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4. Comparing models on the genealogical relationships among Neandertal, Cro-Magnoid and modern Europeans by serial coalescent simulations

Author

Belle, E.M.S., Benazzo, A., Ghirotto, S., Colonna, V., and Barbujani, G.

Subjects
Europe -- History, Neanderthals -- Genetic aspects, Neanderthals -- History, Neanderthals -- Demographic aspects, Cro-Magnon man -- Genetic aspects, Cro-Magnon man -- History, Cro-Magnon man -- Demographic aspects, Population genetics -- Research, Genealogy -- Research, Mitochondrial DNA -- Research, Biological sciences
Published
2009

6. Large-scale recent expansion of European patrilineages shown by population resequencing

Author

Batini, C., Hallast, P., Zadik, D., Delser, P.M., Benazzo, A., Ghirotto, S., Arroyo-Pardo, E., Cavalleri, G.L., Knijff, P. de, Dupuy, B.M., Eriksen, H.A., King, T.E., Munain, A.L. de, Lopez-Parra, A.M., Loutradis, A., Milasin, J., Novelletto, A., Pamjav, H., Sajantila, A., Tolun, A., Winney, B., Jobling, M.A., Medicum, Forensic Medicine, and PaleOmics Laboratory

Subjects
Male, paternity, haplotype, Y chromosome, Europe, haplotype, MTDNA VARIATION, Population Dynamics, DIVERSITY, Socio-culturale, HUMAN GENOMES, DNA, Mitochondrial, Article, White People, Middle East, REVEALS, HISTORY, Ethnicity, Humans, Computer Simulation, HUMAN Y-CHROMOSOME, History, Ancient, Phylogeny, Demography, Y chromosome, Settore BIO/18, SEQUENCES, Geography, 1184 Genetics, developmental biology, physiology, GENETIC-VARIATION, Genetic Variation, Bayes Theorem, Genomics, Sequence Analysis, DNA, Emigration and Immigration, FRAMEWORK, Biological Evolution, Europe, Genetics, Population, Haplotypes, Mutation, paternity, PHYLOGENETIC TREE
Abstract

The proportion of Europeans descending from Neolithic farmers ∼10 thousand years ago (KYA) or Palaeolithic hunter-gatherers has been much debated. The male-specific region of the Y chromosome (MSY) has been widely applied to this question, but unbiased estimates of diversity and time depth have been lacking. Here we show that European patrilineages underwent a recent continent-wide expansion. Resequencing of 3.7 Mb of MSY DNA in 334 males, comprising 17 European and Middle Eastern populations, defines a phylogeny containing 5,996 single-nucleotide polymorphisms. Dating indicates that three major lineages (I1, R1a and R1b), accounting for 64% of our sample, have very recent coalescent times, ranging between 3.5 and 7.3 KYA. A continuous swathe of 13/17 populations share similar histories featuring a demographic expansion starting ∼2.1–4.2 KYA. Our results are compatible with ancient MSY DNA data, and contrast with data on mitochondrial DNA, indicating a widespread male-specific phenomenon that focuses interest on the social structure of Bronze Age Europe., The origins and antiquity of the people of Europe has been much debated. Here, the authors sequence 3.7 Mb of the Y chromosome in over 300 Europeans and Middle Easterners and show a recent, continent-wide and male-specific expansion dating back to the Bronze Age.

Published
2015

8. Testing the 'Negrito' Hypothesis: Modern Human Phenotypic and Genetic Diversity in Asia

Author

Reyes-Centeno, H., Ghirotto, S., Detroit, F., Grimaud-Hervé, D., BARBUJANI , K., HARVATI, G., Histoire naturelle de l'Homme préhistorique (HNHP), and Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2014

9. Population analyses of ancient Umbrians through a Next Generation Sequencing approach

Author

Modi, A, Rizzi, E, Lancioni, Hovirag, Lannino, A, Pietrelli, A, Bonomi Ponzi, L, Lucentini, Livia, Panara, Fausto, De Bellis, G, Olivieri, A, Ghirotto, S, Lari, M, Barbujani, G, Caramelli, D, and Achilli, Alessandro

Subjects
population genetics, Mitochondrial DNA, Phylogeny, Mitochondrial DNA, Phylogeny, population genetics
Published
2014

14. Diachronic and synchronic genetic analysis of ancient piedmont population

Author

Vai, S., primary, Lari, M., additional, Ghirotto, S., additional, Rizzi, E., additional, Achilli, A., additional, Olivieri, A., additional, Bedini, E., additional, Lippi, B., additional, Rabino Massa, E., additional, Piazza, A., additional, Torroni, A., additional, Barbujani, G., additional, and Caramelli, D., additional

Published
2012
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17. Genealogical Discontinuities among Etruscan, Medieval, and Contemporary Tuscans

Author

Guimaraes, S., primary, Ghirotto, S., additional, Benazzo, A., additional, Milani, L., additional, Lari, M., additional, Pilli, E., additional, Pecchioli, E., additional, Mallegni, F., additional, Lippi, B., additional, Bertoldi, F., additional, Gelichi, S., additional, Casoli, A., additional, Belle, E. M.S., additional, Caramelli, D., additional, and Barbujani, G., additional

Published
2009
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20. Y-chromosome variability and genetic history of Commons from Northern Italy

Author

Alessio Boattini, Rajiv Boscolo Agostini, Stefania Sarno, Giorgia Modenini, Davide Pettener, Silvia Ghirotto, Sara De Fanti, Gianmarco Ferri, Sarno S., Boscolo Agostini R., De Fanti S., Ferri G., Ghirotto S., Modenini G., Pettener D., and Boattini A.

Subjects
Y‐chromosome, social‐cultural isolates, Demographic history, ABC modeling, Population, Haplogroup, NO, ABC modeling, demographic history, social-cultural isolates, Y-chromosome, Genetic Variation, Haplotypes, Genetic Drift, Genetic drift, Genetic variation, Haplotype, Humans, education, Y-chromosome, Research Articles, social-cultural isolates, education.field_of_study, Chromosomes, Human, Y, social-cultural isolate, Genetic Drift, Genetic Variation, demographic history, Genealogy, Genetics, Population, Geography, Italy, Human evolution, Haplotypes, Anthropology, Genetic structure, Anatomy, Commons, Human, Research Article
Abstract

Objectives Genetic drift and admixture are driving forces in human evolution, but their concerted impact to population evolution in historical times and at a micro‐geographic scale is poorly assessed. In this study we test a demographic model encompassing both admixture and drift to the case of social‐cultural isolates such as the so‐called “Commons.” Materials and methods Commons are peculiar institutions of medieval origins whose key feature is the tight relationship between population and territory, mediated by the collective property of shared resources. Here, we analyze the Y‐chromosomal genetic structure of four Commons (for a total of 366 samples) from the Central and Eastern Padana plain in Northern Italy. Results Our results reveal that all these groups exhibit patterns of significant diversity reduction, peripheral/outlier position within the Italian/European genetic space and high frequency of Common‐specific haplogroups. By explicitly testing different drift‐admixture models, we show that a drift‐only model is more probable for Central Padana Commons, while additional admixture (~20%) from external population around the same time of their foundation cannot be excluded for the Eastern ones. Discussion Building on these results, we suggest central Middle Ages as the most probable age of foundation for three of the considered Commons, the remaining one pointing to late antiquity. We conclude that an admixture‐drift model is particularly useful for interpreting the genetic structure and recent demographic history of small‐scale populations in which social‐cultural features play a significant role.

