Detecting the symplesiomorphy trap: a multigene phylogenetic analysis of terebelliform annelids

Autor(en): Zhong, Min
Hansen, Benjamin
Nesnidal, Maximilian
Golombek, Anja
Halanych, Kenneth M.
Struck, Torsten H.
Stichwörter: 18S; COMPLETE MITOCHONDRIAL GENOME; EVOLUTION; Evolutionary Biology; Genetics & Heredity; INTERORDINAL RELATIONSHIPS; RIBOSOMAL-RNA; SEQUENCE-ANALYSIS; SIPUNCULA; SPECTRAL-ANALYSIS; TACHYGLOSSUS-ACULEATUS; TREE SELECTION
Erscheinungsdatum: 2011
Herausgeber: BIOMED CENTRAL LTD
Journal: BMC EVOLUTIONARY BIOLOGY
Volumen: 11
Zusammenfassung: 
Background: For phylogenetic reconstructions, conflict in signal is a potential problem for tree reconstruction. For instance, molecular data from different cellular components, such as the mitochondrion and nucleus, may be inconsistent with each other. Mammalian studies provide one such case of conflict where mitochondrial data, which display compositional biases, support the Marsupionta hypothesis, but nuclear data confirm the Theria hypothesis. Most observations of compositional biases in tree reconstruction have focused on lineages with different composition than the majority of the lineages under analysis. However in some situations, the position of taxa that lack compositional bias may be influenced rather than the position of taxa that possess compositional bias. This situation is due to apparent symplesiomorphic characters and known as ``the symplesiomorphy trap''. Results: Herein, we report an example of the sympleisomorphy trap and how to detect it. Worms within Terebelliformia (sensu Rouse & Pleijel 2001) are mainly tube-dwelling annelids comprising five `families': Alvinellidae, Ampharetidae, Terebellidae, Trichobranchidae and Pectinariidae. Using mitochondrial genomic data, as well as data from the nuclear 18S, 28S rDNA and elongation factor-1 alpha genes, we revealed incongruence between mitochondrial and nuclear data regarding the placement of Trichobranchidae. Mitochondrial data favored a sister relationship between Terebellidae and Trichobranchidae, but nuclear data placed Trichobranchidae as sister to an Ampharetidae/ Alvinellidae clade. Both positions have been proposed based on morphological data. Conclusions: Our investigation revealed that mitochondrial data of Ampharetidae and Alvinellidae exhibited strong compositional biases. However, these biases resulted in a misplacement of Trichobranchidae, rather than Alvinellidae and Ampharetidae. Herein, we document that Trichobranchidae was apparently caught in the symplesiomorphy trap suggesting that in certain situations even homologies can be misleading.
ISSN: 14712148
DOI: 10.1186/1471-2148-11-369

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