期刊
JOURNAL OF MOLECULAR EVOLUTION
卷 52, 期 5, 页码 419-425出版社
SPRINGER-VERLAG
DOI: 10.1007/s002390010171
关键词
DNA polymerase alpha; DNA polymerase delta DNA replication; molecular evolution; phylogenetic tree; poxvirus; eukaryotic nucleus
A number of molecular forms of DNA polymerases have been reported to be involved in eukaryotic nuclear DNA replication, with contributions from alpha-, delta-, and epsilon -polymerases. It has been reported that delta -polymerase possessed a central role in DNA replication in archaea, whose ancestry are thought to be closely related to the ancestor of eukaryotes. Indeed, in vitro experiment shown here suggests that delta -polymerase has the potential ability to start DNA synthesis immediately after RNA primer synthesis. Therefore, the question arises, where did the alpha -polymerase come from? Phylogenetic analysis based on the nucleotide sequence of several conserved regions reveals that two poxviruses, vaccinia and variola viruses, have polymerases similar to eukaryotic alpha -polymerase rather than delta -polymerase, while adenovirus, herpes family viruses, and archaeotes have eukaryotic delta -like polymerases, suggesting that the eukaryotic alpha -polymerase gene is derived from a poxvirus-like organism, which had some eukaryote-like characteristics. Furthermore, the poxvirus's proliferation independent from the host-cell nucleus suggests the possibility that this virus could infect non-nucleated cells, such as ancestral eukaryotes. I wish to propose here a new hypothesis for the origin of the eukaryotic nucleus, posing symbiotic contact of an orthopoxvirus ancestor with an archaebacterium, whose genome already had a delta -like polymerase gene.
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