Your search keyword '"Alexander Immel"' showing total 15 results

1. Genome-wide study of a Neolithic Wartberg grave community reveals distinct HLA variation and hunter-gatherer ancestry

Author

Alexander Immel, Federica Pierini, Christoph Rinne, John Meadows, Rodrigo Barquera, András Szolek, Julian Susat, Lisa Böhme, Janina Dose, Joanna Bonczarowska, Clara Drummer, Katharina Fuchs, David Ellinghaus, Jan Christian Kässens, Martin Furholt, Oliver Kohlbacher, Sabine Schade-Lindig, Andre Franke, Stefan Schreiber, Johannes Krause, Johannes Müller, Tobias L. Lenz, Almut Nebel, and Ben Krause-Kyora

Subjects

Biology (General), QH301-705.5

Abstract

Alexander Immel et al. performed genome-wide analyses of 42 individuals from a collective burial in Niedertiefenbach, Germany from the Wartberg Culture. The authors find that this population had a large hunter-gatherer ancestry component and a distinct HLA pool, which indicates immune defenses against viral pathogens.

Published

2021

2. Phylogeography in an 'oyster' shell provides first insights into the genetic structure of an extinct Ostrea edulis population

Author

Sarah Hayer, Dirk Brandis, Alexander Immel, Julian Susat, Montserrat Torres-Oliva, Christine Ewers-Saucedo, and Ben Krause-Kyora

Subjects

Medicine, Science

Abstract

Abstract The historical phylogeography of Ostrea edulis was successfully depicted in its native range for the first time using ancient DNA methods on dry shells from museum collections. This research reconstructed the historical population structure of the European flat oyster across Europe in the 1870s—including the now extinct population in the Wadden Sea. In total, four haplogroups were identified with one haplogroup having a patchy distribution from the North Sea to the Atlantic coast of France. This irregular distribution could be the result of translocations. The other three haplogroups are restricted to narrow geographic ranges, which may indicate adaptation to local environmental conditions or geographical barriers to gene flow. The phylogenetic reconstruction of the four haplogroups suggests the signatures of glacial refugia and postglacial expansion. The comparison with present-day O. edulis populations revealed a temporally stable population genetic pattern over the past 150 years despite large-scale translocations. This historical phylogeographic reconstruction was able to discover an autochthonous population in the German and Danish Wadden Sea in the late nineteenth century, where O. edulis is extinct today. The genetic distinctiveness of a now-extinct population hints at a connection between the genetic background of O. edulis in the Wadden Sea and for its absence until today.

Published

2021

3. A 5,000-year-old hunter-gatherer already plagued by Yersinia pestis

Author

Julian Susat, Harald Lübke, Alexander Immel, Ute Brinker, Aija Macāne, John Meadows, Britta Steer, Andreas Tholey, Ilga Zagorska, Guntis Gerhards, Ulrich Schmölcke, Mārcis Kalniņš, Andre Franke, Elīna Pētersone-Gordina, Barbara Teßman, Mari Tõrv, Stefan Schreiber, Christian Andree, Valdis Bērziņš, Almut Nebel, and Ben Krause-Kyora

Subjects

Yersinia pestis, aDNA, hunter-gatherer, zoonosis, Biology (General), QH301-705.5

Abstract

Summary: A 5,000-year-old Yersinia pestis genome (RV 2039) is reconstructed from a hunter-fisher-gatherer (5300–5050 cal BP) buried at Riņņukalns, Latvia. RV 2039 is the first in a series of ancient strains that evolved shortly after the split of Y. pestis from its antecessor Y. pseudotuberculosis ∼7,000 years ago. The genomic and phylogenetic characteristics of RV 2039 are consistent with the hypothesis that this very early Y. pestis form was most likely less transmissible and maybe even less virulent than later strains. Our data do not support the scenario of a prehistoric pneumonic plague pandemic, as suggested previously for the Neolithic decline. The geographical and temporal distribution of the few prehistoric Y. pestis cases reported so far is more in agreement with single zoonotic events.