Published
2021

21. Formal linguistics as a cue to demographic history

Author

Longobardi, Giuseppe, Ceolin, Andrea, Ecay, Aaron, Ghirotto, Silvia, Guardiano, Cristina, Irimia, Monica Alexandrina, Michelioudakis, Dimitris, Radkevich, Nina, Pettener, Davide, Luiselli, Donata, Barbujani, Guido, Longobardi, G, Ceolin, A, Ecay, A, Ghirotto, S, Guardiano, C, Irimia, Ma, Michelioudakis, D, Radkevich, N, Pettener, Davide, Luiselli, Donata, and Barbujani, G.

Subjects
EUROPE, Population genetics, Molecular anthropology, DIVERSITY, LANGUAGE, Socio-culturale, Computational linguistics, GENETIC-STRUCTURE, Parametric Comparison Method, Historical Syntax, Population Genetics, Molecular Anthropology, Biolinguistics, Computational Linguistics, Humans, Parametric comparison method, Population genetic, Parametric Comparison Method, ORIGIN, Biolinguistic, Computational linguistic, Linguistics, Parametric comparison method, Historical syntax, Population genetics, Molecular anthropology, Biolinguistics, Computational linguistics, Biological Evolution, Computational Linguistics, Molecular Anthropology, Genetics, Population, Anthropology, Historical syntax, POPULATIONS, Cognitive Science, Historical Syntax, Population Genetics, Biolinguistics
Abstract

Beyond its theoretical success, the development of molecular genetics has brought about the possibility of extraordinary progress in the study of classification and in the inference of the evolutionary history of many species and populations. A major step forward was represented by the availability of extremely large sets of molecular data suited to quantitative and computational treatments. In this paper, we argue that even in cognitive sciences, purely theoretical progress in a discipline such as linguistics may have analogous impact. Thus, exactly on the model of molecular biology, we propose to unify two traditionally unrelated lines of linguistic investigation: 1) the formal study of syntactic variation (parameter theory) in the biolinguistic program; 2) the reconstruction of relatedness among languages (phylogenetic taxonomy). The results of our linguistic analysis have thus been plotted against data from population genetics and the correlations have turned out to be largely significant: given a non-trivial set of languages/populations, the description of their variation provided by the comparison of systematic parametric analysis and molecular anthropology informatively recapitulates their history and relationships. As a result, we can claim that the reality of some parametric model of the language faculty and language acquisition/transmission (more broadly of generative grammar) receives strong and original support from its historical heuristic power. Then, on these grounds, we can begin testing Darwin's prediction that, when properly generated, the trees of human populations and of their languages should eventually turn out to be significantly parallel.

Published
2016

22. The uromodulin gene locus shows evidence of pathogen adaptation through human evolution

Author

Linda Pattini, Peter Vollenweider, Olivier Devuyst, Francesca Tassi, Luca Rampoldi, Guido Barbujani, Silvia Ghirotto, Caroline Hayward, Murielle Bochud, University of Zurich, Rampoldi, L, Ghirotto, S, Tassi, F, Barbujani, G, Pattini, L, Hayward, C, Vollenweider, P, Bochud, M, and Devuyst, O

Subjects
Genetic Markers, 0301 basic medicine, Tamm–Horsfall protein, Population, 030232 urology & nephrology, Socio-culturale, 610 Medicine & health, Genome, 10052 Institute of Physiology, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Uromodulin, Animals, Humans, Allele, education, Denisovan, Gene, Allele frequency, Genetics, education.field_of_study, Urinary tract infection, chronic kidney disease, genetic renal disease, kidney tubule, tubular epithelium, Urinary tract infection, 2727 Nephrology, kidney tubule, biology, Genetic Variation, genetic renal disease, General Medicine, biology.organism_classification, 030104 developmental biology, Genetic Loci, Nephrology, Urinary Tract Infections, biology.protein, 570 Life sciences, Human genome, tubular epithelium, chronic kidney disease
Abstract

Common variants in the UMOD gene encoding uromodulin, associated with risk of hypertension and CKD in the general population, increase UMOD expression and urinary excretion of uromodulin, causing salt-sensitive hypertension and renal lesions. To determine the effect of selective pressure on variant frequency, we investigated the allelic frequency of the lead UMOD variant rs4293393 in 156 human populations, in eight ancient human genomes, and in primate genomes. The T allele of rs4293393, associated with CKD risk, has high frequency in most modern populations and was the one detected in primate genomes. In contrast, we identified only the derived, C allele in Denisovan and Neanderthal genomes. The distribution of the UMOD ancestral allele did not follow the ancestral susceptibility model observed for variants associated with salt-sensitive hypertension. Instead, the global frequencies of the UMOD alleles significantly correlated with pathogen diversity (bacteria, helminths) and prevalence of antibiotic-resistant urinary tract infections (UTIs). The inverse correlation found between urinary levels of uromodulin and markers of UTIs in the general population substantiates the link between UMOD variants and protection against UTIs. These data strongly suggest that the UMOD ancestral allele, driving higher urinary excretion of uromodulin, has been kept at a high frequency because of its protective effect against UTIs.

Published
2016

23. Human population dynamics in Upper Paleolithic Europe inferred from fossil dental phenotypes.

Author

Rathmann H, Vizzari MT, Beier J, Bailey SE, Ghirotto S, and Harvati K

Subjects
Humans, Europe, Bayes Theorem, Archaeology, Fossils, Phenotype, Tooth anatomy & histology, Population Dynamics
Abstract

Despite extensive archaeological research, our knowledge of the human population history of Upper Paleolithic Europe remains limited, primarily due to the scarce availability and poor molecular preservation of fossil remains. As teeth dominate the fossil record and preserve genetic signatures in their morphology, we compiled a large dataset of 450 dentitions dating between ~47 and 7 thousand years ago (ka), outnumbering existing skeletal and paleogenetic datasets. We tested a range of competing demographic scenarios using a coalescent-based machine learning Approximate Bayesian Computation (ABC) framework that we modified for use with phenotypic data. Mostly in agreement with but also challenging some of the hitherto available evidence, we identified a population turnover in western Europe at ~28 ka, isolates in western and eastern refugia between ~28 and 14.7 ka, and bottlenecks during the Last Glacial Maximum. Methodologically, this study marks the pioneering application of ABC to skeletal phenotypes, paving the way for exciting future research avenues.

Published
2024
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24. Disparate and parallel craniofacial climatic adaptations in native populations of Asia, North America, and South America.

