Assembling the Marine Metagenome, One Cell at a Time

Woyke, Tanja; Xie, Gary; Copeland, Alex; González, José M.; Han, Cliff; Kiss, Hajnalka; Saw, Jimmy H.; Senin, Pavel; Yang, Chien-Chang; Chatterji, Sourav; Cheng, Jan‐Fang; Eisen, Jonathan A.; Sieracki, Michael E.; Stepanauskas, Ramunas

doi:10.1371/journal.pone.0005299

Cited by 306 publications

(292 citation statements)

References 57 publications

(87 reference statements)

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“…First, they had more paralogous families and a larger percent of genes in such families (Table 1; Figure 1). The percentage of genes in paralogous families follows an already recognized linear relationship with genome size for a large selection of bacteria ( Figure 1; Pushker et al, 2004;Woyke et al, 2009). Gene duplication and subsequent modifications to carry out novel functions by paralogous proteins is a well-known mechanism of bacterial evolution (review in Andersson and Hughes, 2009).…”

Section: Resultsmentioning

confidence: 89%

Ecology of marine Bacteroidetes: a comparative genomics approach

et al. 2013

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Bacteroidetes are commonly assumed to be specialized in degrading high molecular weight (HMW) compounds and to have a preference for growth attached to particles, surfaces or algal cells. The first sequenced genomes of marine Bacteroidetes seemed to confirm this assumption. Many more genomes have been sequenced recently. Here, a comparative analysis of marine Bacteroidetes genomes revealed a life strategy different from those of other important phyla of marine bacterioplankton such as Cyanobacteria and Proteobacteria. Bacteroidetes have many adaptations to grow attached to particles, have the capacity to degrade polymers, including a large number of peptidases, glycoside hydrolases (GHs), glycosyl transferases, adhesion proteins, as well as the genes for gliding motility. Several of the polymer degradation genes are located in close association with genes for TonB-dependent receptors and transducers, suggesting an integrated regulation of adhesion and degradation of polymers. This confirmed the role of this abundant group of marine bacteria as degraders of particulate matter. Marine Bacteroidetes had a significantly larger number of proteases than GHs, while non-marine Bacteroidetes had equal numbers of both. Proteorhodopsin containing Bacteroidetes shared two characteristics: small genome size and a higher number of genes involved in CO 2 fixation per Mb. The latter may be important in order to survive when floating freely in the illuminated, but nutrient-poor, ocean surface.

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Section: Resultsmentioning

confidence: 89%

Ecology of marine Bacteroidetes: a comparative genomics approach

et al. 2013

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“…MDA reactions are sensitive to DNA contamination present in the sample, reagents or contamination introduced through sample handling. The effect of DNA contamination can be controlled by establishing clean cell-sorting procedures 12,20,24,26 , decontaminating commercially available MDA reagents 1,20,23 , expressing a custom ultrapure Phi29 enzyme 27 or by using commercial precleaned MDA kits that are specifically designed for single-cell templates. Volume reduction can also limit the impact of reagent contamination (Box 1).…”

Section: Experimental Designmentioning

confidence: 99%

“… crItIcal step Although previous reports suggest debranching of the MDA products with S1 nuclease before sequencing 15 , we do not recommend this step. Our previous results suggest that S1 debranching has no effect on the chimera rate 12 , and we routinely sequence and phylogenetically screen single-cell MDA products without debranching.  pause poInt The amplified DNA is ready for phylogenetic screening and sequencing (Steps 24-30), and it can be stored for several months at −80 °C.…”

Section: |mentioning

confidence: 99%

“…Mapping of metagenome sequences to single-cell genomes has not only been applied to validating metagenome assembly and binning 7 but also to subsequently improving the single-cell assemblies, as has been shown for SR1 bacteria, atribacteria and ammoniaoxidizing archaea [8][9][10] . Other studies successfully used fragment recruitment by single-cell genomes to investigate biogeographic distribution of uncultivated, marine taxa 11,12 . Although the bulk of the studies using FACS-enabled SCG have focused on bacteria and archaea, this protocol can also be adapted to microbial eukaryotes 13 and mammalian cells 14 .…”

Section: Introductionmentioning

confidence: 99%

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Obtaining genomes from uncultivated environmental microorganisms using FACS–based single-cell genomics

et al. 2014

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single-cell genomics is a powerful tool for exploring the genetic makeup of environmental microorganisms, the vast majority of which are difficult, if not impossible, to cultivate with current approaches. Here we present a comprehensive protocol for obtaining genomes from uncultivated environmental microbes via high-throughput single-cell isolation by Facs. the protocol encompasses the preservation and pretreatment of differing environmental samples, followed by the physical separation, lysis, whole-genome amplification and 16s rrna-based identification of individual bacterial and archaeal cells. the described procedure can be performed with standard molecular biology equipment and a Facs machine. It takes <12 h of bench time over a 4-d time period, and it generates up to 1 mg of genomic Dna from an individual microbial cell, which is suitable for downstream applications such as pcr amplification and shotgun sequencing. the completeness of the recovered genomes varies, with an average of ~50%.

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“…Moreover, these assemblies are actually consensus genomes derived from closely related species or strains, which makes many interesting analyses of genomes and populations impossible. Single-cell sequencing, enabled by the whole-genome amplification technique of multiple displacement amplification (MDA) (Dean et al 2001(Dean et al , 2002, has allowed researchers to sequence and assemble a significant portion of a single genome (Zhang et al 2006;Woyke et al 2009). However, MDA from a single cell suffers from amplification bias.…”

mentioning

confidence: 99%

Nearly finished genomes produced using gel microdroplet culturing reveal substantial intraspecies genomic diversity within the human microbiome

Fitzsimons

Novotny

et al. 2013

Genome Res.

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The majority of microbial genomic diversity remains unexplored. This is largely due to our inability to culture most microorganisms in isolation, which is a prerequisite for traditional genome sequencing. Single-cell sequencing has allowed researchers to circumvent this limitation. DNA is amplified directly from a single cell using the whole-genome amplification technique of multiple displacement amplification (MDA). However, MDA from a single chromosome copy suffers from amplification bias and a large loss of specificity from even very small amounts of DNA contamination, which makes assembling a genome difficult and completely finishing a genome impossible except in extraordinary circumstances. Gel microdrop cultivation allows culturing of a diverse microbial community and provides hundreds to thousands of genetically identical cells as input for an MDA reaction. We demonstrate the utility of this approach by comparing sequencing results of gel microdroplets and single cells following MDA. Bias is reduced in the MDA reaction and genome sequencing, and assembly is greatly improved when using gel microdroplets. We acquired multiple near-complete genomes for two bacterial species from human oral and stool microbiome samples. A significant amount of genome diversity, including single nucleotide polymorphisms and genome recombination, is discovered. Gel microdroplets offer a powerful and high-throughput technology for assembling whole genomes from complex samples and for probing the pan-genome of naturally occurring populations.

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Assembling the Marine Metagenome, One Cell at a Time

Cited by 306 publications

References 57 publications

Ecology of marine Bacteroidetes: a comparative genomics approach

Ecology of marine Bacteroidetes: a comparative genomics approach

Obtaining genomes from uncultivated environmental microorganisms using FACS–based single-cell genomics

Nearly finished genomes produced using gel microdroplet culturing reveal substantial intraspecies genomic diversity within the human microbiome

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