Published

2021

4. Mass burial genomics reveals outbreak of enteric paratyphoid fever in the Late Medieval trade city Lübeck

Author

Magdalena Haller, Kimberly Callan, Julian Susat, Anna Lena Flux, Alexander Immel, Andre Franke, Alexander Herbig, Johannes Krause, Anne Kupczok, Gerhard Fouquet, Susanne Hummel, Dirk Rieger, Almut Nebel, and Ben Krause-Kyora

Subjects

Paleontology, Microbiology, Science

Abstract

Summary: Medieval Europe was repeatedly affected by outbreaks of infectious diseases, some of which reached epidemic proportions. A Late Medieval mass burial next to the Heiligen-Geist-Hospital in Lübeck (present-day Germany) contained the skeletal remains of more than 800 individuals who had presumably died from infectious disease. From 92 individuals, we screened the ancient DNA extracts for the presence of pathogens to determine the cause of death. Metagenomic analysis revealed evidence of Salmonella enterica subsp. enterica serovar Paratyphi C, suggesting an outbreak of enteric paratyphoid fever. Three reconstructed S. Paratyphi C genomes showed close similarity to a strain from Norway (1200 CE). Radiocarbon dates placed the disease outbreak in Lübeck between 1270 and 1400 cal CE, with historical records indicating 1367 CE as the most probable year. The deceased were of northern and eastern European descent, confirming Lübeck as an important trading center of the Hanseatic League in the Baltic region.

Published

2021

5. Early cave art and ancient DNA record the origin of European bison

Author

Julien Soubrier, Graham Gower, Kefei Chen, Stephen M. Richards, Bastien Llamas, Kieren J. Mitchell, Simon Y. W. Ho, Pavel Kosintsev, Michael S. Y. Lee, Gennady Baryshnikov, Ruth Bollongino, Pere Bover, Joachim Burger, David Chivall, Evelyne Crégut-Bonnoure, Jared E. Decker, Vladimir B. Doronichev, Katerina Douka, Damien A. Fordham, Federica Fontana, Carole Fritz, Jan Glimmerveen, Liubov V. Golovanova, Colin Groves, Antonio Guerreschi, Wolfgang Haak, Tom Higham, Emilia Hofman-Kamińska, Alexander Immel, Marie-Anne Julien, Johannes Krause, Oleksandra Krotova, Frauke Langbein, Greger Larson, Adam Rohrlach, Amelie Scheu, Robert D. Schnabel, Jeremy F. Taylor, Małgorzata Tokarska, Gilles Tosello, Johannes van der Plicht, Ayla van Loenen, Jean-Denis Vigne, Oliver Wooley, Ludovic Orlando, Rafał Kowalczyk, Beth Shapiro, and Alan Cooper

Subjects

Science

Abstract

The ancestry of the European bison (wisent) remains a mystery. Here, Cooper and colleagues examine ancient DNA from fossil remains of extinct bison, and reveal the wisent originated through the hybridization of the extinct Steppe bison and ancestors of modern cattle.

Published

2016

6. Neolithic and medieval virus genomes reveal complex evolution of hepatitis B

Author

Ben Krause-Kyora, Julian Susat, Felix M Key, Denise Kühnert, Esther Bosse, Alexander Immel, Christoph Rinne, Sabin-Christin Kornell, Diego Yepes, Sören Franzenburg, Henrike O Heyne, Thomas Meier, Sandra Lösch, Harald Meller, Susanne Friederich, Nicole Nicklisch, Kurt W Alt, Stefan Schreiber, Andreas Tholey, Alexander Herbig, Almut Nebel, and Johannes Krause

Subjects

hepatitis B, virus evolution, ancient DNA, human evolution, ancient pathogens, next generation sequencing, Medicine, Science, Biology (General), QH301-705.5

Abstract

The hepatitis B virus (HBV) is one of the most widespread human pathogens known today, yet its origin and evolutionary history are still unclear and controversial. Here, we report the analysis of three ancient HBV genomes recovered from human skeletons found at three different archaeological sites in Germany. We reconstructed two Neolithic and one medieval HBV genome by de novo assembly from shotgun DNA sequencing data. Additionally, we observed HBV-specific peptides using paleo-proteomics. Our results demonstrated that HBV has circulated in the European population for at least 7000 years. The Neolithic HBV genomes show a high genomic similarity to each other. In a phylogenetic network, they do not group with any human-associated HBV genome and are most closely related to those infecting African non-human primates. The ancient viruses appear to represent distinct lineages that have no close relatives today and possibly went extinct. Our results reveal the great potential of ancient DNA from human skeletons in order to study the long-time evolution of blood borne viruses.

