Your search keyword '"Ricaut FX"' showing total 59 results

1. Lithic drill points: an ethno-historic case study from Motopure Island (Papua New Guinea)

Author

Forestier, H, Beni, T, Baills, H, Ricaut, FX, Leavesley, MG, Histoire naturelle de l'Homme préhistorique (HNHP), Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS), and UISPP

Subjects

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

Abstract

International audience

Published

2018

2. Genomic analyses inform on migration events during the peopling of Eurasia

Author

Pagani, L, Lawson, DJ, Jagoda, E, Mörseburg, A, Eriksson, A, Mitt, M, Clemente, F, Hudjashov, G, Degiorgio, M, Saag, L, Wall, JD, Cardona, A, Mägi, R, Sayres, MAW, Kaewert, S, Inchley, C, Scheib, CL, Järve, M, Karmin, M, Jacobs, GS, Antao, T, Iliescu, FM, Kushniarevich, A, Ayub, Q, Tyler-Smith, C, Xue, Y, Yunusbayev, B, Tambets, K, Mallick, CB, Pocheshkhova, E, Andriadze, G, Muller, C, Westaway, MC, Lambert, DM, Zoraqi, G, Turdikulova, S, Dalimova, D, Sabitov, Z, Sultana, GNN, Lachance, J, Tishkoff, S, Momynaliev, K, Isakova, J, Damba, LD, Gubina, M, Nymadawa, P, Evseeva, I, Atramentova, L, Utevska, O, Ricaut, FX, Brucato, N, Sudoyo, H, Letellier, T, Cox, MP, Barashkov, NA, Mulahasanović, L, Primorac, D, Mormina, M, Eichstaedt, CA, Lichman, DV, Chaubey, G, Wee, JTS, Mihailov, E, Karunas, A, Litvinov, S, Khusainova, R, and Ekomasova, N

Abstract

© 2016 Macmillan Publishers Limited, part of Springer Nature. High-Coverage whole-genome sequence studies have so far focused on a limited number of geographically restricted populations, or been targeted at specific diseases, such as cancer. Nevertheless, the availability of high-resolution genomic data has led to the development of new methodologies for inferring population history and refuelled the debate on the mutation rate in humans. Here we present the Estonian Biocentre Human Genome Diversity Panel (EGDP), a dataset of 483 high-coverage human genomes from 148 populations worldwide, including 379 new genomes from 125 populations, which we group into diversity and selection sets. We analyse this dataset to refine estimates of continent-wide patterns of heterozygosity, long-and short-distance gene flow, archaic admixture, and changes in effective population size through time as well as for signals of positive or balancing selection. We find a genetic signature in present-day Papuans that suggests that at least 2% of their genome originates from an early and largely extinct expansion of anatomically modern humans (AMHs) out of Africa. Together with evidence from the western Asian fossil record, and admixture between AMHs and Neanderthals predating the main Eurasian expansion, our results contribute to the mounting evidence for the presence of AMHs out of Africa earlier than 75,000 years ago.

Published

2016

3. Denisovan admixture facilitated environmental adaptation in Papua New Guinean populations.

Author

Yermakovich D, André M, Brucato N, Kariwiga J, Leavesley M, Pankratov V, Mondal M, Ricaut FX, and Dannemann M

Subjects

Papua New Guinea, Humans, Animals, Adaptation, Physiological genetics, Genetics, Population, Haplotypes, Neanderthals genetics

Abstract

Neandertals and Denisovans, having inhabited distinct regions in Eurasia and possibly Oceania for over 200,000 y, experienced ample time to adapt to diverse environmental challenges these regions presented. Among present-day human populations, Papua New Guineans (PNG) stand out as one of the few carrying substantial amounts of both Neandertal and Denisovan DNA, a result of past admixture events with these archaic human groups. This study investigates the distribution of introgressed Denisovan and Neandertal DNA within two distinct PNG populations, residing in the highlands of Mt Wilhelm and the lowlands of Daru Island. These locations exhibit unique environmental features, some of which may parallel the challenges that archaic humans once confronted and adapted to. Our results show that PNG highlanders carry higher levels of Denisovan DNA compared to PNG lowlanders. Among the Denisovan-like haplotypes with higher frequencies in highlander populations, those exhibiting the greatest frequency difference compared to lowlander populations also demonstrate more pronounced differences in population frequencies than frequency-matched nonarchaic variants. Two of the five most highly differentiated of those haplotypes reside in genomic areas linked to brain development genes. Conversely, Denisovan-like haplotypes more frequent in lowlanders overlap with genes associated with immune response processes. Our findings suggest that Denisovan DNA has provided genetic variation associated with brain biology and immune response to PNG genomes, some of which might have facilitated adaptive processes to environmental challenges., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

4. Positive selection in the genomes of two Papua New Guinean populations at distinct altitude levels.

Author

André M, Brucato N, Hudjasov G, Pankratov V, Yermakovich D, Montinaro F, Kreevan R, Kariwiga J, Muke J, Boland A, Deleuze JF, Meyer V, Evans N, Cox MP, Leavesley M, Dannemann M, Org T, Metspalu M, Mondal M, and Ricaut FX

Subjects

Papua New Guinea, Humans, Genome, Human, Genetics, Population, Selection, Genetic, Polymorphism, Single Nucleotide, Altitude, Linkage Disequilibrium, Haplotypes

Abstract

Highlanders and lowlanders of Papua New Guinea have faced distinct environmental stress, such as hypoxia and environment-specific pathogen exposure, respectively. In this study, we explored the top genomics regions and the candidate driver SNPs for selection in these two populations using newly sequenced whole-genomes of 54 highlanders and 74 lowlanders. We identified two candidate SNPs under selection - one in highlanders, associated with red blood cell traits and another in lowlanders, which is associated with white blood cell count - both potentially influencing the heart rate of Papua New Guineans in opposite directions. We also observed four candidate driver SNPs that exhibit linkage disequilibrium with an introgressed haplotype, highlighting the need to explore the possibility of adaptive introgression within these populations. This study reveals that the signatures of positive selection in highlanders and lowlanders of Papua New Guinea align closely with the challenges they face, which are specific to their environments., (© 2024. The Author(s).)

Published

2024

5. First insight into oral microbiome diversity in Papua New Guineans reveals a specific regional signature.

Author

Pedro N, Brucato N, Cavadas B, Lisant V, Camacho R, Kinipi C, Leavesley M, Pereira L, and Ricaut FX

Subjects

Humans, Australia, Geography, Papua New Guinea, Microbiota genetics, Mouth microbiology

Abstract

The oral microbiota is a highly complex and diversified part of the human microbiome. Being located at the interface between the human body and the exterior environment, this microbiota can deepen our understanding of the environmental impacts on the global status of human health. This research topic has been well addressed in Westernized populations, but these populations only represent a fraction of human diversity. Papua New Guinea hosts very diverse environments and one of the most unique human biological diversities worldwide. In this study we performed the first known characterization of the oral microbiome in 85 Papua New Guinean individuals living in different environments, using a qualitative and quantitative approach. We found a significant geographical structure of the Papua New Guineans oral microbiome, especially in the groups most isolated from urban spaces. In comparison to other global populations, two bacterial genera related to iron absorption were significantly more abundant in Papua New Guineans and Aboriginal Australians, which suggests a shared oral microbiome signature. Further studies will be needed to confirm and explore this possible regional-specific oral microbiome profile., (© 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2023

6. Denisovan introgression has shaped the immune system of present-day Papuans.

Author

Vespasiani DM, Jacobs GS, Cook LE, Brucato N, Leavesley M, Kinipi C, Ricaut FX, Cox MP, and Gallego Romero I

Subjects

Humans, Papua New Guinea, Immune System, Hominidae genetics, Neanderthals genetics, Evolution, Molecular

Abstract

Modern humans have admixed with multiple archaic hominins. Papuans, in particular, owe up to 5% of their genome to Denisovans, a sister group to Neanderthals whose remains have only been identified in Siberia and Tibet. Unfortunately, the biological and evolutionary significance of these introgression events remain poorly understood. Here we investigate the function of both Denisovan and Neanderthal alleles characterised within a set of 56 genomes from Papuan individuals. By comparing the distribution of archaic and non-archaic variants we assess the consequences of archaic admixture across a multitude of different cell types and functional elements. We observe an enrichment of archaic alleles within cis-regulatory elements and transcribed regions of the genome, with Denisovan variants strongly affecting elements active within immune-related cells. We identify 16,048 and 10,032 high-confidence Denisovan and Neanderthal variants that fall within annotated cis-regulatory elements and with the potential to alter the affinity of multiple transcription factors to their cognate DNA motifs, highlighting a likely mechanism by which introgressed DNA can impact phenotypes. Lastly, we experimentally validate these predictions by testing the regulatory potential of five Denisovan variants segregating within Papuan individuals, and find that two are associated with a significant reduction of transcriptional activity in plasmid reporter assays. Together, these data provide support for a widespread contribution of archaic DNA in shaping the present levels of modern human genetic diversity, with different archaic ancestries potentially affecting multiple phenotypic traits within non-Africans., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Vespasiani et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

7. Tissue- and ethnicity-independent hypervariable DNA methylation states show evidence of establishment in the early human embryo.