Author

Evteev A, Syutkina T, Grosheva A, Santos P, Ghirotto S, Hanihara T, Hubbe M, and Menéndez LP

Subjects
Humans, Adaptation, Physiological physiology, Asia, Biological Evolution, Cephalometry, North America, South America, Climate, Skull anatomy & histology
Abstract

Understanding the impact that climate had in shaping cranial variation is critical for inferring the evolutionary mechanisms that played a role in human diversification. Here, we provide a comprehensive study aiming to analyze the association between climate and cranial variation of high latitude populations living in temperate to cold environments of Asia, North America, and South America. For this, we compiled a large morphometric dataset (N = 2633), which was combined with climatic and genomic data. We tested the influence of climate on the facial skeleton, nasal protrusion, and cranial vault and through multiple statistical tests at two geographical scales: intracontinental and intercontinental. We show that populations living in cold areas share a morphological pattern characterized by an increase in nasal height, facial and orbital heights and widths, a decrease in facial protrusion, and larger, longer, and lower cranial vaults. There are also distinctive features; populations from north Asia present the tallest noses, largest faces, and cranial vaults of the whole sample. Nasal breadth dimensions show small values in Asians, large values in South Americans, and non-significant changes in arctic North America. The morphological pattern in populations living at high latitude may be the result of parallel adaptation, as supported by physiological, morphometric, ecological, and genetic explanations, while the differences in magnitude and phenotypic expression could be due to the diverse population histories, severity of climate, and cultural strategies. Overall, our study shows that climate is a relevant factor shaping modern human morphology and it should be considered when studying modern human evolution and diversification., (© 2024 The Author(s). Journal of Anatomy published by John Wiley & Sons Ltd on behalf of Anatomical Society.)

Published
2024
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25. Unravelling the mystery of endemic versus translocated populations of the endangered Australian lungfish (Neoceratodus forsteri).

Author

Biello R, Ghirotto S, Schmidt DJ, Fuselli S, Roberts DT, Espinoza T, Hughes JM, and Bertorelle G

Subjects
Animals, Bayes Theorem, Australia, Queensland, Fishes genetics
Abstract

The Australian lungfish is a primitive and endangered representative of the subclass Dipnoi. The distribution of this species is limited to south-east Queensland, with some populations considered endemic and others possibly descending from translocations in the late nineteenth century shortly after European discovery. Attempts to resolve the historical distribution of this species have met with conflicting results based on descriptive genetic studies. Understanding if all populations are endemic or some are the result of, or influenced by, translocation events, has implications for conservation management. In this work, we analysed the genetic variation at three types of markers (mtDNA genomes, 11 STRs and 5196 nuclear SNPs) using the approximate Bayesian computation (ABC) algorithm to compare several demographic models. We postulated different contributions of Mary River and Burnett River gene pools into the Brisbane River and North Pine River populations, related to documented translocation events. We ran the analysis for each marker type separately, and we also estimated the posterior probabilities of the models combining the markers. Nuclear SNPs have the highest power to correctly identify the true model among the simulated datasets (where the model was known), but different marker types typically provided similar answers. The most supported demographic model able to explain the real dataset implies that an endemic gene pool is still present in the Brisbane and North Pine Rivers and coexists with the gene pools derived from past documented translocation events. These results support the view that ABC modelling can be useful to reconstruct complex historical translocation events with contemporary implications, and will inform ongoing conservation efforts for the endangered and iconic Australian lungfish., (© 2024 John Wiley & Sons Ltd.)

Published
2024
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26. The Helicobacter pylori Genome Project: insights into H. pylori population structure from analysis of a worldwide collection of complete genomes.

Author

Thorell K, Muñoz-Ramírez ZY, Wang D, Sandoval-Motta S, Boscolo Agostini R, Ghirotto S, Torres RC, Falush D, Camargo MC, and Rabkin CS

Subjects
Humans, Genome, Bacterial genetics, Base Sequence, Genomics, Population Groups, Helicobacter pylori, Helicobacter Infections microbiology
Abstract

Helicobacter pylori, a dominant member of the gastric microbiota, shares co-evolutionary history with humans. This has led to the development of genetically distinct H. pylori subpopulations associated with the geographic origin of the host and with differential gastric disease risk. Here, we provide insights into H. pylori population structure as a part of the Helicobacter pylori Genome Project (HpGP), a multi-disciplinary initiative aimed at elucidating H. pylori pathogenesis and identifying new therapeutic targets. We collected 1011 well-characterized clinical strains from 50 countries and generated high-quality genome sequences. We analysed core genome diversity and population structure of the HpGP dataset and 255 worldwide reference genomes to outline the ancestral contribution to Eurasian, African, and American populations. We found evidence of substantial contribution of population hpNorthAsia and subpopulation hspUral in Northern European H. pylori. The genomes of H. pylori isolated from northern and southern Indigenous Americans differed in that bacteria isolated in northern Indigenous communities were more similar to North Asian H. pylori while the southern had higher relatedness to hpEastAsia. Notably, we also found a highly clonal yet geographically dispersed North American subpopulation, which is negative for the cag pathogenicity island, and present in 7% of sequenced US genomes. We expect the HpGP dataset and the corresponding strains to become a major asset for H. pylori genomics., (© 2023. The Author(s).)

Published
2023
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27. Inferring human neutral genetic variation from craniodental phenotypes.

Author

Rathmann H, Perretti S, Porcu V, Hanihara T, Scott GR, Irish JD, Reyes-Centeno H, Ghirotto S, and Harvati K

Abstract

There is a growing consensus that global patterns of modern human cranial and dental variation are shaped largely by neutral evolutionary processes, suggesting that craniodental features can be used as reliable proxies for inferring population structure and history in bioarchaeological, forensic, and paleoanthropological contexts. However, there is disagreement on whether certain types of data preserve a neutral signature to a greater degree than others. Here, we address this unresolved question and systematically test the relative neutrality of four standard metric and nonmetric craniodental data types employing an extensive computational genotype-phenotype comparison across modern populations from around the world. Our computation draws on the largest existing data sets currently available, while accounting for geographically structured environmental variation, population sampling uncertainty, disparate numbers of phenotypic variables, and stochastic variation inherent to a neutral model of evolution. Our results reveal that the four data types differentially capture neutral genomic variation, with highest signals preserved in dental nonmetric and cranial metric data, followed by cranial nonmetric and dental metric data. Importantly, we demonstrate that combining all four data types together maximizes the neutral genetic signal compared with using them separately, even with a limited number of phenotypic variables. We hypothesize that this reflects a lower level of genetic integration through pleiotropy between, compared to within, the four data types, effectively forming four different modules associated with relatively independent sets of loci. Therefore, we recommend that future craniodental investigations adopt holistic combined data approaches, allowing for more robust inferences about underlying neutral genetic variation., (© The Author(s) 2023. Published by Oxford University Press on behalf of National Academy of Sciences.)

Published
2023
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28. Genetic structure and differentiation from early bronze age in the mediterranean island of sicily: Insights from ancient mitochondrial genomes.

Author

Modi A, Vizzari MT, Catalano G, Boscolo Agostini R, Vai S, Lari M, Vergata C, Zaro V, Liccioli L, Fedi M, Barone S, Nigro L, Lancioni H, Achilli A, Sineo L, Caramelli D, and Ghirotto S

Abstract

Sicily is one of the main islands of the Mediterranean Sea, and it is characterized by a variety of archaeological records, material culture and traditions, reflecting the history of migrations and populations' interaction since its first colonization, during the Paleolithic. These deep and complex demographic and cultural dynamics should have affected the genomic landscape of Sicily at different levels; however, the relative impact of these migrations on the genomic structure and differentiation within the island remains largely unknown. The available Sicilian modern genetic data gave a picture of the current genetic structure, but the paucity of ancient data did not allow so far to make predictions about the level of historical variation. In this work, we sequenced and analyzed the complete mitochondrial genomes of 36 individuals from five different locations in Sicily, spanning from Early Bronze Age to Iron Age, and with different cultural backgrounds. The comparison with coeval groups from the Mediterranean Basin highlighted structured genetic variation in Sicily since Early Bronze Age, thus supporting a demic impact of the cultural transitions within the Island. Explicit model testing through Approximate Bayesian Computation allowed us to make predictions about the origin of Sicanians, one of the three indigenous peoples of Sicily, whose foreign origin from Spain, historically attributed, was not confirmed by our analysis of genetic data. Sicilian modern mitochondrial data show a different, more homogeneous, genetic composition, calling for a recent genetic replacement in the Island of pre-Iron Age populations, that should be further investigated., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Modi, Vizzari, Catalano, Boscolo Agostini, Vai, Lari, Vergata, Zaro, Liccioli, Fedi, Barone, Nigro, Lancioni, Achilli, Sineo, Caramelli and Ghirotto.)

