Your search keyword '"Nebel, Almut"' showing total 9 results

1. Pathogen genomics study of an early medieval community in Germany reveals extensive co-infections

Author

Bonczarowska, Joanna H., Susat, Julian, Mühlemann, Barbara, Jasch-Boley, Isabelle, Brather, Sebastian, Höke, Benjamin, Brather-Walter, Susanne, Schoenenberg, Valerie, Scheschkewitz, Jonathan, Graenert, Gabriele, Krausse, Dirk, Francken, Michael, Jones, Terry C., Wahl, Joachim, Nebel, Almut, and Krause-Kyora, Ben

Published

2022

2. Current allele distribution of the human longevity gene APOE in Europe can mainly be explained by ancient admixture.

Author

Kolbe, Daniel, da Silva, Nicolas A., Dose, Janina, Torres, Guillermo G., Caliebe, Amke, Krause‐Kyora, Ben, and Nebel, Almut

Subjects

LONGEVITY, CURRENT distribution, APOLIPOPROTEIN E, HUMAN genes, GENE frequency

Abstract

Variation in apolipoprotein E (APOE) has been shown to have the strongest genetic effect on human longevity. The aim of this study was to unravel the evolutionary history of the three major APOE alleles in Europe by analysing ancient samples up to 12,000 years old. We detected significant allele frequency shifts between populations and over time. Our analyses indicated that selection led to large frequency differences between the earliest European populations (i.e., hunter‐gatherers vs. first farmers), possibly due to changes in diet/lifestyle. In contrast, the allele distributions in populations from ~4000 BCE onward can mainly be explained by admixture, suggesting that it also played an important role in shaping current APOE variation. In any case, the resulting allele frequencies strongly influence the predisposition for longevity today, likely as a consequence of past adaptations and demographic processes. [ABSTRACT FROM AUTHOR]

Published

2023

3. Infectious diseases and Neolithic transformations: Evaluating biological and archaeological proxies in the German loess zone between 5500 and 2500 BCE.

Author

Fuchs, Katharina, Rinne, Christoph, Drummer, Clara, Immel, Alexander, Krause-Kyora, Ben, Nebel, Almut, Kirleis, Wiebke, and Müller, Johannes

Subjects

COMMUNICABLE diseases, MASS burials, FOSSIL DNA, FUNERAL industry, POPULATION, BIOLOGICAL monitoring

Abstract

It is a common assumption that – compared with the Mesolithic – the adoption of Neolithic lifeways was accompanied by a higher risk of infection and the development of epidemic diseases. Such a hypothesis seems plausible when considering singular archaeological parameters like increasing population density and palaeopathological indicators of poor health. However, evidence for the far-reaching consequences of epidemics has not yet been examined. Thus, the relevance of infectious diseases as triggers for transformation processes in the Neolithic remains to be identified. By reviewing specific archaeological, genetic and palaeopathological proxies gained from groups of individuals that inhabited the German loess zone from the early to the final Neolithic, we provide a diachronic view of the periods between 5500 and 2500 BCE with regard to postulated indicators of epidemic events. Our analyses of the archaeological proxies suggest major transformations in domestic strategies and mortuary practices, especially in the middle and late Neolithic. Interestingly, mass burials indicative of epidemic events are lacking. Ancient DNA results on pathogens confirm single infections throughout the Neolithic, but there is no clear evidence for diseases of epidemic proportions. The osteological records are not conclusive since the majority of osseous changes are unspecific with regard to the cause and course of infections. We conclude that currently neither biological nor archaeological proxies suggest substantial contributions of epidemics to Neolithic transformations in the German loess zone. This finding contrasts with the general assumption of a higher risk of infection and the development of epidemic diseases during the Neolithic. [ABSTRACT FROM AUTHOR]

Published

2019

4. Early integration of pastoralism and millet cultivation in Bronze Age Eurasia.

Author

Hermes, Taylor R., Frachetti, Michael D., Doumani Dupuy, Paula N., Mar'yashev, Alexei, Nebel, Almut, and Makarewicz, Cheryl A.

