The genomes of most prokaryotic and eukaryotic single-stranded (ss) DNA viruses, and some prokaryotic plasmids such as pLS1, commonly replicate via a rolling circle replication (RCR) strategy, and thus the viruses are hypothesized to have evolved from the plasmids, although evidence for this view is sparse. We have sequenced a circular plasmid of 3933 nt, pOYW, obtained from onion yellows phytoplasma (OY-W), a cell-wall-less, unculturable prokaryote that inhabits the cytoplasm of both plant and insect cells. pOYW contains five open reading frames (ORFs) on the same strand and apparently replicates by an RCR mechanism. Its rep gene (ORF5) encodes a unique protein, pOYW-Rep, with an unprecedented structure. The N-terminal region of pOYW-Rep has similarities to the RCR initiator protein (Rep) of pLS1 family plasmids but, unlike the Rep of other plasmids, its C;terminal region was unexpectedly similar to the helicase domain of the replication-associated proteins (Rap) of eukaryotic viruses, especially circoviruses (ssDNA viruses of vertebrates). The pOYW-Rep was specifically detected in OY-W-infected plant phloem cells, suggesting that it is a functional protein. We suggest that an ancestral phytoplasma plasmid pOYW may have acquired a helicase domain from host phytoplasmal DNA, entered the surrounding eukaryotic cytoplasm, and subsequently evolved into an ancestral eukaryotic ssDNA virus. Alternatively, a pOYW ancestor could have obtained the helicase domain by recombination with a virus: this would be the first example of recombination between plasmids and viruses.

• 出版日期2001-7-5