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21 results on '"Guellil M"'

9. Seismic codes based equivalent nonlinear and stochastic soil structure interaction analysis

Author

Guellil Mohamed Elhebib, Harichane Zamila, and Çelebi Erkan

Subjects
shear modulus, damping, uncertainties, linear iterative method, seismic code, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712
Abstract

The aim of this study is to consider the effects of the variation of shear modulus ratio (G/G0) and damping ratio (ξ) of soil, obtained by a linear iterative method based on the design spectra of seismic codes, the soil environment in terms of uncertainties in shear modulus using Monte Carlo simulations and the foundation damping (ξf) of flexible base for analyses of the Soil-Structure Interaction (SSI) problems. A squat structure with circular shallow foundation resting on a soil layer over a homogeneous half-space is studied by using cone model and considering seismic zone effect on structural response. Firstly, after showing the effects of the correction of G and ξ on impedance functions and the responses of soil-foundation-structure system, a study is carried out to compare these effects to those of the modelling of uncertainties in shear modulus as random variations. Secondly, a comparative analysis on design response spectra and base shear forces was carried out for four seismic codes (Algerian Seismic Rules RPA99-2003, Eurocode 8–2004, International Building Code IBC-2015 and Indian Code IS-1893-2002) considering the three cases of SSI: SSI effects (initial G and ξ), nonlinear SSI (corrected G and ξ) and stochastic SSI (random G with COV = 20%) compared to the fixed base case. Results show that the correction of G and ξ, according to the equivalent nonlinear method in all the cases, leads to a remarkable decrease in peak responses but show a huge amount of reduction in the second study for IBC-2015 and IS-1893-2002 codes compared to the other codes.

Published
2020
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10. Capturing the fusion of two ancestries and kinship structures in Merovingian Flanders.

Author

Sasso S, Saag L, Spros R, Beneker O, Molinaro L, Biagini SA, Lehouck A, Van De Vijver K, Hui R, D'Atanasio E, Kushniarevich A, Kabral H, Metspalu E, Guellil M, Ali MQA, Geypen J, Hoebreckx M, Berk B, De Winter N, Driesen P, Pijpelink A, Van Damme P, Scheib CL, Deschepper E, Deckers P, Snoeck C, Dewilde M, Ervynck A, Tambets K, Larmuseau MHD, and Kivisild T

Subjects
Humans, History, Medieval, Belgium, Burial history, Genetics, Population methods, Female, Male, DNA, Ancient analysis, England, Human Migration, Archaeology, Netherlands, Genome, Human, Pedigree
Abstract

The Merovingian period (5th to 8th cc AD) was a time of demographic, socioeconomic, cultural, and political realignment in Western Europe. Here, we report the whole-genome shotgun sequence data of 30 human skeletal remains from a coastal Late Merovingian site of Koksijde (675 to 750 AD), alongside 18 remains from two Early to Late Medieval sites in present-day Flanders, Belgium. We find two distinct ancestries, one shared with Early Medieval England and the Netherlands, while the other, minor component, reflecting likely continental Gaulish ancestry. Kinship analyses identified no large pedigrees characteristic to elite burials revealing instead a high modularity of distant relationships among individuals of the main ancestry group. In contrast, individuals with >90% Gaulish ancestry had no kinship links among sampled individuals. Evidence for population structure and major differences in the extent of Gaulish ancestry in the main group, including in a mother-daughter pair, suggests ongoing admixture in the community at the time of their burial. The isotopic and genetic evidence combined supports a model by which the burials, representing an established coastal nonelite community, had incorporated migrants from inland populations. The main group of burials at Koksijde shows an abundance of >5 cM long shared allelic intervals with the High Medieval site nearby, implying long-term continuity and suggesting that similarly to Britain, the Early Medieval ancestry shifts left a significant and long-lasting impact on the genetic makeup of the Flemish population. We find substantial allele frequency differences between the two ancestry groups in pigmentation and diet-associated variants, including those linked with lactase persistence, likely reflecting ancestry change rather than local adaptation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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11. Link between Monkeypox Virus Genomes from Museum Specimens and 1965 Zoo Outbreak.