Published

2018

7. Genome-wide study of a Neolithic Wartberg grave community reveals distinct HLA variation and hunter-gatherer ancestry

Author

Tobias L. Lenz, Frederica Pierini, Lisa Böhme, Joanna H. Bonczarowska, Janina Dose, Almut Nebel, Johannes Müller, Sabine Schade-Lindig, Rodrigo Barquera, Clara Drummer, Oliver Kohlbacher, Alexander Immel, Andre Franke, Martin Furholt, John Meadows, Julian Susat, David Ellinghaus, András Szolek, Stefan Schreiber, Christoph Rinne, Katharina Fuchs, Jan Christian Kässens, Ben Krause-Kyora, and Johannes Krause

Subjects

0301 basic medicine, Population genetics, QH301-705.5, Human Migration, Population, Medicine (miscellaneous), Human leukocyte antigen, Biology, Genome, Polymorphism, Single Nucleotide, General Biochemistry, Genetics and Molecular Biology, Article, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, HLA Antigens, Residence Characteristics, Germany, Animals, Humans, DNA, Ancient, Biology (General), education, Hunter-gatherer, History, Ancient, education.field_of_study, Genome, Human, Racial Groups, Genetic Variation, Agriculture, Feeding Behavior, Europe, 030104 developmental biology, Genetics, Population, Human leukocyte antigen gene, Archaeology, Evolutionary biology, Western europe, Predatory Behavior, Molecular evolution, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Genome-Wide Association Study, Coevolution

Abstract

The Wartberg culture (WBC, 3500-2800 BCE) dates to the Late Neolithic period, a time of important demographic and cultural transformations in western Europe. We performed genome-wide analyses of 42 individuals who were interred in a WBC collective burial in Niedertiefenbach, Germany (3300-3200 cal. BCE). The results showed that the farming population of Niedertiefenbach carried a surprisingly large hunter-gatherer ancestry component (34–58%). This component was most likely introduced during the cultural transformation that led to the WBC. In addition, the Niedertiefenbach individuals exhibited a distinct human leukocyte antigen gene pool, possibly reflecting an immune response that was geared towards detecting viral infections., Alexander Immel et al. performed genome-wide analyses of 42 individuals from a collective burial in Niedertiefenbach, Germany from the Wartberg Culture. The authors find that this population had a large hunter-gatherer ancestry component and a distinct HLA pool, which indicates immune defenses against viral pathogens.

Published

2021

8. Gene-flow from steppe individuals into Cucuteni-Trypillia associated populations indicates long-standing contacts and gradual admixture

Author

Angela Simalcsik, Ben Krause-Kyora, Almut Nebel, Alexander Immel, Johannes Müller, Stanislav Țerna, Ghenadie Sîrbu, Julian Susat, Oleg Sarov, and Robert Hofmann

Subjects

0301 basic medicine, Gene Flow, Male, Steppe, Population genetics, Human Migration, lcsh:Medicine, Article, Gene flow, 03 medical and health sciences, 0302 clinical medicine, Bronze Age, Humans, Europe, Eastern, lcsh:Science, Mesolithic, geography, Multidisciplinary, geography.geographical_feature_category, Genome, Human, lcsh:R, Archaeology, Archaeological evidence, 030104 developmental biology, Genetics, Population, Female, lcsh:Q, Pottery, 030217 neurology & neurosurgery, Genetic composition