Author

Derakhshan M, Kessler NJ, Ishida M, Demetriou C, Brucato N, Moore GE, Fall CHD, Chandak GR, Ricaut FX, Prentice AM, Hellenthal G, and Silver MJ

Subjects

Humans, Reproducibility of Results, CpG Islands, Ethnicity, DNA Methylation genetics, Embryo, Mammalian metabolism

Abstract

We analysed DNA methylation data from 30 datasets comprising 3474 individuals, 19 tissues and 8 ethnicities at CpGs covered by the Illumina450K array. We identified 4143 hypervariable CpGs ('hvCpGs') with methylation in the top 5% most variable sites across multiple tissues and ethnicities. hvCpG methylation was influenced but not determined by genetic variation, and was not linked to probe reliability, epigenetic drift, age, sex or cell heterogeneity effects. hvCpG methylation tended to covary across tissues derived from different germ-layers and hvCpGs were enriched for proximity to ERV1 and ERVK retrovirus elements. hvCpGs were also enriched for loci previously associated with periconceptional environment, parent-of-origin-specific methylation, and distinctive methylation signatures in monozygotic twins. Together, these properties position hvCpGs as strong candidates for studying how stochastic and/or environmentally influenced DNA methylation states which are established in the early embryo and maintained stably thereafter can influence life-long health and disease., (© The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2022

8. Chronology of natural selection in Oceanian genomes.

Author

Brucato N, André M, Hudjashov G, Mondal M, Cox MP, Leavesley M, and Ricaut FX

Abstract

As human populations left Asia to first settle in Oceania around 50,000 years ago, they entered a territory ecologically separated from the Old World for millions of years. We analyzed genomic data of 239 modern Oceanian individuals to detect and date signals of selection specific to this region. Combining both relative and absolute dating approaches, we identified a strong selection pattern between 52,000 and 54,000 years ago in the genomes of descendants of the first settlers of Sahul. This strikingly corresponds to the dates of initial settlement as inferred from archaeological evidence. Loci under selection during this period, some showing enrichment in Denisovan ancestry, overlap genes involved in the immune response and diet, especially based on plants. Pathogens and natural resources, especially from endemic plants, therefore appear to have acted as strong selective pressures on the genomes of the first settlers of Sahul., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published

2022

9. Episodes of Diversification and Isolation in Island Southeast Asian and Near Oceanian Male Lineages.

Author

Karmin M, Flores R, Saag L, Hudjashov G, Brucato N, Crenna-Darusallam C, Larena M, Endicott PL, Jakobsson M, Lansing JS, Sudoyo H, Leavesley M, Metspalu M, Ricaut FX, and Cox MP

Subjects

Asia, Southeastern, Humans, Male, Mitochondria genetics, Phylogeny, Asian People, DNA, Mitochondrial genetics

Abstract

Island Southeast Asia (ISEA) and Oceania host one of the world's richest assemblages of human phenotypic, linguistic, and cultural diversity. Despite this, the region's male genetic lineages are globally among the last to remain unresolved. We compiled ∼9.7 Mb of Y chromosome (chrY) sequence from a diverse sample of over 380 men from this region, including 152 first reported here. The granularity of this data set allows us to fully resolve and date the regional chrY phylogeny. This new high-resolution tree confirms two main population bursts: multiple rapid diversifications following the region's initial settlement ∼50 kya, and extensive expansions <6 kya. Notably, ∼40-25 kya the deep rooting local lineages of C-M130, M-P256, and S-B254 show almost no further branching events in ISEA, New Guinea, and Australia, matching a similar pause in diversification seen in maternal mitochondrial DNA lineages. The main local lineages start diversifying ∼25 kya, at the time of the last glacial maximum. This improved chrY topology highlights localized events with important historical implications, including pre-Holocene contact between Mainland and ISEA, potential interactions between Australia and the Papuan world, and a sustained period of diversification following the flooding of the ancient Sunda and Sahul continents as the insular landscape observed today formed. The high-resolution phylogeny of the chrY presented here thus enables a detailed exploration of past isolation, interaction, and change in one of the world's least understood regions., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2022

10. Papua New Guinean Genomes Reveal the Complex Settlement of North Sahul.

Author

Brucato N, André M, Tsang R, Saag L, Kariwiga J, Sesuki K, Beni T, Pomat W, Muke J, Meyer V, Boland A, Deleuze JF, Sudoyo H, Mondal M, Pagani L, Gallego Romero I, Metspalu M, Cox MP, Leavesley M, and Ricaut FX

Subjects

Australia, Humans, Papua New Guinea, Phylogeny, Ethnicity, Human Migration

Abstract

The settlement of Sahul, the lost continent of Oceania, remains one of the most ancient and debated human migrations. Modern New Guineans inherited a unique genetic diversity tracing back 50,000 years, and yet there is currently no model reconstructing their past population dynamics. We generated 58 new whole-genome sequences from Papua New Guinea, filling geographical gaps in previous sampling, specifically to address alternative scenarios of the initial migration to Sahul and the settlement of New Guinea. Here, we present the first genomic models for the settlement of northeast Sahul considering one or two migrations from Wallacea. Both models fit our data set, reinforcing the idea that ancestral groups to New Guinean and Indigenous Australians split early, potentially during their migration in Wallacea where the northern route could have been favored. The earliest period of human presence in Sahul was an era of interactions and gene flow between related but already differentiated groups, from whom all modern New Guineans, Bismarck islanders, and Indigenous Australians descend. The settlement of New Guinea was probably initiated from its southeast region, where the oldest archaeological sites have been found. This was followed by two migrations into the south and north lowlands that ultimately reached the west and east highlands. We also identify ancient gene flows between populations in New Guinea, Australia, East Indonesia, and the Bismarck Archipelago, emphasizing the fact that the anthropological landscape during the early period of Sahul settlement was highly dynamic rather than the traditional view of extensive isolation., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

11. Genome skims analysis of betel palms (Areca spp., Arecaceae) and development of a profiling method to assess their plastome diversity.

Author

Raimondeau P, Manzi S, Brucato N, Kinipi C, Leavesley M, Ricaut FX, and Besnard G

Subjects

DNA, Mitochondrial, Microsatellite Repeats, Phylogeny, Areca genetics, Gene Expression Profiling methods, Genome, Plant, Genome, Plastid

Abstract

The betel nut (Areca catechu L., Arecaceae) is a monoecious cultivated palm tree that is widespread in tropical regions. It is mainly cultivated for producing areca nuts, from which seeds are extracted and chewed by local populations principally in the Indo-Pacific region. Seeds contain alkaloids which are central nervous system stimulants and are highly addictive. Wild relatives of the betel nut are distributed in South Asia and Australasia, with ca. 40-50 Areca species currently recognized. The geographic origin(s) of the betel nut and its subsequent diffusion and diversification remains poorly documented. Here, a genome skimming approach was applied to screen nucleotidic variation in the most abundant genomic regions. Low coverage sequencing data allowed us to assemble full plastomes, mitochondrial regions (either full mitogenomes or the full set of mitochondrial genes) and the nuclear ribosomal DNA cluster for nine representatives of the Areca genus collected in the field and herbarium collections (including a 182-years old specimen collected during the Dumont d'Urville's expedition). These three genomic compartments provided similar phylogenetic signals, and revealed very low genomic diversity in our sample of cultivated betel nut. We finally developed a genotyping method targeting 34 plastid DNA microsatellites. This plastome profiling approach is useful for tracing the spread of matrilineages, and in combination with nuclear genomic data, can resolve the history of the betel nut. Our method also proves to be efficient for analyzing herbarium specimens, even those collected >100 years ago., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

12. Phenotypic differences between highlanders and lowlanders in Papua New Guinea.

Author

André M, Brucato N, Plutniak S, Kariwiga J, Muke J, Morez A, Leavesley M, Mondal M, and Ricaut FX

Subjects

Adult, Anthropometry, Body Height, Female, Forced Expiratory Volume, Hemodynamics, Hemoglobins analysis, Humans, Male, Middle Aged, Papua New Guinea, Phenotype, Thorax anatomy & histology, Vital Capacity, Waist Circumference, Acclimatization physiology, Altitude, Black People statistics & numerical data, Indigenous Peoples statistics & numerical data, Somatotypes physiology

Abstract

Objectives: Altitude is one of the most demanding environmental pressures for human populations. Highlanders from Asia, America and Africa have been shown to exhibit different biological adaptations, but Oceanian populations remain understudied [Woolcock et al., 1972; Cotes et al., 1974; Senn et al., 2010]. We tested the hypothesis that highlanders phenotypically differ from lowlanders in Papua New Guinea, as a result of inhabiting the highest mountains in Oceania for at least 20,000 years., Materials and Methods: We collected data for 13 different phenotypes related to altitude for 162 Papua New Guineans living at high altitude (Mont Wilhelm, 2,300-2,700 m above sea level (a.s.l.) and low altitude (Daru, <100m a.s.l.). Multilinear regressions were performed to detect differences between highlanders and lowlanders for phenotypic measurements related to body proportions, pulmonary function, and the circulatory system., Results: Six phenotypes were significantly different between Papua New Guinean highlanders and lowlanders. Highlanders show shorter height (p-value = 0.001), smaller waist circumference (p-value = 0.002), larger Forced Vital Capacity (FVC) (p-value = 0.008), larger maximal (p-value = 3.20e -4) and minimal chest depth (p-value = 2.37e -5) and higher haemoglobin concentration (p-value = 3.36e -4)., Discussion: Our study reports specific phenotypes in Papua New Guinean highlanders potentially related to altitude adaptation. Similar to other human groups adapted to high altitude, the evolutionary history of Papua New Guineans appears to have also followed an adaptive biological strategy for altitude., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

13. Sahelian pastoralism from the perspective of variants associated with lactase persistence.

Author

Priehodová E, Austerlitz F, Čížková M, Nováčková J, Ricaut FX, Hofmanová Z, Schlebusch CM, and Černý V

Subjects

Africa, Northern, Animals, Anthropology, Physical, Arabs genetics, Arabs statistics & numerical data, Diet, Haplotypes, Humans, Milk, Transients and Migrants, White People genetics, White People statistics & numerical data, Black People genetics, Black People statistics & numerical data, Ethnicity genetics, Ethnicity statistics & numerical data, Lactase genetics, Polymorphism, Single Nucleotide genetics

Abstract

Objectives: Archeological evidence shows that first nomadic pastoralists came to the African Sahel from northeastern Sahara, where milking is reported by ~7.5 ka. A second wave of pastoralists arrived with the expansion of Arabic tribes in 7th-14th century CE. All Sahelian pastoralists depend on milk production but genetic diversity underlying their lactase persistence (LP) is poorly understood., Materials and Methods: We investigated SNP variants associated with LP in 1,241 individuals from 29 mostly pastoralist populations in the Sahel. Then, we analyzed six SNPs in the neighboring fragment (419 kb) in the Fulani and Tuareg with the -13910*T mutation, reconstructed haplotypes, and calculated expansion age and growth rate of this variant., Results: Our results reveal a geographic localization of two different LP variants in the Sahel: -13910*T west of Lake Chad (Fulani and Tuareg pastoralists) and -13915*G east of there (mostly Arabic-speaking pastoralists). We show that -13910*T has a more diversified haplotype background among the Fulani than among the Tuareg and that the age estimate for expansion of this variant among the Fulani (~8.5 ka) corresponds to introduction of cattle to the area., Conclusions: This is the first study showing that the "Eurasian" LP allele -13910*T is widespread both in northern Europe and in the Sahel; however, it is limited to pastoralists in the Sahel. Since the Fulani haplotype with -13910*T is shared with contemporary Eurasians, its origin could be in a region encompassing the Near East and northeastern Africa in a population ancestral to both Saharan pastoralists and European farmers., (© 2020 Wiley Periodicals LLC.)

