Abstract
We have cloned the cellular sequence termed box DNA from the enhancer region of polyomavirus F9 mutant fPyF9. Box DNA functions as a negative transcriptional element (silencer) in undifferentiated F9 cells but not in differentiated L cells. Plasmid DNAs containing the origin and enhancer of polyomavirus were used to measure simultaneously transcriptional and replication activities in transfected cells. DNA replication activity was significantly reduced under conditions in which the silencer was able to reduce enhancer activity in F9 cells. On the other hand, when the silencer could not repress enhancer activity in MOP-8 cells, which are mouse NIH 3T3 cells producing polyomavirus T antigen constitutively, replication activity was still intact. The silencer itself had no effect on DNA replication or transcription in either type of cells. Furthermore, the insertion of a 6-base oligonucleotide within a consensus sequence of box DNA abolished the repressive effect of the silencer on DNA replication and enhancer activities. These results suggest that enhancer factors, interacting with silencer factors, may be closely associated with the mechanism of replication.
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