Initiation of latent DNA replication in the Epstein-Barr virus genome can occur at sites other than the genetically defined origin.

Abstract

Our laboratory has previously shown that replication of a small plasmid, p174, containing the genetically defined Epstein-Barr virus (EBV) latent origin of replication, oriP, initiates within oriP at or near a dyad symmetry (DS) element and terminates specifically at a family of repeated sequences (FR), also located within oriP. We describe here an analysis of the replication of intact approximately 170-kb EBV genomes in four latently infected cell lines that uses two-dimensional gel replicon mapping. Initiation was detected at oriP in all EBV genomes examined; however, some replication forks appear to originate from alternative initiation sites. In addition, pausing of replication forks was observed at the two clusters of EBV nuclear antigen 1 binding sites within oriP and at or near two highly expressed viral genes 0.5 to 1 kb upstream of oriP, the EBV-encoded RNA (EBER) genes. In the Raji EBV genome, the relative abundance of these stalled forks and the direction in which they are stalled indicate that most replication forks originate upstream of oriP. We thus searched for additional initiation sites in the Raji EBV and found that the majority of initiation events were distributed over a broad region to the left of oriP. This delocalized pattern of initiation resembles initiation of replication in several well-characterized mammalian chromosomal loci and is the first described for any viral genome. EBV thus provides a unique model system with which to investigate factors influencing the selection of replication initiation and termination sites in mammalian cells.