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Invasion and Persistence of a Selfish Gene in the Cnidaria

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  • Matthew R Goddard
  • Jessica Leigh
  • Andrew J Roger
  • Andrew J Pemberton

Abstract

Background: Homing endonuclease genes (HEGs) are superfluous, but are capable of invading populations that mix alleles by biasing their inheritance patterns through gene conversion. One model suggests that their long-term persistence is achieved through recurrent invasion. This circumvents evolutionary degeneration, but requires reasonable rates of transfer between species to maintain purifying selection. Although HEGs are found in a variety of microbes, we found the previous discovery of this type of selfish genetic element in the mitochondria of a sea anemone surprising. Methods/Principal Findings: We surveyed 29 species of Cnidaria for the presence of the COXI HEG. Statistical analyses provided evidence for HEG invasion. We also found that 96 individuals of Metridium senile, from five different locations in the UK, had identical HEG sequences. This lack of sequence divergence illustrates the stable nature of Anthozoan mitochondria. Our data suggests this HEG conforms to the recurrent invasion model of evolution. Conclusions: Ordinarily such low rates of HEG transfer would likely be insufficient to enable major invasion. However, the slow rate of Anthozoan mitochondrial change lengthens greatly the time to HEG degeneration: this significantly extends the periodicity of the HEG life-cycle. We suggest that a combination of very low substitution rates and rare transfers facilitated metazoan HEG invasion.

Suggested Citation

  • Matthew R Goddard & Jessica Leigh & Andrew J Roger & Andrew J Pemberton, 2006. "Invasion and Persistence of a Selfish Gene in the Cnidaria," PLOS ONE, Public Library of Science, vol. 1(1), pages 1-6, December.
  • Handle: RePEc:plo:pone00:0000003
    DOI: 10.1371/journal.pone.0000003
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    References listed on IDEAS

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    2. Mark Pagel, 1999. "Inferring the historical patterns of biological evolution," Nature, Nature, vol. 401(6756), pages 877-884, October.
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