Author

Hämmerle M, Rymbekova A, Gelabert P, Sawyer S, Cheronet O, Bernardi P, Calvignac-Spencer S, Kuhlwilm M, Guellil M, and Pinhasi R

Subjects
Animals, Genomics, Disease Outbreaks, Germany epidemiology, Monkeypox virus, Museums
Abstract

We used pathogen genomics to test orangutan specimens from a museum in Bonn, Germany, to identify the origin of the animals and the circumstances of their death. We found monkeypox virus genomes in the samples and determined that they represent cases from a 1965 outbreak at Rotterdam Zoo in Rotterdam, the Netherlands.

Published
2024
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12. Ancient herpes simplex 1 genomes reveal recent viral structure in Eurasia.

Author

Guellil M, van Dorp L, Inskip SA, Dittmar JM, Saag L, Tambets K, Hui R, Rose A, D'Atanasio E, Kriiska A, Varul L, Koekkelkoren AMHC, Goldina RD, Cessford C, Solnik A, Metspalu M, Krause J, Herbig A, Robb JE, Houldcroft CJ, and Scheib CL

Abstract

Human herpes simplex virus 1 (HSV-1), a life-long infection spread by oral contact, infects a majority of adults globally. Phylogeographic clustering of sampled diversity into European, pan-Eurasian, and African groups has suggested the virus codiverged with human migrations out of Africa, although a much younger origin has also been proposed. We present three full ancient European HSV-1 genomes and one partial genome, dating from the 3rd to 17th century CE, sequenced to up to 9.5× with paired human genomes up to 10.16×. Considering a dataset of modern and ancient genomes, we apply phylogenetic methods to estimate the age of sampled modern Eurasian HSV-1 diversity to 4.68 (3.87 to 5.65) ka. Extrapolation of estimated rates to a global dataset points to the age of extant sampled HSV-1 as 5.29 (4.60 to 6.12) ka, suggesting HSV-1 lineage replacement coinciding with the late Neolithic period and following Bronze Age migrations.

Published
2022
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13. Artificial Intelligence-Based Teleopthalmology Application for Diagnosis of Diabetics Retinopathy.

Author

Ghouali S, Onyema EM, Guellil MS, Wajid MA, Clare O, Cherifi W, and Feham M

Abstract

Diabetic Retinopathy (DR) is one of the leading causes of blindness for people who have diabetes in the world. However, early detection of this disease can essentially decrease its effects on the patient. The recent breakthroughs in technologies, including the use of smart health systems based on Artificial intelligence, IoT and Blockchain are trying to improve the early diagnosis and treatment of diabetic retinopathy. In this study, we presented an AI-based smart teleopthalmology application for diagnosis of diabetic retinopathy. The app has the ability to facilitate the analyses of eye fundus images via deep learning from the Kaggle database using Tensor Flow mathematical library. The app would be useful in promoting mHealth and timely treatment of diabetic retinopathy by clinicians. With the AI-based application presented in this paper, patients can easily get supports and physicians and researchers can also mine or predict data on diabetic retinopathy and reports generated could assist doctors to determine the level of severity of the disease among the people.

Published
2022
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14. An invasive Haemophilus influenzae serotype b infection in an Anglo-Saxon plague victim.

Author

Guellil M, Keller M, Dittmar JM, Inskip SA, Cessford C, Solnik A, Kivisild T, Metspalu M, Robb JE, and Scheib CL

Subjects
Child, Haemophilus influenzae genetics, Humans, Infant, Phylogeny, Serogroup, Haemophilus Vaccines, Plague
Abstract

Background: The human pathogen Haemophilus influenzae was the main cause of bacterial meningitis in children and a major cause of worldwide infant mortality before the introduction of a vaccine in the 1980s. Although the occurrence of serotype b (Hib), the most virulent type of H. influenzae, has since decreased, reports of infections with other serotypes and non-typeable strains are on the rise. While non-typeable strains have been studied in-depth, very little is known of the pathogen's evolutionary history, and no genomes dating prior to 1940 were available., Results: We describe a Hib genome isolated from a 6-year-old Anglo-Saxon plague victim, from approximately 540 to 550 CE, Edix Hill, England, showing signs of invasive infection on its skeleton. We find that the genome clusters in phylogenetic division II with Hib strain NCTC8468, which also caused invasive disease. While the virulence profile of our genome was distinct, its genomic similarity to NCTC8468 points to mostly clonal evolution of the clade since the 6th century. We also reconstruct a partial Yersinia pestis genome, which is likely identical to a published first plague pandemic genome of Edix Hill., Conclusions: Our study presents the earliest genomic evidence for H. influenzae, points to the potential presence of larger genomic diversity in the phylogenetic division II serotype b clade in the past, and allows the first insights into the evolutionary history of this major human pathogen. The identification of both plague and Hib opens questions on the effect of plague in immunocompromised individuals already affected by infectious diseases., (© 2022. The Author(s).)

