Characterization of genetic determinants for R body synthesis and assembly in Caedibacter taeniospiralis 47 and 116

This study focuses on the function of the gene praR that encodes a putative transcription factor in Azorhizobium caulinodans ORS571, a microsymbiont of Sesbania rostrata. The praR gene is a homolog of the phrR gene of Sinorhizobium medicae WSM419, and the praR and phrR homologs are distributed throughout the class Alphaproteobacteria. The growth and nitrogen fixation activity of an A. caulinodans praR deletion mutant in the free-living state were not significantly different from those of the wild-type strain. However, the stem nodules formed by the praR mutant showed lower nitrogen fixation activity than the wild-type stem nodules. Microscopy revealed that infected host cells with an oval or elongated shape were observed at early stages in the nodules formed by the praR mutant, but these infected cells gradually fell into two types. One maintained an oval or elongated shape, but the vacuoles in these cells gradually enlarged and the bacteria gradually disappeared. The other cells were shrunken with bacteria remaining inside. Microarrays revealed that genes homologous to the reb genes of Caedibacter taeniospiralis were highly expressed in the praR mutant. Furthermore, the stem nodules formed by an A. caulinodans mutant with a deletion of praR and reb-homologous genes showed high nitrogen fixation activity, comparable to that of the wild-type stem nodules, and were filled with oval or elongated host cells. These results suggest that PraR controls the expression of the reb-homologous genes and that high expression of reb-homologous genes causes aberrance in A. caulinodans-S. rostrata symbiosis.

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

phrR -Like Gene praR of Azorhizobium caulinodans ORS571 Is Essential for Symbiosis with Sesbania rostrata and Is Involved in Expression of reb Genes

Akiba

Aono

Toyazaki

et al. 2010

“…Furthermore, a Caedibacter mutant that is defective in R-body production has also been observed as not exhibiting "killer traits" (13). The rebA, rebB, rebC, and/or rebD genes of C. taeniospiralis are present on plasmids and are involved in R-body synthesis and assembly (30,35,49). For a long time, the focus of research on reb genes and R-bodies had been only on the relationship between paramecia and Caedibacter bacteria.…”

Section: Discussionmentioning

confidence: 99%

“…The reb genes were originally identified from Caedibacter taeniospiralis (30). Caedibacter species are obligate endobiotic bacteria inhabiting paramecium hosts and are characterized by their ability to produce R-bodies (refractile inclusion bodies), which are insoluble protein ribbons that are seen coiled into cylindrical structures within the cell (47).…”

Section: Discussionmentioning

confidence: 99%

Lon Protease of Azorhizobium caulinodans ORS571 Is Required for Suppression of reb Gene Expression

Nakajima

Aono

Tsukada

et al. 2012

ABSTRACTBacterial Lon proteases play important roles in a variety of biological processes in addition to housekeeping functions. In this study, we focused on the Lon protease ofAzorhizobium caulinodans, which can fix nitrogen both during free-living growth and in stem nodules of the legumeSesbania rostrata. The nitrogen fixation activity of anA. caulinodanslonmutant in the free-living state was not significantly different from that of the wild-type strain. However, the stem nodules formed by thelonmutant showed little or no nitrogen fixation activity. By microscopic analyses, two kinds of host cells were observed in the stem nodules formed by thelonmutant. One type has shrunken host cells containing a high density of bacteria, and the other type has oval or elongated host cells containing a low density or no bacteria. This phenotype is similar to apraRmutant highly expressing therebgenes. Quantitative reverse transcription-PCR analyses revealed thatrebgenes were also highly expressed in thelonmutant. Furthermore, alon rebdouble mutant formed stem nodules showing higher nitrogen fixation activity than thelonmutant, and shrunken host cells were not observed in these stem nodules. These results suggest that Lon protease is required to suppress the expression of therebgenes and that high expression ofrebgenes in part causes aberrance in theA. caulinodans-S. rostratasymbiosis. In addition to the suppression ofrebgenes, it was found that Lon protease was involved in the regulation of exopolysaccharide production and autoagglutination of bacterial cells.

