Multiple EBNA1-binding sites are required to form an EBNA1-dependent enhancer and to activate a minimal replicative origin within oriP of Epstein-Barr virus.
EBNA1 activates the EBV plasmid maintenance sequence oriP by binding to its two essential regions. One region is a family of 30-base-pair (bp) repeats and is activated by EBNA1 to act as a transcriptional enhancer. The other region contains a 65-bp dyad symmetry and lacks enhancer function. To explore the functional differences between the two regions, we determined oriP activities as functions of the number of 30-bp repeats and compared them with activities determined when tandem copies of the dyad symmetry region were used to replace the 30-bp repeats. Three conclusions have been drawn. (i) Activation of the 30-bp repeats by EBNA1 to enhance transcription or to permit plasmid maintenance is a highly cooperative process involving at least six or seven 30-bp repeats for full activity. (ii) Tandem copies of the dyad symmetry region cooperatively enhance transcription but are less effective than 30-bp repeats providing a similar number of EBNA1-binding sites. (iii) Tandem copies of the dyad symmetry region alone cooperatively activate replication, suggesting that the region contains the actual origin of replication. We also report that while rodent-derived cell lines do not support replication of EBV-derived plasmids they do permit EBNA1-dependent enhancer activity. EBV plasmid replication thus requires the interaction of EBNA1 or oriP with a host factor that is not required for enhancement of transcription.[1]References
- Multiple EBNA1-binding sites are required to form an EBNA1-dependent enhancer and to activate a minimal replicative origin within oriP of Epstein-Barr virus. Wysokenski, D.A., Yates, J.L. J. Virol. (1989) [Pubmed]
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