Published
2022
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15. Bioarchaeological insights into the last plague of Imola (1630-1632).

Author

Guellil M, Rinaldo N, Zedda N, Kersten O, Gonzalez Muro X, Stenseth NC, Gualdi-Russo E, and Bramanti B

Subjects
Adult, Child, Child, Preschool, DNA, Ancient, DNA, Bacterial, Female, Geography, Medical, History, 17th Century, Humans, Italy epidemiology, Male, Metagenome, Metagenomics, Plague history, Yersinia pestis genetics, Archaeology history, Disease Outbreaks history, Plague epidemiology, Plague microbiology
Abstract

The plague of 1630-1632 was one of the deadliest plague epidemics to ever hit Northern Italy, and for many of the affected regions, it was also the last. While accounts on plague during the early 1630s in Florence and Milan are frequent, much less is known about the city of Imola. We analyzed the full skeletal assemblage of four mass graves (n = 133 individuals) at the Lazaretto dell'Osservanza, which date back to the outbreak of 1630-1632 in Imola and evaluated our results by integrating new archival sources. The skeletons showed little evidence of physical trauma and were covered by multiple layers of lime, which is characteristic for epidemic mass mortality sites. We screened 15 teeth for Yersinia pestis aDNA and were able to confirm the presence of plague in Imola via metagenomic analysis. Additionally, we studied a contemporaneous register, in which a friar recorded patient outcomes at the lazaretto during the last year of the epidemic. Our multidisciplinary approach combining historical, osteological and genomic data provided a unique opportunity to reconstruct an in-depth picture of the last plague of Imola through the city's main lazaretto., (© 2021. The Author(s).)

Published
2021
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16. Mycobacterium leprae diversity and population dynamics in medieval Europe from novel ancient genomes.

Author

Pfrengle S, Neukamm J, Guellil M, Keller M, Molak M, Avanzi C, Kushniarevich A, Montes N, Neumann GU, Reiter E, Tukhbatova RI, Berezina NY, Buzhilova AP, Korobov DS, Suppersberger Hamre S, Matos VMJ, Ferreira MT, González-Garrido L, Wasterlain SN, Lopes C, Santos AL, Antunes-Ferreira N, Duarte V, Silva AM, Melo L, Sarkic N, Saag L, Tambets K, Busso P, Cole ST, Avlasovich A, Roberts CA, Sheridan A, Cessford C, Robb J, Krause J, Scheib CL, Inskip SA, and Schuenemann VJ

Subjects
Europe, Genome, Bacterial genetics, Humans, Leprosy genetics, Population Dynamics, Mycobacterium leprae genetics
Abstract

Background: Hansen's disease (leprosy), widespread in medieval Europe, is today mainly prevalent in tropical and subtropical regions with around 200,000 new cases reported annually. Despite its long history and appearance in historical records, its origins and past dissemination patterns are still widely unknown. Applying ancient DNA approaches to its major causative agent, Mycobacterium leprae, can significantly improve our understanding of the disease's complex history. Previous studies have identified a high genetic continuity of the pathogen over the last 1500 years and the existence of at least four M. leprae lineages in some parts of Europe since the Early Medieval period., Results: Here, we reconstructed 19 ancient M. leprae genomes to further investigate M. leprae's genetic variation in Europe, with a dedicated focus on bacterial genomes from previously unstudied regions (Belarus, Iberia, Russia, Scotland), from multiple sites in a single region (Cambridgeshire, England), and from two Iberian leprosaria. Overall, our data confirm the existence of similar phylogeographic patterns across Europe, including high diversity in leprosaria. Further, we identified a new genotype in Belarus. By doubling the number of complete ancient M. leprae genomes, our results improve our knowledge of the past phylogeography of M. leprae and reveal a particularly high M. leprae diversity in European medieval leprosaria., Conclusions: Our findings allow us to detect similar patterns of strain diversity across Europe with branch 3 as the most common branch and the leprosaria as centers for high diversity. The higher resolution of our phylogeny tree also refined our understanding of the interspecies transfer between red squirrels and humans pointing to a late antique/early medieval transmission. Furthermore, with our new estimates on the past population diversity of M. leprae, we gained first insights into the disease's global history in relation to major historic events such as the Roman expansion or the beginning of the regular transatlantic long distance trade. In summary, our findings highlight how studying ancient M. leprae genomes worldwide improves our understanding of leprosy's global history and can contribute to current models of M. leprae's worldwide dissemination, including interspecies transmissions., (© 2021. The Author(s).)

