Based on molecular data three major clades have been recognized within Bilateria: Deuterostomia, Ecdysozoa, and Spiralia. Within Spiralia, small-sized and simply organized animals such as flatworms, gastrotrichs, and gnathostomulids have recently been grouped together as Platyzoa. However, the representation of putative platyzoans was low in the respective molecular phylogenetic studies, in terms of both, taxon number and sequence data. Furthermore, increased substitution rates in platyzoan taxa raised the possibility that monophyletic Platyzoa represents an artifact due to long-branch attraction. In order to overcome such problems, we employed a phylogenomic approach, thereby substantially increasing 1) the number of sampled species within Platyzoa and 2) species-specific sequence coverage in data sets of up to 82,162 amino acid positions. Using established and new measures (long-branch score), we disentangled phylogenetic signal from misleading effects such as long-branch attraction. In doing so, our phylogenomic analyses did not recover a monophyletic origin of platyzoan taxa that, instead, appeared paraphyletic with respect to the other spiralians. Platyhelminthes and Gastrotricha formed a monophylum, which we name Rouphozoa. To the exclusion of Gnathifera, Rouphozoa and all other spiralians represent a monophyletic group, which we name Platytrochozoa. Platyzoan paraphyly suggests that the last common ancestor of Spiralia was a simple-bodied organism lacking coelomic cavities, segmentation, and complex brain structures, and that more complex animals such as annelids evolved from such a simply organized ancestor. This conclusion contradicts alternative evolutionary scenarios proposing an annelid-like ancestor of Bilateria and Spiralia and several independent events of secondary reduction.

Animal Evolution and Development Institute of Biology 2 University of Leipzig Leipzig Germany

Department of Biology and Ecology Ostravian University in Ostrava Ostrava Czech RepublicDepartment of Invertebrate Fauna and Systematics Schmalhausen Institute of Zoology NAS of Ukraine Kyiv Ukraine

Institute of Anthropology Johannes Gutenberg University Mainz Germany

Institute of Molecular Genetics Biosafety Research and Consulting Johannes Gutenberg University Mainz Germany

Molecular Evolution and Systematics of Animals Institute of Biology University of Leipzig Leipzig Germany

Zoological Museum University of Hamburg Hamburg Germany

Zoological Research Museum Alexander Koenig Bonn Germany

Zoological Research Museum Alexander Koenig Bonn GermanyUniversity of Osnabrück FB05 Biology Chemistry AG Zoology Osnabrück Germany

Citace poskytuje Crossref.org

Zobrazit více v PubMed

Dryad
10.5061/dryad.N435P