Abstract

The Cucuteni-Trypillia complex (CTC) flourished in eastern Europe for over two millennia (5100 – 2800 BCE) from the end of the Neolithic to the Early Bronze Age. Its vast distribution area encompassed modern-day eastern Romania, Moldova and western/central Ukraine. Due to a lack of existing burials throughout most of this time, only little is known about of the people associated with this complex and their genetic composition. Here, we present genome-wide data generated from the skeletal remains of four females that were excavated from two Late CTC sites in Moldova (3500 – 3100 BCE). All individuals carried a large Neolithic-derived ancestry component and were genetically more closely related to Linear Pottery than to Anatolian farmers. Three of the specimens also showed considerable amounts of steppe-related ancestry, suggesting influx into the CTC gene-pool from people affiliated with, for instance, the Ukraine Mesolithic. The latter scenario is supported by archaeological evidence. Taken together, our results confirm that the steppe component had arrived in eastern Europe farming communities maybe as early as 3500 BCE. In addition, they are in agreement with the hypothesis of ongoing contacts and gradual admixture between incoming steppe and local western populations.

Published

2020

9. Analysis of genomic DNA from medieval plague victims suggests long-term effect of Yersinia pestis on human immunity genes

Author

Susanne Arnold, Verena J. Schuenemann, Felix M. Key, Alexander H. Schmidt, Alexander Herbig, Diana Iraíz Hernández-Zaragoza, Madita S. Kairies, William H. Palmer, Rodrigo Barquera, Julian Susat, Ute V. Solloch, Oliver Kohlbacher, Madeline K. Robinson, Kirsten I. Bos, Maria A. Spyrou, Paul Norman, Jill A. Hollenbach, Joachim Wahl, Jürgen Sauter, Alexander Immel, Genelle F. Harrison, Stephen Forrest, Ben Krause-Kyora, Johannes Krause, Ella Reiter, András Szolek, and Rainer Weiß

Subjects

aDNA, Yersinia pestis, Population, Human leukocyte antigen, Yersinia, AcademicSubjects/SCI01180, Fasttrack, human immunity, Immunity, Genetics, Humans, Allele, education, ancient DNA, Pandemics, Molecular Biology, Allele frequency, Ecology, Evolution, Behavior and Systematics, Plague, education.field_of_study, biology, AcademicSubjects/SCI01130, natural selection, DNA, Genomics, biology.organism_classification, Acquired immune system, HLA

Abstract

Pathogens and associated outbreaks of infectious disease exert selective pressure on human populations, and any changes in allele frequencies that result may be especially evident for genes involved in immunity. In this regard, the 1346-1353 Yersinia pestis-caused Black Death pandemic, with continued plague outbreaks spanning several hundred years, is one of the most devastating recorded in human history. To investigate the potential impact of Y. pestis on human immunity genes we extracted DNA from 36 plague victims buried in a mass grave in Ellwangen, Germany in the 16th century. We targeted 488 immune-related genes, including HLA, using a novel in-solution hybridization capture approach. In comparison with 50 modern native inhabitants of Ellwangen, we find differences in allele frequencies for variants of the innate immunity proteins Ficolin-2 and NLRP14 at sites involved in determining specificity. We also observed that HLA-DRB1*13 is more than twice as frequent in the modern population, whereas HLA-B alleles encoding an isoleucine at position 80 (I-80+), HLA C*06:02 and HLA-DPB1 alleles encoding histidine at position 9 are half as frequent in the modern population. Simulations show that natural selection has likely driven these allele frequency changes. Thus, our data suggests that allele frequencies of HLA genes involved in innate and adaptive immunity responsible for extracellular and intracellular responses to pathogenic bacteria, such as Y. pestis, could have been affected by the historical epidemics that occurred in Europe. - Introduction - Results -- Archaeological and Anthropological Findings -- The 16th Century Ellwangen Plague Victims Display Genetic Similarity with Modern Inhabitants -- Two Immunity-Related Genes Harbor Strongly Differentiated single nucleotide polymorphisms -- No Evidence for Role of CCR5-D32 in Protection from Y. pestis Infection Discussion -- Natural Selection Has Increased HLA-DRB*13 and Reduced HLA-B*51 and -C*06 Frequencies in Modern Individuals -- Higher Incidence of KIR3DL1 Interaction with HLA-B in Plague Victims Than Modern Inhabitants of Ellwangen - Discussion - Materials and Methods

