Evolution of the human oral microbiome and resource development for ancient metagenomics

The microbes that live in and on our bodies play major roles in health and disease due to their symbiotic relationship with the host. Understanding how these communities adapt to changes in their environment - either by natural or anthropological forces - is currently a critical area of research for improving holistic healthcare. The aim of this thesis was to demonstrate the potential of large-scale shotgun-sequenced ancient dental calculus to study the wider diversity of the oral microbiome. In Manuscript A, I have shown that ancient dental calculus can be used to improve the understanding of past human oral microbiome diversity, after analysing the largest and oldest ancient dental calculus dataset to date. In this manuscript I also present new tools to help improve authentication of ancient microbiomes. Manuscript B describes the repository AncientMetagenomeDir, a community-level resource that lists all public ancient metagenomic sequencing datasets. The resource will allow researchers to efficiently re-use public data to ensure the robusticity and improve the statistical power of future studies. Manuscript C presents an entirely rewritten user-friendly palaeogenomics pipeline following latest software development and bioinformatics best practices. The pipeline nf-core/eager, has been developed in a way that allows for easy integration with large scale computing infrastructure required for such analyses. Importantly, I have extended this genomics pipeline to have in-parallel metagenomic profiling and screening of ancient DNA characteristics. These manuscripts have contributed new insights into the biology and evolution of oral biofilms, but also introduced new open-source and sustainable tools and resources that will allow further investigation of ancient microbiomes

Ecology, not host phylogeny, shapes the oral microbiome in closely related species

Host-associated microbiomes are essential for a multitude of biological processes. Placed at the contact zone between external and internal environments, the little-studied oral microbiome has important roles in host physiology and health. Here, we investigate the roles of host evolutionary relationships and ecology in shaping the oral microbiome in three closely related gorilla subspecies (mountain, Grauer's, and western lowland gorillas) using shotgun metagenomics of 46 museum-preserved dental calculus samples. We find that the oral microbiomes of mountain gorillas are functionally and taxonomically distinct from the other two subspecies, despite close evolutionary relationships and geographic proximity with Grauer's gorillas. Grauer's gorillas show intermediate bacterial taxonomic and functional, and dietary profiles. Altitudinal differences in gorilla subspecies ranges appear to explain these patterns, suggesting a close connection between dental calculus microbiomes and the environment, likely mediated through diet. This is further supported by the presence of gorilla subspecies-specific phyllosphere/rhizosphere taxa in the oral microbiome. Mountain gorillas show a high abundance of nitrate-reducing oral taxa, which may promote adaptation to a high-altitude lifestyle by modulating blood pressure. Our results suggest that ecology, rather than evolutionary relationships and geographic distribution, shape the oral microbiome in these closely related species

Do I have something in my teeth? The trouble with genetic analyses of diet from archaeological dental calculus

Dental calculus and other preserved microbiome substrates are an attractive target for dietary reconstruction in past populations through a variety of physical, chemical, and molecular means. Recently, studies have attempted to reconstruct diet from archaeological dental calculus using archaeogenetic techniques. While dental calculus may provide a relatively stable environment for DNA preservation, the detection of plants and animals possibly consumed by an individual through DNA analysis is primarily hindered by microbial richness and incomplete reference databases. Moreover, high genomic similarity within eukaryotic groups - such as mammals - can obfuscate precise taxonomic identification. In the current study we demonstrate the challenges associated with accurate taxonomic identification and authentication of dietary taxa in ancient DNA data using both synthetic and ancient dental calculus datasets. We highlight common errors and sources of contamination across ancient DNA datasets, provide recommendations for dietary DNA validation, and call for caution in the interpretation of diet from dental calculus and other archaeological microbiome substrates.J.A.F.Y. was partially funded by the European Research Council (ERC) under the European Union's Horizon 2020 research innovation programme (ERC-2015-StG 678901-FoodTransforms to Philipp W. Stockhammer, Ludwig Maximilian University Munich, Germany). Z.F. was supported by the Werner Siemens Stiftung through Dr. Christina Warinner. This research was supported in part through computational resources provided by the Department of Archaeogenetics at the Max Planck Institute for the Science of Human History (J.A.F.Y).Ye

Community-curated and standardised metadata of published ancient metagenomic samples with AncientMetagenomeDir

Ancient DNA and RNA are valuable data sources for a wide range of disciplines. Within the field of ancient metagenomics, the number of published genetic datasets has risen dramatically in recent years, and tracking this data for reuse is particularly important for large-scale ecological and evolutionary studies of individual taxa and communities of both microbes and eukaryotes. AncientMetagenomeDir (archived at https://doi.org/10.5281/zenodo.3980833) is a collection of annotated metagenomic sample lists derived from published studies that provide basic, standardised metadata and accession numbers to allow rapid data retrieval from online repositories. These tables are community-curated and span multiple sub-disciplines to ensure adequate breadth and consensus in metadata definitions, as well as longevity of the database. Internal guidelines and automated checks facilitate compatibility with established sequence-read archives and term-ontologies, and ensure consistency and interoperability for future meta-analyses. This collection will also assist in standardising metadata reporting for future ancient metagenomic studies

Micro Methods for Megafauna: Novel Approaches to Late Quaternary Extinctions and Their Contributions to Faunal Conservation in the Anthropocene