Subjects

BRONZE Age, SUBSISTENCE farming, MILLETS, PASTORAL societies, PLANT dispersal, WHEAT seeds

Abstract

Mobile pastoralists are thought to have facilitated the first trans-Eurasian dispersals of domesticated plants during the Early Bronze Age (ca 2500–2300 BC). Problematically, the earliest seeds of wheat, barley and millet in Inner Asia were recovered from human mortuary contexts and do not inform on local cultivation or subsistence use, while contemporaneous evidence for the use and management of domesticated livestock in the region remains ambiguous. We analysed mitochondrial DNA and multi-stable isotopic ratios (δ13C, δ15N and δ18O) of faunal remains from key pastoralist sites in the Dzhungar Mountains of southeastern Kazakhstan. At ca 2700 BC, Near Eastern domesticated sheep and goat were present at the settlement of Dali, which were also winter foddered with the region's earliest cultivated millet spreading from its centre of domestication in northern China. In the following centuries, millet cultivation and caprine management became increasingly intertwined at the nearby site of Begash. Cattle, on the other hand, received low levels of millet fodder at the sites for millennia. By primarily examining livestock dietary intake, this study reveals that the initial transmission of millet across the mountains of Inner Asia coincided with a substantial connection between pastoralism and plant cultivation, suggesting that pastoralist livestock herding was integral for the westward dispersal of millet from farming societies in China. [ABSTRACT FROM AUTHOR]

Published

2019

5. Emerging genetic patterns of the european neolithic: Perspectives from a late neolithic bell beaker burial site in Germany.

Author

Lee, Esther J., Makarewicz, Cheryl, Renneberg, Rebecca, Harder, Melanie, Krause-Kyora, Ben, Müller, Stephanie, Ostritz, Sven, Fehren-Schmitz, Lars, Schreiber, Stefan, Müller, Johannes, von Wurmb-Schwark, Nicole, and Nebel, Almut

Subjects

AGRICULTURE, POPULATION genetics, NEOLITHIC Period, HUNTING, DEMOGRAPHY, INTERMENT, BELL beaker culture

Abstract

The transition from hunting and gathering to agriculture in Europe is associated with demographic changes that may have shifted the human gene pool of the region as a result of an influx of Neolithic farmers from the Near East. However, the genetic composition of populations after the earliest Neolithic, when a diverse mosaic of societies that had been fully engaged in agriculture for some time appeared in central Europe, is poorly known. At this period during the Late Neolithic (ca. 2,800-2,000 BC), regionally distinctive burial patterns associated with two different cultural groups emerge, Bell Beaker and Corded Ware, and may reflect differences in how these societies were organized. Ancient DNA analyses of human remains from the Late Neolithic Bell Beaker site of Kromsdorf, Germany showed distinct mitochondrial haplotypes for six individuals, which were classified under the haplogroups I1, K1, T1, U2, U5, and W5, and two males were identified as belonging to the Y haplogroup R1b. In contrast to other Late Neolithic societies in Europe emphasizing maintenance of biological relatedness in mortuary contexts, the diversity of maternal haplotypes evident at Kromsdorf suggests that burial practices of Bell Beaker communities operated outside of social norms based on shared maternal lineages. Furthermore, our data, along with those from previous studies, indicate that modern U5-lineages may have received little, if any, contribution from the Mesolithic or Neolithic mitochondrial gene pool. Am J Phys Anthropol 2012. © 2012 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2012

6. Collective burials among agro-pastoral societies in later Neolithic Germany: perspectives from ancient DNA.

Author

Lee, Esther J., Renneberg, Rebecca, Harder, Melanie, Krause-Kyora, Ben, Rinne, Christoph, Müller, Johannes, Nebel, Almut, and von Wurmb-Schwark, Nicole

Subjects

*INTERMENT, *AGROPASTORAL systems, *NEOLITHIC Period, *FOSSIL DNA, *DEMOGRAPHIC change, *LANDSCAPES

