into frog eggs does not initiate DNA synthesis at its normal initiation site nor at any other obvious preferred site. Rather, it appears that when this template is injected into activated Xenopus eggs, replication may initiate at random.