Your search keyword '"Ciliophora microbiology"' showing total 4 results

1. Towards an ecological understanding of the killer trait - A reproducible protocol for testing its impact on freshwater ciliates.

Author

Koehler L, Flemming FE, and Schrallhammer M

Subjects

Fresh Water, Paramecium microbiology, Paramecium physiology, Bacteria metabolism, Bacterial Physiological Phenomena, Ciliophora microbiology, Ciliophora physiology, Water Microbiology

Abstract

Paramecium strains with the ability to kill other paramecia often harbour intracellular bacteria belonging to the genera Caedibacter or Caedimonas. Central structures of this killer trait are refractile bodies (R-bodies) produced by the endosymbionts. Once ingested by a sensitive Paramecium, R-bodies presumably act as delivery system for an unidentified toxin which causes the death of endosymbiont-free paramecia while those infected gain resistance from their symbionts. The killer trait is therefore considered as competitive advantage for the hosts of R-body producers. While its effectiveness against paramecia is well documented, the effects on other aquatic ciliates are much less studied. In order to address the broadness of the killer trait, a reproducible killer test assay considering the effects on predatory ciliates (Climacostomum virens and Dileptus jonesi) as well as potential bacterivorous Paramecium competitors (Dexiostoma campyla, Euplotes aediculatus, Euplotes woodruffi, and Spirostomum teres) as possibly susceptible species was established. All used organisms were molecularly characterized to increase traceability and reproducibility. The absence of any lethal effects in both predators and competitors after exposure to killer paramecia strongly suggests a narrow action range for the killer trait. Thus, R-body producing bacteria provide their host with a complex, costly strategy to outcompete symbiont-free congeners only., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

2. Frequency and biodiversity of symbionts in representatives of the main classes of Ciliophora.

Author

Fokin SI

Subjects

Ciliophora parasitology, Ciliophora ultrastructure, Eukaryota physiology, Bacterial Physiological Phenomena, Biodiversity, Ciliophora microbiology, Symbiosis

Abstract

Representatives of all classes of Ciliophora have been studied for the detection and investigation of both prokaryotic and eukaryotic (not algal) endo- (EnS) and ectosymbionts (EcS). Different methods including transmission electron microscopy (TEM) and fluorescence in situ hybridisation (FISH) have been used. Apparently, the capability of keeping symbionts varies among the different ciliate groups as it generally is the case in different protist taxa. Most of the prokaryotic EnSs detected belong to Alphaproteobacteria. Holospora or Holospora-like infectious bacteria of this group were found in representatives of Heterotrichea, Armophorea, Phyllopharyngea, Prostomatea and mainly of Oligohymenophorea. Bacteria associated with bacteriophages were found in species of Heterotrichea and Oligohymenophorea. This holds true also for bacteria with R-bodies. A quite rare type of EnS - motile bacteria - was found in ciliates of the same two classes as well, either in the cytoplasm (Heterotrichea) or in the macronucleus and its perinuclear space (Oligohymenophorea). EcSs are more common in Heterotrichea, Armophorea and Plagiopylea, but were never found in other groups. Among the eukaryotic EnSs of ciliates, very few representatives of Microsporidia and Trypanosomatidae were recorded. In conclusion, heterotrichs and oligohymenophoreans are the most promising groups of Ciliophora for the investigation of symbiosis., (Copyright © 2012 Elsevier GmbH. All rights reserved.)

Published

2012

3. Extrusive bacterial ectosymbiosis of ciliates.

Author

Rosati G

Subjects

Animal Structures cytology, Animals, Ciliophora ultrastructure, Inclusion Bodies, Phylogeny, Bacterial Physiological Phenomena, Ciliophora microbiology, Symbiosis

Published

2006

4. Intracellular bacteria in ciliates.

Author

Görtz HD

Subjects

Adaptation, Physiological, Anaerobiosis, Animals, Bacteria genetics, Ciliophora physiology, Ecosystem, Euryarchaeota growth & development, Euryarchaeota physiology, Paramecium microbiology, Paramecium ultrastructure, Phylogeny, Proteobacteria growth & development, Proteobacteria metabolism, Proteobacteria ultrastructure, Symbiosis, Bacterial Physiological Phenomena, Ciliophora microbiology

Abstract

Ciliates are frequently colonized by other micro-organisms. The large size of ciliate cells offers habitats for hundreds to thousands of bacteria in different compartments, such as cytoplasm, nuclei and even perinuclear spaces. Size, phagocytic feeding habit and other features appear to be favorable pre-adaptations of ciliates for symbiosis with bacteria. Certain intracellular bacteria are permanent symbionts that are not infectious, whereas others are highly infectious. Both types show specific adaptations. With their wide spectrum of phylogenetic positions, intracellular bacteria in ciliates show relationships to different taxa of free-living bacteria and even archaea. Certain symbionts may be deleterious for their host ciliates, whereas others may provide a selective advantage under appropriate conditions or even be essential for the host cells. Depending on the nature of a symbiont, its prevalence in a host population may be low or high. Symbionts that express a killer toxin affecting non-infected ciliates achieve high infection rates in a host population. whereas certain infectious bacteria may only show a low prevalence.

Published

2001