Geminivirus DNA replication and cell cycle interactions.

The Geminiviridae family includes a large number of viruses that infect plants and have a unique geminate virion particle, a single-stranded genome of approximately 2.6-3.0 kb, and replicate through a rolling-circle mechanism. Since they encode for just a few proteins (4-6 depending on the members that belong to four different genera), a rich variety of interactions has evolved between viral proteins and host factors to develop the virus replicative cycle. Among them, we have been particularly interested so far: (i). in the interference with cell cycle regulatory proteins of the retinoblastoma-related (RBR)/E2F pathway and (ii). in the interaction with host DNA replication factors necessary for the assembly of a functional replication complex at the viral origin of DNA replication during the rolling-circle stage. Yeast two-hybrid assays revealed that wheat dwarf virus RepA protein, but nor Rep protein, interacts with plant RBR protein. Interestingly, deletion of the C-terminal domain of Rep confers the truncated protein the ability to interact with RBR, suggesting that this domain may hinder the LXCXE RBR-binding motif. Secondary structure predictions support such a possibility.

Interaction of geminivirus Rep protein with replication factor C and its potential role during geminivirus DNA replication.

Geminivirus DNA replication during the rolling-circle stage depends on the use of a DNA primer, a strategy poorly understood as compared with other eukaryotic viral systems that rely on RNA or protein as primers. Here we have used wheat dwarf virus (WDV) with the aim of elucidating the events leading to recruitment of cell factors at the replication origin. We have identified a novel interaction of WDV Rep, the replication initiation protein, with the large subunit of the wheat replication factor C complex (TmRFC-1). In other systems, the heteropentameric RFC clamp loader complex stimulates loading of DNA polymerase delta to the primer-template. Expression of TmRFC-1 is subjected to cell-cycle regulation, with a peak in early S-phase. We show that WDV Rep stimulates binding of recombinant TmRFC-1 to a model substrate containing a 3'-OH terminus and a WDV Rep-binding site. This was confirmed using cellular fractions enriched for wheat RFC complex, supporting the idea that, in addition to generating a 3'-OH terminus during initiation of DNA replication, WDV Rep could participate in the recruitment of RFC to the newly formed primer. We propose that this pathway may represent an initial event to facilitate the assembly of other replication factors, e.g., PCNA and/or DNA polymerase delta, a model that could also apply to other eukaryotic replicons, such as nanoviruses, circoviruses, and parvoviruses with a similar DNA replication strategy.