Drivers of Late Quaternary megafaunal extinctions are relevant to modern conservation policy in a world of growing human population density, climate change, and faunal decline. Traditional debates tend toward global solutions, blaming either dramatic climate change or dispersals of Homo sapiens to new regions. Inherent limitations to archaeological and paleontological data sets often require reliance on scant, poorly resolved lines of evidence. However, recent developments in scientific technologies allow for more local, context-specific approaches. In the present article, we highlight how developments in five such methodologies (radiocarbon approaches, stable isotope analysis, ancient DNA, ancient proteomics, microscopy) have helped drive detailed analysis of specific megafaunal species, their particular ecological settings, and responses to new competitors or predators, climate change, and other external phenomena. The detailed case studies of faunal community composition, extinction chronologies, and demographic trends enabled by these methods examine megafaunal extinctions at scales appropriate for practical understanding of threats against particular species in their habitats today. </section

aemann01/diet_calculus v1.0

Detection of diet from archaeological dental calculus projec

Ecology, Not Host Phylogeny, Shapes the Oral Microbiome in Closely Related Species

Host-associated microbiomes are essential for a multitude of biological processes. Placed at the contact zone between external and internal environments, the little-studied oral microbiome has important roles in host physiology and health. Here, we investigate the roles of host evolutionary relationships and ecology in shaping the oral microbiome in three closely related gorilla subspecies (mountain, Grauer's, and western lowland gorillas) using shotgun metagenomics of 46 museum-preserved dental calculus samples. We find that the oral microbiomes of mountain gorillas are functionally and taxonomically distinct from the other two subspecies, despite close evolutionary relationships and geographic proximity with Grauer's gorillas. Grauer's gorillas show intermediate bacterial taxonomic and functional, and dietary profiles. Altitudinal differences in gorilla subspecies ranges appear to explain these patterns, suggesting a close connection between dental calculus microbiomes and the environment, likely mediated through diet. This is further supported by the presence of gorilla subspecies-specific phyllosphere/rhizosphere taxa in the oral microbiome. Mountain gorillas show a high abundance of nitrate-reducing oral taxa, which may promote adaptation to a high-altitude lifestyle by modulating blood pressure. Our results suggest that ecology, rather than evolutionary relationships and geographic distribution, shape the oral microbiome in these closely related species

Reproducible, portable, and efficient ancient genome reconstruction with nf-core/eager

The broadening utilisation of ancient DNA to address archaeological, palaeontological, and biological questions is resulting in a rising diversity in the size of laboratories and scale of analyses being performed. In the context of this heterogeneous landscape, we present an advanced, and entirely redesigned and extended version of the EAGER pipeline for the analysis of ancient genomic data. This Nextflow pipeline aims to address three main themes: accessibility and adaptability to different computing configurations, reproducibility to ensure robust analytical standards, and updating the pipeline to the latest routine ancient genomic practices. The new version of EAGER has been developed within the nf-core initiative to ensure high-quality software development and maintenance support; contributing to a long-term life-cycle for the pipeline. nf-core/eager will assist in ensuring that a wider range of ancient DNA analyses can be applied by a diverse range of research groups and fields

Ancient Metagenomic Studies:Considerations for the Wider Scientific Community

Like modern metagenomics, ancient metagenomics is a highly data-rich discipline, with the added challenge that the DNA of interest is degraded and, depending on the sample type, in low abundance. This requires the application of specialized measures during molecular experiments and computational analyses. Furthermore, researchers often work with finite sample sizes, which impedes optimal experimental design and control of confounding factors, and with ethically sensitive samples necessitating the consideration of additional guidelines. In September 2020, early career researchers in the field of ancient metagenomics met (Standards, Precautions & Advances in Ancient Metagenomics 2 [SPAAM2] community meeting) to discuss the state of the field and how to address current challenges. Here, in an effort to bridge the gap between ancient and modern metagenomics, we highlight and reflect upon some common misconceptions, provide a brief overview of the challenges in our field, and point toward useful resources for potential reviewers and newcomers to the field

nf-core/funcscan: 1.1.4 - British Beans on Toast (Patch) - 2023-11-07

&lt;h2&gt;v1.1.4 - [2023-11-07]&lt;/h2&gt; &lt;h3&gt;&lt;code&gt;Added&lt;/code&gt;&lt;/h3&gt; &lt;h3&gt;&lt;code&gt;Fixed&lt;/code&gt;&lt;/h3&gt; &lt;ul&gt; &lt;li&gt;&lt;a href="https://github.com/nf-core/funcscan/pull/306"&gt;#306&lt;/a&gt; Added new parameter &lt;code&gt;annotation_prokka_retaincontigheaders&lt;/code&gt; to allow prokka to retain the original contig headers/locus tag. (by @darcy220606)&lt;/li&gt; &lt;li&gt;&lt;a href="https://github.com/nf-core/funcscan/pull/307"&gt;#307&lt;/a&gt; Fixed stability of deepARG tests by using Zenodo copy of database (❤️ to Gustavo Arango and Liqing Zhang for uploading, fix by @jfy133)&lt;/li&gt; &lt;li&gt;&lt;a href="https://github.com/nf-core/funcscan/pull/310"&gt;#310&lt;/a&gt; Fixed error when supplying uncompressed input; added &quot;fas&quot; file extension for FASTA files. (by @tavareshugo)&lt;/li&gt; &lt;li&gt;&lt;a href="https://github.com/nf-core/funcscan/pull/311"&gt;#311&lt;/a&gt; Merged pipeline template of nf-core/tools version 2.10. (by @jasmezz)&lt;/li&gt; &lt;/ul&gt; &lt;h3&gt;&lt;code&gt;Dependencies&lt;/code&gt;&lt;/h3&gt; &lt;p&gt;| Tool | Previous version | New version | | ------------- | ---------------- | ----------- | | AMRFinderPlus | 3.10.42 | 3.11.18 | | Bakta | 1.7.0 | 1.8.2 | | MultiQC | 1.14 | 1.15 |&lt;/p&gt; &lt;h3&gt;&lt;code&gt;Deprecated&lt;/code&gt;&lt;/h3&gt; &lt;ul&gt; &lt;li&gt;FastQC&lt;/li&gt; &lt;/ul&gt