Published

2020

14. Papuan mitochondrial genomes and the settlement of Sahul.

Author

Pedro N, Brucato N, Fernandes V, André M, Saag L, Pomat W, Besse C, Boland A, Deleuze JF, Clarkson C, Sudoyo H, Metspalu M, Stoneking M, Cox MP, Leavesley M, Pereira L, and Ricaut FX

Subjects

Adult, Asia, Southeastern, Australia, Ethnicity history, Female, Genome, Mitochondrial, Geological Phenomena, Haplotypes genetics, History, Ancient, Humans, Likelihood Functions, Male, New Guinea, Papua New Guinea, Phylogeny, Phylogeography, Tasmania, Ethnicity genetics, Human Migration history

Abstract

New Guineans represent one of the oldest locally continuous populations outside Africa, harboring among the greatest linguistic and genetic diversity on the planet. Archeological and genetic evidence suggest that their ancestors reached Sahul (present day New Guinea and Australia) by at least 55,000 years ago (kya). However, little is known about this early settlement phase or subsequent dispersal and population structuring over the subsequent period of time. Here we report 379 complete Papuan mitochondrial genomes from across Papua New Guinea, which allow us to reconstruct the phylogenetic and phylogeographic history of northern Sahul. Our results support the arrival of two groups of settlers in Sahul within the same broad time window (50-65 kya), each carrying a different set of maternal lineages and settling Northern and Southern Sahul separately. Strong geographic structure in northern Sahul remains visible today, indicating limited dispersal over time despite major climatic, cultural, and historical changes. However, following a period of isolation lasting nearly 20 ky after initial settlement, environmental changes postdating the Last Glacial Maximum stimulated diversification of mtDNA lineages and greater interactions within and beyond Northern Sahul, to Southern Sahul, Wallacea and beyond. Later, in the Holocene, populations from New Guinea, in contrast to those of Australia, participated in early interactions with incoming Asian populations from Island Southeast Asia and continuing into Oceania.

Published

2020

15. Testing for Betel Nut Alkaloids in Hair of Papuans Abusers using UPLC-MS/MS and UPLC-Q-Tof-MS.

Author

Gheddar L, Ricaut FX, Ameline A, Brucato N, Tsang R, Leavesley M, Raul JS, and Kintz P

Subjects

Chromatography, High Pressure Liquid, Chromatography, Liquid, Humans, Substance-Related Disorders, Tandem Mass Spectrometry, Alkaloids analysis, Areca, Hair chemistry, Substance Abuse Detection methods

Abstract

Betel nut is the fruit of Areca palm, growing in Papua New Guinea. Mixed with limestone and stick mustard, arecoline and guvacoline, which are present in betel nut, are hydrolyzed into arecaidine and guvacine, respectively. As part of the study on dietary habits of Papuans residents, our laboratory was asked to analyze the four alkaloids in hair to document long-term exposure. Hair samples were collected from 19 adult subjects (males = 11; females = 8), by some of the authors, and were sent to the laboratory for analysis. The four alkaloids have very similar chemical structures. In order to accurately identify the drugs, two methods were developed. First, the compounds were identified using an ultra-high-performance liquid chromatography system coupled to time-of-flight mass spectrometry. Then, they were quantified by an ultra-high-performance liquid chromatography system coupled to tandem mass spectrometry. After decontamination with dichloromethane, hair samples were cut into very small segments and 20 mg were incubated in methanol for 2 h 30 min in an ultrasound bath. After cooling, the methanol was evaporated to dryness in presence of 20-μL octanol to prevent volatilization. Nicotine-d4 was used as an internal standard. Linearity was observed for concentrations ranging from the limit of quantification to 20 ng/mg for arecoline, arecaidine, guvacine and guvacoline. Measured concentrations were in the range 60 pg/mg to 18 ng/mg for arecoline (n = 19), 14 pg/mg to 2.5 ng/mg for guvacoline (n = 11), 63 pg/mg to 3.8 ng/mg for arecaidine (n = 11) and 100 pg/mg to 3.2 ng/mg for guvacine (n = 6). There was no correlation between concentrations of arecoline and arecaidine (ratio from 0.01 to 0.18) and guvacoline and guvacine (ratio from 0.06 to 3.50). However, the identification of these substances in hair is a good marker of consumption of betel nut and allows us to document a local practice that remains difficult to evaluate just by questioning., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2020

16. Population structure of modern-day Italians reveals patterns of ancient and archaic ancestries in Southern Europe.

Author

Raveane A, Aneli S, Montinaro F, Athanasiadis G, Barlera S, Birolo G, Boncoraglio G, Di Blasio AM, Di Gaetano C, Pagani L, Parolo S, Paschou P, Piazza A, Stamatoyannopoulos G, Angius A, Brucato N, Cucca F, Hellenthal G, Mulas A, Peyret-Guzzon M, Zoledziewska M, Baali A, Bycroft C, Cherkaoui M, Chiaroni J, Di Cristofaro J, Dina C, Dugoujon JM, Galan P, Giemza J, Kivisild T, Mazieres S, Melhaoui M, Metspalu M, Myers S, Pereira L, Ricaut FX, Brisighelli F, Cardinali I, Grugni V, Lancioni H, Pascali VL, Torroni A, Semino O, Matullo G, Achilli A, Olivieri A, and Capelli C

Subjects

Animals, Genome-Wide Association Study, History, Ancient, Human Genetics, Humans, Italy, Neanderthals genetics, DNA, Ancient, Databases, Genetic, Genetic Drift, Genome, Human, White People genetics

Abstract

European populations display low genetic differentiation as the result of long-term blending of their ancient founding ancestries. However, it is unclear how the combination of ancient ancestries related to early foragers, Neolithic farmers, and Bronze Age nomadic pastoralists can explain the distribution of genetic variation across Europe. Populations in natural crossroads like the Italian peninsula are expected to recapitulate the continental diversity, but have been systematically understudied. Here, we characterize the ancestry profiles of Italian populations using a genome-wide dataset representative of modern and ancient samples from across Italy, Europe, and the rest of the world. Italian genomes capture several ancient signatures, including a non-steppe contribution derived ultimately from the Caucasus. Differences in ancestry composition, as the result of migration and admixture, have generated in Italy the largest degree of population structure detected so far in the continent, as well as shaping the amount of Neanderthal DNA in modern-day populations.

Published

2019

17. Ancient pigs reveal a near-complete genomic turnover following their introduction to Europe.

Author

Frantz LAF, Haile J, Lin AT, Scheu A, Geörg C, Benecke N, Alexander M, Linderholm A, Mullin VE, Daly KG, Battista VM, Price M, Gron KJ, Alexandri P, Arbogast RM, Arbuckle B, Bӑlӑşescu A, Barnett R, Bartosiewicz L, Baryshnikov G, Bonsall C, Borić D, Boroneanţ A, Bulatović J, Çakirlar C, Carretero JM, Chapman J, Church M, Crooijmans R, De Cupere B, Detry C, Dimitrijevic V, Dumitraşcu V, du Plessis L, Edwards CJ, Erek CM, Erim-Özdoğan A, Ervynck A, Fulgione D, Gligor M, Götherström A, Gourichon L, Groenen MAM, Helmer D, Hongo H, Horwitz LK, Irving-Pease EK, Lebrasseur O, Lesur J, Malone C, Manaseryan N, Marciniak A, Martlew H, Mashkour M, Matthews R, Matuzeviciute GM, Maziar S, Meijaard E, McGovern T, Megens HJ, Miller R, Mohaseb AF, Orschiedt J, Orton D, Papathanasiou A, Pearson MP, Pinhasi R, Radmanović D, Ricaut FX, Richards M, Sabin R, Sarti L, Schier W, Sheikhi S, Stephan E, Stewart JR, Stoddart S, Tagliacozzo A, Tasić N, Trantalidou K, Tresset A, Valdiosera C, van den Hurk Y, Van Poucke S, Vigne JD, Yanevich A, Zeeb-Lanz A, Triantafyllidis A, Gilbert MTP, Schibler J, Rowley-Conwy P, Zeder M, Peters J, Cucchi T, Bradley DG, Dobney K, Burger J, Evin A, Girdland-Flink L, and Larson G

Subjects

Animals, Europe, History, Ancient, Middle East, Skin Pigmentation genetics, DNA, Ancient, DNA, Mitochondrial genetics, Domestication, Gene Flow, Phylogeny, Swine genetics

Abstract

Archaeological evidence indicates that pig domestication had begun by ∼10,500 y before the present (BP) in the Near East, and mitochondrial DNA (mtDNA) suggests that pigs arrived in Europe alongside farmers ∼8,500 y BP. A few thousand years after the introduction of Near Eastern pigs into Europe, however, their characteristic mtDNA signature disappeared and was replaced by haplotypes associated with European wild boars. This turnover could be accounted for by substantial gene flow from local European wild boars, although it is also possible that European wild boars were domesticated independently without any genetic contribution from the Near East. To test these hypotheses, we obtained mtDNA sequences from 2,099 modern and ancient pig samples and 63 nuclear ancient genomes from Near Eastern and European pigs. Our analyses revealed that European domestic pigs dating from 7,100 to 6,000 y BP possessed both Near Eastern and European nuclear ancestry, while later pigs possessed no more than 4% Near Eastern ancestry, indicating that gene flow from European wild boars resulted in a near-complete disappearance of Near East ancestry. In addition, we demonstrate that a variant at a locus encoding black coat color likely originated in the Near East and persisted in European pigs. Altogether, our results indicate that while pigs were not independently domesticated in Europe, the vast majority of human-mediated selection over the past 5,000 y focused on the genomic fraction derived from the European wild boars, and not on the fraction that was selected by early Neolithic farmers over the first 2,500 y of the domestication process., Competing Interests: The authors declare no conflict of interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

18. Multiple Deeply Divergent Denisovan Ancestries in Papuans.

Author

Jacobs GS, Hudjashov G, Saag L, Kusuma P, Darusallam CC, Lawson DJ, Mondal M, Pagani L, Ricaut FX, Stoneking M, Metspalu M, Sudoyo H, Lansing JS, and Cox MP

Subjects

Animals, Asian People genetics, Biological Evolution, Gene Flow, Genetic Variation genetics, Genome, Human genetics, Humans, Indonesia, Neanderthals genetics, Oceania, Genetic Introgression genetics, Haplotypes genetics, Hominidae genetics

Abstract

Genome sequences are known for two archaic hominins-Neanderthals and Denisovans-which interbred with anatomically modern humans as they dispersed out of Africa. We identified high-confidence archaic haplotypes in 161 new genomes spanning 14 island groups in Island Southeast Asia and New Guinea and found large stretches of DNA that are inconsistent with a single introgressing Denisovan origin. Instead, modern Papuans carry hundreds of gene variants from two deeply divergent Denisovan lineages that separated over 350 thousand years ago. Spatial and temporal structure among these lineages suggest that introgression from one of these Denisovan groups predominantly took place east of the Wallace line and continued until near the end of the Pleistocene. A third Denisovan lineage occurs in modern East Asians. This regional mosaic suggests considerable complexity in archaic contact, with modern humans interbreeding with multiple Denisovan groups that were geographically isolated from each other over deep evolutionary time., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

19. Evidence of Austronesian Genetic Lineages in East Africa and South Arabia: Complex Dispersal from Madagascar and Southeast Asia.

