Complex array of endobionts in <i>Petalomonas sphagnophila</i>, a large heterotrophic euglenid protist from <i>Sphagnum</i>-dominated peatlands

Kim, Eun-Soo; Park, Jong Soo; Simpson, Alastair G. B.; Matsunaga, Shigeru; Watanabe, Masakatsu; Murakami, Akio; Sommerfeld, Katrin; Onodera, Naoko T.; Archibald, John M.

doi:10.1038/ismej.2010.40

Cited by 25 publications

(30 citation statements)

References 42 publications

(58 reference statements)

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“…Group III contained Orientia tsutsugamushi and the endosymbiont ( Candidatus Cryptoprodotis polytropus) of the freshwater ciliate Pseudomicrothorax dubius [13], and was positioned most basally within the Rickettsiaceae. Just outside the Rickettsiaceae, a lineage including endosymbionts of the plastid-lacking euglenid Petalomonas sphagnophila [15] was positioned. The endosymbionts from the two volvocalean species showed 92.5–93.6% sequence similarity with the bacteria in group I, 95.5–99.5% with other group II bacteria, and 88.7–89.1% with those in group III.…”

Section: Resultsmentioning

confidence: 99%

“…These rickettsias are phylogenetically placed in separate positions within the Rickettsiaceae [13], [14]. Moreover, endosymbionts closely related to the Rickettsiaceae have been discovered within the cells of the plastid-lacking heterotrophic euglenid flagellate Petalomonas sphagnophila [15]. Little is known about the virulence or contribution of these endosymbionts to their non-arthropod hosts [16].…”

Section: Introductionmentioning

confidence: 99%

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Molecular Identification of Rickettsial Endosymbionts in the Non-Phagotrophic Volvocalean Green Algae

et al. 2012

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BackgroundThe order Rickettsiales comprises Gram-negative obligate intracellular bacteria (also called rickettsias) that are mainly associated with arthropod hosts. This group is medically important because it contains human-pathogenic species that cause dangerous diseases. Until now, there has been no report of non-phagotrophic photosynthetic eukaryotes, such as green plants, harboring rickettsias.Methodology/Principal FindingsWe examined the bacterial endosymbionts of two freshwater volvocalean green algae: unicellular Carteria cerasiformis and colonial Pleodorina japonica. Epifluorescence microscopy using 4′-6-deamidino-2-phenylindole staining revealed the presence of endosymbionts in all C. cerasiformis NIES-425 cells, and demonstrated a positive correlation between host cell size and the number of endosymbionts. Strains both containing and lacking endosymbionts of C. cerasiformis (NIES-425 and NIES-424) showed a >10-fold increase in cell number and typical sigmoid growth curves over 192 h. A phylogenetic analysis of 16 S ribosomal (r)RNA gene sequences from the endosymbionts of C. cerasiformis and P. japonica demonstrated that they formed a robust clade (hydra group) with endosymbionts of various non-arthropod hosts within the family Rickettsiaceae. There were significantly fewer differences in the 16 S rRNA sequences of the rickettsiacean endosymbionts between C. cerasiformis and P. japonica than in the chloroplast 16 S rRNA or 18 S rRNA of the host volvocalean cells. Fluorescence in situ hybridization demonstrated the existence of the rickettsiacean endosymbionts in the cytoplasm of two volvocalean species.Conclusions/SignificanceThe rickettsiacean endosymbionts are likely not harmful to their volvocalean hosts and may have been recently transmitted from other non-arthropod organisms. Because rickettsias are the closest relatives of mitochondria, incipient stages of mitochondrial endosymbiosis may be deduced using both strains with and without C. cerasiformis endosymbionts.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Molecular Identification of Rickettsial Endosymbionts in the Non-Phagotrophic Volvocalean Green Algae

et al. 2012

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“…Nucleicultrix" (clade C/N) (42). Eutreptiella and Petalomonas, two distantly related Euglenozoa (Excavata), harbor midichloriacean and paracaedibacteracean endosymbionts, respectively (41,62). A Rickettsia species was found in the cytoplasm of the naked, filose amoeba Nuclearia pattersonii (Nucleariidae, Opisthokonta) (73), and representatives of the "Ca.…”

Section: Phylogenetic Identity and Taxonomy Of "Candidatus Finniella"mentioning

confidence: 99%

“…(37-39), "Ca. Captivus" was found in unidentified protists that inhabit acid mine drainage (40), and the yet-undescribed Ric2 endosymbionts reside in Petalomonas sphagnophila (41).…”

Section: Phylogenetic Identity and Taxonomy Of "Candidatus Finniella"mentioning

confidence: 99%

“Candidatus Finniella” (Rickettsiales, Alphaproteobacteria), Novel Endosymbionts of Viridiraptorid Amoeboflagellates (Cercozoa, Rhizaria)

