GUNC: detection of chimerism and contamination in prokaryotic genomes

Askarbek Orakov; Anthony Fullam; Luis Pedro Coelho; Supriya Khedkar; Damian Szklarczyk; Daniel R. Mende; Thomas S.B. Schmidt; Peer Bork

doi:10.1186/s13059-021-02393-0

GUNC: detection of chimerism and contamination in prokaryotic genomes

Askarbek Orakov
, Anthony Fullam
, Luis Pedro Coelho
, Supriya Khedkar
, Damian Szklarczyk
, Daniel R. Mende
, Thomas S.B. Schmidt
, Peer Bork

Research output: Contribution to journal › Article › peer-review

Abstract

Genomes are critical units in microbiology, yet ascertaining quality in prokaryotic genome assemblies remains a formidable challenge. We present GUNC (the Genome UNClutterer), a tool that accurately detects and quantifies genome chimerism based on the lineage homogeneity of individual contigs using a genome’s full complement of genes. GUNC complements existing approaches by targeting previously underdetected types of contamination: we conservatively estimate that 5.7% of genomes in GenBank, 5.2% in RefSeq, and 15–30% of pre-filtered “high-quality” metagenome-assembled genomes in recent studies are undetected chimeras. GUNC provides a fast and robust tool to substantially improve prokaryotic genome quality.

Original language	English
Article number	178
Journal	Genome Biology
Volume	22
Issue number	1
DOIs	https://doi.org/10.1186/s13059-021-02393-0
Publication status	Published - Dec 2021
Externally published	Yes

Keywords

Bioinformatics
Genome contamination
Genome quality
Metagenome-assembled genomes
Metagenomics

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10.1186/s13059-021-02393-0

Cite this

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title = "GUNC: detection of chimerism and contamination in prokaryotic genomes",

abstract = "Genomes are critical units in microbiology, yet ascertaining quality in prokaryotic genome assemblies remains a formidable challenge. We present GUNC (the Genome UNClutterer), a tool that accurately detects and quantifies genome chimerism based on the lineage homogeneity of individual contigs using a genome{\textquoteright}s full complement of genes. GUNC complements existing approaches by targeting previously underdetected types of contamination: we conservatively estimate that 5.7\% of genomes in GenBank, 5.2\% in RefSeq, and 15–30\% of pre-filtered “high-quality” metagenome-assembled genomes in recent studies are undetected chimeras. GUNC provides a fast and robust tool to substantially improve prokaryotic genome quality.",

keywords = "Bioinformatics, Genome contamination, Genome quality, Metagenome-assembled genomes, Metagenomics",

author = "Askarbek Orakov and Anthony Fullam and Coelho, \{Luis Pedro\} and Supriya Khedkar and Damian Szklarczyk and Mende, \{Daniel R.\} and Schmidt, \{Thomas S.B.\} and Peer Bork",

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month = dec,

doi = "10.1186/s13059-021-02393-0",

language = "English",

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T2 - detection of chimerism and contamination in prokaryotic genomes

AU - Orakov, Askarbek

AU - Fullam, Anthony

AU - Coelho, Luis Pedro

AU - Khedkar, Supriya

AU - Szklarczyk, Damian

AU - Mende, Daniel R.

AU - Schmidt, Thomas S.B.

AU - Bork, Peer

PY - 2021/12

Y1 - 2021/12

N2 - Genomes are critical units in microbiology, yet ascertaining quality in prokaryotic genome assemblies remains a formidable challenge. We present GUNC (the Genome UNClutterer), a tool that accurately detects and quantifies genome chimerism based on the lineage homogeneity of individual contigs using a genome’s full complement of genes. GUNC complements existing approaches by targeting previously underdetected types of contamination: we conservatively estimate that 5.7% of genomes in GenBank, 5.2% in RefSeq, and 15–30% of pre-filtered “high-quality” metagenome-assembled genomes in recent studies are undetected chimeras. GUNC provides a fast and robust tool to substantially improve prokaryotic genome quality.

AB - Genomes are critical units in microbiology, yet ascertaining quality in prokaryotic genome assemblies remains a formidable challenge. We present GUNC (the Genome UNClutterer), a tool that accurately detects and quantifies genome chimerism based on the lineage homogeneity of individual contigs using a genome’s full complement of genes. GUNC complements existing approaches by targeting previously underdetected types of contamination: we conservatively estimate that 5.7% of genomes in GenBank, 5.2% in RefSeq, and 15–30% of pre-filtered “high-quality” metagenome-assembled genomes in recent studies are undetected chimeras. GUNC provides a fast and robust tool to substantially improve prokaryotic genome quality.

KW - Bioinformatics

KW - Genome contamination

KW - Genome quality

KW - Metagenome-assembled genomes

KW - Metagenomics

UR - https://www.scopus.com/pages/publications/85107844191

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DO - 10.1186/s13059-021-02393-0

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VL - 22

JO - Genome Biology

JF - Genome Biology

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ER -

GUNC: detection of chimerism and contamination in prokaryotic genomes

Abstract

Keywords

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