Author

Brucato N, Fernandes V, Kusuma P, Černý V, Mulligan CJ, Soares P, Rito T, Besse C, Boland A, Deleuze JF, Cox MP, Sudoyo H, Stoneking M, Pereira L, and Ricaut FX

Subjects

Africa, Eastern, Arabia, Borneo, Humans, Indian Ocean Islands, Gene Flow, Genome, Mitochondrial, Human Migration

Abstract

The Austronesian dispersal across the Indonesian Ocean to Madagascar and the Comoros has been well documented, but in an unexplained anomaly, few to no traces have been found of the Austronesian expansion in East Africa or the Arabian Peninsula. To revisit this peculiarity, we surveyed the Western Indian Ocean rim populations to identify potential Austronesian genetic ancestry. We generated full mitochondrial DNA genomes and genome-wide genotyping data for these individuals and compared them with the Banjar, the Indonesian source population of the westward Austronesian dispersal. We find strong support for Asian genetic contributions to maternal lineages and autosomal variation in modern day Somalia and Yemen. Surprisingly, this input reveals two apparently different geographic origins and timings of admixture for the Austronesian contact; one at a very early phase (likely associated with the early Austronesian dispersals), and a later movement dating to the end of nineteenth century. These Austronesian gene flows come, respectively, from Madagascar and directly from an unidentified location in Island Southeast Asia. This result reveals a far more complex dynamic of Austronesian dispersals through the Western Indian Ocean than has previously been understood and suggests that Austronesian movements within the Indian Ocean may have been part of a lengthy process, probably continuing well into the modern era., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2019

20. Genome-Wide Characterization of Arabian Peninsula Populations: Shedding Light on the History of a Fundamental Bridge between Continents.

Author

Fernandes V, Brucato N, Ferreira JC, Pedro N, Cavadas B, Ricaut FX, Alshamali F, and Pereira L

Subjects

Humans, Middle East, Phylogeography, Arabs genetics, Gene Flow, Genome, Human

Abstract

The Arabian Peninsula (AP) was an important crossroad between Africa, Asia, and Europe, being the cradle of the structure defining these main human population groups, and a continuing path for their admixture. The screening of 741,000 variants in 420 Arabians and 80 Iranians allowed us to quantify the dominant sub-Saharan African admixture in the west of the peninsula, whereas South Asian and Levantine/European influence was stronger in the east, leading to a rift between western and eastern sides of the Peninsula. Dating of the admixture events indicated that Indian Ocean slave trade and Islamization periods were important moments in the genetic makeup of the region. The western-eastern axis was also observable in terms of positive selection of diversity conferring lactose tolerance, with the West AP developing local adaptation and the East AP acquiring the derived allele selected in European populations and existing in South Asia. African selected malaria resistance through the DARC gene was enriched in all Arabian genomes, especially in the western part. Clear European influences associated with skin and eye color were equally frequent across the Peninsula., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

21. Strong selection during the last millennium for African ancestry in the admixed population of Madagascar.

Author

Pierron D, Heiske M, Razafindrazaka H, Pereda-Loth V, Sanchez J, Alva O, Arachiche A, Boland A, Olaso R, Deleuze JF, Ricaut FX, Rakotoarisoa JA, Radimilahy C, Stoneking M, and Letellier T

Subjects

Black People genetics, Duffy Blood-Group System genetics, Humans, Madagascar, Spatial Analysis, Genome, Human, Genome-Wide Association Study, Selection, Genetic

Abstract

While admixed populations offer a unique opportunity to detect selection, the admixture in most of the studied populations occurred too recently to produce conclusive signals. By contrast, Malagasy populations originate from admixture between Asian and African populations that occurred ~27 generations ago, providing power to detect selection. We analyze local ancestry across the genomes of 700 Malagasy and identify a strong signal of recent positive selection, with an estimated selection coefficient >0.2. The selection is for African ancestry and affects 25% of chromosome 1, including the Duffy blood group gene. The null allele at this gene provides resistance to Plasmodium vivax malaria, and previous studies have suggested positive selection for this allele in the Malagasy population. This selection event also influences numerous other genes implicated in immunity, cardiovascular diseases, and asthma and decreases the Asian ancestry genome-wide by 10%, illustrating the role played by selection in recent human history.

Published

2018

22. The Comoros Show the Earliest Austronesian Gene Flow into the Swahili Corridor.

Author

Brucato N, Fernandes V, Mazières S, Kusuma P, Cox MP, Ng'ang'a JW, Omar M, Simeone-Senelle MC, Frassati C, Alshamali F, Fin B, Boland A, Deleuze JF, Stoneking M, Adelaar A, Crowther A, Boivin N, Pereira L, Bailly P, Chiaroni J, and Ricaut FX

Subjects

Asia, Australia, Comoros, Genetic Variation, Humans, Kenya, Polymorphism, Single Nucleotide genetics, Gene Flow, Genetics, Population

Abstract

At the dawn of the second millennium, the expansion of the Indian Ocean trading network aligned with the emergence of an outward-oriented community along the East African coast to create a cosmopolitan cultural and trading zone known as the Swahili Corridor. On the basis of analyses of new genome-wide genotyping data and uniparental data in 276 individuals from coastal Kenya and the Comoros islands, along with large-scale genetic datasets from the Indian Ocean rim, we reconstruct historical population dynamics to show that the Swahili Corridor is largely an eastern Bantu genetic continuum. Limited gene flows from the Middle East can be seen in Swahili and Comorian populations at dates corresponding to historically documented contacts. However, the main admixture event in southern insular populations, particularly Comorian and Malagasy groups, occurred with individuals from Island Southeast Asia as early as the 8 th century, reflecting an earlier dispersal from this region. Remarkably, our results support recent archaeological and linguistic evidence-based suggestions that the Comoros archipelago was the earliest location of contact between Austronesian and African populations in the Swahili Corridor., (Copyright © 2017 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2018

23. Genomic landscape of human diversity across Madagascar.

Author

Pierron D, Heiske M, Razafindrazaka H, Rakoto I, Rabetokotany N, Ravololomanga B, Rakotozafy LM, Rakotomalala MM, Razafiarivony M, Rasoarifetra B, Raharijesy MA, Razafindralambo L, Ramilisonina, Fanony F, Lejamble S, Thomas O, Mohamed Abdallah A, Rocher C, Arachiche A, Tonaso L, Pereda-Loth V, Schiavinato S, Brucato N, Ricaut FX, Kusuma P, Sudoyo H, Ni S, Boland A, Deleuze JF, Beaujard P, Grange P, Adelaar S, Stoneking M, Rakotoarisoa JA, Radimilahy C, and Letellier T

Subjects

Aged, Female, Humans, Madagascar ethnology, Male, Middle Aged, Asian People genetics, Black People genetics, Ethnicity genetics, Genetic Variation, Genome, Human, Genome-Wide Association Study

Abstract

Although situated ∼400 km from the east coast of Africa, Madagascar exhibits cultural, linguistic, and genetic traits from both Southeast Asia and Eastern Africa. The settlement history remains contentious; we therefore used a grid-based approach to sample at high resolution the genomic diversity (including maternal lineages, paternal lineages, and genome-wide data) across 257 villages and 2,704 Malagasy individuals. We find a common Bantu and Austronesian descent for all Malagasy individuals with a limited paternal contribution from Europe and the Middle East. Admixture and demographic growth happened recently, suggesting a rapid settlement of Madagascar during the last millennium. However, the distribution of African and Asian ancestry across the island reveals that the admixture was sex biased and happened heterogeneously across Madagascar, suggesting independent colonization of Madagascar from Africa and Asia rather than settlement by an already admixed population. In addition, there are geographic influences on the present genomic diversity, independent of the admixture, showing that a few centuries is sufficient to produce detectable genetic structure in human populations., Competing Interests: The authors declare no conflict of interest.

Published

2017

24. The last sea nomads of the Indonesian archipelago: genomic origins and dispersal.

Author

Kusuma P, Brucato N, Cox MP, Letellier T, Manan A, Nuraini C, Grangé P, Sudoyo H, and Ricaut FX

Subjects

Borneo, Female, Genome, Human, Humans, Indonesia, Male, Asian People genetics, Human Migration, Polymorphism, Single Nucleotide, Population genetics

Abstract

The Bajo, the world's largest remaining sea nomad group, are scattered across hundreds of recently settled communities in Island Southeast Asia, along the coasts of Indonesia, Malaysia and the Philippines. With a significant role in historical trading, the Bajo lived until recently as nomads, spending their entire lives on houseboats while moving long distances to fish and trade. Along the routes they traveled, the Bajo settled and intermarried with local land-based groups, leading to 'maritime creolization', a process whereby Bajo communities retained their culture, but assimilated - and frequently married into - local groups. The origins of the Bajo have remained unclear despite several hypotheses from oral tradition, culture and language, all currently without supporting genetic evidence. Here, we report genome-wide SNP analyses on 73 Bajo individuals from three communities across Indonesia - the Derawan of Northeast Borneo, the Kotabaru of Southeast Borneo and the Kendari of Southeast Sulawesi, with 87 new samples from three populations surrounding the area where these Bajo peoples live. The Bajo likely share a common connection with Southern Sulawesi, but crucially, each Bajo community also exhibits unique genetic contributions from neighboring populations.

