Microorganisms (Nov 2021)

Single-Cell Technologies to Study Phenotypic Heterogeneity and Bacterial Persisters

  • Patricia J. Hare,
  • Travis J. LaGree,
  • Brandon A. Byrd,
  • Angela M. DeMarco,
  • Wendy W. K. Mok

DOI
https://doi.org/10.3390/microorganisms9112277
Journal volume & issue
Vol. 9, no. 11
p. 2277

Abstract

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Antibiotic persistence is a phenomenon in which rare cells of a clonal bacterial population can survive antibiotic doses that kill their kin, even though the entire population is genetically susceptible. With antibiotic treatment failure on the rise, there is growing interest in understanding the molecular mechanisms underlying bacterial phenotypic heterogeneity and antibiotic persistence. However, elucidating these rare cell states can be technically challenging. The advent of single-cell techniques has enabled us to observe and quantitatively investigate individual cells in complex, phenotypically heterogeneous populations. In this review, we will discuss current technologies for studying persister phenotypes, including fluorescent tags and biosensors used to elucidate cellular processes; advances in flow cytometry, mass spectrometry, Raman spectroscopy, and microfluidics that contribute high-throughput and high-content information; and next-generation sequencing for powerful insights into genetic and transcriptomic programs. We will further discuss existing knowledge gaps, cutting-edge technologies that can address them, and how advances in single-cell microbiology can potentially improve infectious disease treatment outcomes.

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