Published
2021
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17. A genomic and historical synthesis of plague in 18th century Eurasia.

Author

Guellil M, Kersten O, Namouchi A, Luciani S, Marota I, Arcini CA, Iregren E, Lindemann RA, Warfvinge G, Bakanidze L, Bitadze L, Rubini M, Zaio P, Zaio M, Neri D, Stenseth NC, and Bramanti B

Subjects
DNA, Bacterial, Europe, History, 18th Century, History, Medieval, Humans, Pandemics history, Phylogeny, Plague genetics, Russia, Yersinia pestis classification, Genome, Bacterial, Plague history, Plague microbiology, Yersinia pestis genetics
Abstract

Plague continued to afflict Europe for more than five centuries after the Black Death. Yet, by the 17th century, the dynamics of plague had changed, leading to its slow decline in Western Europe over the subsequent 200 y, a period for which only one genome was previously available. Using a multidisciplinary approach, combining genomic and historical data, we assembled Y. pestis genomes from nine individuals covering four Eurasian sites and placed them into an historical context within the established phylogeny. CHE1 (Chechnya, Russia, 18th century) is now the latest Second Plague Pandemic genome and the first non-European sample in the post-Black Death lineage. Its placement in the phylogeny and our synthesis point toward the existence of an extra-European reservoir feeding plague into Western Europe in multiple waves. By considering socioeconomic, ecological, and climatic factors we highlight the importance of a noneurocentric approach for the discussion on Second Plague Pandemic dynamics in Europe., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published
2020
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18. Metagenomic analysis of dental calculus in ancient Egyptian baboons.

Author

Ottoni C, Guellil M, Ozga AT, Stone AC, Kersten O, Bramanti B, Porcier S, and Van Neer W

Subjects
Animals, Egypt, Humans, Neanderthals, Pan troglodytes, Papio, DNA, Ancient analysis, Dental Calculus microbiology, Metagenome, Microbiota genetics
Abstract

Dental calculus, or mineralized plaque, represents a record of ancient biomolecules and food residues. Recently, ancient metagenomics made it possible to unlock the wealth of microbial and dietary information of dental calculus to reconstruct oral microbiomes and lifestyle of humans from the past. Although most studies have so far focused on ancient humans, dental calculus is known to form in a wide range of animals, potentially informing on how human-animal interactions changed the animals' oral ecology. Here, we characterise the oral microbiome of six ancient Egyptian baboons held in captivity during the late Pharaonic era (9 th -6 th centuries BC) and of two historical baboons from a zoo via shotgun metagenomics. We demonstrate that these captive baboons possessed a distinctive oral microbiome when compared to ancient and modern humans, Neanderthals and a wild chimpanzee. These results may reflect the omnivorous dietary behaviour of baboons, even though health, food provisioning and other factors associated with human management, may have changed the baboons' oral microbiome. We anticipate our study to be a starting point for more extensive studies on ancient animal oral microbiomes to examine the extent to which domestication and human management in the past affected the diet, health and lifestyle of target animals.

Published
2019
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19. Shifts in the Genetic Landscape of the Western Eurasian Steppe Associated with the Beginning and End of the Scythian Dominance.