“…This scenario might also explain the otherwise peculiar existence of R-body-like structures in nonsymbiotic bacteria, like Pseudomonas avenae and Pseudomonas taeniospiralis, and their absence in the Caedibacter-related Acanthamoeba endosymbionts (20,23,24,60). While comparative analysis of the genes necessary for R-body production (the genes necessary for type 51 R-body synthesis were cloned and heterologically expressed by Quackenbush and Burbach [19,40]) may help to clarify their evolutionary history, our data clearly demonstrate that the presence of R bodies alone must not be used as a phylogenetically meaningful taxonomic marker.…”

Section: Discussionmentioning

confidence: 99%

The Genus Caedibacter Comprises Endosymbionts of Paramecium spp. Related to the Rickettsiales ( Alphaproteobacteria ) and to Francisella tularensis ( Gammaproteobacteria )

Beier

Horn

Michel

et al. 2002

101

Obligate bacterial endosymbionts of paramecia able to form refractile inclusion bodies (R bodies), thereby conferring a killer trait upon their ciliate hosts, have traditionally been grouped into the genus Caedibacter. Of the six species described to date, only the Paramecium caudatum symbiont Caedibacter caryophilus has been phylogenetically characterized by its 16S rRNA gene sequence, and it was found to be a member of the Alphaproteobacteria related to the Rickettsiales. In this study, the Caedibacter taeniospiralis type strain, an R-body-producing cytoplasmatic symbiont of Paramecium tetraurelia strain 51k, was investigated by comparative 16S rRNA sequence analysis and fluorescence in situ hybridization with specific oligonucleotide probes. C. taeniospiralis is not closely related to C. caryophilus (80% 16S rRNA sequence similarity) but forms a novel evolutionary lineage within the Gammaproteobacteria with the family Francisellaceae as a sister group (87% 16S rRNA sequence similarity). These findings demonstrate that the genus Caedibacter is polyphyletic and comprises at least two phylogenetically different bacterial species belonging to two different classes of the Proteobacteria. Comparative phylogenetic analysis of C. caryophilus, five closely related Acanthamoeba endosymbionts (including one previously uncharacterized amoebal symbiont identified in this study), and their hosts suggests that the progenitor of the alphaproteobacterial C. caryophilus lived within acanthamoebae prior to the infection of paramecia.The ability of certain paramecia to kill other paramecia was first described in 1938 by Sonneborn, who observed that sensitive paramecia exhibit distinct morphological symptoms upon ingestion of toxic "particles" released by the killer strain and ultimately die (52). In 1958, electron microscopy studies revealed that these heritable cytoplasmic particles are gramnegative rod-shaped prokaryotes (16) which eluded cultivation using standard laboratory media (30,32) and that the toxic effect is associated with proteinaceous, refractile inclusion bodies (R bodies) found inside the bacterial endosymbionts (30,32). Subsequently, all R-body-producing obligate intracellular symbionts of paramecia were combined into the genus Caedibacter and classified according to morphological, functional, and phenotypic properties (17,32,35). Within the genus Caedibacter, the six species Caedibacter caryophilus, Caedibacter varicaedens, Caedibacter taeniospiralis, Caedibacter pseudomutans, Caedibacter paraconjugatus, and Caedibacter macronucleorum (11, 38, 47) have been recognized. C. caryophilus, the only member of the genus Caedibacter that has been characterized by its 16S rRNA gene sequence, was found to be affiliated with the Alphaproteobacteria (57). Within the Alphaproteobacteria, C. caryophilus clusters together with obligate endosymbionts of acanthamoebae (6, 20) and the paramecium endosymbionts Holospora obtusa and Holospora elegans (3,14).In this study, the phylogenetic affiliation of the Paramecium tetraurelia ...