Targeted Cell Sorting Combined With Single Cell Genomics Captures Low Abundant Microbial Dark Matter With Higher Sensitivity Than Metagenomics.

Hang T. Dam,Anne-Kristin Kaster,Angela Cabezas,John Vollmers,Morgan S. Sobol

doi:10.3389/fmicb.2020.01377

Hang T. Dam, Anne-Kristin Kaster + Show 3 more

Open Access

https://doi.org/10.3389/fmicb.2020.01377

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Abstract

Rare members of environmental microbial communities are often overlooked and unexplored, primarily due to the lack of techniques capable of acquiring their genomes. Chloroflexi belong to one of the most understudied phyla, even though many of its members are ubiquitous in the environment and some play important roles in biochemical cycles or biotechnological applications. We here used a targeted cell-sorting approach, which enables the selection of specific taxa by fluorescent labeling and is compatible with subsequent single-cell genomics, to enrich for rare Chloroflexi species from a wastewater-treatment plant and obtain their genomes. The combined workflow was able to retrieve a substantially higher number of novel Chloroflexi draft genomes with much greater phylogenetical diversity when compared to a metagenomics approach from the same sample. The method offers an opportunity to access genetic information from rare biosphere members which would have otherwise stayed hidden as microbial dark matter and can therefore serve as an essential complement to cultivation-based, metagenomics, and microbial community-focused research approaches.

Highlights

The vast majority of all microorganisms remain unknown regarding their phylogeny and function, with an estimate of >99% of microbial species not present in axenic cultures (Ward et al, 1992; Torsvik et al, 1996; McCaig et al, 2001)
We conducted a survey on the microbial community in an aerated lagoon (Laguna de Ecualizacion y Aireacion, referred to as LEA), which is part of a wastewater treatment plant (WWTP) receiving effluent from the Juanicó winery (Canelones, Uruguay) over the course of three years (2013, 2014, and 2015) (Figure 2A)
Bacteria belonging to the candidate phyla radiation predominated the community in the sample collected in 2015, which accounted for 39% of the total 16S rRNA sequences or 20% based on marker gene analysis

Summary

Introduction

The vast majority of all microorganisms remain unknown regarding their phylogeny and function, with an estimate of >99% of microbial species not present in axenic cultures (Ward et al, 1992; Torsvik et al, 1996; McCaig et al, 2001). Metagenomic and 16S rRNA data show that Chloroflexi are ubiquitous throughout the environment; only 51 different species have been cultivated so far. Within the SILVA SSU database (version 132, updated in 2017) (Glöckner et al, 2017), there are on the other hand over 9,000 non-redundant sequences deposited and The Ribosomal Database Project (version 11, updated in 2016) (Cole et al, 2014) even contains over 22,000 environmental 16S rRNA sequences for Chloroflexi with no corresponding isolate or (draft) genome (Figure 1). As the numbers show they are apparently difficult to cultivate

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