SYMBIOSIS IN THE COLD: IDENTIFICATION AND CHARACTERIZATION OF A NEW FRANCISELLA ENDOSYMBIONT FROM THE POLAR CILIATE, EUPLOTES PETZI

Ciliates of the genus Euplotes are commonly found in polar environments, and different species isolated from Arctic and Antarctic coastal seawaters are currently studied for their genome evolution and adaptation. In analyzing whole genome sequences of a wild-type E. petzi strain collected from Terra...

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Bibliographic Details
Main Authors: VALLESI, Adriana, PETRELLI, Dezemona, Graziano Di Giuseppe, Andreas Sjödin, Johanna Thelaus, Elin Nilsson, Caroline Öhrman, Gabriel Gutierrez Pozo, Eduardo Villalobo
Other Authors: Vallesi, Adriana, Petrelli, Dezemona, Graziano Di, Giuseppe, Andreas, Sjödin, Johanna, Thelau, Elin, Nilsson, Caroline, Öhrman, Gabriel Gutierrez, Pozo, Eduardo, Villalobo
Format: Conference Object
Language:English
Published: Universidad de Sevilla 2015
Subjects:
Arctic
Antarctic
Terra Nova Bay
Antarc*
Antarctica
Online Access:http://hdl.handle.net/11581/391680
http://feps.ciccartuja.es/ecop/
Description
Summary:Ciliates of the genus Euplotes are commonly found in polar environments, and different species isolated from Arctic and Antarctic coastal seawaters are currently studied for their genome evolution and adaptation. In analyzing whole genome sequences of a wild-type E. petzi strain collected from Terra Nova Bay (Antarctica), it appeared that more than 3% of the assembled contigs had a bacterial origin and overlapped (one contig containing rDNA operon included) with DNA sequences of the gammaproteobacterium Francisella (represented by extremely infectious species to a wide array of different organisms man included). Given that an Euplotes species of temperate seawaters, E. raikovi, has already been found to host a Francisella species (namely F. endociliophora), we searched for and succeeded in isolating Francisella-like endosymbionts from E. petzi cells. Colonies of these endosymbionts (grown optimally at a temperature range from 4 to maximum 30 °C) have been analyzed for their genome and found to represent a new clade with a basal position in the Francisella phylogenetic tree. This clade is unequivocally distinct from F. endociliophora (living in E. raikovi) as well as from all the other well recognised Francisella clades. The finding that Francisella is adapted to live in the extreme environmental conditions of the polar regions implies that this bacterium is much more common and geographically widespread than previously known, and that free-living Euplotes species may represent a natural reservoir of Francisella in every aquatic environments.

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