Mitochondrial Genomes of Clymenella torquata (Maldanidae) and Riftia pachyptila (Siboglinidae): Evidence for Conserved Gene Order in Annelida

doi:10.1093/molbev/msi008

MBE Advance Access originally published online on October 13, 2004
Molecular Biology and Evolution 2005 22(2):210-222; doi:10.1093/molbev/msi008

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Molecular Biology and Evolution vol. 22 no. 2 © Society for Molecular Biology and Evolution 2005; all rights reserved.

Research Article

Mitochondrial Genomes of Clymenella torquata (Maldanidae) and Riftia pachyptila (Siboglinidae): Evidence for Conserved Gene Order in Annelida

Robert M. Jennings^* and Kenneth M. Halanych^*^,

^* Biology Department, Woods Hole Oceanographic Institution, Woods Hole, Massachusetts; and Department of Biological Sciences, Auburn University, Auburn, Alabama

E-mail: ken{at}auburn.edu.

Mitochondrial genomes are useful tools for inferring evolutionaryhistory. However, many taxa are poorly represented by availabledata. Thus, to further understand the phylogenetic potentialof complete mitochondrial genome sequence data in Annelida (segmentedworms), we examined the complete mitochondrial sequence forClymenella torquata (Maldanidae) and an estimated 80% of thesequence of Riftia pachyptila (Siboglinidae). These genomeshave remarkably similar gene orders to previously publishedannelid genomes, suggesting that gene order is conserved acrossannelids. This result is interesting, given the high variationseen in the closely related Mollusca and Brachiopoda. Phylogeneticanalyses of DNA sequence, amino acid sequence, and gene orderall support the recent hypothesis that Sipuncula and Annelidaare closely related. Our findings suggest that gene order datais of limited utility in annelids but that sequence data holdspromise. Additionally, these genomes show AT bias ( $~$ 66%) andcodon usage biases but have a typical gene complement for bilaterianmitochondrial genomes.

Key Words: phylogeny • gene order • mitochondria • genome • Annelida

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