Published
2022
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29. Distinguishing among complex evolutionary models using unphased whole-genome data through random forest approximate Bayesian computation.

Author

Ghirotto S, Vizzari MT, Tassi F, Barbujani G, and Benazzo A

Subjects
Animals, Bayes Theorem, Computer Simulation, Genetics, Population, Humans, Reproducibility of Results, Hominidae, Models, Genetic
Abstract

Inferring past demographic histories is crucial in population genetics, and the amount of complete genomes now available should in principle facilitate this inference. In practice, however, the available inferential methods suffer from severe limitations. Although hundreds complete genomes can be simultaneously analysed, complex demographic processes can easily exceed computational constraints, and the procedures to evaluate the reliability of the estimates contribute to increase the computational effort. Here we present an approximate Bayesian computation framework based on the random forest algorithm (ABC-RF), to infer complex past population processes using complete genomes. To this aim, we propose to summarize the data by the full genomic distribution of the four mutually exclusive categories of segregating sites (FDSS), a statistic fast to compute from unphased genome data and that does not require the ancestral state of alleles to be known. We constructed an efficient ABC pipeline and tested how accurately it allows one to recognize the true model among models of increasing complexity, using simulated data and taking into account different sampling strategies in terms of number of individuals analysed, number and size of the genetic loci considered. We also compared the FDSS with the unfolded and folded site frequency spectrum (SFS), and for these statistics we highlighted the experimental conditions maximizing the inferential power of the ABC-RF procedure. We finally analysed real data sets, testing models on the dispersal of anatomically modern humans out of Africa and exploring the evolutionary relationships of the three species of Orangutan inhabiting Borneo and Sumatra., (© 2020 John Wiley & Sons Ltd.)

Published
2021
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30. Y-chromosome variability and genetic history of Commons from Northern Italy.

Author

Sarno S, Boscolo Agostini R, De Fanti S, Ferri G, Ghirotto S, Modenini G, Pettener D, and Boattini A

Subjects
Genetic Variation genetics, Genetics, Population, Haplotypes, Humans, Italy, Chromosomes, Human, Y genetics, Genetic Drift
Abstract

Objectives: Genetic drift and admixture are driving forces in human evolution, but their concerted impact to population evolution in historical times and at a micro-geographic scale is poorly assessed. In this study we test a demographic model encompassing both admixture and drift to the case of social-cultural isolates such as the so-called "Commons.", Materials and Methods: Commons are peculiar institutions of medieval origins whose key feature is the tight relationship between population and territory, mediated by the collective property of shared resources. Here, we analyze the Y-chromosomal genetic structure of four Commons (for a total of 366 samples) from the Central and Eastern Padana plain in Northern Italy., Results: Our results reveal that all these groups exhibit patterns of significant diversity reduction, peripheral/outlier position within the Italian/European genetic space and high frequency of Common-specific haplogroups. By explicitly testing different drift-admixture models, we show that a drift-only model is more probable for Central Padana Commons, while additional admixture (~20%) from external population around the same time of their foundation cannot be excluded for the Eastern ones., Discussion: Building on these results, we suggest central Middle Ages as the most probable age of foundation for three of the considered Commons, the remaining one pointing to late antiquity. We conclude that an admixture-drift model is particularly useful for interpreting the genetic structure and recent demographic history of small-scale populations in which social-cultural features play a significant role., (© 2021 The Authors. American Journal of Physical Anthropology published by Wiley Periodicals LLC.)

Published
2021
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31. Helicobacter pylori 's historical journey through Siberia and the Americas.

Author

Moodley Y, Brunelli A, Ghirotto S, Klyubin A, Maady AS, Tyne W, Muñoz-Ramirez ZY, Zhou Z, Manica A, Linz B, and Achtman M

Subjects
Americas, Biological Evolution, Genome, Bacterial, Geography, Helicobacter pylori classification, Helicobacter pylori genetics, Humans, Models, Biological, Multilocus Sequence Typing, Siberia, Animal Migration physiology, Helicobacter pylori physiology
Abstract

The gastric bacterium Helicobacter pylori shares a coevolutionary history with humans that predates the out-of-Africa diaspora, and the geographical specificities of H. pylori populations reflect multiple well-known human migrations. We extensively sampled H. pylori from 16 ethnically diverse human populations across Siberia to help resolve whether ancient northern Eurasian populations persisted at high latitudes through the last glacial maximum and the relationships between present-day Siberians and Native Americans. A total of 556 strains were cultivated and genotyped by multilocus sequence typing, and 54 representative draft genomes were sequenced. The genetic diversity across Eurasia and the Americas was structured into three populations: hpAsia2, hpEastAsia, and hpNorthAsia. hpNorthAsia is closely related to the subpopulation hspIndigenousAmericas from Native Americans. Siberian bacteria were structured into five other subpopulations, two of which evolved through a divergence from hpAsia2 and hpNorthAsia, while three originated though Holocene admixture. The presence of both anciently diverged and recently admixed strains across Siberia support both Pleistocene persistence and Holocene recolonization. We also show that hspIndigenousAmericas is endemic in human populations across northern Eurasia. The evolutionary history of hspIndigenousAmericas was reconstructed using approximate Bayesian computation, which showed that it colonized the New World in a single migration event associated with a severe demographic bottleneck followed by low levels of recent admixture across the Bering Strait., Competing Interests: The authors declare no competing interest.

Published
2021
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32. A Revised Model of Anatomically Modern Human Expansions Out of Africa through a Machine Learning Approximate Bayesian Computation Approach.

Author

Vizzari MT, Benazzo A, Barbujani G, and Ghirotto S

Subjects
Africa, Animals, Asia, Bayes Theorem, Biological Evolution, Europe, Genetic Variation, History, Ancient, Humans, Neanderthals genetics, Racial Groups genetics, Computer Simulation, Genome, Human, Hominidae, Human Migration history, Machine Learning, Models, Theoretical
Abstract

There is a wide consensus in considering Africa as the birthplace of anatomically modern humans (AMH), but the dispersal pattern and the main routes followed by our ancestors to colonize the world are still matters of debate. It is still an open question whether AMH left Africa through a single process, dispersing almost simultaneously over Asia and Europe, or in two main waves, first through the Arab Peninsula into southern Asia and Australo-Melanesia, and later through a northern route crossing the Levant. The development of new methodologies for inferring population history and the availability of worldwide high-coverage whole-genome sequences did not resolve this debate. In this work, we test the two main out-of-Africa hypotheses through an Approximate Bayesian Computation approach, based on the Random-Forest algorithm. We evaluated the ability of the method to discriminate between the alternative models of AMH out-of-Africa, using simulated data. Once assessed that the models are distinguishable, we compared simulated data with real genomic variation, from modern and archaic populations. This analysis showed that a model of multiple dispersals is four-fold as likely as the alternative single-dispersal model. According to our estimates, the two dispersal processes may be placed, respectively, around 74,000 and around 46,000 years ago.

