Search results for "phage resistance"

showing 8 items of 8 documents

Protist predation can select for bacteria with lowered susceptibility to infection by lytic phages

2015

Background: Consumer-resource interactions constitute one of the most common types of interspecific antagonistic interaction. In natural communities, complex species interactions are likely to affect the outcomes of reciprocal co-evolution between consumers and their resource species. Individuals face multiple enemies simultaneously, and consequently they need to adapt to several different types of enemy pressures. In this study, we assessed how protist predation affects the susceptibility of bacterial populations to infection by viral parasites, and whether there is an associated cost of defence on the competitive ability of the bacteria. As a study system we used Serratia marcescens and i…

0106 biological sciencesDYNAMICSMultiple species interactionalkueliötPhage resistancePREYTrade-offmedicine.disease_cause01 natural sciencesBacteriophageDECREASED VIRULENCEBacteriophagesHETEROGENEITYPhage-host interactionSerratia marcescens2. Zero hungerGenetics0303 health scienceseducation.field_of_studybiologyTetrahymenaProtistProtistsBiological Evolution010601 ecologyLytic cycle1181 Ecology evolutionary biologyResearch ArticleAntagonistic co-evolutionVIRUSESPopulationRESISTANT MUTANTSPseudomonas fluorescensSerratiabakteriofagitMicrobiologyTetrahymena thermophilaMECHANISMS03 medical and health sciencesmedicineHost-parasite interactioneducationEcosystemEcology Evolution Behavior and Systematics030304 developmental biologyCOEVOLUTION15. Life on landbiology.organism_classificationEVOLUTIONMODELPseudomonas fluorescens SBW25Serratia marcescensBacteria

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Genomic evolution of bacterial populations under coselection by antibiotics and phage

2017

Bacteria live in dynamic systems where selection pressures can alter rapidly, forcing adaptation to the prevailing conditions. In particular, bacteriophages and antibiotics of anthropogenic origin are major bacterial stressors in many environments. We previously observed that populations of the bacterium Pseudomonas fluorescens SBW25 exposed to the lytic bacteriophage SBW25Φ2 and a noninhibitive concentration of the antibiotic streptomycin (coselection) achieved higher levels of phage resistance compared to populations exposed to the phage alone. In addition, the phage became extinct under coselection while remaining present in the phage alone environment. Further, phenotypic tests indicate…

0301 basic medicineMutation rateantibiotic resistancemedicine.drug_class030106 microbiologyAntibioticsBiologyPseudomonas fluorescensmedicine.disease_causeMicrobiologyEvolution MolecularBacteriophage03 medical and health sciencesAntibiotic resistanceMutation RateDrug Resistance BacterialGeneticsmedicineBacteriophagesexperimental evolutionSelection GeneticEscherichia coliEcology Evolution Behavior and Systematics2. Zero hungerExperimental evolutionta1182biology.organism_classificationsublethal antibiotic concentrationsAnti-Bacterial AgentsPhenotypeLytic cyclephage resistanceStreptomycinta1181phage phi-2Genome BacterialBacteria

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Long-term genomic coevolution of host-parasite interaction in the natural environment

2017

Antagonistic coevolution of parasite infectivity and host resistance may alter the biological functionality of species, yet these dynamics in nature are still poorly understood. Here we show the molecular details of a long-term phage–bacterium arms race in the environment. Bacteria (Flavobacterium columnare) are generally resistant to phages from the past and susceptible to phages isolated in years after bacterial isolation. Bacterial resistance selects for increased phage infectivity and host range, which is also associated with expansion of phage genome size. We identified two CRISPR loci in the bacterial host: a type II-C locus and a type VI-B locus. While maintaining a core set of conse…

0301 basic medicineTime Factorsmedicine.medical_treatmentvirusesGeneral Physics and AstronomyGenomeCRISPR SpacersbakteeritBacteriophageEnvironmental MicrobiologyCRISPRBacteriophagesClustered Regularly Interspaced Short Palindromic RepeatsANTAGONISTIC COEVOLUTIONADAPTATIONbacteriaInfectivityGenetics0303 health scienceseducation.field_of_studyMultidisciplinaryQgenomiikkaBACTERIOPHAGE RESISTANCE MECHANISMSresistance (medicine)bacteriophagesPhage therapyScienceAntagonistic Coevolution030106 microbiologyPopulationevoluutioVirulencePHAGELocus (genetics)Genome ViralBiologyFlavobacteriumArticlebakteriofagitGeneral Biochemistry Genetics and Molecular BiologyHost-Parasite InteractionsEvolution Molecular03 medical and health sciencesCRISPR-CAS SYSTEMSFISHevolutionmedicinegenomicseducationGenome size1172 Environmental sciences030304 developmental biology030306 microbiologyGeneral Chemistrybiology.organism_classificationEVOLUTIONresistenssiPATHOGEN FLAVOBACTERIUM-COLUMNARE030104 developmental biologyMutationCRISPR LociVIRULENCEIMMUNE-SYSTEMGenome BacterialNature Communications

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Sublethal streptomycin concentrations and lytic bacteriophage together promote resistance evolution.