Abstract

Ancient DNA research has focused on the genetic patterns of the earliest farmers during the European Neolithic, especially with regards to the demographic changes in the transition from hunting and gathering to agriculture. However, genetic data is relatively lacking after this earliest transition period, when societies had fully adapted to new agrarian lifestyles specific to their local environment. During the later central European Neolithic (ca. 3600–2800 cal BC), large-scale collective burials and monumental architecture appeared within the landscape of many agricultural societies. This phenomenon has been argued to represent the emergence of a “collective” identity. With the aim of exploring genetic-based relations among individuals collectively buried, we obtained human skeletal remains of nearly 200 individuals from four later Neolithic collective burial sites in Germany: Calden, Odagsen, Groβenrode, and Panker. We successfully reproduced reliable mitochondrial DNA (mtDNA) haplotypes from eight Neolithic individuals, which were assigned to haplogroups H, HV0, and X2. Shared haplotypes observed among individuals within Calden and Odagsen suggest that genetic relations may have shaped the arrangement of the deceased within later Neolithic agricultural groups. [ABSTRACT FROM AUTHOR]

Published

2014

7. The pastoralist distinction of Central Asia: isotopic and genetic approaches to food ways, mobility, and trans-regional contact from the early Bronze Age to medieval period

Author

Hermes, Taylor Randolph, Prof. Dr. Cheryl Makarewicz, Prof. Dr. Almut Nebel, Makarewicz, Cheryl, and Nebel, Almut

Subjects

Silk Road, Abschlussarbeit, millet, pastoralism, Silk Road, steppe, stable isotope analysis, ancient DNA, livestock, millet, mobility, steppe, Faculty of Mathematics and Natural Sciences, mobility, livestock, doctoral thesis, stable isotope analysis, ddc:3XX, ddc:300, Mathematisch-Naturwissenschaftliche Fakultät, ancient DNA, pastoralism

Abstract

In this cumulative dissertation, I offer four case studies, presented here as Papers 1-4, concerning the distinction of human lifeways that are focused on the management of herd animals, typically, sheep, goat, cattle, horses, and camels. These so-called “nomadic” lifeways are in contrast to living in singular places, typically urban spaces and large settlements, that echo familiar human experiences to what we know from the modern world. The fundamental distinction of pastoralist societies, compared to settled communities, is a huge degree of subsistence adaptability, which depends on knowledge and practice of enhancing the human-animal relationship. The first paper, “Urban and nomadic isotopic niches reveal dietary connectivities along Central Asia’s Silk Roads,” examines the dietary diversity of communities that comprised Silk Road phenomena by analyzing variability in carbon and nitrogen stable isotope ratios (δ13C and δ15N) in human bone collagen as a means to access cultural distinctions that are not recorded in historical texts. In the second paper, “Ahead of the curve? Implications for isolating vertical transhumance in seasonal montane environments using sequential oxygen isotope analyses of tooth enamel,” I model what vertical transhumance would look like in the oxygen isotopic composition (δ18O) of tooth enamel of an animal that moved from low to high elevation and back. In the third paper, “Millet farming by early Bronze Age herders coincided with first crop transmissions across Eurasia,” we describe the initial adoption of a new cereal crop, which was domesticated in northern China, by pastoralist communities in the Eurasian steppe zone. In the final paper, “Mitochondrial diversity of ancient goats in Eurasia and translocation vectors of pastoralist economies into Central Asia,” I shift from a stable isotopic approach to a genetic analysis of domesticated and wild goats from Bronze and Iron Age sites across Central Asia.