Published
2020
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33. Contrasting Paternal and Maternal Genetic Histories of Thai and Lao Populations.

Author

Kutanan W, Kampuansai J, Srikummool M, Brunelli A, Ghirotto S, Arias L, Macholdt E, Hübner A, Schröder R, and Stoneking M

Subjects
Demography, Female, Genetic Variation, Human Migration, Humans, Language, Laos, Male, Thailand, Chromosomes, Human, Y genetics, Family Characteristics, Genome, Mitochondrial
Abstract

The human demographic history of Mainland Southeast Asia (MSEA) has not been well studied; in particular, there have been very few sequence-based studies of variation in the male-specific portions of the Y chromosome (MSY). Here, we report new MSY sequences of ∼2.3 mB from 914 males and combine these with previous data for a total of 928 MSY sequences belonging to 59 populations from Thailand and Laos who speak languages belonging to three major Mainland Southeast Asia families: Austroasiatic, Tai-Kadai, and Sino-Tibetan. Among the 92 MSY haplogroups, two main MSY lineages (O1b1a1a* [O-M95*] and O2a* [O-M324*]) contribute substantially to the paternal genetic makeup of Thailand and Laos. We also analyze complete mitochondrial DNA genome sequences published previously from the same groups and find contrasting pattern of male and female genetic variation and demographic expansions, especially for the hill tribes, Mon, and some major Thai groups. In particular, we detect an effect of postmarital residence pattern on genetic diversity in patrilocal versus matrilocal groups. Additionally, both male and female demographic expansions were observed during the early Mesolithic (∼10 ka), with two later major male-specific expansions during the Neolithic period (∼4-5 ka) and the Bronze/Iron Age (∼2.0-2.5 ka). These two later expansions are characteristic of the modern Austroasiatic and Tai-Kadai groups, respectively, consistent with recent ancient DNA studies. We simulate MSY data based on three demographic models (continuous migration, demic diffusion, and cultural diffusion) of major Thai groups and find different results from mitochondrial DNA simulations, supporting contrasting male and female genetic histories., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2019
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34. A genetic perspective on Longobard-Era migrations.

Author

Vai S, Brunelli A, Modi A, Tassi F, Vergata C, Pilli E, Lari M, Susca RR, Giostra C, Baricco LP, Bedini E, Koncz I, Vida T, Mende BG, Winger D, Loskotová Z, Veeramah K, Geary P, Barbujani G, Caramelli D, and Ghirotto S

Subjects
Bayes Theorem, Cemeteries, Czech Republic, Haplotypes genetics, History, Medieval, Humans, Hungary, Italy, DNA, Ancient analysis, DNA, Mitochondrial genetics, Genome, Mitochondrial genetics, Human Migration history
Abstract

From the first century AD, Europe has been interested by population movements, commonly known as Barbarian migrations. Among these processes, the one involving the Longobard culture interested a vast region, but its dynamics and demographic impact remains largely unknown. Here we report 87 new complete mitochondrial sequences coming from nine early-medieval cemeteries located along the area interested by the Longobard migration (Czech Republic, Hungary and Italy). From the same areas, we sampled necropoleis characterized by cultural markers associated with the Longobard culture (LC) and coeval burials where no such markers were found, or with a chronology slightly preceding the presumed arrival of the Longobards in that region (NLC). Population genetics analysis and demographic modeling highlighted a similarity between LC individuals, as reflected by the sharing of quite rare haplogroups and by the degree of genetic resemblance between Hungarian and Italian LC necropoleis estimated via a Bayesian approach, ABC. The demographic model receiving the strongest statistical support also postulates a contact between LC and NLC communities, thus indicating a complex dynamics of admixture in medieval Europe.

Published
2019
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35. The female ancestor's tale: Long-term matrilineal continuity in a nonisolated region of Tuscany.

Author

Leonardi M, Sandionigi A, Conzato A, Vai S, Lari M, Tassi F, Ghirotto S, Caramelli D, and Barbujani G

Subjects
Anthropology, Physical, Bayes Theorem, DNA, Mitochondrial genetics, Female, Genetic Variation, Genotyping Techniques, Humans, Italy, DNA, Ancient analysis, Evolution, Molecular, Genotype
Abstract

Objectives: With the advent of ancient DNA analyses, it has been possible to disentangle the contribution of ancient populations to the genetic pool of the modern inhabitants of many regions. Reconstructing the maternal ancestry has often highlighted genetic continuity over several millennia, but almost always in isolated areas. Here we analyze North-western Tuscany, a region that was a corridor of exchanges between Central Italy and the Western Mediterranean coast., Materials and Methods: We newly obtained mitochondrial HVRI sequences from 28 individuals, and after gathering published data, we collected genetic information for 119 individuals from the region. Those span five periods during the last 5,000 years: Prehistory, Etruscan age, Roman age, Renaissance, and Present-day. We used serial coalescent simulations in an approximate Bayesian computation framework to test for continuity between the mentioned groups., Results: Our analyses always favor continuity over discontinuity for all groups considered, with the Etruscans being part of the genealogy. Moreover, the posterior distributions of the parameters support very small female effective population sizes., Conclusions: The observed signals of long-term genetic continuity and isolation are in contrast with the history of the region, conquered several times (Etruscans, Romans, Lombards, and French). While the Etruscans appear as a local population, intermediate between the prehistoric and the other samples, we suggest that the other conquerors-arriving from far-had a consistent social or sex bias, hence only marginally affecting the maternal lineages. At the same time, our results show that long-term genealogical continuity is not necessarily linked to geographical isolation., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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36. Understanding 6th-century barbarian social organization and migration through paleogenomics.

Author

Amorim CEG, Vai S, Posth C, Modi A, Koncz I, Hakenbeck S, La Rocca MC, Mende B, Bobo D, Pohl W, Baricco LP, Bedini E, Francalacci P, Giostra C, Vida T, Winger D, von Freeden U, Ghirotto S, Lari M, Barbujani G, Krause J, Caramelli D, Geary PJ, and Veeramah KR

Subjects
Archaeology, Cemeteries, Geography, History, Medieval, Humans, Phylogeny, Principal Component Analysis, Strontium Isotopes, Genomics, Human Migration history, Paleontology history, Social Behavior
Abstract

Despite centuries of research, much about the barbarian migrations that took place between the fourth and sixth centuries in Europe remains hotly debated. To better understand this key era that marks the dawn of modern European societies, we obtained ancient genomic DNA from 63 samples from two cemeteries (from Hungary and Northern Italy) that have been previously associated with the Longobards, a barbarian people that ruled large parts of Italy for over 200 years after invading from Pannonia in 568 CE. Our dense cemetery-based sampling revealed that each cemetery was primarily organized around one large pedigree, suggesting that biological relationships played an important role in these early medieval societies. Moreover, we identified genetic structure in each cemetery involving at least two groups with different ancestry that were very distinct in terms of their funerary customs. Finally, our data are consistent with the proposed long-distance migration from Pannonia to Northern Italy.

