Abstract
Background: Mitochondrial (mt) gene arrangement is highly variable among molluscs and
especially among bivalves. Of the 30 complete molluscan mt-genomes published to date, only one
is of a heterodont bivalve, although this is the most diverse taxon in terms of species numbers. We
determined the complete sequence of the mitochondrial genomes of Acanthocardia tuberculata and
Hiatella arctica, (Mollusca, Bivalvia, Heterodonta) and describe their gene contents and genome
organisations to assess the variability of these features among the Bivalvia and their value for
phylogenetic inference.
Results: The size of the mt-genome in Acanthocardia tuberculata is 16.104 basepairs (bp), and in
Hiatella arctica 18.244 bp. The Acanthocardia mt-genome contains 12 of the typical protein coding
genes, lacking the Atpase subunit 8 (atp8) gene, as all published marine bivalves. In contrast, a
complete atp8 gene is present in Hiatella arctica. In addition, we found a putative truncated atp8
gene when re-annotating the mt-genome of Venerupis philippinarum. Both mt-genomes reported
here encode all genes on the same strand and have an additional trnM. In Acanthocardia several large
non-coding regions are present. One of these contains 3.5 nearly identical copies of a 167 bp
motive. In Hiatella, the 3' end of the NADH dehydrogenase subunit (nad)6 gene is duplicated together
with the adjacent non-coding region. The gene arrangement of Hiatella is markedly different from
all other known molluscan mt-genomes, that of Acanthocardia shows few identities with the
Venerupis philippinarum. Phylogenetic analyses on amino acid and nucleotide levels robustly support
the Heterodonta and the sister group relationship of Acanthocardia and Venerupis. Monophyletic
Bivalvia are resolved only by a Bayesian inference of the nucleotide data set. In all other analyses
the two unionid species, being to only ones with genes located on both strands, do not group with
the remaining bivalves.
Conclusion: The two mt-genomes reported here add to and underline the high variability of gene
order and presence of duplications in bivalve and molluscan taxa. Some genomic traits like the loss
of the atp8 gene or the encoding of all genes on the same strand are homoplastic among the
Bivalvia. These characters, gene order, and the nucleotide sequence data show considerable
potential of resolving phylogenetic patterns at lower taxonomic levels.
Originalsprache | Englisch |
---|---|
Seiten (von - bis) | 13-26 |
Seitenumfang | 14 |
Fachzeitschrift | Frontiers in Zoology |
Jahrgang | 3 |
Publikationsstatus | Veröffentlicht - 2006 |
ÖFOS 2012
- 106013 Genetik
- 106054 Zoologie