Support for a clade of Placozoa and Cnidaria in genes with minimal compositional bias

Support for a clade of Placozoa and Cnidaria in genes with minimal compositional bias

The phylogenetic placement of the morphologically simple placozoans is crucial to understanding the evolution of complex animal traits. Here, we examine the influence of adding new genomes from placozoans to a large dataset designed to study the deepest splits in the animal phylogeny. Using site-het...

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Bibliographic Details
Published in:eLife Vol. 7
Main Authors: Laumer, Christopher E, Gruber-Vodicka, Harald, Hadfield, Michael G, Pearse, Vicki B, Riesgo, Ana, Marioni, John C, Giribet, Gonzalo
Format: Journal Article
Language:English
Published: England eLife Sciences Publications Ltd 30-10-2018
eLife Sciences Publications, Ltd
Subjects:
Amino acids
Animals
Base Composition - genetics
Bayes Theorem
Bias
Bilateria
Cnidaria
Cnidaria - classification
Cnidaria - genetics
compositional heterogeneity
Evolutionary Biology
Genes
Genomes
Laboratories
Likelihood Functions
Medical research
Metagenome
Models, Genetic
Museums
Phylogenetics
Phylogeny
Placozoa
Placozoa - classification
Placozoa - genetics
Short Report
Trees
Trichoplax
United Kingdom > UK
United States > US
evolutionary biology
Bilateria
Cnidaria
Placozoa
phylogeny
compositional heterogeneity
Trichoplax
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Summary:The phylogenetic placement of the morphologically simple placozoans is crucial to understanding the evolution of complex animal traits. Here, we examine the influence of adding new genomes from placozoans to a large dataset designed to study the deepest splits in the animal phylogeny. Using site-heterogeneous substitution models, we show that it is possible to obtain strong support, in both amino acid and reduced-alphabet matrices, for either a sister-group relationship between Cnidaria and Placozoa, or for Cnidaria and Bilateria as seen in most published work to date, depending on the orthologues selected to construct the matrix. We demonstrate that a majority of genes show evidence of compositional heterogeneity, and that support for the Cnidaria + Bilateria clade can be assigned to this source of systematic error. In interpreting these results, we caution against a peremptory reading of placozoans as secondarily reduced forms of little relevance to broader discussions of early animal evolution.
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ISSN:2050-084X
2050-084X
DOI:10.7554/eLife.36278