Ecological effects of stress drive bacterial evolvability under sub-inhibitory antibiotic treatments
Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then lead to enhanced evolvability, thereby fuelling the adaptation of pathogens. Combining wet-lab experiments, stochastic simulations and a meta-an...
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| Published in | ISME Communications Vol. 2; no. 1; p. 80 |
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| Format | Journal Article |
| Language | English |
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Springer Nature B.V
02.09.2022
Springer Nature Nature Publishing Group UK Oxford University Press |
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| Abstract | Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then lead to enhanced evolvability, thereby fuelling the adaptation of pathogens. Combining wet-lab experiments, stochastic simulations and a meta-analysis of the literature, we found that the increase in mutation rates triggered by antibiotic treatments is often cancelled out by reduced population size, resulting in no overall increase in genetic diversity. A careful analysis of the effect of ecological factors on genetic diversity showed that the potential for regrowth during recovery phase after treatment plays a crucial role in evolvability, being the main factor associated with increased genetic diversity in experimental data. |
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| AbstractList | Abstract
Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then lead to enhanced evolvability, thereby fuelling the adaptation of pathogens. Combining wet-lab experiments, stochastic simulations and a meta-analysis of the literature, we found that the increase in mutation rates triggered by antibiotic treatments is often cancelled out by reduced population size, resulting in no overall increase in genetic diversity. A careful analysis of the effect of ecological factors on genetic diversity showed that the potential for regrowth during recovery phase after treatment plays a crucial role in evolvability, being the main factor associated with increased genetic diversity in experimental data. Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then lead to enhanced evolvability, thereby fuelling the adaptation of pathogens. Combining wet-lab experiments, stochastic simulations and a meta-analysis of the literature, we found that the increase in mutation rates triggered by antibiotic treatments is often cancelled out by reduced population size, resulting in no overall increase in genetic diversity. A careful analysis of the effect of ecological factors on genetic diversity showed that the potential for regrowth during recovery phase after treatment plays a crucial role in evolvability, being the main factor associated with increased genetic diversity in experimental data. Abstract Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then lead to enhanced evolvability, thereby fuelling the adaptation of pathogens. Combining wet-lab experiments, stochastic simulations and a meta-analysis of the literature, we found that the increase in mutation rates triggered by antibiotic treatments is often cancelled out by reduced population size, resulting in no overall increase in genetic diversity. A careful analysis of the effect of ecological factors on genetic diversity showed that the potential for regrowth during recovery phase after treatment plays a crucial role in evolvability, being the main factor associated with increased genetic diversity in experimental data. |
| Author | Bonhoeffer, Sebastian Vasse, Marie Frenoy, Antoine |
| Author_xml | – sequence: 1 givenname: Marie surname: Vasse fullname: Vasse, Marie – sequence: 2 givenname: Sebastian surname: Bonhoeffer fullname: Bonhoeffer, Sebastian – sequence: 3 givenname: Antoine surname: Frenoy fullname: Frenoy, Antoine |
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| CitedBy_id | crossref_primary_10_3390_axioms12121100 crossref_primary_10_1371_journal_pcbi_1012146 |
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Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could... Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could then... Abstract Stress is thought to increase mutation rate and thus to accelerate evolution. In the context of antibiotic resistance, sub-inhibitory treatments could... |
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| SubjectTerms | Antibiotic resistance Antibiotics Bacteria Drug resistance E coli Ecological effects Evolution Genetic analysis Genetic diversity Life Sciences Mutagenesis Mutation Mutation rates Population number Quantitative genetics Regrowth Simulation Stochasticity Streptococcus infections |
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| Title | Ecological effects of stress drive bacterial evolvability under sub-inhibitory antibiotic treatments |
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