Abstract

Cytomegalovirus (CMV) lytic-phase DNA replication requires both trans-acting factors, such as the virus-coded DNA polymerase, and a previously undefined cis-acting element, the origin, within which initiation occurs. We have located a candidate origin of CMV lytic-phase DNA replication, oriLyt, in both simian and human strains by assessing the ability of cloned restriction fragments to mediate phosphonoformic acid-sensitive DNA replication after transfection into human fibroblasts when required trans-acting factors were supplied by infection. In initial experiments the simian CMV-like strain Colburn EcoRI D fragment directed DNA replication; this fragment contains all of the single-stranded DNA-binding protein gene (dbp) and about 7 kbp of upstream sequence. A larger region upstream of human CMV dbp also mediated replication in transient assays. Subsequent subcloning and deletion analyses defined a CMV strain Colburn region sufficient for origin function, spanning about 1,300 bp in the apparently noncoding region upstream of dbp. The nucleotide sequence of this region revealed four distinct domains, containing (i) a 9-bp repeated sequence, (ii) an A+T-rich segment, (iii) an 11-bp direct repeat, and (iv) a 47-bp direct repeat. At least some part of each of these domains was required for origin function. Therefore, like the Epstein-Barr virus lytic-phase origin of DNA replication, CMV oriLyt appears to be structurally complex.

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