Pseudogenes Contribute to the Extreme Diversity of Nuclear Ribosomal DNA in the Hard Coral Acropora

doi:10.1093/molbev/msg122

MBE Advance Access originally published online on May 30, 2003

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Mol. Biol. Evol. 20(7):1077-1086. 2003
DOI: 10.1093/molbev/msg122
© 2003 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Pseudogenes Contribute to the Extreme Diversity of Nuclear Ribosomal DNA in the Hard Coral Acropora

Luis M. Márquez^*^,1, David J. Miller, Jason B. MacKenzie^*^, and Madeleine J. H. van Oppen^,

^* Biochemistry and Molecular Biology
Comparative Genomics Centre
Marine Biology and Aquaculture, James Cook University, Townsville, Queensland, Australia
Australian Institute of Marine Science, Townsville, Queensland, Australia

E-mail: m.vanoppen{at}aims.gov.au.

One characteristic of Indo-Pacific Acropora spp. is extremelyhigh diversity in rDNA sequences at both the species and individuallevels. In order to test the hypothesis that pseudogenes maycontribute to this diversity, three kinds of analyses were conducted.First, for A. millepora (the species containing the most diversesuite of rDNA types), RT-PCR was used to determine which 5.8SrDNA types are expressed. Second, as previous studies have indicatedthat interspecific hybridization has occurred in the genus Acroporaand silencing of rDNA loci via nucleolar dominance has beenshown in some cases to involve methylation, patterns of variationwere examined at methylation-susceptible sites. Third, patternsof substitution at conserved sites (including those that arelikely to contribute to secondary structure in rRNA) in the5.8S rDNA were examined. These analyses consistently indicatedthat one rDNA sequence type present in a broad range of Indo-PacificAcropora species is likely to consist predominantly of pseudogenes.Patterns of variation also suggest that species may differ withrespect to which rDNA sequence types have been silenced andwhich are active. These pseudogenes are likely to have arisenas a consequence of the introduction of highly divergent rDNAtypes into single genomes by interspecific hybridization events,and we attribute the extreme rDNA diversity characteristic ofmany Acropora species to both the independent evolution of thesesilenced rDNA types and to the suppressive effects of high sequencediversity on homogenization processes acting on functional loci.

Key Words: ribosomal DNA • pseudogenes • ITS • reticulate evolution • coral • Acropora

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