Search results for "Acanthamoeba castellanii"

showing 3 items of 3 documents

Top-down effects of a lytic bacteriophage and protozoa on bacteria in aqueous and biofilm phases

2014

Lytic bacteriophages and protozoan predators are the major causes of bacterial mortality in natural microbial communities, which also makes them potential candidates for biological control of bacterial pathogens. However, little is known about the relative impact of bacteriophages and protozoa on the dynamics of bacterial biomass in aqueous and biofilm phases. Here, we studied the temporal and spatial dynamics of bacterial biomass in a microcosm experiment where opportunistic pathogenic bacteria Serratia marcescens was exposed to particle‐feeding ciliates, surface‐feeding amoebas, and lytic bacteriophages for 8 weeks, ca. 1300 generations. We found that ciliates were the most efficient enem…

BacterivoreMicrocosmlytic bacteriophageAquatic bacteriaeducationBiomassDefense evolutionmedicine.disease_causeTetrahymena thermophilaMicrobiologySerratia marcescens db11Bacteriophagemedicine14. Life underwatertop-down regulationEcology Evolution Behavior and SystematicsOriginal ResearchNature and Landscape ConservationAcanthamoeba castellaniiEcologybiologydefense evolutionaquatic bacteriata1183BiofilmPathogenic bacteriaSemad11biology.organism_classificationSerratia marcescensDb11Lytic bacteriophagemicrocosm13. Climate action1181 Ecology evolutionary biologyTop-down regulationProtozoata1181MicrocosmBacteriaEcology and Evolution
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Coincidental loss of bacterial virulence in multi-enemy microbial communities.

2014

The coincidental virulence evolution hypothesis suggests that outside-host selection, such as predation, parasitism and resource competition can indirectly affect the virulence of environmentally-growing bacterial pathogens. While there are some examples of coincidental environmental selection for virulence, it is also possible that the resource acquisition and enemy defence is selecting against it. To test these ideas we conducted an evolutionary experiment by exposing the opportunistic pathogen bacterium Serratia marcescens to the particle-feeding ciliate Tetrahymena thermophila, the surfacefeeding amoeba Acanthamoeba castellanii, and the lytic bacteriophage Semad11, in all possible combi…

Ecological selectionBacteriophageNatural SelectionBacteriophagesANTAGONISTIC COEVOLUTIONLISTERIA-MONOCYTOGENESSerratia marcescens1183 Plant biology microbiology virologyGeneticsSERRATIA-MARCESCENSAcanthamoeba castellanii0303 health sciencesMultidisciplinaryEcologybiologyQTetrahymenaRAcanthamoeba castellaniiMedicineResearch ArticleEvolutionary ProcessesVirulence FactorsAntagonistic CoevolutionScienceMicrobial ConsortiaeducationVirulenceMicrobiologyMicrobial EcologyMicrobiologyEvolution Molecular03 medical and health sciencesmulti-enemy microbial communitiesWater environment030304 developmental biologySTAPHYLOCOCCUS-AUREUSEvolutionary BiologyPSEUDOMONAS-AERUGINOSA VIRULENCE030306 microbiologybacterial virulenceDICTYOSTELIUM-DISCOIDEUMBiology and Life SciencesBacteriologybiology.organism_classificationOrganismal EvolutionArtificial SelectionTETRAHYMENA-THERMOPHILAEvolutionary EcologyMicrobial Evolutionta1181AMEBA ACANTHAMOEBA-CASTELLANIILEGIONELLA-PNEUMOPHILABacteriaMEDIA COMPOSITION INFLUENCESPLoS ONE
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Association of colony morphotypes with virulence, growth and resistance against protozoan predation in the fish pathogen Flavobacterium columnare.

2014

Many opportunistic pathogens can alternate between inside- and outside-host environments during their life cycle. The opportunistic fish pathogen Flavobacterium columnare is an inhabitant of the natural microbial community and causes significant yearly losses in aquaculture worldwide. The bacterium grows in varying colony morphotypes that are associated with either virulence (rhizoid type) or resistance to starvation and phages (rough type). Rough type strains can arise spontaneously or can be induced by phage infection. To identify the determinants of morphotype fitness, we measured virulence, growth parameters, biofilm-forming ability and resistance to amoeba and ciliate predation of both…

PopulationVirulenceApplied Microbiology and BiotechnologyMicrobiologyFlavobacteriumMicrobiologyTetrahymena thermophila03 medical and health sciencesFish DiseasesAnimalsBacteriophages14. Life underwatereducationPathogenZebrafish030304 developmental biologyCiliate0303 health scienceseducation.field_of_studyAcanthamoeba castellaniiEcologybiologyVirulence030306 microbiologyfungiBiofilmbiology.organism_classificationRhizoidFlavobacterium columnareFlavobacteriumFEMS microbiology ecology
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