Published

2017

25. Genomic admixture tracks pulses of economic activity over 2,000 years in the Indian Ocean trading network.

Author

Brucato N, Kusuma P, Beaujard P, Sudoyo H, Cox MP, and Ricaut FX

Subjects

Human Migration, Humans, Indian Ocean, Models, Theoretical, Economics, Genetic Variation, Genetics, Population, Genomics, Population Dynamics

Abstract

The Indian Ocean has long been a hub of interacting human populations. Following land- and sea-based routes, trade drove cultural contacts between far-distant ethnic groups in Asia, India, the Middle East and Africa, creating one of the world's first proto-globalized environments. However, the extent to which population mixing was mediated by trade is poorly understood. Reconstructing admixture times from genomic data in 3,006 individuals from 187 regional populations reveals a close association between bouts of human migration and trade volumes during the last 2,000 years across the Indian Ocean trading system. Temporal oscillations in trading activity match phases of contraction and expansion in migration, with high water marks following the expansion of the Silk Roads in the 5 th century AD, the rise of maritime routes in the 11 th century and a drastic restructuring of the trade network following the arrival of Europeans in the 16 th century. The economic fluxes of the Indian Ocean trade network therefore directly shaped exchanges of genes, in addition to goods and concepts.

Published

2017

26. Selective sweep on human amylase genes postdates the split with Neanderthals.

Author

Inchley CE, Larbey CD, Shwan NA, Pagani L, Saag L, Antão T, Jacobs G, Hudjashov G, Metspalu E, Mitt M, Eichstaedt CA, Malyarchuk B, Derenko M, Wee J, Abdullah S, Ricaut FX, Mormina M, Mägi R, Villems R, Metspalu M, Jones MK, Armour JA, and Kivisild T

Subjects

Animals, Female, Humans, Male, Neanderthals, Amylases genetics, Evolution, Molecular, Gene Dosage, Genetic Variation, Genome, Human

Abstract

Humans have more copies of amylase genes than other primates. It is still poorly understood, however, when the copy number expansion occurred and whether its spread was enhanced by selection. Here we assess amylase copy numbers in a global sample of 480 high coverage genomes and find that regions flanking the amylase locus show notable depression of genetic diversity both in African and non-African populations. Analysis of genetic variation in these regions supports the model of an early selective sweep in the human lineage after the split of humans from Neanderthals which led to the fixation of multiple copies of AMY1 in place of a single copy. We find evidence of multiple secondary losses of copy number with the highest frequency (52%) of a deletion of AMY2A and associated low copy number of AMY1 in Northeast Siberian populations whose diet has been low in starch content.

Published

2016

27. Multi-layered population structure in Island Southeast Asians.

Author

Mörseburg A, Pagani L, Ricaut FX, Yngvadottir B, Harney E, Castillo C, Hoogervorst T, Antao T, Kusuma P, Brucato N, Cardona A, Pierron D, Letellier T, Wee J, Abdullah S, Metspalu M, and Kivisild T

Subjects

Asia, Southeastern, Human Migration, Humans, Asian People genetics, Islands, Population genetics

Abstract

The history of human settlement in Southeast Asia has been complex and involved several distinct dispersal events. Here, we report the analyses of 1825 individuals from Southeast Asia including new genome-wide genotype data for 146 individuals from three Mainland Southeast Asian (Burmese, Malay and Vietnamese) and four Island Southeast Asian (Dusun, Filipino, Kankanaey and Murut) populations. While confirming the presence of previously recognised major ancestry components in the Southeast Asian population structure, we highlight the Kankanaey Igorots from the highlands of the Philippine Mountain Province as likely the closest living representatives of the source population that may have given rise to the Austronesian expansion. This conclusion rests on independent evidence from various analyses of autosomal data and uniparental markers. Given the extensive presence of trade goods, cultural and linguistic evidence of Indian influence in Southeast Asia starting from 2.5 kya, we also detect traces of a South Asian signature in different populations in the region dating to the last couple of thousand years.

Published

2016

28. Genomic insights into the peopling of the Southwest Pacific.

Author

Skoglund P, Posth C, Sirak K, Spriggs M, Valentin F, Bedford S, Clark GR, Reepmeyer C, Petchey F, Fernandes D, Fu Q, Harney E, Lipson M, Mallick S, Novak M, Rohland N, Stewardson K, Abdullah S, Cox MP, Friedlaender FR, Friedlaender JS, Kivisild T, Koki G, Kusuma P, Merriwether DA, Ricaut FX, Wee JT, Patterson N, Krause J, Pinhasi R, and Reich D

Subjects

Female, Genetics, Population, History, Ancient, Humans, Male, New Guinea ethnology, Polynesia ethnology, Tonga, Vanuatu, Asian People genetics, Genome, Human genetics, Genomics, Human Migration history, Native Hawaiian or Other Pacific Islander genetics, Phylogeny

Abstract

The appearance of people associated with the Lapita culture in the South Pacific around 3,000 years ago marked the beginning of the last major human dispersal to unpopulated lands. However, the relationship of these pioneers to the long-established Papuan people of the New Guinea region is unclear. Here we present genome-wide ancient DNA data from three individuals from Vanuatu (about 3,100-2,700 years before present) and one from Tonga (about 2,700-2,300 years before present), and analyse them with data from 778 present-day East Asians and Oceanians. Today, indigenous people of the South Pacific harbour a mixture of ancestry from Papuans and a population of East Asian origin that no longer exists in unmixed form, but is a match to the ancient individuals. Most analyses have interpreted the minimum of twenty-five per cent Papuan ancestry in the region today as evidence that the first humans to reach Remote Oceania, including Polynesia, were derived from population mixtures near New Guinea, before their further expansion into Remote Oceania. However, our finding that the ancient individuals had little to no Papuan ancestry implies that later human population movements spread Papuan ancestry through the South Pacific after the first peopling of the islands.

Published

2016

29. A genomic history of Aboriginal Australia.

Author

Malaspinas AS, Westaway MC, Muller C, Sousa VC, Lao O, Alves I, Bergström A, Athanasiadis G, Cheng JY, Crawford JE, Heupink TH, Macholdt E, Peischl S, Rasmussen S, Schiffels S, Subramanian S, Wright JL, Albrechtsen A, Barbieri C, Dupanloup I, Eriksson A, Margaryan A, Moltke I, Pugach I, Korneliussen TS, Levkivskyi IP, Moreno-Mayar JV, Ni S, Racimo F, Sikora M, Xue Y, Aghakhanian FA, Brucato N, Brunak S, Campos PF, Clark W, Ellingvåg S, Fourmile G, Gerbault P, Injie D, Koki G, Leavesley M, Logan B, Lynch A, Matisoo-Smith EA, McAllister PJ, Mentzer AJ, Metspalu M, Migliano AB, Murgha L, Phipps ME, Pomat W, Reynolds D, Ricaut FX, Siba P, Thomas MG, Wales T, Wall CM, Oppenheimer SJ, Tyler-Smith C, Durbin R, Dortch J, Manica A, Schierup MH, Foley RA, Lahr MM, Bowern C, Wall JD, Mailund T, Stoneking M, Nielsen R, Sandhu MS, Excoffier L, Lambert DM, and Willerslev E

Subjects

Africa ethnology, Australia, Datasets as Topic, Desert Climate, Gene Flow, Genetics, Population, History, Ancient, Human Migration history, Humans, Language, New Guinea, Population Dynamics, Tasmania, Genome, Human genetics, Genomics, Native Hawaiian or Other Pacific Islander genetics, Phylogeny, Racial Groups genetics

Abstract

The population history of Aboriginal Australians remains largely uncharacterized. Here we generate high-coverage genomes for 83 Aboriginal Australians (speakers of Pama-Nyungan languages) and 25 Papuans from the New Guinea Highlands. We find that Papuan and Aboriginal Australian ancestors diversified 25-40 thousand years ago (kya), suggesting pre-Holocene population structure in the ancient continent of Sahul (Australia, New Guinea and Tasmania). However, all of the studied Aboriginal Australians descend from a single founding population that differentiated ~10-32 kya. We infer a population expansion in northeast Australia during the Holocene epoch (past 10,000 years) associated with limited gene flow from this region to the rest of Australia, consistent with the spread of the Pama-Nyungan languages. We estimate that Aboriginal Australians and Papuans diverged from Eurasians 51-72 kya, following a single out-of-Africa dispersal, and subsequently admixed with archaic populations. Finally, we report evidence of selection in Aboriginal Australians potentially associated with living in the desert.

Published

2016

30. Genomic analyses inform on migration events during the peopling of Eurasia.

Author

Pagani L, Lawson DJ, Jagoda E, Mörseburg A, Eriksson A, Mitt M, Clemente F, Hudjashov G, DeGiorgio M, Saag L, Wall JD, Cardona A, Mägi R, Wilson Sayres MA, Kaewert S, Inchley C, Scheib CL, Järve M, Karmin M, Jacobs GS, Antao T, Iliescu FM, Kushniarevich A, Ayub Q, Tyler-Smith C, Xue Y, Yunusbayev B, Tambets K, Mallick CB, Saag L, Pocheshkhova E, Andriadze G, Muller C, Westaway MC, Lambert DM, Zoraqi G, Turdikulova S, Dalimova D, Sabitov Z, Sultana GNN, Lachance J, Tishkoff S, Momynaliev K, Isakova J, Damba LD, Gubina M, Nymadawa P, Evseeva I, Atramentova L, Utevska O, Ricaut FX, Brucato N, Sudoyo H, Letellier T, Cox MP, Barashkov NA, Skaro V, Mulahasanovic L, Primorac D, Sahakyan H, Mormina M, Eichstaedt CA, Lichman DV, Abdullah S, Chaubey G, Wee JTS, Mihailov E, Karunas A, Litvinov S, Khusainova R, Ekomasova N, Akhmetova V, Khidiyatova I, Marjanović D, Yepiskoposyan L, Behar DM, Balanovska E, Metspalu A, Derenko M, Malyarchuk B, Voevoda M, Fedorova SA, Osipova LP, Lahr MM, Gerbault P, Leavesley M, Migliano AB, Petraglia M, Balanovsky O, Khusnutdinova EK, Metspalu E, Thomas MG, Manica A, Nielsen R, Villems R, Willerslev E, Kivisild T, and Metspalu M

