Ecology of uncultured Prochlorococcus clades revealed through single-cell genomics and biogeographic analysis

Prochlorococcus is the numerically dominant photosynthetic organism throughout much of the world’s oceans, yet little is known about the ecology and genetic diversity of populations inhabiting tropical waters. To help close this gap, we examined natural Prochlorococcus communities in the tropical Pa...

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Veröffentlicht in:	The ISME Journal 2013-01, Vol.7 (1), p.184-198
Hauptverfasser:	Malmstrom, Rex R, Rodrigue, Sébastien, Huang, Katherine H, Kelly, Libusha, Kern, Suzanne E, Thompson, Anne, Roggensack, Sara, Berube, Paul M, Henn, Matthew R, Chisholm, Sallie W
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Schlagworte:	631/158/2446/2447 631/158/852 631/326/41/2530 Bacteriophages - genetics Ecology Evolutionary Biology Genetic diversity Genetic Variation Genomics Genomics - methods Geographical distribution Iron - metabolism Life Sciences Metagenomics - methods Microbial Ecology Microbial Genetics and Genomics Microbiology Oceans Original original-article Pacific Ocean Phylogeny Prochlorococcus Prochlorococcus - classification Prochlorococcus - genetics Prochlorococcus - metabolism Prochlorococcus - virology Seawater - chemistry Seawater - microbiology Siderophores - metabolism Single-Cell Analysis - methods
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description	Prochlorococcus is the numerically dominant photosynthetic organism throughout much of the world’s oceans, yet little is known about the ecology and genetic diversity of populations inhabiting tropical waters. To help close this gap, we examined natural Prochlorococcus communities in the tropical Pacific Ocean using a single-cell whole-genome amplification and sequencing. Analysis of the gene content of just 10 single cells from these waters added 394 new genes to the Prochlorococcus pan-genome—that is, genes never before seen in a Prochlorococcus cell. Analysis of marker genes, including the ribosomal internal transcribed sequence, from dozens of individual cells revealed several representatives from two uncultivated clades of Prochlorococcus previously identified as HNLC1 and HNLC2. While the HNLC clades can dominate Prochlorococcus communities under certain conditions, their overall geographic distribution was highly restricted compared with other clades of Prochlorococcus . In the Atlantic and Pacific oceans, these clades were only found in warm waters with low Fe and high inorganic P levels. Genomic analysis suggests that at least one of these clades thrives in low Fe environments by scavenging organic-bound Fe, a process previously unknown in Prochlorococcus . Furthermore, the capacity to utilize organic-bound Fe appears to have been acquired horizontally and may be exchanged among other clades of Prochlorococcus . Finally, one of the single Prochlorococcus cells sequenced contained a partial genome of what appears to be a prophage integrated into the genome.
doi_str_mv	10.1038/ismej.2012.89
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Genomic analysis suggests that at least one of these clades thrives in low Fe environments by scavenging organic-bound Fe, a process previously unknown in Prochlorococcus . Furthermore, the capacity to utilize organic-bound Fe appears to have been acquired horizontally and may be exchanged among other clades of Prochlorococcus . 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subjects	631/158/2446/2447 631/158/852 631/326/41/2530 Bacteriophages - genetics Ecology Evolutionary Biology Genetic diversity Genetic Variation Genomics Genomics - methods Geographical distribution Iron - metabolism Life Sciences Metagenomics - methods Microbial Ecology Microbial Genetics and Genomics Microbiology Oceans Original original-article Pacific Ocean Phylogeny Prochlorococcus Prochlorococcus - classification Prochlorococcus - genetics Prochlorococcus - metabolism Prochlorococcus - virology Seawater - chemistry Seawater - microbiology Siderophores - metabolism Single-Cell Analysis - methods
title	Ecology of uncultured Prochlorococcus clades revealed through single-cell genomics and biogeographic analysis
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