aMeta: an accurate and memory-efficient ancient Metagenomic profiling workflow
Zoé Pochon,Nora Bergfeldt,Emrah Kırdök,Mário Vicente,Thijessen Naidoo,T. van der Valk,N. Ezgi Altınışık,Maja Krzewinska,Love Dalén,Anders Götherström,Claudio Mirabello,Per Unneberg,Nikolay Oskolkov +12 more
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TL;DR: AMeta is proposed, an accurate ancient Metagenomic profiling workflow designed primarily to minimize the amount of false discoveries and computer memory requirements, and its superior sensitivity and specificity in both microbial detection and authentication, as well as substantially lower usage of computer memory.
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Abstract: Analysis of microbial data from archaeological samples is a rapidly growing field with a great potential for understanding ancient environments, lifestyles and disease spread in the past. However, high error rates have been a long-standing challenge in ancient metagenomics analysis. This is also complicated by a limited choice of ancient microbiome specific computational frameworks that meet the growing computational demands of the field. Here, we propose aMeta, an accurate ancient Metagenomic profiling workflow designed primarily to minimize the amount of false discoveries and computer memory requirements. Using simulated ancient metagenomic samples, we benchmark aMeta against a current state-of-the-art workflow, and demonstrate its superior sensitivity and specificity in both microbial detection and authentication, as well as substantially lower usage of computer memory. aMeta is implemented as a Snakemake workflow to facilitate use and reproducibility.
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aMeta: an accurate and memory-efficient ancient metagenomic profiling workflow
Zoé Pochon,Nora Bergfeldt,Emrah Kırdök,Mário Vicente,Thijessen Naidoo,Tom van der Valk,N. Ezgi Altınışık,Maja Krzewińska,Love Dalén,Anders Götherström,Claudio Mirabello,Per Unneberg,Nikolay Oskolkov +12 more
TL;DR: aMeta is an accurate and memory-efficient ancient metagenomic profiling workflow that significantly reduces false discoveries and memory usage compared to existing methods.
Sedimentary ancient DNA: a new paleogenomic tool for reconstructing the history of marine ecosystems
Ngoc-Loi Nguyen,Dhanushka Devendra,Natalia Szymańska,Mattia Greco,Inès Barrenechea Angeles,Agnes K. M. Weiner,Jessica R. Ray,Tristan Cordier,Stijn De Schepper,Jan Pawlowski,Joanna Pawłowska +10 more
TL;DR: Sedimentary ancient DNA (sedaDNA) offers a novel retrospective approach to reconstructing the history of marine ecosystems over geological timescales as mentioned in this paper . But, as an emerging approach, marine sedaDNA holds many challenges, and its ability to recover reliable past biodiversity information needs to be carefully assessed.
nf-core/taxprofiler: highly parallelised and flexible pipeline for metagenomic taxonomic classification and profiling
Sofia Stamouli,Moritz Emanuel Beber,Tanja Normark,Thomas A. Christensen,Lili Andersson-Li,Maxime Borry,Mahwash Jamy,James A. Fellows Yates +7 more
TL;DR: nf-core/taxprofiler is a highly parallelised and flexible pipeline for metagenomic taxonomic classification and profiling. It is designed for automated and simultaneous classification and profiling of metagenomic sequencing reads against multiple taxonomic classifiers and databases.
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Unravelling reference bias in ancient DNA datasets
Stephanie Dolenz,Tom van der Valk,Chen-Yu Jin,Jonas Oppenheimer,Muhammad Bilal Sharif,Ludovic Orlando,Beth Shapiro,Love Dalén,Peter D. Heintzman +8 more
TL;DR: Using AMBER, a new bioinformatics tool for assessing the quality of ancient DNA mapping directly from BAM-files and informing on reference bias, read length cut-offs and reference selection, it is found that mapping algorithms and quality threshold choices dictate reference bias and rates of spurious alignment at different read lengths in a predictable manner.
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An 8000 years old genome reveals the Neolithic origin of the zoonosis Brucella melitensis
Louis L'Hôte,Ian Light,Valeria Mattiangeli,Matthew D. Teasdale,Áine Halpin,Lionel Gourichon,Felix M. Key,Kevin G. Daly +7 more
TL;DR: The data suggest that the development of herd management and multi-species livestock economies in the 11th–9th millennium BP drove speciation and host adaptation of this zoonotic pathogen.
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References
Ancient Wolf Genome Reveals an Early Divergence of Domestic Dog Ancestors and Admixture into High-Latitude Breeds
Pontus Skoglund,Pontus Skoglund,Pontus Skoglund,Erik Ersmark,Erik Ersmark,Eleftheria Palkopoulou,Eleftheria Palkopoulou,Love Dalén +7 more
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HOPS: automated detection and authentication of pathogen DNA in archaeological remains.
Ron Hübler,Felix M. Key,Felix M. Key,Christina Warinner,Kirsten I. Bos,Johannes Krause,Alexander Herbig +6 more
TL;DR: HOPS is a versatile tool for high-throughput screening of DNA from archaeological material to identify candidates for genome-level analyses and provides detailed information on species identification and authenticity.
Unearthing Neanderthal population history using nuclear and mitochondrial DNA from cave sediments
Benjamin Vernot,Elena I. Zavala,Asier Gómez-Olivencia,Zenobia Jacobs,Zenobia Jacobs,Viviane Slon,Viviane Slon,Fabrizio Mafessoni,Frédéric Romagné,Alice Pearson,Martin Petr,Nohemi Sala,Adrián Pablos,Arantza Aranburu,José María Bermúdez de Castro,Eudald Carbonell,Bo Li,Bo Li,Maciej T. Krajcarz,A.I. Krivoshapkin,A.I. Krivoshapkin,Kseniya Kolobova,M.B. Kozlikin,Michael V. Shunkov,Anatoly P. Derevianko,Bence Viola,Steffi Grote,Elena Essel,David López Herráez,Sarah Nagel,Birgit Nickel,Julia Richter,Anna Schmidt,Benjamin M. Peter,Janet Kelso,Richard G. Roberts,Richard G. Roberts,Juan Luis Arsuaga,Matthias Meyer +38 more
TL;DR: In this article, the population history of ancient hominins from trace amounts of nuclear DNA in sediments has been studied and two radiation events in Neanderthal history during the early part of the Late Pleistocene were identified.