DESMAN: A new tool for de novo extraction of strains from metagenomes

Christopher Quince; Tom O. Delmont; Sébastien Raguideau; Johannes Alneberg; Aaron E. Darling; Gavin Collins; A. Murat Eren

doi:10.1186/s13059-017-1309-9

DESMAN: A new tool for de novo extraction of strains from metagenomes

Christopher Quince
, Tom O. Delmont
, Sébastien Raguideau
, Johannes Alneberg
, Aaron E. Darling
, Gavin Collins
, A. Murat Eren

Sustainable World

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

128 Citations (Scopus)

Abstract

We introduce DESMAN for De novo Extraction of Strains from Metagenomes. Large multi-sample metagenomes are being generated but strain variation results in fragmentary co-assemblies. Current algorithms can bin contigs into metagenome-assembled genomes but are unable to resolve strain-level variation. DESMAN identifies variants in core genes and uses co-occurrence across samples to link variants into haplotypes and abundance profiles. These are then searched for against non-core genes to determine the accessory genome of each strain. We validated DESMAN on a complex 50-species 210-genome 96-sample synthetic mock data set and then applied it to the Tara Oceans microbiome.

Original language	English
Article number	181
Journal	Genome Biology
Volume	18
Issue number	1
DOIs	https://doi.org/10.1186/s13059-017-1309-9
Publication status	Published - 21 Sep 2017

Keywords

Metagenomes
Niche
Strain

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10.1186/s13059-017-1309-9

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abstract = "We introduce DESMAN for De novo Extraction of Strains from Metagenomes. Large multi-sample metagenomes are being generated but strain variation results in fragmentary co-assemblies. Current algorithms can bin contigs into metagenome-assembled genomes but are unable to resolve strain-level variation. DESMAN identifies variants in core genes and uses co-occurrence across samples to link variants into haplotypes and abundance profiles. These are then searched for against non-core genes to determine the accessory genome of each strain. We validated DESMAN on a complex 50-species 210-genome 96-sample synthetic mock data set and then applied it to the Tara Oceans microbiome.",

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AU - Quince, Christopher

AU - Delmont, Tom O.

AU - Raguideau, Sébastien

AU - Alneberg, Johannes

AU - Darling, Aaron E.

AU - Collins, Gavin

AU - Eren, A. Murat

PY - 2017/9/21

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AB - We introduce DESMAN for De novo Extraction of Strains from Metagenomes. Large multi-sample metagenomes are being generated but strain variation results in fragmentary co-assemblies. Current algorithms can bin contigs into metagenome-assembled genomes but are unable to resolve strain-level variation. DESMAN identifies variants in core genes and uses co-occurrence across samples to link variants into haplotypes and abundance profiles. These are then searched for against non-core genes to determine the accessory genome of each strain. We validated DESMAN on a complex 50-species 210-genome 96-sample synthetic mock data set and then applied it to the Tara Oceans microbiome.

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KW - Niche

KW - Strain

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VL - 18

JO - Genome Biology

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IS - 1

M1 - 181

ER -

DESMAN: A new tool for de novo extraction of strains from metagenomes

Abstract

Keywords

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