In situ hybridization analysis of polyoma DNA replication in an inducible line of polyoma-transformed cells.

In situ hybridization has been used to study polyoma DNA replication in a clonal derivative of the inducible LPT line of polyoma-transformed cells designated as clone 1A. This study has shown that in clone 1A cultures maintained under normal growth conditions, 4–25 in 10,000 cells are spontaneously induced to synthesize polyoma DNA at an enhanced rate. In cultures exposed to mitomycin C (MMC), the percentage of induced cells remains approximately equal to the spontaneous level for 9 hr, and then increases for at least 24 hr up to 30–57% as more and more cells are asynchronously recruited to replicate the virus DNA.DNA reassociation kinetics and in situ hybridization have been used to determine the amount and distribution of polyoma DNA accumulated within clone 1A cells. These measurements have shown that a single induced cell in an MMCtreated culture produces 24,500 genome-equivalents of the virus DNA; second, that the average yield of virus DNA in a normally growing culture is only 41.7 genome-equivalents per cell; however, a single spontaneously induced cell in this culture produces as much virus DNA as an MMC-induced cell; third, that all the virus DNA molecules are found within the nuclei and many are clustered in aggregates containing up to 2000 genome-equivalents. We discuss the implications of these findings regarding the regulation of polyoma DNA replication in the LPT line.