Litcius/Paper detail

Recovery of genomes from metagenomes via a dereplication, aggregation and scoring strategy

Christian M. K. Sieber, Alexander J. Probst, Allison Sharrar, Brian C. Thomas, Matthias Hess, Susannah G. Tringe, Jillian F. Banfield

2018Nature Microbiology1,818 citationsDOIOpen Access PDF

Abstract

Microbial communities are critical to ecosystem function. A key objective of metagenomic studies is to analyse organism-specific metabolic pathways and reconstruct community interaction networks. This requires accurate assignment of assembled genome fragments to genomes. Existing binning methods often fail to reconstruct a reasonable number of genomes and report many bins of low quality and completeness. Furthermore, the performance of existing algorithms varies between samples and biotopes. Here, we present a dereplication, aggregation and scoring strategy, DAS Tool, that combines the strengths of a flexible set of established binning algorithms. DAS Tool applied to a constructed community generated more accurate bins than any automated method. Indeed, when applied to environmental and host-associated samples of different complexity, DAS Tool recovered substantially more near-complete genomes, including previously unreported lineages, than any single binning method alone. The ability to reconstruct many near-complete genomes from metagenomics data will greatly advance genome-centric analyses of ecosystems.

Topics & Concepts

MetagenomicsGenomeComputational biologyOrganismSet (abstract data type)Bacterial genome sizeFunction (biology)BiologyComputer scienceData miningGeneEvolutionary biologyGeneticsProgramming languageGenomics and Phylogenetic StudiesMicrobial Community Ecology and PhysiologyBioinformatics and Genomic Networks
Recovery of genomes from metagenomes via a dereplication, aggregation and scoring strategy | Litcius