Published

2021

10. Yersinia pestis strains from Latvia show depletion of the pla virulence gene at the end of the second plague pandemic

Author

Julian Susat, Joanna H. Bonczarowska, Elīna Pētersone-Gordina, Alexander Immel, Almut Nebel, Guntis Gerhards, and Ben Krause-Kyora

Subjects

DNA, Bacterial, Plague, Virulence, Yersinia pestis, Evolution, lcsh:R, lcsh:Medicine, Diseases, Pathogenesis, Article, Europe, Plasminogen Activators, Bacterial Proteins, Humans, Metagenome, lcsh:Q, lcsh:Science, Epidemics, Pandemics, Genome, Bacterial

Abstract

Ancient genomic studies have identified Yersinia pestis (Y. pestis) as the causative agent of the second plague pandemic (fourteenth–eighteenth century) that started with the Black Death (1,347–1,353). Most of the Y. pestis strains investigated from this pandemic have been isolated from western Europe, and not much is known about the diversity and microevolution of this bacterium in eastern European countries. In this study, we investigated human remains excavated from two cemeteries in Riga (Latvia). Historical evidence suggests that the burials were a consequence of plague outbreaks during the seventeenth century. DNA was extracted from teeth of 16 individuals and subjected to shotgun sequencing. Analysis of the metagenomic data revealed the presence of Y. pestis sequences in four remains, confirming that the buried individuals were victims of plague. In two samples, Y. pestis DNA coverage was sufficient for genome reconstruction. Subsequent phylogenetic analysis showed that the Riga strains fell within the diversity of the already known post-Black Death genomes. Interestingly, the two Latvian isolates did not cluster together. Moreover, we detected a drop in coverage of the pPCP1 plasmid region containing the pla gene. Further analysis indicated the presence of two pPCP1 plasmids, one with and one without the pla gene region, and only one bacterial chromosome, indicating that the same bacterium carried two distinct pPCP1 plasmids. In addition, we found the same pattern in the majority of previously published post-Black Death strains, but not in the Black Death strains. The pla gene is an important virulence factor for the infection of and transmission in humans. Thus, the spread of pla-depleted strains may, among other causes, have contributed to the disappearance of the second plague pandemic in eighteenth century Europe.

Published

2020

11. Genetic diversity of HLA system in two populations from Morelos, Mexico : Cuernavaca and rural Morelos

Author

Agustín Jericó Arriaga-Perea, Julio Granados, Julio César Martínez-Álvarez, María del Rosario Vega-Martínez, Carolina Bekker-Méndez, Vicencio Juárez-Barreto, Alicia Bravo-Acevedo, Norma Salgado-Galicia, Joaquín Zúñiga, Laura Curiel-Giles, Esteban Arrieta-Bolaños, Bárbara Novelo-Garza, Rosa María Macías-Medrano, Andrea Ortega-Yáñez, Eva Dolores Juárez-Cortés, María Araceli Arrazola-García, Gamaliel Benítez-Arvizu, Diana Iraíz Hernández-Zaragoza, Rodrigo Barquera, Edmond J. Yunis, Stephen Clayton, and Alexander Immel

Subjects

Rural Population, Genetic diversity, Genotype, Geography, Immunology, Medizin, Genetic Variation, Population genetics, General Medicine, Immunogenetics, Human leukocyte antigen, Biology, Linkage Disequilibrium, Genetics, Population, Gene Frequency, Haplotypes, HLA Antigens, Evolutionary biology, Ethnicity, Humans, Immunology and Allergy, Mexico, Alleles

Abstract

We studied HLA class I (HLA-A, -B) and class II (HLA-DRB1, -DQB1) alleles by PCR-SSP based typing in 112 Mexicans from the state of Morelos living in the city of Cuernavaca (N = 82) and rural communities (N = 30), to obtain information regarding allelic and haplotypic frequencies. The most frequent haplotypes in Morelos include seven Native American, one European, one African and one Asian haplotype. Admixture estimates revealed that the main genetic components in Morelos are Native American (60.43 ± 2.22% by ML; 53.57% of Native American haplotypes) and European (39.58 ± 3.70% by ML; 27.68% of European haplotypes), and a virtually absent African genetic component (0.00 ± 4.93% by ML; but 11.16% of African haplotypes).

