Evolutionary origin of Ceratonova shasta and phylogeny of the marine myxosporean lineage

[Display omitted] •Phylogenetic relationships among the marine myxosporeans were assessed.•Ceratonova shasta is distantly related to morphologically similar Ceratomyxa species.•The statistical tests supported close relation of all marine histozoic species.•We obtained new molecular data for Ceratomy...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2015-05, Vol.86, p.75-89
Main Authors: Fiala, Ivan, Hlavničková, Marie, Kodádková, Alena, Freeman, Mark A., Bartošová-Sojková, Pavla, Atkinson, Stephen D.
Format: Article
Language:English
Subjects:
Animals
Bayes Theorem
Biological Evolution
Ceratomyxa
DNA, Ribosomal - genetics
Evolutionary trends
Likelihood Functions
Models, Genetic
Myxozoa
Myxozoa - classification
Phylogeny
Sequence Analysis, DNA
Taxonomy
Topology test
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Summary:[Display omitted] •Phylogenetic relationships among the marine myxosporeans were assessed.•Ceratonova shasta is distantly related to morphologically similar Ceratomyxa species.•The statistical tests supported close relation of all marine histozoic species.•We obtained new molecular data for Ceratomyxa, Ceratonova and Myxodavisia species.•We described five new myxosporean species of the genus Ceratomyxa and Myxodavisia. In order to clarify the phylogenetic relationships among the main marine myxosporean clades including newly established Ceratonova clade and scrutinizing their evolutionary origins, we performed large-scale phylogenetic analysis of all myxosporean species from the marine myxosporean lineage based on three gene analyses and statistical topology tests. Furthermore, we obtained new molecular data for Ceratonova shasta, C. gasterostea, eight Ceratomyxa species and one Myxodavisia species. We described five new species: Ceratomyxa ayami n. sp., C. leatherjacketi n. sp., C. synaphobranchi n. sp., C. verudaensis n. sp. and Myxodavisia bulani n. sp.; two of these formed a new, basal Ceratomyxa subclade. We identified that the Ceratomyxa clade is basal to all other marine myxosporean lineages, and Kudoa with Enteromyxum are the most recently branching clades. Topologies were least stable at the nodes connecting the marine urinary clade, the marine gall bladder clade and the Ceratonova clade. Bayesian inference analysis of SSU rDNA and the statistical tree topology tests suggested that Ceratonova is closely related to the Enteromyxum and Kudoa clades, which represent a large group of histozoic species. A close relationship between Ceratomyxa and Ceratonova was not supported, despite their similar myxospore morphologies. Overall, the site of sporulation in the vertebrate host is a more accurate predictor of phylogenetic relationships than the morphology of the myxospore.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2015.03.004