Subjects

Africa ethnology, Animals, Asia, Datasets as Topic, Estonia, Europe, Fossils, Gene Flow, Genetics, Population, Heterozygote, History, Ancient, Humans, Native Hawaiian or Other Pacific Islander genetics, Neanderthals genetics, New Guinea, Population Dynamics, Genome, Human genetics, Genomics, Human Migration history, Racial Groups genetics

Abstract

High-coverage whole-genome sequence studies have so far focused on a limited number of geographically restricted populations, or been targeted at specific diseases, such as cancer. Nevertheless, the availability of high-resolution genomic data has led to the development of new methodologies for inferring population history and refuelled the debate on the mutation rate in humans. Here we present the Estonian Biocentre Human Genome Diversity Panel (EGDP), a dataset of 483 high-coverage human genomes from 148 populations worldwide, including 379 new genomes from 125 populations, which we group into diversity and selection sets. We analyse this dataset to refine estimates of continent-wide patterns of heterozygosity, long- and short-distance gene flow, archaic admixture, and changes in effective population size through time as well as for signals of positive or balancing selection. We find a genetic signature in present-day Papuans that suggests that at least 2% of their genome originates from an early and largely extinct expansion of anatomically modern humans (AMHs) out of Africa. Together with evidence from the western Asian fossil record, and admixture between AMHs and Neanderthals predating the main Eurasian expansion, our results contribute to the mounting evidence for the presence of AMHs out of Africa earlier than 75,000 years ago., Competing Interests: The authors declare no competing financial interests.

Published

2016

31. Malagasy Genetic Ancestry Comes from an Historical Malay Trading Post in Southeast Borneo.

Author

Brucato N, Kusuma P, Cox MP, Pierron D, Purnomo GA, Adelaar A, Kivisild T, Letellier T, Sudoyo H, and Ricaut FX

Subjects

Biological Evolution, Borneo, DNA, Mitochondrial genetics, Evolution, Molecular, Gene Pool, Genetics, Population methods, Genome, Human, Haplotypes, Humans, Madagascar, Malaysia, Phylogeny, Asian People genetics, Black People genetics, Ethnicity genetics, Genetic Variation

Abstract

Malagasy genetic diversity results from an exceptional protoglobalization process that took place over a thousand years ago across the Indian Ocean. Previous efforts to locate the Asian origin of Malagasy highlighted Borneo broadly as a potential source, but so far no firm source populations were identified. Here, we have generated genome-wide data from two Southeast Borneo populations, the Banjar and the Ngaju, together with published data from populations across the Indian Ocean region. We find strong support for an origin of the Asian ancestry of Malagasy among the Banjar. This group emerged from the long-standing presence of a Malay Empire trading post in Southeast Borneo, which favored admixture between the Malay and an autochthonous Borneo group, the Ma'anyan. Reconciling genetic, historical, and linguistic data, we show that the Banjar, in Malay-led voyages, were the most probable Asian source among the analyzed groups in the founding of the Malagasy gene pool., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2016

32. Contrasting Linguistic and Genetic Origins of the Asian Source Populations of Malagasy.

Author

Kusuma P, Brucato N, Cox MP, Pierron D, Razafindrazaka H, Adelaar A, Sudoyo H, Letellier T, and Ricaut FX

Subjects

Genotyping Techniques, Humans, Linguistics, Madagascar, Asian People, Ethnicity, Human Migration

Abstract

The Austronesian expansion, one of the last major human migrations, influenced regions as distant as tropical Asia, Remote Oceania and Madagascar, off the east coast of Africa. The identity of the Asian groups that settled Madagascar is particularly mysterious. While language connects Madagascar to the Ma'anyan of southern Borneo, haploid genetic data are more ambiguous. Here, we screened genome-wide diversity in 211 individuals from the Ma'anyan and surrounding groups in southern Borneo. Surprisingly, the Ma'anyan are characterized by a distinct, high frequency genomic component that is not found in Malagasy. This novel genetic layer occurs at low levels across Island Southeast Asia and hints at a more complex model for the Austronesian expansion in this region. In contrast, Malagasy show genomic links to a range of Island Southeast Asian groups, particularly from southern Borneo, but do not have a clear genetic connection with the Ma'anyan despite the obvious linguistic association.

Published

2016

33. A recent bottleneck of Y chromosome diversity coincides with a global change in culture.

Author

Karmin M, Saag L, Vicente M, Wilson Sayres MA, Järve M, Talas UG, Rootsi S, Ilumäe AM, Mägi R, Mitt M, Pagani L, Puurand T, Faltyskova Z, Clemente F, Cardona A, Metspalu E, Sahakyan H, Yunusbayev B, Hudjashov G, DeGiorgio M, Loogväli EL, Eichstaedt C, Eelmets M, Chaubey G, Tambets K, Litvinov S, Mormina M, Xue Y, Ayub Q, Zoraqi G, Korneliussen TS, Akhatova F, Lachance J, Tishkoff S, Momynaliev K, Ricaut FX, Kusuma P, Razafindrazaka H, Pierron D, Cox MP, Sultana GN, Willerslev R, Muller C, Westaway M, Lambert D, Skaro V, Kovačevic L, Turdikulova S, Dalimova D, Khusainova R, Trofimova N, Akhmetova V, Khidiyatova I, Lichman DV, Isakova J, Pocheshkhova E, Sabitov Z, Barashkov NA, Nymadawa P, Mihailov E, Seng JW, Evseeva I, Migliano AB, Abdullah S, Andriadze G, Primorac D, Atramentova L, Utevska O, Yepiskoposyan L, Marjanovic D, Kushniarevich A, Behar DM, Gilissen C, Vissers L, Veltman JA, Balanovska E, Derenko M, Malyarchuk B, Metspalu A, Fedorova S, Eriksson A, Manica A, Mendez FL, Karafet TM, Veeramah KR, Bradman N, Hammer MF, Osipova LP, Balanovsky O, Khusnutdinova EK, Johnsen K, Remm M, Thomas MG, Tyler-Smith C, Underhill PA, Willerslev E, Nielsen R, Metspalu M, Villems R, and Kivisild T

Subjects

Base Sequence, DNA, Mitochondrial genetics, Genetic Variation genetics, Genetics, Population, Haplotypes genetics, Humans, Male, Models, Genetic, Phylogeny, Sequence Analysis, DNA, Chromosomes, Human, Y genetics, Evolution, Molecular, Racial Groups genetics

Abstract

It is commonly thought that human genetic diversity in non-African populations was shaped primarily by an out-of-Africa dispersal 50-100 thousand yr ago (kya). Here, we present a study of 456 geographically diverse high-coverage Y chromosome sequences, including 299 newly reported samples. Applying ancient DNA calibration, we date the Y-chromosomal most recent common ancestor (MRCA) in Africa at 254 (95% CI 192-307) kya and detect a cluster of major non-African founder haplogroups in a narrow time interval at 47-52 kya, consistent with a rapid initial colonization model of Eurasia and Oceania after the out-of-Africa bottleneck. In contrast to demographic reconstructions based on mtDNA, we infer a second strong bottleneck in Y-chromosome lineages dating to the last 10 ky. We hypothesize that this bottleneck is caused by cultural changes affecting variance of reproductive success among males., (© 2015 Karmin et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2015

34. Mitochondrial DNA and the Y chromosome suggest the settlement of Madagascar by Indonesian sea nomad populations.

Author

Kusuma P, Cox MP, Pierron D, Razafindrazaka H, Brucato N, Tonasso L, Suryadi HL, Letellier T, Sudoyo H, and Ricaut FX

Subjects

DNA, Mitochondrial classification, Genetic Linkage, Genotype, Haplotypes, Humans, Indonesia, Madagascar, Phylogeny, Asian People genetics, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Genetics, Population

Abstract

Background: Linguistic, cultural and genetic characteristics of the Malagasy suggest that both Africans and Island Southeast Asians were involved in the colonization of Madagascar. Populations from the Indonesian archipelago played an especially important role because linguistic evidence suggests that the Malagasy language branches from the Southeast Barito language family of southern Borneo, Indonesia, with the closest language spoken today by the Ma'anyan. To test for a genetic link between Malagasy and these linguistically related Indonesian populations, we studied the Ma'anyan and other Indonesian ethnic groups (including the sea nomad Bajo) that, from their historical and linguistic contexts, may be modern descendants of the populations that helped enact the settlement of Madagascar., Result: A combination of phylogeographic analysis of genetic distances, haplotype comparisons and inference of parental populations by linear optimization, using both maternal and paternal DNA lineages, suggests that Malagasy derive from multiple regional sources in Indonesia, with a focus on eastern Borneo, southern Sulawesi and the Lesser Sunda islands., Conclusion: Settlement may have been mediated by ancient sea nomad movements because the linguistically closest population, Ma'anyan, has only subtle genetic connections to Malagasy, whereas genetic links with other sea nomads are more strongly supported. Our data hint at a more complex scenario for the Indonesian settlement of Madagascar than has previously been recognized.

Published

2015

35. Genome-wide evidence of Austronesian-Bantu admixture and cultural reversion in a hunter-gatherer group of Madagascar.

Author

Pierron D, Razafindrazaka H, Pagani L, Ricaut FX, Antao T, Capredon M, Sambo C, Radimilahy C, Rakotoarisoa JA, Blench RM, Letellier T, and Kivisild T

Subjects

Algorithms, Asian People genetics, Black People genetics, Culture, Ethnicity genetics, Geography, Haplotypes, Homozygote, Humans, Linguistics, Madagascar, Male, Oligonucleotide Array Sequence Analysis, Genetics, Population, Polymorphism, Single Nucleotide, Population Groups genetics

Abstract

Linguistic and cultural evidence suggest that Madagascar was the final point of two major dispersals of Austronesian- and Bantu-speaking populations. Today, the Mikea are described as the last-known Malagasy population reported to be still practicing a hunter-gatherer lifestyle. It is unclear, however, whether the Mikea descend from a remnant population that existed before the arrival of Austronesian and Bantu agriculturalists or whether it is only their lifestyle that separates them from the other contemporary populations of South Madagascar. To address these questions we have performed a genome-wide analysis of >700,000 SNP markers on 21 Mikea, 24 Vezo, and 24 Temoro individuals, together with 50 individuals from Bajo and Lebbo populations from Indonesia. Our analyses of these data in the context of data available from other Southeast Asian and African populations reveal that all three Malagasy populations are derived from the same admixture event involving Austronesian and Bantu sources. In contrast to the fact that most of the vocabulary of the Malagasy speakers is derived from the Barito group of the Austronesian language family, we observe that only one-third of their genetic ancestry is related to the populations of the Java-Kalimantan-Sulawesi area. Because no additional ancestry components distinctive for the Mikea were found, it is likely that they have adopted their hunter-gatherer way of life through cultural reversion, and selection signals suggest a genetic adaptation to their new lifestyle.

