Recovery of nearly 8,000 metagenome-assembled genomes substantially expands the tree of life

Challenges in cultivating microorganisms have limited the phylogenetic diversity of currently available microbial genomes. This is being addressed by advances in sequencing throughput and computational techniques that allow for the cultivation-independent recovery of genomes from metagenomes. Here,...

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Veröffentlicht in:Nature microbiology 2017-11, Vol.2 (11), p.1533-1542
Hauptverfasser: Parks, Donovan H., Rinke, Christian, Chuvochina, Maria, Chaumeil, Pierre-Alain, Woodcroft, Ben J., Evans, Paul N., Hugenholtz, Philip, Tyson, Gene W.
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Sprache:eng
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Zusammenfassung:Challenges in cultivating microorganisms have limited the phylogenetic diversity of currently available microbial genomes. This is being addressed by advances in sequencing throughput and computational techniques that allow for the cultivation-independent recovery of genomes from metagenomes. Here, we report the reconstruction of 7,903 bacterial and archaeal genomes from >1,500 public metagenomes. All genomes are estimated to be ≥50% complete and nearly half are ≥90% complete with ≤5% contamination. These genomes increase the phylogenetic diversity of bacterial and archaeal genome trees by >30% and provide the first representatives of 17 bacterial and three archaeal candidate phyla. We also recovered 245 genomes from the Patescibacteria superphylum (also known as the Candidate Phyla Radiation) and find that the relative diversity of this group varies substantially with different protein marker sets. The scale and quality of this data set demonstrate that recovering genomes from metagenomes provides an expedient path forward to exploring microbial dark matter. The recovery of 7,903 bacterial and archaeal metagenome-assembled genomes increases the phylogenetic diversity represented by public genome repositories and provides the first representatives from 20 candidate phyla.
ISSN:2058-5276
2058-5276
DOI:10.1038/s41564-017-0012-7