Published
2018
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37. New insights from Thailand into the maternal genetic history of Mainland Southeast Asia.

Author

Kutanan W, Kampuansai J, Brunelli A, Ghirotto S, Pittayaporn P, Ruangchai S, Schröder R, Macholdt E, Srikummool M, Kangwanpong D, Hübner A, Arias L, and Stoneking M

Subjects
Asia, Southeastern, Asian People genetics, China, Ethnicity genetics, Haplotypes, History, Ancient, Humans, Language history, Microsatellite Repeats genetics, Thailand, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Genetic Variation genetics, Genetics, Population
Abstract

Tai-Kadai (TK) is one of the major language families in Mainland Southeast Asia (MSEA), with a concentration in the area of Thailand and Laos. Our previous study of 1234 mtDNA genome sequences supported a demic diffusion scenario in the spread of TK languages from southern China to Laos as well as northern and northeastern Thailand. Here we add an additional 560 mtDNA genomes from 22 groups, with a focus on the TK-speaking central Thai people and the Sino-Tibetan speaking Karen. We find extensive diversity, including 62 haplogroups not reported previously from this region. Demic diffusion is still a preferable scenario for central Thais, emphasizing the expansion of TK people through MSEA, although there is also some support for gene flow between central Thai and native Austroasiatic speaking Mon and Khmer. We also tested competing models concerning the genetic relationships of groups from the major MSEA languages, and found support for an ancestral relationship of TK and Austronesian-speaking groups.

Published
2018
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38. Genome diversity in the Neolithic Globular Amphorae culture and the spread of Indo-European languages.

Author

Tassi F, Vai S, Ghirotto S, Lari M, Modi A, Pilli E, Brunelli A, Susca RR, Budnik A, Labuda D, Alberti F, Lalueza-Fox C, Reich D, Caramelli D, and Barbujani G

Subjects
Archaeology, Bayes Theorem, Cell Nucleus genetics, DNA, Ancient analysis, DNA, Mitochondrial genetics, Europe, History, Ancient, Humans, Genetic Variation, Genome, Human, Human Migration history, Language history
Abstract

It is unclear whether Indo-European languages in Europe spread from the Pontic steppes in the late Neolithic, or from Anatolia in the Early Neolithic. Under the former hypothesis, people of the Globular Amphorae culture (GAC) would be descended from Eastern ancestors, likely representing the Yamnaya culture. However, nuclear (six individuals typed for 597 573 SNPs) and mitochondrial (11 complete sequences) DNA from the GAC appear closer to those of earlier Neolithic groups than to the DNA of all other populations related to the Pontic steppe migration. Explicit comparisons of alternative demographic models via approximate Bayesian computation confirmed this pattern. These results are not in contrast to Late Neolithic gene flow from the Pontic steppes into Central Europe. However, they add nuance to this model, showing that the eastern affinities of the GAC in the archaeological record reflect cultural influences from other groups from the East, rather than the movement of people., (© 2017 The Authors.)

Published
2017
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39. Survival and divergence in a small group: The extraordinary genomic history of the endangered Apennine brown bear stragglers.

Author

Benazzo A, Trucchi E, Cahill JA, Maisano Delser P, Mona S, Fumagalli M, Bunnefeld L, Cornetti L, Ghirotto S, Girardi M, Ometto L, Panziera A, Rota-Stabelli O, Zanetti E, Karamanlidis A, Groff C, Paule L, Gentile L, Vilà C, Vicario S, Boitani L, Orlando L, Fuselli S, Vernesi C, Shapiro B, Ciucci P, and Bertorelle G

Subjects
Aggression physiology, Alleles, Amino Acids genetics, Animals, Genomics methods, Phylogeny, Population Density, Rome, Sequence Analysis, DNA, Genetic Variation genetics, Genome, Mitochondrial genetics, Ursidae genetics
Abstract

About 100 km east of Rome, in the central Apennine Mountains, a critically endangered population of ∼50 brown bears live in complete isolation. Mating outside this population is prevented by several 100 km of bear-free territories. We exploited this natural experiment to better understand the gene and genomic consequences of surviving at extremely small population size. We found that brown bear populations in Europe lost connectivity since Neolithic times, when farming communities expanded and forest burning was used for land clearance. In central Italy, this resulted in a 40-fold population decline. The overall genomic impact of this decline included the complete loss of variation in the mitochondrial genome and along long stretches of the nuclear genome. Several private and deleterious amino acid changes were fixed by random drift; predicted effects include energy deficit, muscle weakness, anomalies in cranial and skeletal development, and reduced aggressiveness. Despite this extreme loss of diversity, Apennine bear genomes show nonrandom peaks of high variation, possibly maintained by balancing selection, at genomic regions significantly enriched for genes associated with immune and olfactory systems. Challenging the paradigm of increased extinction risk in small populations, we suggest that random fixation of deleterious alleles ( i ) can be an important driver of divergence in isolation, ( ii ) can be tolerated when balancing selection prevents random loss of variation at important genes, and ( iii ) is followed by or results directly in favorable behavioral changes., Competing Interests: The authors declare no conflict of interest., (Published under the PNAS license.)

Published
2017
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40. Reconstructing human population history from dental phenotypes.

Author

Rathmann H, Reyes-Centeno H, Ghirotto S, Creanza N, Hanihara T, and Harvati K

Subjects
Africa, Anthropology, Physical methods, Asia, Australia, Databases, Genetic, Datasets as Topic, Europe, Female, Fossils, Genetic Markers, Humans, Male, Odontometry, South America, Tandem Repeat Sequences, Tooth anatomy & histology, Phenotype, Polymorphism, Single Nucleotide, Quantitative Trait, Heritable, Tooth metabolism
Abstract

Dental phenotypic data are often used to reconstruct biological relatedness among past human groups. Teeth are an important data source because they are generally well preserved in the archaeological and fossil record, even when associated skeletal and DNA preservation is poor. Furthermore, tooth form is considered to be highly heritable and selectively neutral; thus, teeth are assumed to be an excellent proxy for neutral genetic data when none are available. However, to our knowledge, no study to date has systematically tested the assumption of genetic neutrality of dental morphological features on a global scale. Therefore, for the first time, this study quantifies the correlation of biological affinities between worldwide modern human populations, derived independently from dental phenotypes and neutral genetic markers. We show that population relationship measures based on dental morphology are significantly correlated with those based on neutral genetic data (on average r = 0.574, p < 0.001). This relatively strong correlation validates tooth form as a proxy for neutral genomic markers. Nonetheless, we suggest caution in reconstructions of population affinities based on dental data alone because only part of the dental morphological variation among populations can be explained in terms of neutral genetic differences.

Published
2017
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41. Analysis of the R1b-DF27 haplogroup shows that a large fraction of Iberian Y-chromosome lineages originated recently in situ.

