Some of the species from the genus Neoparamoeba, for example N. perurans have been shown to be pathogenic to aquatic animals and thus have economic significance. They all contain endosymbiont, Perkinsela amoebae like organisms (PLOs). In this study we investigated phylogenetic ambiguities within the Neoparamoeba taxonomy and phylogenetic congruence between PLOs and their host Neoparamoeba to confirm the existence of a single ancient infection/colonisation that led to cospeciation between all PLOs and their host Neoparamoeba. DNA was extracted and rRNA genes from host amoeba and endosymbiont were amplified using PCR. Uncertainties in the Neoparamoeba phylogeny were initially resolved by a secondary phylogenetic marker, the internal transcribed spacer 2 (ITS2). The secondary structure of ITS2 was reconstructed for Neoparamoeba. The ITS2 was phylogenetically informative, separating N. pemaquidensis and N. aestuarina into distinct monophyletic clades and designating N. perurans as the most phylogenetically divergent Neoparamoeba species. The new phylogenetic data were used to verify the tree topologies used in cophylogenetic analyses that revealed strict phylogenetic congruence between endosymbiotic PLOs with their host Neoparamoeba. Strict congruence in the phylogeny of all PLOs and their host Neoparamoeba was demonstrated implying that PLOs are transmitted vertically from parent to daughter cell.

Department of Bioinformatics University of Würzburg Am Hubland 97074 Würzburg Germany

Faculty of Science Masaryk University Kotlářská 2 Brno Czech Republic

National Centre for Mari^ ^ne Conservation and Resource Sustainability University of Tasmania Locked Bag 1370 Launceston Tasmania Australia

National Centre for Mari^ ^ne Conservation and Resource Sustainability University of Tasmania Locked Bag 1370 Launceston Tasmania Australia; Department of Veterinary Science The University of Melbourne Werribee Victoria Australia

National Centre for Mari^ ^ne Conservation and Resource Sustainability University of Tasmania Locked Bag 1370 Launceston Tasmania Australia; Fish Health Unit Department of Primary Industries Parks Water and Environment 165 Westbury Road Prospect Tasmania Australia

Citace poskytuje Crossref.org

Heme pathway evolution in kinetoplastid protists

Gene Loss and Error-Prone RNA Editing in the Mitochondrion of Perkinsela, an Endosymbiotic Kinetoplastid

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