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Tamminen MV, Virta MP. Single gene-based distinction of individual microbial genomes from a mixed population of microbial cells. Front Microbiol. 2015;6:195doi: 10.3389/fmicb.2015.00195.
Tamminen, M. V., & Virta, M. P. (2015). Single gene-based distinction of individual microbial genomes from a mixed population of microbial cells. Frontiers in microbiology, 6195. https://doi.org/10.3389/fmicb.2015.00195
Tamminen, Manu V, and Virta, Marko P J. "Single gene-based distinction of individual microbial genomes from a mixed population of microbial cells." Frontiers in microbiology vol. 6 (2015): 195. doi: https://doi.org/10.3389/fmicb.2015.00195
Tamminen MV, Virta MP. Single gene-based distinction of individual microbial genomes from a mixed population of microbial cells. Front Microbiol. 2015 Mar 11;6:195. doi: 10.3389/fmicb.2015.00195. eCollection 2015. PMID: 25814987; PMCID: PMC4356102.
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Front Microbiol. 2015 Mar 11;6:195. doi: 10.3389/fmicb.2015.00195. eCollection 2015.

Single gene-based distinction of individual microbial genomes from a mixed population of microbial cells.

Frontiers in microbiology

Manu V Tamminen, Marko P J Virta

Affiliations

  1. Department of Food and Environmental Sciences, University of Helsinki Helsinki, Finland.

PMID: 25814987 PMCID: PMC4356102 DOI: 10.3389/fmicb.2015.00195

Abstract

Recent progress in environmental microbiology has revealed vast populations of microbes in any given habitat that cannot be detected by conventional culturing strategies. The use of sensitive genetic detection methods such as CARD-FISH and in situ PCR have been limited by the cell wall permeabilization requirement that cannot be performed similarly on all cell types without lysing some and leaving some nonpermeabilized. Furthermore, the detection of low copy targets such as genes present in single copies in the microbial genomes, has remained problematic. We describe an emulsion-based procedure to trap individual microbial cells into picoliter-volume polyacrylamide droplets that provide a rigid support for genetic material and therefore allow complete degradation of cellular material to expose the individual genomes. The polyacrylamide droplets are subsequently converted into picoliter-scale reactors for genome amplification. The amplified genomes are labeled based on the presence of a target gene and differentiated from those that do not contain the gene by flow cytometry. Using the Escherichia coli strains XL1 and MC1061, which differ with respect to the presence (XL1), or absence (MC1061) of a single copy of a tetracycline resistance gene per genome, we demonstrate that XL1 genomes present at 0.1% of MC1061 genomes can be differentiated using this method. Using a spiked sediment microbial sample, we demonstrate that the method is applicable to highly complex environmental microbial communities as a target gene-based screen for individual microbes. The method provides a novel tool for enumerating functional cell populations in complex microbial communities. We envision that the method could be optimized for fluorescence-activated cell sorting to enrich genetic material of interest from complex environmental samples.

Keywords: flow cytometry; fluorescent hybridization; in situ PCR; multiple displacement amplification

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