Published

2014

36. Tracing Arab-Islamic inheritance in Madagascar: study of the Y-chromosome and mitochondrial DNA in the Antemoro.

Author

Capredon M, Brucato N, Tonasso L, Choesmel-Cadamuro V, Ricaut FX, Razafindrazaka H, Rakotondrabe AB, Ratolojanahary MA, Randriamarolaza LP, Champion B, and Dugoujon JM

Subjects

Databases, Genetic, Female, Geography, Haplotypes genetics, Humans, Madagascar, Male, Microsatellite Repeats genetics, Principal Component Analysis, Recombination, Genetic genetics, Arabs genetics, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Ethnicity genetics, Inheritance Patterns genetics, Islam

Abstract

Madagascar is located at the crossroads of the Asian and African worlds and is therefore of particular interest for studies on human population migration. Within the large human diversity of the Great Island, we focused our study on a particular ethnic group, the Antemoro. Their culture presents an important Arab-Islamic influence, but the question of an Arab biological inheritance remains unresolved. We analyzed paternal (n=129) and maternal (n=135) lineages of this ethnic group. Although the majority of Antemoro genetic ancestry comes from sub-Saharan African and Southeast Asian gene pools, we observed in their paternal lineages two specific haplogroups (J1 and T1) linked to Middle Eastern origins. This inheritance was restricted to some Antemoro sub-groups. Statistical analyses tended to confirm significant Middle Eastern genetic contribution. This study gives a new perspective to the large human genetic diversity in Madagascar.

Published

2013

37. Pig domestication and human-mediated dispersal in western Eurasia revealed through ancient DNA and geometric morphometrics.

Author

Ottoni C, Flink LG, Evin A, Geörg C, De Cupere B, Van Neer W, Bartosiewicz L, Linderholm A, Barnett R, Peters J, Decorte R, Waelkens M, Vanderheyden N, Ricaut FX, Cakirlar C, Cevik O, Hoelzel AR, Mashkour M, Karimlu AF, Seno SS, Daujat J, Brock F, Pinhasi R, Hongo H, Perez-Enciso M, Rasmussen M, Frantz L, Megens HJ, Crooijmans R, Groenen M, Arbuckle B, Benecke N, Vidarsdottir US, Burger J, Cucchi T, Dobney K, and Larson G

Subjects

Animal Distribution, Animals, Animals, Domestic genetics, Asia, Europe, Humans, Phylogeography, Sequence Analysis, DNA, Swine genetics, DNA, Mitochondrial genetics, Molar anatomy & histology, Sus scrofa genetics

Abstract

Zooarcheological evidence suggests that pigs were domesticated in Southwest Asia ~8,500 BC. They then spread across the Middle and Near East and westward into Europe alongside early agriculturalists. European pigs were either domesticated independently or more likely appeared so as a result of admixture between introduced pigs and European wild boar. As a result, European wild boar mtDNA lineages replaced Near Eastern/Anatolian mtDNA signatures in Europe and subsequently replaced indigenous domestic pig lineages in Anatolia. The specific details of these processes, however, remain unknown. To address questions related to early pig domestication, dispersal, and turnover in the Near East, we analyzed ancient mitochondrial DNA and dental geometric morphometric variation in 393 ancient pig specimens representing 48 archeological sites (from the Pre-Pottery Neolithic to the Medieval period) from Armenia, Cyprus, Georgia, Iran, Syria, and Turkey. Our results reveal the first genetic signatures of early domestic pigs in the Near Eastern Neolithic core zone. We also demonstrate that these early pigs differed genetically from those in western Anatolia that were introduced to Europe during the Neolithic expansion. In addition, we present a significantly more refined chronology for the introduction of European domestic pigs into Asia Minor that took place during the Bronze Age, at least 900 years earlier than previously detected. By the 5th century AD, European signatures completely replaced the endemic lineages possibly coinciding with the widespread demographic and societal changes that occurred during the Anatolian Bronze and Iron Ages.

Published

2013

38. A small cohort of Island Southeast Asian women founded Madagascar.

Author

Cox MP, Nelson MG, Tumonggor MK, Ricaut FX, and Sudoyo H

Subjects

Asia, Southeastern, Female, Founder Effect, Genetic Variation, Genetics, Population, Haplotypes, Humans, Indonesia, Madagascar, Male, Phylogeny, Asian People genetics, DNA, Mitochondrial genetics, Genetic Markers

Abstract

The settlement of Madagascar is one of the most unusual, and least understood, episodes in human prehistory. Madagascar was one of the last landmasses to be reached by people, and despite the island's location just off the east coast of Africa, evidence from genetics, language and culture all attests that it was settled jointly by Africans, and more surprisingly, Indonesians. Nevertheless, extremely little is known about the settlement process itself. Here, we report broad geographical screening of Malagasy and Indonesian genetic variation, from which we infer a statistically robust coalescent model of the island's initial settlement. Maximum-likelihood estimates favour a scenario in which Madagascar was settled approximately 1200 years ago by a very small group of women (approx. 30), most of Indonesian descent (approx. 93%). This highly restricted founding population raises the possibility that Madagascar was settled not as a large-scale planned colonization event from Indonesia, but rather through a small, perhaps even unintended, transoceanic crossing.

Published

2012

39. Ancient DNA suggests the leading role played by men in the Neolithic dissemination.

Author

Lacan M, Keyser C, Ricaut FX, Brucato N, Tarrús J, Bosch A, Guilaine J, Crubézy E, and Ludes B

Subjects

Cell Nucleus genetics, Chromosomes, Human, Y, History, Ancient, Humans, Male, Mitochondria genetics, DNA genetics, Fossils, Role

Abstract

The impact of the Neolithic dispersal on the western European populations is subject to continuing debate. To trace and date genetic lineages potentially brought during this transition and so understand the origin of the gene pool of current populations, we studied DNA extracted from human remains excavated in a Spanish funeral cave dating from the beginning of the fifth millennium B.C. Thanks to a "multimarkers" approach based on the analysis of mitochondrial and nuclear DNA (autosomes and Y-chromosome), we obtained information on the early Neolithic funeral practices and on the biogeographical origin of the inhumed individuals. No close kinship was detected. Maternal haplogroups found are consistent with pre-Neolithic settlement, whereas the Y-chromosomal analyses permitted confirmation of the existence in Spain approximately 7,000 y ago of two haplogroups previously associated with the Neolithic transition: G2a and E1b1b1a1b. These results are highly consistent with those previously found in Neolithic individuals from French Late Neolithic individuals, indicating a surprising temporal genetic homogeneity in these groups. The high frequency of G2a in Neolithic samples in western Europe could suggest, furthermore, that the role of men during Neolithic dispersal could be greater than currently estimated.

Published

2011

40. An Aboriginal Australian genome reveals separate human dispersals into Asia.

Author

Rasmussen M, Guo X, Wang Y, Lohmueller KE, Rasmussen S, Albrechtsen A, Skotte L, Lindgreen S, Metspalu M, Jombart T, Kivisild T, Zhai W, Eriksson A, Manica A, Orlando L, De La Vega FM, Tridico S, Metspalu E, Nielsen K, Ávila-Arcos MC, Moreno-Mayar JV, Muller C, Dortch J, Gilbert MT, Lund O, Wesolowska A, Karmin M, Weinert LA, Wang B, Li J, Tai S, Xiao F, Hanihara T, van Driem G, Jha AR, Ricaut FX, de Knijff P, Migliano AB, Gallego Romero I, Kristiansen K, Lambert DM, Brunak S, Forster P, Brinkmann B, Nehlich O, Bunce M, Richards M, Gupta R, Bustamante CD, Krogh A, Foley RA, Lahr MM, Balloux F, Sicheritz-Pontén T, Villems R, Nielsen R, Wang J, and Willerslev E

Subjects

Animals, Asia, Asian People genetics, Black People, Computer Simulation, DNA, Mitochondrial genetics, Emigration and Immigration, Ethnicity genetics, Asia, Eastern, Gene Flow, Gene Frequency, Genetics, Population methods, Genome, Mitochondrial, Haplotypes, Hominidae genetics, Humans, Linkage Disequilibrium, Male, Phylogeny, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Western Australia, White People genetics, Genome, Human, Native Hawaiian or Other Pacific Islander genetics

Abstract

We present an Aboriginal Australian genomic sequence obtained from a 100-year-old lock of hair donated by an Aboriginal man from southern Western Australia in the early 20th century. We detect no evidence of European admixture and estimate contamination levels to be below 0.5%. We show that Aboriginal Australians are descendants of an early human dispersal into eastern Asia, possibly 62,000 to 75,000 years ago. This dispersal is separate from the one that gave rise to modern Asians 25,000 to 38,000 years ago. We also find evidence of gene flow between populations of the two dispersal waves prior to the divergence of Native Americans from modern Asian ancestors. Our findings support the hypothesis that present-day Aboriginal Australians descend from the earliest humans to occupy Australia, likely representing one of the oldest continuous populations outside Africa.

