6 research outputs found
Characterization of a Pseudokeronopsis Strain (Ciliophora, Urostylida) and Its Bacterial Endosymbiont “Candidatus Trichorickettsia” (Alphaproteobacteria, Rickettsiales)
Symbiotic associations between bacteria and ciliate protists are rather common. In particular,
several cases were reported involving bacteria of the alphaproteobacterial lineage Rickettsiales, but
the diversity, features, and interactions in these associations are still poorly understood. In this work,
we characterized a novel ciliate protist strain originating from Brazil and its associated Rickettsiales
endosymbiont by means of live and ultrastructural observations, as well as molecular phylogeny.
Though with few morphological peculiarities, the ciliate was found to be phylogenetically affiliated
with Pseudokeronopsis erythrina, a euryhaline species, which is consistent with its origin from a lagoon
with significant spatial and seasonal salinity variations. The bacterial symbiont was assigned to
“Candidatus Trichorickettsia mobilis subsp. hyperinfectiva”, being the first documented case of a
Rickettsiales associated with urostylid ciliates. It resided in the host cytoplasm and bore flagella,
similarly to many, but not all, conspecifics in other host species. These findings highlight the ability
of “Candidatus Trichorickettsia” to infect multiple distinct host species and underline the importance
of further studies on this system, in particular on flagella and their regulation, from a functional and
also an evolutionary perspective, considering the phylogenetic proximity with the well-studied and
non-flagellated Rickettsia
A House for Two—Double Bacterial Infection in Euplotes woodruffi Sq1 (Ciliophora, Euplotia) Sampled in Southeastern Brazil
Several ciliated protists form symbiotic associations with a diversity of microorganisms, leading to drastic impact on their ecology and evolution. In this work, two Euplotes spp. sampled in Rio de Janeiro, Brazil, were identified based on morphological and molecular features as Euplotes woodruffi strain Sq1 and E. encysticus strain Sq2 and investigated for the presence of endosymbionts. While E. woodruffi Sq1 stably hosts two bacterial populations, namely Polynucleobacter necessarius (Betaproteobacteria) and a new member of the family “Candidatus Midichloriaceae” (Alphaproteobacteria, Rickettsiales), here described as “Candidatus Bandiella woodruffii,” branching with a broad host range bacterial group found in association with cnidarians, sponges, euglenoids, and some arthropods; in E. encysticus Sq2 no symbiotic bacterium could be detected. The dispersion ability of this novel bacterium was tested by co-incubating E. woodruffi Sq1 with three different ciliate species. Among the tested strains “Ca. B. woodruffii” could only be detected in association with E. encysticus Sq2 with a prevalence of 20 % after 1 week and 40 % after 2 weeks, maintaining this level for up to 6 months. Nevertheless, this apparent in vitro association was abolished when E. woodruffi Sq1 donor was removed from the microcosm, suggesting that this bacterium has the capacity for at least a short-term survival outside its natural host and the aptitude to ephemerally interact with other organisms. Together, these findings strongly suggest the need for more detailed investigations to evaluate the host range for “Ca. B. woodruffii” and any possible pathogenic effect of this bacterium on other organisms including humans
The Hidden World of Rickettsiales Symbionts: “Candidatus Spectririckettsia obscura,” a Novel Bacterium Found in Brazilian and Indian Paramecium caudatum
Symbioses between bacteria and eukaryotes are widespread and may have significant impact on the evolutionary history of symbiotic partners. The order Rickettsiales is a lineage of intracellular Alphaproteobacteria characterized by an obligate association with a wide range of eukaryotic hosts, including several unicellular organisms, such as ciliates and amoebas. In this work, we characterized the Rickettsiales symbionts associated with two different genotypes of the freshwater ciliate Paramecium caudatum originated from freshwater environments in distant geographical areas. Phylogenetic analyses based on 16S rRNA gene showed that the two symbionts are closely related to each other (99.4% identity), belong to the family Rickettsiaceae, but are far-related with respect to previously characterized Rickettsiales. Consequently, they were assigned to a new species of a novel genus, namely “Candidatus Spectririckettsia obscura.” Screening on a database of short reads from 16S rRNA gene amplicon-based profiling studies confirmed that bacterial sequences related to the new symbiont are preferentially retrieved from freshwater environments, apparently with extremely scarce occurrence (< 0.1% positive samples). The present work provides new information on the still under-explored biodiversity of Rickettsiales, in particular those associated to ciliate host cells