Published

2020

12. Genetic diversity of HLA system in two populations from Querétaro, Mexico : Querétaro city and rural Querétaro

Author

Diana Iraíz Hernández-Zaragoza, Esteban Arrieta-Bolaños, Stephen Clayton, Vicencio Juárez-Barreto, Rodrigo Barquera, Joaquín Zúñiga, Gamaliel Benítez-Arvizu, María del Rosario Vega-Martínez, Ariadna Berenice Escutia-González, Raquel García-Álvarez, Alicia Bravo-Acevedo, Julio Granados, Julio César Martínez-Álvarez, Francisco Juárez-Nicolás, Alexander Immel, Edmond J. Yunis, María Araceli Arrazola-García, Virginia Martínez-Bezies, Carolina Bekker-Méndez, and Norma Salgado-Galicia

Subjects

Rural Population, Genetic diversity, Genotype, Geography, Immunology, Medizin, Genetic Variation, Population genetics, General Medicine, Immunogenetics, Human leukocyte antigen, Linkage Disequilibrium, Genetics, Population, Gene Frequency, Haplotypes, HLA Antigens, Evolutionary biology, Ethnicity, Humans, Immunology and Allergy, Mexico, Alleles

Abstract

We studied HLA class I (HLA-A, -B) and class II (HLA-DRB1, -DQB1) alleles by PCR-SSP based typing in 88 Mexicans from the state of Querétaro living in the city of Querétaro (N = 45) and rural communities (N = 43), to obtain information regarding allelic and haplotypic frequencies. We find that the most frequent haplotypes in the state of Querétaro include seven Native American, two European and one Asian haplotype. Admixture estimates revealed that the main genetic components in the state of Querétaro are Native American (51.82 ± 4.42% by ML; 42.61% of Native American haplotypes) and European (48.18 ± 3.55% by ML; 46.02% of European haplotypes), with a virtually absent African genetic component (0.00 ± 4.25% by ML; 4.55% of African haplotypes).

Published

2020

13. Genetic diversity of HLA system in two populations from Chiapas, Mexico : Tuxtla Gutiérrez and rural Chiapas

Author

Vicencio Juárez-Barreto, Komathi Sree Ponnandai-Shanmugavel, Esteban Arrieta-Bolaños, Rodrigo Barquera, Tannya Verónica Vázquez-Castillo, Raquel García-Álvarez, Diana Iraíz Hernández-Zaragoza, María Araceli Arrazola-García, Virginia Martínez-Bezies, Alicia Bravo-Acevedo, Ariadna Berenice Escutia-González, Carolina Bekker-Méndez, Francisco Juárez-Nicolás, Alexander Immel, Joaquín Zúñiga, Edmond J. Yunis, Norma Salgado-Galicia, María del Rosario Vega-Martínez, Raúl Solís-Martínez, Andrea Ortega-Yáñez, Julio Granados, Julio César Martínez-Álvarez, Bárbara Novelo-Garza, Stephen Clayton, and Gamaliel Benítez-Arvizu

Subjects

Rural Population, Genetic diversity, Geography, Immunology, Medizin, Population genetics, Genetic Variation, General Medicine, Human leukocyte antigen, Immunogenetics, Linkage Disequilibrium, Genetics, Population, Gene Frequency, Haplotypes, Evolutionary biology, HLA Antigens, Ethnicity, Immunology and Allergy, Humans, Cities, Mexico, Alleles

Abstract

We studied HLA class I (HLA-A, -B) and class II (HLA-DRB1, -DQB1) alleles by PCR-SSP based typing in 173 Mexicans from the state of Chiapas living in the city of Tuxtla Gutiérrez (N = 52) and rural communities (N = 121), to obtain information regarding allelic and haplotypic frequencies. We found that the most frequent haplotypes in Chiapas include 12 Native American and one European haplotype. Admixture estimates revealed that the main genetic components in Chiapas are Native American (71.61 ± 0.58% by ML; 53.16% of Native American haplotypes) and European (26.39 ± 5.05% by ML; 25.86% of European haplotypes), and a less prominent African genetic component (2.00 ± 5.20% by ML; 9.77% of African haplotypes).

