Robust taxonomic classification of uncharted microbial sequences and bins with CAT and BAT

F A Bastiaan von Meijenfeldt; Ksenia Arkhipova; Diego D Cambuy; Felipe H Coutinho; Bas E Dutilh

doi:10.1186/s13059-019-1817-x

Robust taxonomic classification of uncharted microbial sequences and bins with CAT and BAT

F A Bastiaan von Meijenfeldt
, Ksenia Arkhipova
, Diego D Cambuy
, Felipe H Coutinho
, Bas E Dutilh

Theoretical Biology and Bioinformatics, Science for Life, Utrecht University, Utrecht, The Netherlands.
Present Address: Evolutionary Genomics Group, Departamento de Produccíon Vegetal y Microbiología, Universidad Miguel Hernández, Campus San Juan, San Juan, 03550, Alicante, Spain.
extern

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

Abstract

Current-day metagenomics analyses increasingly involve de novo taxonomic classification of long DNA sequences and metagenome-assembled genomes. Here, we show that the conventional best-hit approach often leads to classifications that are too specific, especially when the sequences represent novel deep lineages. We present a classification method that integrates multiple signals to classify sequences (Contig Annotation Tool, CAT) and metagenome-assembled genomes (Bin Annotation Tool, BAT). Classifications are automatically made at low taxonomic ranks if closely related organisms are present in the reference database and at higher ranks otherwise. The result is a high classification precision even for sequences from considerably unknown organisms.

Original language	English
Article number	217
Journal	Genome Biology
Volume	20
DOIs	https://doi.org/10.1186/s13059-019-1817-x
Publication status	Published - 22 Oct 2019

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title = "Robust taxonomic classification of uncharted microbial sequences and bins with CAT and BAT",

abstract = "Current-day metagenomics analyses increasingly involve de novo taxonomic classification of long DNA sequences and metagenome-assembled genomes. Here, we show that the conventional best-hit approach often leads to classifications that are too specific, especially when the sequences represent novel deep lineages. We present a classification method that integrates multiple signals to classify sequences (Contig Annotation Tool, CAT) and metagenome-assembled genomes (Bin Annotation Tool, BAT). Classifications are automatically made at low taxonomic ranks if closely related organisms are present in the reference database and at higher ranks otherwise. The result is a high classification precision even for sequences from considerably unknown organisms.",

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AU - von Meijenfeldt, F A Bastiaan

AU - Arkhipova, Ksenia

AU - Cambuy, Diego D

AU - Coutinho, Felipe H

AU - Dutilh, Bas E

PY - 2019/10/22

Y1 - 2019/10/22

N2 - Current-day metagenomics analyses increasingly involve de novo taxonomic classification of long DNA sequences and metagenome-assembled genomes. Here, we show that the conventional best-hit approach often leads to classifications that are too specific, especially when the sequences represent novel deep lineages. We present a classification method that integrates multiple signals to classify sequences (Contig Annotation Tool, CAT) and metagenome-assembled genomes (Bin Annotation Tool, BAT). Classifications are automatically made at low taxonomic ranks if closely related organisms are present in the reference database and at higher ranks otherwise. The result is a high classification precision even for sequences from considerably unknown organisms.

AB - Current-day metagenomics analyses increasingly involve de novo taxonomic classification of long DNA sequences and metagenome-assembled genomes. Here, we show that the conventional best-hit approach often leads to classifications that are too specific, especially when the sequences represent novel deep lineages. We present a classification method that integrates multiple signals to classify sequences (Contig Annotation Tool, CAT) and metagenome-assembled genomes (Bin Annotation Tool, BAT). Classifications are automatically made at low taxonomic ranks if closely related organisms are present in the reference database and at higher ranks otherwise. The result is a high classification precision even for sequences from considerably unknown organisms.

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JO - Genome Biology

JF - Genome Biology

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ER -

Robust taxonomic classification of uncharted microbial sequences and bins with CAT and BAT

Abstract

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