Author

Järve M, Saag L, Scheib CL, Pathak AK, Montinaro F, Pagani L, Flores R, Guellil M, Saag L, Tambets K, Kushniarevich A, Solnik A, Varul L, Zadnikov S, Petrauskas O, Avramenko M, Magomedov B, Didenko S, Toshev G, Bruyako I, Grechko D, Okatenko V, Gorbenko K, Smyrnov O, Heiko A, Reida R, Sapiehin S, Sirotin S, Tairov A, Beisenov A, Starodubtsev M, Vasilev V, Nechvaloda A, Atabiev B, Litvinov S, Ekomasova N, Dzhaubermezov M, Voroniatov S, Utevska O, Shramko I, Khusnutdinova E, Metspalu M, Savelev N, Kriiska A, Kivisild T, and Villems R

Subjects
Archaeology, Ethnicity genetics, Genome, Human, History, Ancient, Humans, Male, Ukraine, DNA, Ancient analysis, DNA, Mitochondrial analysis, Genetic Drift, Human Migration
Abstract

The Early Iron Age nomadic Scythians have been described as a confederation of tribes of different origins, based on ancient DNA evidence [1-3]. It is still unclear how much of the Scythian dominance in the Eurasian Steppe was due to movements of people and how much reflected cultural diffusion and elite dominance. We present new whole-genome sequences of 31 ancient Western and Eastern Steppe individuals, including Scythians as well as samples pre- and postdating them, allowing us to set the Scythians in a temporal context (in the Western, i.e., Ponto-Caspian Steppe). We detect an increase of eastern (Altaian) affinity along with a decrease in eastern hunter-gatherer (EHG) ancestry in the Early Iron Age Ponto-Caspian gene pool at the start of the Scythian dominance. On the other hand, samples of the Chernyakhiv culture postdating the Scythians in Ukraine have a significantly higher proportion of Near Eastern ancestry than other samples of this study. Our results agree with the Gothic source of the Chernyakhiv culture and support the hypothesis that the Scythian dominance did involve a demic component., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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20. Integrative approach using Yersinia pestis genomes to revisit the historical landscape of plague during the Medieval Period.

Author

Namouchi A, Guellil M, Kersten O, Hänsch S, Ottoni C, Schmid BV, Pacciani E, Quaglia L, Vermunt M, Bauer EL, Derrick M, Jensen AØ, Kacki S, Cohn SK Jr, Stenseth NC, and Bramanti B

Subjects
DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Europe epidemiology, Evolution, Molecular, Fossils microbiology, Genome, Bacterial, History, Medieval, Humans, Phylogeny, Plague epidemiology, Plague microbiology, Polymorphism, Single Nucleotide, Time Factors, Yersinia pestis classification, Pandemics history, Plague history, Yersinia pestis genetics
Abstract

Over the last few years, genomic studies on Yersinia pestis , the causative agent of all known plague epidemics, have considerably increased in numbers, spanning a period of about 5,000 y. Nonetheless, questions concerning historical reservoirs and routes of transmission remain open. Here, we present and describe five genomes from the second half of the 14th century and reconstruct the evolutionary history of Y. pestis by reanalyzing previously published genomes and by building a comprehensive phylogeny focused on strains attributed to the Second Plague Pandemic (14th to 18th century). Corroborated by historical and ecological evidence, the presented phylogeny, which includes our Y. pestis genomes, could support the hypothesis of an entry of plague into Western European ports through distinct waves of introduction during the Medieval Period, possibly by means of fur trade routes, as well as the recirculation of plague within the human population via trade routes and human movement., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published
2018
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21. Genomic blueprint of a relapsing fever pathogen in 15th century Scandinavia.

Author

Guellil M, Kersten O, Namouchi A, Bauer EL, Derrick M, Jensen AØ, Stenseth NC, and Bramanti B

Subjects
Adult, Animals, Borrelia classification, Borrelia pathogenicity, Child, Female, History, 15th Century, Humans, Phylogeny, Relapsing Fever history, Relapsing Fever microbiology, Scandinavian and Nordic Countries, Bacterial Proteins genetics, Borrelia genetics, Genome, Bacterial, Metagenomics, Relapsing Fever genetics
Abstract

Louse-borne relapsing fever (LBRF) is known to have killed millions of people over the course of European history and remains a major cause of mortality in parts of the world. Its pathogen, Borrelia recurrentis , shares a common vector with global killers such as typhus and plague and is known for its involvement in devastating historical epidemics such as the Irish potato famine. Here, we describe a European and historical genome of B recurrentis , recovered from a 15th century skeleton from Oslo. Our distinct European lineage has a discrete genomic makeup, displaying an ancestral oppA-1 gene and gene loss in antigenic variation sites. Our results illustrate the potential of ancient DNA research to elucidate dynamics of reductive evolution in a specialized human pathogen and to uncover aspects of human health usually invisible to the archaeological record., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published
2018
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