Author

Solé-Morata N, Villaescusa P, García-Fernández C, Font-Porterias N, Illescas MJ, Valverde L, Tassi F, Ghirotto S, Férec C, Rouault K, Jiménez-Moreno S, Martínez-Jarreta B, Pinheiro MF, Zarrabeitia MT, Carracedo Á, de Pancorbo MM, and Calafell F

Subjects
Gene Frequency, Genetic Variation, Humans, Male, Phylogeny, Polymorphism, Single Nucleotide, White People genetics, Alleles, Chromosomes, Human, Y, Genetics, Population, Haplotypes
Abstract

Haplogroup R1b-M269 comprises most Western European Y chromosomes; of its main branches, R1b-DF27 is by far the least known, and it appears to be highly prevalent only in Iberia. We have genotyped 1072 R1b-DF27 chromosomes for six additional SNPs and 17 Y-STRs in population samples from Spain, Portugal and France in order to further characterize this lineage and, in particular, to ascertain the time and place where it originated, as well as its subsequent dynamics. We found that R1b-DF27 is present in frequencies ~40% in Iberian populations and up to 70% in Basques, but it drops quickly to 6-20% in France. Overall, the age of R1b-DF27 is estimated at ~4,200 years ago, at the transition between the Neolithic and the Bronze Age, when the Y chromosome landscape of W Europe was thoroughly remodeled. In spite of its high frequency in Basques, Y-STR internal diversity of R1b-DF27 is lower there, and results in more recent age estimates; NE Iberia is the most likely place of origin of DF27. Subhaplogroup frequencies within R1b-DF27 are geographically structured, and show domains that are reminiscent of the pre-Roman Celtic/Iberian division, or of the medieval Christian kingdoms.

Published
2017
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42. Y chromosomal evidence on the origin of northern Thai people.

Author

Brunelli A, Kampuansai J, Seielstad M, Lomthaisong K, Kangwanpong D, Ghirotto S, and Kutanan W

Subjects
China, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population, Haplotypes, Humans, Male, Microsatellite Repeats, Thailand, Asian People genetics, Chromosomes, Human, Y genetics
Abstract

The Khon Mueang represent the major group of people present in today's northern Thailand. While linguistic and genetic data seem to support a shared ancestry between Khon Mueang and other Tai-Kadai speaking people, the possibility of an admixed origin with contribution from local Mon-Khmer population could not be ruled out. Previous studies conducted on northern Thai people did not provide a definitive answer and, in addition, have largely overlooked the distribution of paternal lineages in the area. In this work we aim to provide a comprehensive analysis of Y paternal lineages in northern Thailand and to explicitly model the origin of the Khon Mueang population. We obtained and analysed new Y chromosomal haplogroup data from more than 500 northern Thai individuals including Khon Mueang, Mon-Khmer and Tai-Kadai. We also explicitly simulated different demographic scenarios, developed to explain the Khon Mueang origin, employing an ABC simulation framework on both mitochondrial and Y microsatellites data. Our results highlighted a similar haplogroup composition of Khon Mueang and Tai-Kadai populations in northern Thailand, with shared high frequencies of haplogroups O-PK4, O-M117 and O-M111. Our ABC simulations also favoured a model in which the ancestors of modern Khon Mueang originated recently after a split from the other Tai-Kadai populations. Our different analyses concluded that the ancestors of Khon Mueang are likely to have originated from the same source of the other Tai-Kadai groups in southern China, with subsequent admixture events involving native Mon-Khmer speakers restricted to some specific populations.

Published
2017
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44. Complete mitochondrial sequences from Mesolithic Sardinia.

Author

Modi A, Tassi F, Susca RR, Vai S, Rizzi E, Bellis G, Lugliè C, Gonzalez Fortes G, Lari M, Barbujani G, Caramelli D, and Ghirotto S

Subjects
Bayes Theorem, Evolution, Molecular, Genetics, Population, Humans, Italy, Phylogeny, Genetic Variation, Genome, Mitochondrial, High-Throughput Nucleotide Sequencing methods, Sequence Analysis, DNA methods
Abstract

Little is known about the genetic prehistory of Sardinia because of the scarcity of pre-Neolithic human remains. From a genetic perspective, modern Sardinians are known as genetic outliers in Europe, showing unusually high levels of internal diversity and a close relationship to early European Neolithic farmers. However, how far this peculiar genetic structure extends and how it originated was to date impossible to test. Here we present the first and oldest complete mitochondrial sequences from Sardinia, dated back to 10,000 yBP. These two individuals, while confirming a Mesolithic occupation of the island, belong to rare mtDNA lineages, which have never been found before in Mesolithic samples and that are currently present at low frequencies not only in Sardinia, but in the whole Europe. Preliminary Approximate Bayesian Computations, restricted by biased reference samples for Mesolithic Sardinia (the two typed samples) and Neolithic Europe (limited to central and north European sequences), suggest that the first inhabitants of the island have had a small or negligible contribution to the present-day Sardinian population, which mainly derives its genetic diversity from continental migration into the island by Neolithic times.

Published
2017
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45. Effect of migration patterns on maternal genetic structure: a case of Tai-Kadai migration from China to Thailand.

Author

Kampuansai J, Kutanan W, Tassi F, Kaewgahya M, Ghirotto S, and Kangwanpong D

Subjects
Analysis of Variance, China, Genetic Markers genetics, Haplotypes genetics, Humans, Thailand, DNA, Mitochondrial genetics, Genetics, Population, Human Migration
Abstract

The migration of the Tai-Kadai speaking people from southern China to northern Thailand over the past hundreds of years has revealed numerous patterns that have likely been influenced by routes, purposes and periods of time. To study the effects of different migration patterns on Tai-Kadai maternal genetic structure, mitochondrial DNA hypervariable region I sequences from the Yong and the Lue people having well-documented histories in northern Thailand were analyzed. Although the Yong and Lue people were historically close relatives who shared Xishuangbanna Dai ancestors, significant genetic differences have been observed among them. The Yong people who have been known to practice mass migration have exhibited a closer genetic affinity to their Dai ancestors than have the Lue people. Genetic heterogeneity and a sudden reduced effective population size within the Lue group is likely a direct result of the circumstances of the founder effect.

Published
2017
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46. Complete mitochondrial genomes of Thai and Lao populations indicate an ancient origin of Austroasiatic groups and demic diffusion in the spread of Tai-Kadai languages.

Author

Kutanan W, Kampuansai J, Srikummool M, Kangwanpong D, Ghirotto S, Brunelli A, and Stoneking M

Subjects
China, Ethnicity genetics, Genetic Variation, Haplotypes, Humans, Language, Logistic Models, Sequence Alignment, Sequence Analysis, DNA, Thailand, DNA, Mitochondrial genetics, Genetics, Population, Genome, Mitochondrial
Abstract

The Tai-Kadai (TK) language family is thought to have originated in southern China and spread to Thailand and Laos, but it is not clear if TK languages spread by demic diffusion (i.e., a migration of people from southern China) or by cultural diffusion, with native Austroasiatic (AA) speakers switching to TK languages. To address this and other questions, we obtained 1234 complete mtDNA genome sequences from 51 TK and AA groups from Thailand and Laos. We find high genetic heterogeneity across the region, with 212 different haplogroups, and significant genetic differentiation among different samples from the same ethnolinguistic group. TK groups are more genetically homogeneous than AA groups, with the latter exhibiting more ancient/basal mtDNA lineages, and showing more drift effects. Modeling of demic diffusion, cultural diffusion, and admixture scenarios consistently supports the spread of TK languages by demic diffusion., Competing Interests: The authors declare that they have no conflict of interest. Ethical approval All procedures performed in studies involving human participants were approved by Chiang Mai University, Khon Kaen University, Naruesuan University, and the Ethics Commission of the University of Leipzig Medical Faculty. Informed consent Informed consent was obtained from all individual participants included in the study.