2017

Sub-minimum inhibiting concentrations (sub-MICs) of antibiotics frequently occur in natural environments owing to wide-spread antibiotic leakage by human action. Even though the concentrations are very low, these sub-MICs have recently been shown to alter bacterial populations by selecting for antibiotic resistance and increasing the rate of adaptive evolution. However, studies are lacking on how these effects reverberate into key ecological interactions, such as bacteria-phage interactions. Previously, co-selection of bacteria by phages and antibiotic concentrations exceeding MICs has been hypothesized to decrease the rate of resistance evolution because of fitness costs associated with re…

0301 basic medicineantibiotic resistancemedicine.drug_classAntibioticsPseudomonas fluorescensGeneral Biochemistry Genetics and Molecular BiologyMicrobiologyBacteriophageEvolution Molecular03 medical and health sciencesAntibiotic resistancephage Φ2medicineexperimental evolution2. Zero hungerExperimental evolutionbiologyResistance (ecology)ta1182Articlesbiology.organism_classificationBiological Evolutionsublethal antibiotic concentrationsAnti-Bacterial Agents030104 developmental biologyLytic cyclephage resistanceStreptomycinStreptomycinGeneral Agricultural and Biological SciencesPseudomonas PhagesBacteriamedicine.drugPhilosophical transactions of the Royal Society of London. Series B, Biological sciences

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Phage-driven loss of virulence in a fish pathogenic bacterium

2012

Parasites provide a selective pressure during the evolution of their hosts, and mediate a range of effects on ecological communities. Due to their short generation time, host-parasite interactions may also drive the virulence of opportunistic bacteria. This is especially relevant in systems where high densities of hosts and parasites on different trophic levels (e.g. vertebrate hosts, their bacterial pathogens, and virus parasitizing bacteria) co-exist. In farmed salmonid fingerlings, Flavobacterium columnare is an emerging pathogen, and phage that infect F. columnare have been isolated. However, the impact of these phage on their host bacterium is not well understood. To study this, four s…

Gliding motilityPathogenesisAquacultureFish DiseasesFlavobacteriaceae InfectionsSalmonphageBacteriophagesPathogenZebrafishGliding motility0303 health sciencesEvolutionary TheoryMultidisciplinarybiologyEcologyVirulenceQRFishesvirulenssiAnimal ModelsBiological EvolutionBacterial PathogensHost-Pathogen InteractionLytic cycleMedicineResearch ArticleScienceVirulenceMicrobiologyFlavobacteriumMicrobiologyMicrobial EcologyHost-Parasite Interactions03 medical and health sciencesModel OrganismsVirologyAnimals14. Life underwaterBiology030304 developmental biologyEvolutionary Biology030306 microbiologyHost (biology)ta1182biology.organism_classificationEvolutionary Ecologyphage resistanceFlavobacterium columnareVirulence Factors and Mechanismsta1181BacteriaFlavobacteriumopportunismi

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Adapting a Phage to Combat Phage Resistance

2020

Phage therapy is becoming a widely recognized alternative for fighting pathogenic bacteria due to increasing antibiotic resistance problems. However, one of the common concerns related to the use of phages is the evolution of bacterial resistance against the phages, putatively disabling the treatment. Experimental adaptation of the phage (phage training) to infect a resistant host has been used to combat this problem. Yet, there is very little information on the trade-offs of phage infectivity and host range. Here we co-cultured a myophage FCV-1 with its host, the fish pathogen Flavobacterium columnare, in lake water and monitored the interaction for a one-month period. Phage resistance was…

Microbiology (medical)phage therapyGLIDING MOTILITYPhage therapyvirusesmedicine.medical_treatmentevoluutioVirulencefish pathogenmedicine.disease_causeBiochemistryMicrobiologyGenomebakteriofagitArticleMicrobiologyBacteriophage03 medical and health sciencesAntibiotic resistancemedicineCRISPRPharmacology (medical)General Pharmacology Toxicology and Pharmaceutics030304 developmental biology11832 Microbiology and virologyInfectivitylääkeresistenssi0303 health sciencesPREDATIONPRODUCTIVITYbiology030306 microbiologylcsh:RM1-950ARMS-RACEPathogenic bacteriakalatauditbiology.organism_classificationEVOLUTIONfagiterapialcsh:Therapeutics. PharmacologyInfectious Diseasesphage resistancecoevolution1182 Biochemistry cell and molecular biologyVIRULENCEHOST-RANGEBACTERIOPHAGEAntibiotics

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Phage therapy

2013

Bacteriophage therapy, the use of viruses that infect bacteria as antimicrobials, has been championed as a promising alternative to conventional antibiotics. Although in the laboratory bacterial resistance against phages arises rapidly, resistance so far has been an only minor problem for the effectiveness of phage therapy. Resistance to antibiotics, however, has become a major issue after decades of extensive use. Should we expect similar problems after long-term use of phages as antimicrobials? Like antibiotics, phages are often noted to be drivers of bacterial evolution. Should we expect phage-treated pathogens to develop a general resistance to phages over time, a resistance against whi…

antibiotic resistancephage resistancevirusesevolutionViews and Commentariesecologyphage-therapyBacteriophage

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Genomic evolution of bacterial populations under co-selection by antibiotics and phage

2017

phage resistancephage phi-2experimental evolutionPseudomonas fluorescenssublethal antibiotic concentrationsantibioottiresistenssi

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