0000000000442010

AUTHOR

Lutz Becks

showing 6 related works from this author

Genomic evolution of bacterial populations under co-selection 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…

phage resistancephage phi-2experimental evolutionPseudomonas fluorescenssublethal antibiotic concentrationsantibioottiresistenssi
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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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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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Supplementary methods and results from Sublethal streptomycin concentrations and lytic bacteriophage together promote resistance evolution

2016

i) Estimating minimal inhibiting streptomycin concentration at the end of the 66-day experiment; ii) Testing for potential pleiotropy between streptomycin and phage resistance

biochemical phenomena metabolism and nutrition
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Data from: Genomic evolution of bacterial populations under co-selection by antibiotics and phage

2016

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 non-inhibitive concentration of the antibiotic streptomycin (co-selection) achieved higher levels of phage resistance compared to populations exposed to the phage alone. In addition, the phage became extinct under co-selection while remaining present in the phage alone environment. Further, phenotypic tests indic…

medicine and health carephage Φ2Life SciencesMedicinePseudomonas fluorescenssublethal antibiotic concentrations
researchProduct

Data from: 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…

medicine and health carephage Φ2MedicinePseudomonas fluorescensLife sciencessublethal antibiotic concentrations
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