Published

2018

8. Ancient genomes reveal a high diversity of Mycobacterium leprae in medieval Europe

Author

Alessandro Riga, Andrej Benjak, Kay Nieselt, Pushpendra Singh, Jakub Likovsky, Stewart T. Cole, Antónia Marcsik, György Pálfi, Almut Nebel, Jesper L. Boldsen, Christian Urban, Sonia R. Zakrzewski, Alexander Seitz, Marion Bonazzi, Ben Krause-Kyora, Erika Molnár, Graham R. Stewart, Petr Velemínský, Sarah Inskip, Johannes Krause, G. Michael Taylor, Simon Mays, Ella Reiter, Charlotte Avanzi, M. Giovanna Belcastro, Alexander Herbig, Dorthe Dangvard Pedersen, Valentina Mariotti, Verena J. Schuenemann, Helen D. Donoghue, Schuenemann, Verena J., Avanzi, Charlotte, Krause-Kyora, Ben, Seitz, Alexander, Herbig, Alexander, Inskip, Sarah, Bonazzi, Marion, Reiter, Ella, Urban, Christian, Dangvard Pedersen, Dorthe, Taylor, G. Michael, Singh, Pushpendra, Stewart, Graham R., Velemínský, Petr, Likovsky, Jakub, Marcsik, Antónia, Molnár, Erika, Pálfi, György, Mariotti, Valentina, Riga, Alessandro, Belcastro, M. Giovanna, Boldsen, Jesper L., Nebel, Almut, Mays, Simon, Donoghue, Helen D., Zakrzewski, Sonia, Benjak, Andrej, Nieselt, Kay, Cole, Stewart T., Krause, Johannes, University of Zurich, Avanzi, Charlotte [0000-0002-1062-4058], Krause-Kyora, Ben [0000-0001-9435-2872], Seitz, Alexander [0000-0001-9626-2571], Herbig, Alexander [0000-0003-1176-1166], Inskip, Sarah [0000-0001-7424-2094], Dangvard Pedersen, Dorthe [0000-0002-4709-9170], Singh, Pushpendra [0000-0001-9453-8669], Stewart, Graham R [0000-0002-6867-6248], Molnár, Erika [0000-0001-6660-9239], Mariotti, Valentina [0000-0002-6956-781X], Riga, Alessandro [0000-0002-7240-0009], Belcastro, M Giovanna [0000-0002-8932-8509], Donoghue, Helen D [0000-0003-3918-5252], Zakrzewski, Sonia [0000-0003-1796-065X], Nieselt, Kay [0000-0002-1283-7065], Cole, Stewart T [0000-0003-1400-5585], Krause, Johannes [0000-0001-9144-3920], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Bacterial Diseases, 2405 Parasitology, Geographical Locations, 0302 clinical medicine, Osteology, Medicine and Health Sciences, Biology (General), Mycobacterium leprae, Phylogeny, Mammalian Genomics, biology, 2404 Microbiology, Paleogenetics, Genomics, Host-Pathogen Interactions/genetics, 3. Good health, Actinobacteria, Europe, Host-Pathogen Interaction, DNA, Bacterial/genetics, Phylogeography, Geography, Infectious Diseases, Host-Pathogen Interactions, Leprosy, Anatomy, Research Article, Neglected Tropical Diseases, Human, DNA, Bacterial, Leprosy/epidemiology, QH301-705.5, Immunology, 610 Medicine & health, Polymorphism, Single Nucleotide, Microbiology, Europe/epidemiology, Molecular Genetics, Evolution, Molecular, 03 medical and health sciences, 1311 Genetics, Genetic, Phylogenetics, Virology, medicine, Genetics, 1312 Molecular Biology, Humans, Molecular Biology, Genetic diversity, 2403 Immunology, Bacteria, Organisms, Biology and Life Sciences, Computational Biology, Paleontology, Genetic Variation, RC581-607, biology.organism_classification, medicine.disease, Tropical Diseases, Genome Analysis, History, Medieval, 030104 developmental biology, Ancient DNA, Mycobacterium leprae/classification, Evolutionary biology, Animal Genomics, People and Places, 11294 Institute of Evolutionary Medicine, Earth Sciences, 2406 Virology, Parasitology, Immunologic diseases. Allergy, 030217 neurology & neurosurgery, Genome, Bacterial