Published

2020

14. The genetic history of admixture across inner Eurasia

Author

Mikhail Churnosov, David Reich, Anna A. Bogunova, Khadizhat Dibirova, Larissa Damba, Eldar Idrisov, Leyla Djansugurova, L. A. Atramentova, Maria Lavryashina, Elmira Khussainova, Martine Robbeets, Evgeniya Nikolaevna Kamenshchikova, Nurzhibek Kahbatkyzy, Elena Lukianova, Olzhas Ixan, Nadezhda Dubova, Irina Evseeva, Bakhytzhan Bekmanov, S. M. Koshel, Alexandre Shtrunov, Yuldash Yusupov, Shahlo Turdikulova, A. T. Agdzhoyan, Elena Balanovska, Denis Daragan, Yuri Bogunov, Maxat Zhabagin, Stephan Schiffels, Levon Yepiskoposyan, Victor Zaibert, Pavel Flegontov, Johannes Krause, Nikolay Pislegin, Pagbajabyn Nymadawa, Mait Metspalu, Elvira Pocheshkhova, Ludmila Saroyants, Alexander Immel, Valery Zaporozhchenko, Andrei Bukin, Dilbar Dalimova, R. A. Skhalyakho, Olga Utevska, Wolfgang Haak, Alan K. Outram, Oleg Balanovsky, Choongwon Jeong, Chuan-Chao Wang, and Vladimir Churakov

Subjects

Gene Flow, 0303 health sciences, geography.geographical_feature_category, Geography, Ecology, Steppe, Taiga, Cline (biology), Chalcolithic, 15. Life on land, Tundra, Russia, Gene flow, 03 medical and health sciences, 0302 clinical medicine, Asian People, Bronze Age, Genetic structure, Humans, 030217 neurology & neurosurgery, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

The indigenous populations of inner Eurasia—a huge geographic region covering the central Eurasian steppe and the northern Eurasian taiga and tundra—harbour tremendous diversity in their genes, cultures and languages. In this study, we report novel genome-wide data for 763 individuals from Armenia, Georgia, Kazakhstan, Moldova, Mongolia, Russia, Tajikistan, Ukraine and Uzbekistan. We furthermore report additional damage-reduced genome-wide data of two previously published individuals from the Eneolithic Botai culture in Kazakhstan (~5,400 bp). We find that present-day inner Eurasian populations are structured into three distinct admixture clines stretching between various western and eastern Eurasian ancestries, mirroring geography. The Botai and more recent ancient genomes from Siberia show a decrease in contributions from so-called ‘ancient North Eurasian’ ancestry over time, which is detectable only in the northern-most ‘forest-tundra’ cline. The intermediate ‘steppe-forest’ cline descends from the Late Bronze Age steppe ancestries, while the ‘southern steppe’ cline further to the south shows a strong West/South Asian influence. Ancient genomes suggest a northward spread of the southern steppe cline in Central Asia during the first millennium bc. Finally, the genetic structure of Caucasus populations highlights a role of the Caucasus Mountains as a barrier to gene flow and suggests a post-Neolithic gene flow into North Caucasus populations from the steppe. Genome-wide data for 763 individuals from inner Eurasia reveal 3 admixture clines in present-day populations that mirror geography, illuminating the historic spread and mixture of peoples across the Eurasian steppe, taiga and tundra.

