Complete nucleotide sequence of the mitochondrial genome of a Malagasy poison frog Mantella madagascariensis: Evolutionary implications on mitochondrial genomes of higher anuran groups

We determined the complete nucleotide sequence of the mitochondrial (mt) genome of a Malagasy poison frog, Mantella madagascariensis (family Mantellidae), and partial sequences of two Mantella ( M. baroni and M. bernhardi) and two additional mantellid species ( Boophis madagascariensis and Mantidact...

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Published in:Molecular phylogenetics and evolution 2006-04, Vol.39 (1), p.223-236
Main Authors: Kurabayashi, Atsushi, Usuki, Chisako, Mikami, Nozomi, Fujii, Tamotsu, Yonekawa, Hiromichi, Sumida, Masayuki, Hasegawa, Masami
Format: Article
Language:English
Subjects:
Animals
Anura
Anura - classification
Anura - genetics
Boophis
DNA, Mitochondrial - genetics
Duplicated gene regions
Electron Transport Complex I - genetics
Evolution, Molecular
Gene Order
Gene rearrangement
Genes
Genome
Malagasy frogs
Mantella
Mantella madagascariensis
Mantellidae
Mantidactylus
Mitochondrial genome
Phylogeny
Pseudogenes - genetics
Ranoid phylogeny
Rhacophoridae
RNA, Transfer, Met - genetics
Sequence Analysis, DNA
Translocation, Genetic
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Summary:We determined the complete nucleotide sequence of the mitochondrial (mt) genome of a Malagasy poison frog, Mantella madagascariensis (family Mantellidae), and partial sequences of two Mantella ( M. baroni and M. bernhardi) and two additional mantellid species ( Boophis madagascariensis and Mantidactylus cf. ulcerosus). The M. madagascariensis genome was shown to be the largest (23 kbp) of all vertebrate mtDNAs investigated so far. Furthermore, the following unique features were revealed: (1) the positions of some genes and gene regions were rearranged compared to mitochondrial genomes typical for vertebrates and other anuran groups, (2) two distinct genes and a pseudogene corresponding to transfer RNA gene for methionine ( tRNA-Met) were encoded, and (3) two control regions with very high sequence homology were present. These features were shared by the two other Mantella species but not the other mantellid species, indicating dynamic genome reorganization in a common ancestor linage before divergence of the Mantella genus. The reorganization pathway could be explained by a model of gene duplication and deletion. Duplication and deletion events also seem to have been responsible for concerted sequence evolution of the control regions in Mantella mt genomes. It is also suggested that the pseudo tRNA-Met gene sustained for a long time in Mantella mt genomes possibly functions as a punctuation marker for NADH dehydrogenase subunit (ND) 2 mRNA processing. Phylogenetic analyses employing a large sequence data set of mt genes supported the monophyly of Mantellidae and Rhacophoridae and other recent phylogenetic views for ranoid frogs. The resultant phylogenetic relationship also suggested parallel occurrence of two tRNA-Met genes, duplicated control regions, and ND5 gene translocation in independent ranoid lineages.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2005.11.021