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Bacterial cheating drives the population dynamics of cooperative antibiotic resistance plasmids.


ABSTRACT: Inactivation of ?-lactam antibiotics by resistant bacteria is a 'cooperative' behavior that may allow sensitive bacteria to survive antibiotic treatment. However, the factors that determine the fraction of resistant cells in the bacterial population remain unclear, indicating a fundamental gap in our understanding of how antibiotic resistance evolves. Here, we experimentally track the spread of a plasmid that encodes a ?-lactamase enzyme through the bacterial population. We find that independent of the initial fraction of resistant cells, the population settles to an equilibrium fraction proportional to the antibiotic concentration divided by the cell density. A simple model explains this behavior, successfully predicting a data collapse over two orders of magnitude in antibiotic concentration. This model also successfully predicts that adding a commonly used ?-lactamase inhibitor will lead to the spread of resistance, highlighting the need to incorporate social dynamics into the study of antibiotic resistance.

SUBMITTER: Yurtsev EA 

PROVIDER: S-EPMC3779801 | biostudies-other | 2013 Aug

REPOSITORIES: biostudies-other

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Bacterial cheating drives the population dynamics of cooperative antibiotic resistance plasmids.

Yurtsev Eugene A EA   Chao Hui Xiao HX   Datta Manoshi S MS   Artemova Tatiana T   Gore Jeff J  

Molecular systems biology 20130806


Inactivation of β-lactam antibiotics by resistant bacteria is a 'cooperative' behavior that may allow sensitive bacteria to survive antibiotic treatment. However, the factors that determine the fraction of resistant cells in the bacterial population remain unclear, indicating a fundamental gap in our understanding of how antibiotic resistance evolves. Here, we experimentally track the spread of a plasmid that encodes a β-lactamase enzyme through the bacterial population. We find that independent  ...[more]

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