Evidence of independent gene duplications during the evolution of archaeal and eukaryotic family B DNA polymerases |
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Authors: | Edgell DR; Malik SB; Doolittle WF |
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Institution: | Canadian Institute for Advanced Research, Department of Biochemistry, Dalhousie University, Halifax, Nova Scotia, Canada. buddy@csc.albany.edu |
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Abstract: | Eukaryotes and archaea both possess multiple genes coding for family B DNA
polymerases. In animals and fungi, three family B DNA polymerases, alpha,
delta, and epsilon, are responsible for replication of nuclear DNA. We used
a PCR-based approach to amplify and sequence phylogenetically conserved
regions of these three DNA polymerases from Giardia intestinalis and
Trichomonas vaginalis, representatives of early-diverging eukaryotic
lineages. Phylogenetic analysis of eukaryotic and archaeal paralogs
suggests that the gene duplications that gave rise to the three replicative
paralogs occurred before the divergence of the earliest eukaryotic
lineages, and that all eukaryotes are likely to possess these paralogs. One
eukaryotic paralog, epsilon, consistently branches within archaeal
sequences to the exclusion of other eukaryotic paralogs, suggesting that an
epsilon-like family B DNA polymerase was ancestral to both archaea and
eukaryotes. Because crenarchaeote and euryarchaeote paralogs do not form
monophyletic groups in phylogenetic analysis, it is possible that archaeal
family B paralogs themselves evolved by a series of gene duplications
independent of the gene duplications that gave rise to eukaryotic paralogs.
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