Published

2019

15. Effect of X-ray irradiation on ancient DNA in sub-fossil bones - Guidelines for safe X-ray imaging

Author

Marion Bonazzi, Gilbert Pion, Alexander Immel, Verena J. Schuenemann, Dorothée G. Drucker, Susanne C. Münzel, Oleksandra Krotova, Frauke Langbein, Paul Tafforeau, Heiko Temming, Marie-Anne Julien, Kirsten I. Bos, Katerina Harvati, Nicholas J. Conard, Alexander Herbig, Bence Viola, Johannes Krause, Adeline Le Cabec, Anne Bridault, Jean-Jacques Hublin, Department of Archaeogenetics [Jena] (DAG), Max Planck Institute for the Science of Human History (MPI-SHH), Max-Planck-Gesellschaft-Max-Planck-Gesellschaft, Univ Tubingen, Inst Archaeol Sci Archaeo & Palaeogenet, Tubingen, Germany, Department of Human Evolution [Leipzig], Max Planck Institute for Evolutionary Anthropology [Leipzig], European Synchrotron Radiation Facility (ESRF), Univ Kiel, Inst Clin Mol Biol, Kiel, Germany, Univ Tubingen, Senckenberg Ctr Human Evolut & Palaeoenvironm, Tubingen, Germany, Univ Tubingen, Senckenberg Ctr Human Evolut & Palaeoecol, Palaeoanthropol, Tubingen, Germany, Archéologies et Sciences de l'Antiquité (ArScAn), Université Paris 1 Panthéon-Sorbonne (UP1)-Université Paris Nanterre (UPN)-Ministère de la Culture et de la Communication (MCC)-Centre National de la Recherche Scientifique (CNRS), Assoc Dept Rech Archeol Savoie, F-73230 St Alban Leysse, France, University of Southampton, Natl Ukrainian Acad Sci, Inst Archaeol, Dept Stone Age, Kiev, Ukraine, Univ Tubingen, Inst Archaeol Sci, Archaeozool, Tubingen, Germany, Department of Geosciences, Palaeobiology [Tübingen], University of Tübingen, Univ Toronto, Dept Anthropol, Toronto, ON, Canada, ORANGE, Colette, Eberhard Karls Universität Tübingen = Eberhard Karls University of Tuebingen, and Université Paris 1 Panthéon-Sorbonne (UP1)-Université Paris 8 Vincennes-Saint-Denis (UP8)-Université Paris Nanterre (UPN)-Ministère de la Culture et de la Communication (MCC)-Institut national de recherches archéologiques préventives (Inrap)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, 0301 basic medicine, DOSE-RATE EFFECTS, Double-Strand DNA Breaks, Mineralogy, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Fossil bone, Biology, Dose level, 010603 evolutionary biology, 01 natural sciences, DNA DAMAGE, Bone and Bones, Article, 03 medical and health sciences, 0302 clinical medicine, Nuclear magnetic resonance, DOSE, Animals, DOSE DISTRIBUTIONS, DNA, Ancient, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Fossils, Chemistry, X-Rays, X-ray, Dose-Response Relationship, Radiation, 030104 developmental biology, Ancient DNA, 030220 oncology & carcinogenesis, [SDU.STU] Sciences of the Universe [physics]/Earth Sciences, MICROTOMOGRAPHY, X ray irradiation, FOSSIL BONE, Synchrotrons

Abstract

Sub-fossilised remains may still contain highly degraded ancient DNA (aDNA) useful for palaeogenetic investigations. Whether X-ray computed [micro-] tomography ([μ]CT) imaging of these fossils may further damage aDNA remains debated. Although the effect of X-ray on DNA in living organisms is well documented, its impact on aDNA molecules is unexplored.Here we investigate the effects of synchrotron X-ray irradiation on aDNA from Pleistocene bones. A clear correlation appears between decreasing aDNA quantities and accumulating X-ray dose-levels above 2000 Gray (Gy). We further find that strong X-ray irradiation reduces the amount of nucleotide misincorporations at the aDNA molecule ends. No representative effect can be detected for doses below 200 Gy. Dosimetry shows that conventional μCT usually does not reach the risky dose level, while classical synchrotron imaging can degrade aDNA significantly. Optimised synchrotron protocols and simple rules introduced here are sufficient to ensure that fossils can be scanned without impairing future aDNA studies.

Published

2016