Mitogenomic analysis of Montipora cactus and Anacropora matthai (cnidaria; scleractinia; acroporidae) indicates an unequal rate of mitochondrial evolution among Acroporidae corals

The complete nucleotide sequence of the mitochondrial (mt) genome was determined for specimens of the coral species Montipora cactus (Bernard 1897) and Anacropora matthai (Pillai 1973), representing two morphologically distinct genera of the family Acroporidae. These sequences were compared with the...

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Bibliographic Details
Published in:Coral reefs 2005-11, Vol.24 (3), p.502-508
Main Authors: TSENG, Ching-Chih, WALLACE, Garden C, CHEN, Chaolun Allen
Format: Article
Language:English
Subjects:
Acropora
Acropora tenuis
Acroporidae
Anacropora
Anacropora matthai
Animal and plant ecology
Animal, plant and microbial ecology
Anthozoa
Biological and medical sciences
Cnidaria
Cnidaria. Ctenaria
Fundamental and applied biological sciences. Psychology
Genes
Genetics
Invertebrates
Marine
Montipora
Montipora cactus
Scleractinia
Sea water ecosystems
Synecology
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Summary:The complete nucleotide sequence of the mitochondrial (mt) genome was determined for specimens of the coral species Montipora cactus (Bernard 1897) and Anacropora matthai (Pillai 1973), representing two morphologically distinct genera of the family Acroporidae. These sequences were compared with the published mt genome sequence for the confamilial species, Acropora tenuis (Dana 1846). The size of the mt genome was 17,887 bp and 17,888 bp for M. cactus and A. matthai. Gene content and organization was found to be very similar among the three Acroporidae mt genomes with a group I intron occurring in the NADH dehyrogenase 5 (nad5) gene. The intergenic regions were also similar in length among the three corals. The control region located between the small ribosomal RNA (ms) and the cytochrome oxidase 3 (cox3) gene was significantly smaller in M. cactus and A. matthai (both 627 bp) than in A. tenuis (1086 bp). Only one set of repeated sequences was identified at the 3'-end of the control regions in M. cactus and A. matthai. A lack of the abundant repetitive elements which have been reported for A. tenuis, accounts for the relatively short control regions in M. cactus and A. matthai. Pairwise distances and relative rate analyses of 13 protein coding genes, the group I intron and the largest intergenic region, igr3, revealed significant differences in the rate of molecular evolution of the mt genome among the three species, with an extremely slow rate being seen between Montipora and Anacropora. It is concluded that rapid mt genome evolution is taking place in genus Acropora relative to the confamilial genera Montipora and Anacropora although all are within the relatively slow range thought to be typical of Anthozoa.[PUBLICATION ABSTRACT]
ISSN:0722-4028
1432-0975
DOI:10.1007/s00338-005-0499-x