Assembling the Marine Metagenome, One Cell at a Time
The difficulty associated with the cultivation of most microorganisms and the complexity of natural microbial assemblages, such as marine plankton or human microbiome, hinder genome reconstruction of representative taxa using cultivation or metagenomic approaches. Here we used an alternative, single...
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eScholarship, University of California
2009
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ftcdlib:qt91p9m2vs 2023-05-15T17:45:45+02:00 Assembling the Marine Metagenome, One Cell at a Time Woyke, Tanja 2009-04-23 application/pdf http://www.escholarship.org/uc/item/91p9m2vs english eng eScholarship, University of California qt91p9m2vs http://www.escholarship.org/uc/item/91p9m2vs public Woyke, Tanja. (2009). Assembling the Marine Metagenome, One Cell at a Time. Lawrence Berkeley National Laboratory. Lawrence Berkeley National Laboratory: Lawrence Berkeley National Laboratory. Retrieved from: http://www.escholarship.org/uc/item/91p9m2vs General and Miscellaneous microbial assemblage single-cell sequencing marine microorganism article 2009 ftcdlib 2018-01-26T23:52:30Z The difficulty associated with the cultivation of most microorganisms and the complexity of natural microbial assemblages, such as marine plankton or human microbiome, hinder genome reconstruction of representative taxa using cultivation or metagenomic approaches. Here we used an alternative, single cell sequencing approach to obtain high-quality genome assemblies of two uncultured, numerically significant marine microorganisms. We employed fluorescence-activated cell sorting and multiple displacement amplification to obtain hundreds of micrograms of genomic DNA from individual, uncultured cells of two marine flavobacteria from the Gulf of Maine that were phylogenetically distant from existing cultured strains. Shotgun sequencing and genome finishing yielded 1.9 Mbp in 17 contigs and 1.5 Mbp in 21 contigs for the two flavobacteria, with estimated genome recoveries of about 91percent and 78percent, respectively. Only 0.24percent of the assembling sequences were contaminants and were removed from further analysis using rigorous quality control. In contrast to all cultured strains of marine flavobacteria, the two single cell genomes were excellent Global Ocean Sampling (GOS) metagenome fragment recruiters, demonstrating their numerical significance in the ocean. The geographic distribution of GOS recruits along the Northwest Atlantic coast coincided with ocean surface currents. Metabolic reconstruction indicated diverse potential energy sources, including biopolymer degradation, proteorhodopsin photometabolism, and hydrogen oxidation. Compared to cultured relatives, the two uncultured flavobacteria have small genome sizes, few non-coding nucleotides, and few paralogous genes, suggesting adaptations to narrow ecological niches. These features may have contributed to the abundance of the two taxa in specific regions of the ocean, and may have hindered their cultivation. We demonstrate the power of single cell DNA sequencing to generate reference genomes of uncultured taxa from a complex microbial community of marine bacterioplankton. A combination of single cell genomics and metagenomics enabled us to analyze the genome content, metabolic adaptations, and biogeography of these taxa. Article in Journal/Newspaper Northwest Atlantic University of California: eScholarship |
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Open Polar |
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University of California: eScholarship |
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ftcdlib |
| language |
English |
| topic |
General and Miscellaneous microbial assemblage single-cell sequencing marine microorganism |
| spellingShingle |
General and Miscellaneous microbial assemblage single-cell sequencing marine microorganism Woyke, Tanja Assembling the Marine Metagenome, One Cell at a Time |
| topic_facet |
General and Miscellaneous microbial assemblage single-cell sequencing marine microorganism |
| description |
The difficulty associated with the cultivation of most microorganisms and the complexity of natural microbial assemblages, such as marine plankton or human microbiome, hinder genome reconstruction of representative taxa using cultivation or metagenomic approaches. Here we used an alternative, single cell sequencing approach to obtain high-quality genome assemblies of two uncultured, numerically significant marine microorganisms. We employed fluorescence-activated cell sorting and multiple displacement amplification to obtain hundreds of micrograms of genomic DNA from individual, uncultured cells of two marine flavobacteria from the Gulf of Maine that were phylogenetically distant from existing cultured strains. Shotgun sequencing and genome finishing yielded 1.9 Mbp in 17 contigs and 1.5 Mbp in 21 contigs for the two flavobacteria, with estimated genome recoveries of about 91percent and 78percent, respectively. Only 0.24percent of the assembling sequences were contaminants and were removed from further analysis using rigorous quality control. In contrast to all cultured strains of marine flavobacteria, the two single cell genomes were excellent Global Ocean Sampling (GOS) metagenome fragment recruiters, demonstrating their numerical significance in the ocean. The geographic distribution of GOS recruits along the Northwest Atlantic coast coincided with ocean surface currents. Metabolic reconstruction indicated diverse potential energy sources, including biopolymer degradation, proteorhodopsin photometabolism, and hydrogen oxidation. Compared to cultured relatives, the two uncultured flavobacteria have small genome sizes, few non-coding nucleotides, and few paralogous genes, suggesting adaptations to narrow ecological niches. These features may have contributed to the abundance of the two taxa in specific regions of the ocean, and may have hindered their cultivation. We demonstrate the power of single cell DNA sequencing to generate reference genomes of uncultured taxa from a complex microbial community of marine bacterioplankton. A combination of single cell genomics and metagenomics enabled us to analyze the genome content, metabolic adaptations, and biogeography of these taxa. |
| format |
Article in Journal/Newspaper |
| author |
Woyke, Tanja |
| author_facet |
Woyke, Tanja |
| author_sort |
Woyke, Tanja |
| title |
Assembling the Marine Metagenome, One Cell at a Time |
| title_short |
Assembling the Marine Metagenome, One Cell at a Time |
| title_full |
Assembling the Marine Metagenome, One Cell at a Time |
| title_fullStr |
Assembling the Marine Metagenome, One Cell at a Time |
| title_full_unstemmed |
Assembling the Marine Metagenome, One Cell at a Time |
| title_sort |
assembling the marine metagenome, one cell at a time |
| publisher |
eScholarship, University of California |
| publishDate |
2009 |
| url |
http://www.escholarship.org/uc/item/91p9m2vs |
| genre |
Northwest Atlantic |
| genre_facet |
Northwest Atlantic |
| op_source |
Woyke, Tanja. (2009). Assembling the Marine Metagenome, One Cell at a Time. Lawrence Berkeley National Laboratory. Lawrence Berkeley National Laboratory: Lawrence Berkeley National Laboratory. Retrieved from: http://www.escholarship.org/uc/item/91p9m2vs |
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qt91p9m2vs http://www.escholarship.org/uc/item/91p9m2vs |
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public |
| _version_ |
1766148997145165824 |