Published
2017
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47. Genomic validation of the differential preservation of population history in modern human cranial anatomy.

Author

Reyes-Centeno H, Ghirotto S, and Harvati K

Subjects
Adult, Anthropology, Physical, Cephalometry, Female, Humans, Male, Polymorphism, Single Nucleotide genetics, Reproducibility of Results, Genetics, Population methods, Genetics, Population standards, Genomics methods, Skull anatomy & histology
Abstract

Objectives: In modern humans, the significant correlation between neutral genetic loci and cranial anatomy suggests that the cranium preserves a population history signature. However, there is disagreement on whether certain parts of the cranium preserve this signature to a greater degree than other parts. It is also unclear how different quantitative measures of phenotype affect the association of genetic variation and anatomy. Here, we revisit these matters by testing the correlation of genetic distances and various phenotypic distances for ten modern human populations., Materials and Methods: Geometric morphometric shape data from the crania of adult individuals (n = 224) are used to calculate phenotypic P ST , Procrustes, and Mahalanobis distances. We calculate their correlation to neutral genetic distances, F ST , derived from single nucleotide polymorphisms (SNPs). We subset the cranial data into landmark configurations that include the neurocranium, the face, and the temporal bone in order to evaluate whether these cranial regions are differentially correlated to neutral genetic variation., Results: Our results show that P ST , Mahalanobis, and Procrustes distances are correlated with F ST distances to varying degrees. They indicate that overall cranial shape is significantly correlated with neutral genetic variation. Of the component parts examined, P ST distances for both the temporal bone and the face have a stronger association with F ST distances than the neurocranium. When controlling for population divergence time, only the whole cranium and the temporal bone have a statistically significant association with F ST distances., Discussion: Our results confirm that the cranium, as a whole, and the temporal bone can be used to reconstruct modern human population history., (© 2016 Wiley Periodicals, Inc.)

Published
2017
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48. The Uromodulin Gene Locus Shows Evidence of Pathogen Adaptation through Human Evolution.

Author

Ghirotto S, Tassi F, Barbujani G, Pattini L, Hayward C, Vollenweider P, Bochud M, Rampoldi L, and Devuyst O

Subjects
Animals, Genetic Loci, Genetic Markers, Genetic Variation, Humans, Urinary Tract Infections genetics, Evolution, Molecular, Uromodulin genetics
Abstract

Common variants in the UMOD gene encoding uromodulin, associated with risk of hypertension and CKD in the general population, increase UMOD expression and urinary excretion of uromodulin, causing salt-sensitive hypertension and renal lesions. To determine the effect of selective pressure on variant frequency, we investigated the allelic frequency of the lead UMOD variant rs4293393 in 156 human populations, in eight ancient human genomes, and in primate genomes. The T allele of rs4293393, associated with CKD risk, has high frequency in most modern populations and was the one detected in primate genomes. In contrast, we identified only the derived, C allele in Denisovan and Neanderthal genomes. The distribution of the UMOD ancestral allele did not follow the ancestral susceptibility model observed for variants associated with salt-sensitive hypertension. Instead, the global frequencies of the UMOD alleles significantly correlated with pathogen diversity (bacteria, helminths) and prevalence of antibiotic-resistant urinary tract infections (UTIs). The inverse correlation found between urinary levels of uromodulin and markers of UTIs in the general population substantiates the link between UMOD variants and protection against UTIs. These data strongly suggest that the UMOD ancestral allele, driving higher urinary excretion of uromodulin, has been kept at a high frequency because of its protective effect against UTIs., (Copyright © 2016 by the American Society of Nephrology.)

Published
2016
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49. Demographic History of the Genus Pan Inferred from Whole Mitochondrial Genome Reconstructions.

Author

Lobon I, Tucci S, de Manuel M, Ghirotto S, Benazzo A, Prado-Martinez J, Lorente-Galdos B, Nam K, Dabad M, Hernandez-Rodriguez J, Comas D, Navarro A, Schierup MH, Andres AM, Barbujani G, Hvilsom C, and Marques-Bonet T

Subjects
Animals, Genetic Variation, Genetics, Population, High-Throughput Nucleotide Sequencing, Humans, Phylogeny, Evolution, Molecular, Genome, Mitochondrial genetics, Pan paniscus genetics, Pan troglodytes genetics
Abstract

The genus Pan is the closest genus to our own and it includes two species, Pan paniscus (bonobos) and Pan troglodytes (chimpanzees). The later is constituted by four subspecies, all highly endangered. The study of the Pan genera has been incessantly complicated by the intricate relationship among subspecies and the statistical limitations imposed by the reduced number of samples or genomic markers analyzed. Here, we present a new method to reconstruct complete mitochondrial genomes (mitogenomes) from whole genome shotgun (WGS) datasets, mtArchitect, showing that its reconstructions are highly accurate and consistent with long-range PCR mitogenomes. We used this approach to build the mitochondrial genomes of 20 newly sequenced samples which, together with available genomes, allowed us to analyze the hitherto most complete Pan mitochondrial genome dataset including 156 chimpanzee and 44 bonobo individuals, with a proportional contribution from all chimpanzee subspecies. We estimated the separation time between chimpanzees and bonobos around 1.15 million years ago (Mya) [0.81-1.49]. Further, we found that under the most probable genealogical model the two clades of chimpanzees, Western + Nigeria-Cameroon and Central + Eastern, separated at 0.59 Mya [0.41-0.78] with further internal separations at 0.32 Mya [0.22-0.43] and 0.16 Mya [0.17-0.34], respectively. Finally, for a subset of our samples, we compared nuclear versus mitochondrial genomes and we found that chimpanzee subspecies have different patterns of nuclear and mitochondrial diversity, which could be a result of either processes affecting the mitochondrial genome, such as hitchhiking or background selection, or a result of population dynamics., (© The Author(s) 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2016
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50. Formal linguistics as a cue to demographic history.

Author

Longobardi G, Ceolin A, Ecay A, Ghirotto S, Guardiano C, Irimia MA, Michelioudakis D, Radkevich N, Pettener D, Luiselli D, and Barbujani G

Subjects
Cognitive Science, Humans, Anthropology, Biological Evolution, Genetics, Population, Linguistics
Abstract

Beyond its theoretical success, the development of molecular genetics has brought about the possibility of extraordinary progress in the study of classification and in the inference of the evolutionary history of many species and populations. A major step forward was represented by the availability of extremely large sets of molecular data suited to quantitative and computational treatments. In this paper, we argue that even in cognitive sciences, purely theoretical progress in a discipline such as linguistics may have analogous impact. Thus, exactly on the model of molecular biology, we propose to unify two traditionally unrelated lines of linguistic investigation: 1) the formal study of syntactic variation (parameter theory) in the biolinguistic program; 2) the reconstruction of relatedness among languages (phylogenetic taxonomy). The results of our linguistic analysis have thus been plotted against data from population genetics and the correlations have turned out to be largely significant: given a non-trivial set of languages/populations, the description of their variation provided by the comparison of systematic parametric analysis and molecular anthropology informatively recapitulates their history and relationships. As a result, we can claim that the reality of some parametric model of the language faculty and language acquisition/transmission (more broadly of generative grammar) receives strong and original support from its historical heuristic power. Then, on these grounds, we can begin testing Darwin's prediction that, when properly generated, the trees of human populations and of their languages should eventually turn out to be significantly parallel.

Published
2016
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