Dispersive Initiation of Replication in the Chinese Hamster Rhodopsin Locus

Abstract

Several higher eukaryotic replication origins appear to be composed of broad zones of potential nascent strand start sites, while others are more circumscribed, resembling those of yeast, bacteria, and viruses. The most delocalized origin identified so far is ∼55 kb in length and lies between the convergently transcribed dihydrofolate reductase (DHFR) and the 2BE2121 genes on chromosome 2 in the Chinese hamster genome. In some of our studies, we have utilized the rhodopsin origin as an early replicating internal standard for assessing the effects of deleting various parts of the DHFR locus on DHFR origin activity. However, it had not been previously established that the rhodopsin locus was located at a site far enough away to be immune to such deletions, nor had the mechanism of initiation at this origin been characterized. In the present study, we have localized the rhodopsin domain to a pair of small metacentric chromosomes and have used neutral/neutral 2-D gel replicon mapping to show that initiation in this origin is also highly delocalized, encompassing a region more than 50 kb in length that includes the nontranscribed rhodopsin gene itself. The initiation zone is flanked at least on one end by an actively transcribed gene that does not support initiation. Thus, the DHFR and rhodopsin origins belong to a class of complex, polydisperse origins that appears to be unique to higher eukaryotic cells.