Research output: Contribution to journal › Article › peer-review
Phenotypic Polymorphism in Two Endosymbiotic Bacteria of the Ciliate Paramecium: Pseudolyticum multiflagellatum and “Ca. Megaira venefica”. / Kersacheva, Ekaterina; Korotaev, Aleksandr; Benken, Konstantin; Lebedeva, Natalia; Sabaneyeva, Elena.
In: Diversity, Vol. 15, No. 8, 924, 11.08.2023.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Phenotypic Polymorphism in Two Endosymbiotic Bacteria of the Ciliate Paramecium: Pseudolyticum multiflagellatum and “Ca. Megaira venefica”
AU - Kersacheva, Ekaterina
AU - Korotaev, Aleksandr
AU - Benken, Konstantin
AU - Lebedeva, Natalia
AU - Sabaneyeva, Elena
PY - 2023/8/11
Y1 - 2023/8/11
N2 - Here, we report a comprehensive description of the stable associations between two Paramecium species (P. nephridiatum and P. caudatum) and their cytoplasmic bacterial endosymbiont Pseudolyticum multiflagellatum. These spindle-like, rod-shaped, non-motile peritrichous bacteria demonstrate significant phenotypic polymorphism. Considering the differences in bacterial morphology and host species, several scientific groups have previously described these endosymbionts as distinct species. Our study provides brand-new molecular data, which allows us to unify earlier descriptions and determine the phylogenetic position of this endosymbiont as a member of the family “Ca. Midichloriaceae” (Rickettsiales). The distinguishing feature of this bacterium is the presence of a highly refractive granule in its cytoplasm, well detectable with differential interference contrast (DIC) microscopy. The protein nature of these peculiar inclusion bodies is considered. The other endosymbiont, “Ca. Megaira venefica”, co-inhabiting the cytoplasm of the studied P. nephridiatum strains, also displayed polymorphism, rounded forms being infected with phages.
AB - Here, we report a comprehensive description of the stable associations between two Paramecium species (P. nephridiatum and P. caudatum) and their cytoplasmic bacterial endosymbiont Pseudolyticum multiflagellatum. These spindle-like, rod-shaped, non-motile peritrichous bacteria demonstrate significant phenotypic polymorphism. Considering the differences in bacterial morphology and host species, several scientific groups have previously described these endosymbionts as distinct species. Our study provides brand-new molecular data, which allows us to unify earlier descriptions and determine the phylogenetic position of this endosymbiont as a member of the family “Ca. Midichloriaceae” (Rickettsiales). The distinguishing feature of this bacterium is the presence of a highly refractive granule in its cytoplasm, well detectable with differential interference contrast (DIC) microscopy. The protein nature of these peculiar inclusion bodies is considered. The other endosymbiont, “Ca. Megaira venefica”, co-inhabiting the cytoplasm of the studied P. nephridiatum strains, also displayed polymorphism, rounded forms being infected with phages.
KW - Ca. Midichloriaceae
KW - Paramecium
KW - Rickettsiaceae
KW - Rickettsiales
KW - bacterial inclusion bodies
KW - ciliates
KW - full-cycle rRNA approach
KW - phage
KW - symbiosis
UR - https://www.mendeley.com/catalogue/a1762c8a-0d13-3626-a810-6e5ff542b5f5/
U2 - 10.3390/d15080924
DO - 10.3390/d15080924
M3 - Article
VL - 15
JO - Diversity
JF - Diversity
SN - 1424-2818
IS - 8
M1 - 924
ER -
ID: 111824194