Hess

Suthaus

Melkonian

2016

Appl Environ Microbiol

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The Rickettsiales (Alphaproteobacteria) are obligate intracellular bacteria that colonize a wide range of eukaryotic hosts, including diverse metazoa and protists. Here, we characterize rickettsial endosymbionts discovered in the cytoplasm of the algivorous amoeboflagellates Viridiraptor invadens and Orciraptor agilis (Viridiraptoridae, Cercozoa, Rhizaria), supplying evidence of free-living, phagotrophic members of the Cercozoa serving as hosts for Rickettsiales. According to 16S rRNA gene phylogenies, the bacteria represent two closely related but distinct genotypes within a deep-branching rickettsial clade, which contains the genera "Candidatus Odyssella," "Candidatus Paracaedibacter," and "Candidatus Captivus." Using the full-cycle rRNA approach, we detected the novel bacteria in four of nine viridiraptorid strains tested. Furthermore, two specific oligonucleotide probes with a single-nucleotide-difference discriminated both bacterial genotypes by fluorescence in situ hybridization (FISH). We establish the candidate species "Candidatus Finniella inopinata" (found in Viridiraptor invadens) and "Candidatus Finniella lucida" (found in Orciraptor agilis) for the novel bacteria and propose a new, provisional family of Rickettsiales, "Candidatus Paracaedibacteraceae." T he family Viridiraptoridae (Cercozoa, Rhizaria) comprises amoeboflagellates that perforate the cell walls of freshwater green algae (Viridiplantae) and feed on the algal cell contents by phagocytosis (1). During the ultrastructural investigation of Viridiraptor invadens, we observed intracellular bacteria that were scattered throughout the cytoplasm and not enclosed in a vacuolar membrane (2). Besides these ultrastructural features, the strictly algivorous diet of Viridiraptor and the axenic culture conditions excluded the possibility of engulfed food bacteria and instead suggested that Viridiraptor was colonized by endosymbionts. Singlecelled eukaryotes (protists) of diverse phylogenetic affiliations are known to harbor bacterial endosymbionts and therefore represent an almost ubiquitous, natural reservoir for facultative and obligate intracellular bacteria (3-5). The bacteria colonizing eukaryotic cells are equally diverse, and a broad spectrum of interaction exists, ranging from mutualism and balanced parasitism to pathogenic situations that involve host cell lysis (5). Protists have even been suggested to serve as vectors and training grounds for pathogenic bacteria (6). They are frequently colonized by representatives of the eubacterial orders Chlamydiales (Chlamydiae), Legionellales (Gammaproteobacteria), and Rickettsiales (Alphaproteobacteria), whose members are linked to severe diseases in mammals, including humans (7-9).Compared to other protist groups, such as ciliates (Alveolata) and bacterivorous amoebae (Amoebozoa), Rhizaria are poorly studied in terms of endosymbiotic relationships with heterotrophic bacteria. Therefore, our finding triggered the following questions. What is the phylogenetic affiliation of the bacteria residing in Viri...

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“…(Okamoto and Inouye ) and the freshwater euglenid Petalomonas sphagnophila associating with several different kinds of endosymbiotic bacteria (Kim et al. ), have not been cultured despite numerous efforts. Furthermore, the symbiotic relationships could be altered during the culturing procedures, such as elimination of one or more partners in the case of facultative associations (e.g.…”

Section: The Importance Of Protistan Fieldworkmentioning

confidence: 99%

A Resurgence in Field Research is Essential to Better Understand the Diversity, Ecology, and Evolution of Microbial Eukaryotes

Heger

Edgcomb

Kim

et al. 2014

J Eukaryotic Microbiology

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The discovery and characterization of protist communities from diverse environments are crucial for understanding the overall evolutionary history of life on earth. However, major questions about the diversity, ecology, and evolutionary history of protists remain unanswered, notably because data obtained from natural protist communities, especially of heterotrophic species, remain limited. In this review, we discuss the challenges associated with "field protistology", defined here as the exploration, characterization, and interpretation of microbial eukaryotic diversity within the context of natural environments or field experiments, and provide

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Complex array of endobionts in Petalomonas sphagnophila, a large heterotrophic euglenid protist from Sphagnum-dominated peatlands

Cited by 25 publications

References 42 publications

Molecular Identification of Rickettsial Endosymbionts in the Non-Phagotrophic Volvocalean Green Algae

Molecular Identification of Rickettsial Endosymbionts in the Non-Phagotrophic Volvocalean Green Algae

“Candidatus Finniella” (Rickettsiales, Alphaproteobacteria), Novel Endosymbionts of Viridiraptorid Amoeboflagellates (Cercozoa, Rhizaria)

A Resurgence in Field Research is Essential to Better Understand the Diversity, Ecology, and Evolution of Microbial Eukaryotes

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