CarpeDeam: a de novo metagenome assembler for heavily damaged ancient datasets

Louis Kraft; Johannes Söding; Martin Steinegger; Annika Jochheim; Peter Wad Sackett; Antonio Fernandez-Guerra; Gabriel Renaud

doi:10.1186/s13059-025-03839-5

CarpeDeam: a de novo metagenome assembler for heavily damaged ancient datasets

Louis Kraft^*
, Johannes Söding
, Martin Steinegger
, Annika Jochheim
, Peter Wad Sackett
, Antonio Fernandez-Guerra
, Gabriel Renaud^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

De novo assembly of ancient metagenomic datasets is a challenging task. Ultra-short fragment size and characteristic postmortem damage patterns of sequenced ancient DNA molecules leave current tools ill-equipped for ideal assembly. We present CarpeDeam, a novel damage-aware de novo assembler designed specifically for ancient metagenomic samples. Utilizing maximum-likelihood frameworks that integrate sample-specific damage patterns, CarpeDeam demonstrates improved recovery of longer continuous sequences and protein sequences in many simulated and empirical datasets compared to existing assemblers. As a pioneering ancient metagenome assembler, CarpeDeam opens the door for new opportunities in functional and taxonomic analyses of ancient microbial communities.

Original language	English
Article number	372
Journal	Genome Biology
Volume	26
Issue number	1
Number of pages	44
ISSN	1474-7596
DOIs	https://doi.org/10.1186/s13059-025-03839-5
Publication status	Published - 2025

Keywords

Ancient DNA
De novo assembly
Metagenomics
Microbes
Proteins

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AU - Wad Sackett, Peter

AU - Fernandez-Guerra, Antonio

AU - Renaud, Gabriel

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N2 - De novo assembly of ancient metagenomic datasets is a challenging task. Ultra-short fragment size and characteristic postmortem damage patterns of sequenced ancient DNA molecules leave current tools ill-equipped for ideal assembly. We present CarpeDeam, a novel damage-aware de novo assembler designed specifically for ancient metagenomic samples. Utilizing maximum-likelihood frameworks that integrate sample-specific damage patterns, CarpeDeam demonstrates improved recovery of longer continuous sequences and protein sequences in many simulated and empirical datasets compared to existing assemblers. As a pioneering ancient metagenome assembler, CarpeDeam opens the door for new opportunities in functional and taxonomic analyses of ancient microbial communities.

AB - De novo assembly of ancient metagenomic datasets is a challenging task. Ultra-short fragment size and characteristic postmortem damage patterns of sequenced ancient DNA molecules leave current tools ill-equipped for ideal assembly. We present CarpeDeam, a novel damage-aware de novo assembler designed specifically for ancient metagenomic samples. Utilizing maximum-likelihood frameworks that integrate sample-specific damage patterns, CarpeDeam demonstrates improved recovery of longer continuous sequences and protein sequences in many simulated and empirical datasets compared to existing assemblers. As a pioneering ancient metagenome assembler, CarpeDeam opens the door for new opportunities in functional and taxonomic analyses of ancient microbial communities.

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KW - De novo assembly

KW - Metagenomics

KW - Microbes

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CarpeDeam: a de novo metagenome assembler for heavily damaged ancient datasets

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