Abstract

Studying ancient DNA allows us to retrace the evolutionary history of human pathogens, such as Mycobacterium leprae, the main causative agent of leprosy. Leprosy is one of the oldest recorded and most stigmatizing diseases in human history. The disease was prevalent in Europe until the 16th century and is still endemic in many countries with over 200,000 new cases reported annually. Previous worldwide studies on modern and European medieval M. leprae genomes revealed that they cluster into several distinct branches of which two were present in medieval Northwestern Europe. In this study, we analyzed 10 new medieval M. leprae genomes including the so far oldest M. leprae genome from one of the earliest known cases of leprosy in the United Kingdom—a skeleton from the Great Chesterford cemetery with a calibrated age of 415–545 C.E. This dataset provides a genetic time transect of M. leprae diversity in Europe over the past 1500 years. We find M. leprae strains from four distinct branches to be present in the Early Medieval Period, and strains from three different branches were detected within a single cemetery from the High Medieval Period. Altogether these findings suggest a higher genetic diversity of M. leprae strains in medieval Europe at various time points than previously assumed. The resulting more complex picture of the past phylogeography of leprosy in Europe impacts current phylogeographical models of M. leprae dissemination. It suggests alternative models for the past spread of leprosy such as a wide spread prevalence of strains from different branches in Eurasia already in Antiquity or maybe even an origin in Western Eurasia. Furthermore, these results highlight how studying ancient M. leprae strains improves understanding the history of leprosy worldwide., Author summary Many controversies surround leprosy, which is one of the oldest recorded diseases of humankind. The origin and past spread of its main causative agent, Mycobacterium leprae, remain unknown although many attempts have been made to reconstruct its past from historical and archeological sources. Analysis of ancient M. leprae genomes reconstructed from archaeological remains can contribute greatly to reconstructing the origin and evolution of this pathogen. With a new set of ancient M. leprae genomes from Europe, we traced back a so far unrecognized past diversity, which places Europe as a key region for the early spread and worldwide dissemination of leprosy. Our results hint to the potential dynamic changes in the prevalence of different M. leprae strains in Europe during Antiquity, and highlight the need to study ancient pathogen genomes in order to better understand our past.

Published

2018

9. A genomic study of Mycobacterium leprae in medieval Northern Europe

Author

Bonazzi, Marion, Dittmar, Manuela, and Nebel, Almut

Subjects

medieval, doctoral thesis, Abschlussarbeit, Ancient DNA, ddc:570, Ancient DNA, Mycobacterium, leprae, medieval, genomics, genomics, ddc:5XX, Mathematisch-Naturwissenschaftliche Fakultät, Faculty of Mathematics and Natural Sciences, leprae, Mycobacterium

Abstract

Leprosy is an infectious disease mainly caused by the obligate intracellular pathogen Mycobacterium leprae (M. leprae). In Northern Europe, the disease reached its highest prevalence in the Middle-Ages, between the 11th and 15th centuries. It disappeared around the 16th century before the introduction of modern medicine. Besides archaeological and medical studies, the direct recovery and analysis of medieval M. leprae genomes can greatly improve our understanding of the history and epidemiology of the disease. This thesis aims to analyse numerous medieval M. leprae genomes from Northern Europe at high genomic coverage using next-generation sequencing. Teeth from 140 human skeletal remains were collected from three cemeteries in Denmark and Germany (1000-1560 AD) in order to 1) screen the remains for M. leprae DNA with PCR, 2) use high-throughput sequencing to recover high-quality M. leprae genomes, 3) place the recovered genomes within the M. leprae phylogeny, and 4) investigate in- silico the possible effects of the genomic variations. Lepra ist eine chronische Infektionskrankheit, welche durch das obligat intrazelluläre Bakterium Mycobacterium leprae (M. leprae) ausgelöst wird. In Nordeuropa erreichte die Prävalenz der Krankheit im Mittelalter zwischen dem 11. und 15. Jahrhundert ihren Höhepunkt. Im 16. Jahrhundert verschwand die Krankheit weit vor der Einführung moderner Medizin. Neben archäologischen sowie medizinischen Studien kann die Isolierung und Analyse des mittelalterlichen M. leprae Genoms zum Verständnis der Geschichte sowie der Epidemiologie der Krankheit beitragen. Die vorliegende Arbeit hat die Analyse zahlreicher, gut abgedeckter mittelalterlicher M. leprae Genome aus Nordeuropa unter Verwendung von Hochdurchsatzsequenzierung zum Ziel. Im Laufe des Projektes wurden Zähne von insgesamt 140 Individuen von drei unterschiedlichen mittelalterlichen Friedhöfen in Dänemark sowie Deutschland gesammelt (1000 – 1560 AD). Das Projekt umfasste folgende Arbeitsschritte: 1) Test auf M. leprae positive Proben mittels PCR, 2) Rekonstruktion möglichst gut abgedeckter M. leprae Genome unter Verwendung der Hochdurchsatzsequenzierung, 3) Einbindung der alten M. leprae Genome in einen phylogenetischen Baum, und 4) In silico-Modellierung der möglichen Effekte genomischer Variationen.

Published

2016