Abstract
Bacteria can exhibit phenotypes, which makes them tolerant against antibiotics. However, often only a few cells of a bacterial population show such so-called persister phenotype, which makes it difficult to study this health-threatening phenotype. We recently found that certain abrupt nutrient-shifts generate E. coli populations that consist of almost only antibiotic tolerant persister cells. Such nearly homogeneous persister cell populations enable assessment with population-averaging experimental methods, such as high-throughput methods. In this paper, we provide a detailed protocol of how to generate such large fraction of tolerant cells using the nutrient-switch approach. Furthermore, we describe how to determine the fraction of cells that enter the tolerant state upon a sudden nutrient shift and describe a new way to assess antibiotic tolerance with flow cytometry. We envision that these methods facilitate research into the important and exciting phenotype of bacterial cells.
Competing Interest Statement
The authors have declared no competing interest.