Published

2011

41. Ancient DNA reveals male diffusion through the Neolithic Mediterranean route.

Author

Lacan M, Keyser C, Ricaut FX, Brucato N, Duranthon F, Guilaine J, Crubézy E, and Ludes B

Subjects

DNA genetics, DNA, Mitochondrial analysis, DNA, Mitochondrial genetics, Europe, France, Genetics, Population, Geography, Humans, Mediterranean Region, Polymerase Chain Reaction, Population Dynamics, Time Factors, DNA analysis, Emigration and Immigration, Fossils, White People genetics

Abstract

The Neolithic is a key period in the history of the European settlement. Although archaeological and present-day genetic data suggest several hypotheses regarding the human migration patterns at this period, validation of these hypotheses with the use of ancient genetic data has been limited. In this context, we studied DNA extracted from 53 individuals buried in a necropolis used by a French local community 5,000 y ago. The relatively good DNA preservation of the samples allowed us to obtain autosomal, Y-chromosomal, and/or mtDNA data for 29 of the 53 samples studied. From these datasets, we established close parental relationships within the necropolis and determined maternal and paternal lineages as well as the absence of an allele associated with lactase persistence, probably carried by Neolithic cultures of central Europe. Our study provides an integrative view of the genetic past in southern France at the end of the Neolithic period. Furthermore, the Y-haplotype lineages characterized and the study of their current repartition in European populations confirm a greater influence of the Mediterranean than the Central European route in the peopling of southern Europe during the Neolithic transition.

Published

2011

42. Mitochondrial analysis of a Byzantine population reveals the differential impact of multiple historical events in South Anatolia.

Author

Ottoni C, Ricaut FX, Vanderheyden N, Brucato N, Waelkens M, and Decorte R

Subjects

DNA, Mitochondrial genetics, Humans, Molecular Sequence Data, Turkey, Genes, Mitochondrial, Genetics, Population

Abstract

The archaeological site of Sagalassos is located in Southwest Turkey, in the western part of the Taurus mountain range. Human occupation of its territory is attested from the late 12th millennium BP up to the 13th century AD. By analysing the mtDNA variation in 85 skeletons from Sagalassos dated to the 11th-13th century AD, this study attempts to reconstruct the genetic signature potentially left in this region of Anatolia by the many civilizations, which succeeded one another over the centuries until the mid-Byzantine period (13th century BC). Authentic ancient DNA data were determined from the control region and some SNPs in the coding region of the mtDNA in 53 individuals. Comparative analyses with up to 157 modern populations allowed us to reconstruct the origin of the mid-Byzantine people still dwelling in dispersed hamlets in Sagalassos, and to detect the maternal contribution of their potential ancestors. By integrating the genetic data with historical and archaeological information, we were able to attest in Sagalassos a significant maternal genetic signature of Balkan/Greek populations, as well as ancient Persians and populations from the Italian peninsula. Some contribution from the Levant has been also detected, whereas no contribution from Central Asian population could be ascertained.

Published

2011

43. Molecular identification of bacteria by total sequence screening: determining the cause of death in ancient human subjects.

Author

Thèves C, Senescau A, Vanin S, Keyser C, Ricaut FX, Alekseev AN, Dabernat H, Ludes B, Fabre R, and Crubézy E

Subjects

Base Sequence, Bone and Bones microbiology, DNA genetics, DNA, Bacterial genetics, DNA, Ribosomal genetics, Environmental Microbiology, Fossils, Freezing, History, 17th Century, History, 18th Century, History, 19th Century, Humans, Male, Phylogeny, Reproducibility of Results, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Siberia, Bacteria classification, Bacteria genetics, Bacterial Typing Techniques methods, Cause of Death, Molecular Typing methods

Abstract

Research of ancient pathogens in ancient human skeletons has been mainly carried out on the basis of one essential historical or archaeological observation, permitting specific pathogens to be targeted. Detection of ancient human pathogens without such evidence is more difficult, since the quantity and quality of ancient DNA, as well as the environmental bacteria potentially present in the sample, limit the analyses possible. Using human lung tissue and/or teeth samples from burials in eastern Siberia, dating from the end of 17(th) to the 19(th) century, we propose a methodology that includes the: 1) amplification of all 16S rDNA gene sequences present in each sample; 2) identification of all bacterial DNA sequences with a degree of identity ≥ 95%, according to quality criteria; 3) identification and confirmation of bacterial pathogens by the amplification of the rpoB gene; and 4) establishment of authenticity criteria for ancient DNA. This study demonstrates that from teeth samples originating from ancient human subjects, we can realise: 1) the correct identification of bacterial molecular sequence signatures by quality criteria; 2) the separation of environmental and pathogenic bacterial 16S rDNA sequences; 3) the distribution of bacterial species for each subject and for each burial; and 4) the characterisation of bacteria specific to the permafrost. Moreover, we identified three pathogens in different teeth samples by 16S rDNA sequence amplification: Bordetella sp., Streptococcus pneumoniae and Shigella dysenteriae. We tested for the presence of these pathogens by amplifying the rpoB gene. For the first time, we confirmed sequences from Bordetella pertussis in the lungs of an ancient male Siberian subject, whose grave dated from the end of the 17(th) century to the early 18(th) century.

Published

2011

44. Comparison between morphological and genetic data to estimate biological relationship: the case of the Egyin Gol necropolis (Mongolia).

Author

Ricaut FX, Auriol V, von Cramon-Taubadel N, Keyser C, Murail P, Ludes B, and Crubézy E

Subjects

Adult, Cemeteries, Child, Cluster Analysis, DNA, Mitochondrial genetics, Female, Humans, Male, Mongolia, Phylogeny, Anthropology, Physical methods, Biological Evolution, Bone and Bones anatomy & histology, Genetic Markers genetics

Abstract

Osseous and dental nonmetric (discrete) traits have long been used to assess population variability and affinity in anthropological and archaeological contexts. However, the full extent to which nonmetric traits can reliably be used as a proxy for genetic data when assessing close or familial relationships is currently poorly understood. This study represents the unique opportunity to directly compare genetic and nonmetric data for the same individuals excavated from the Egyin Gol necropolis, Mongolia. These data were analyzed to consider the general efficacy of nonmetric traits for detecting familial groupings in the absence of available genetic data. The results showed that the Egyin Gol population is quite homogenous both metrically and genetically confirming a previous suggestion that the same people occupied the necropolis throughout the five centuries of its existence. Kinship analysis detected the presence of potential family burials in the necropolis. Moreover, individuals buried in one sector of the necropolis were differentiated from other sectors on the basis of nonmetric data. This separation is likely due to an outside Turkish influence in the paternal line, as indicated by the results of Y-chromosome analysis. Affinity matrices based on nonmetric and genetic data were correlated demonstrating the potential of nonmetric traits for detecting relationships in the absence of genetic data. However, the strengths of the correlations were relatively low, cautioning against the use of nonmetric traits when the resolution of the familial relationships is low., (© 2010 Wiley-Liss, Inc.)

Published

2010

45. mtDNA variation in the Buryat population of the Barguzin Valley: New insights into the micro-evolutionary history of the Baikal area.

Author

Gibert M, Theves C, Ricaut FX, Dambueva I, Bazarov B, Moral P, Crubezy E, Perrucho M, Felix-Sanchez M, and Sevin A

Subjects

Base Sequence, Demography, Gene Pool, Geography, Haplotypes genetics, Humans, Phylogeny, Sample Size, Siberia, DNA, Mitochondrial genetics, Ethnicity genetics, Evolution, Molecular, Genetic Variation, Genetics, Population

Abstract

Background: Southern Siberian populations, including the Buryat, have been of great interest in investigating the exchanges between Eastern and Western Eurasia and understanding the peopling of Siberia and the New World., Aim: Previous studies mainly employed a phylogenetic approach, and thus used pooled samples to detect a maximum of variability. As different sampling strategies may result in different pictures of a population's evolutionary history, we proposed in this study to focus on a local Buryat population selected on the basis of geographical, archaeological and ethno-historical data., Subjects and Methods: This study investigated a local population from the Barguzin Valley, on the north-western shores of Lake Baikal identified as the most likely place of Buryat origin. We analysed mitochondrial DNA (mtDNA) RFLPs markers, HVS-I and HVS-II sequences to discuss the genetic variability of this population, and to compare our local sample with pooled Buryat samples and neighbouring Siberian populations., Results: The Barguzin Buryat sample shows depressed neutrality scores compared to the pooled Buryat sample, and different genetic affinities with the Mongol and Turco-Evenk populations., Conclusion: These results underline the need to use local samples, in addition to pooled samples, to investigate the history of human populations at the micro-evolutionary level.

Published

2010

46. Complete mitochondrial DNA sequences provide new insights into the Polynesian motif and the peopling of Madagascar.

Author

Razafindrazaka H, Ricaut FX, Cox MP, Mormina M, Dugoujon JM, Randriamarolaza LP, Guitard E, Tonasso L, Ludes B, and Crubézy E

Subjects

Base Sequence, Evolution, Molecular, Genetic Variation, Haplotypes genetics, Humans, Molecular Sequence Data, Phylogeny, Polynesia, DNA, Mitochondrial genetics, Genetics, Population, Polymorphism, Genetic

Abstract

More than a decade of mitochondrial DNA (mtDNA) studies have given the 'Polynesian motif' renowned status as a marker for tracing the late-Holocene expansion of Austronesian speaking populations. Despite considerable research on the Polynesian motif in Oceania, there has been little equivalent work on the western edge of its expansion - leaving major issues unresolved regarding the motif's evolutionary history. This has also led to considerable uncertainty regarding the settlement of Madagascar. In this study, we assess mtDNA variation in 266 individuals from three Malagasy ethnic groups: the Mikea, Vezo, and Merina. Complete mtDNA genome sequencing reveals a new variant of the Polynesian motif in Madagascar; two coding region mutations define a Malagasy-specific sub-branch. This newly defined 'Malagasy motif' occurs at high frequency in all three ethnic groups (13-50%), and its phylogenetic position, geographic distribution, and estimated age all support a recent origin, but without conclusively identifying a specific source region. Nevertheless, the haplotype's limited diversity, similar to those of other mtDNA haplogroups found in our Malagasy groups, best supports a small number of initial settlers arriving to Madagascar through the same migratory process. Finally, the discovery of this lineage provides a set of new polymorphic positions to help localize the Austronesian ancestors of the Malagasy, as well as uncover the origin and evolution of the Polynesian motif itself.

Published

2010

47. A new deep branch of eurasian mtDNA macrohaplogroup M reveals additional complexity regarding the settlement of Madagascar.

Author

Ricaut FX, Razafindrazaka H, Cox MP, Dugoujon JM, Guitard E, Sambo C, Mormina M, Mirazon-Lahr M, Ludes B, and Crubézy E

Subjects

Black People genetics, DNA, Mitochondrial genetics, Databases, Nucleic Acid, Haplotypes, Humans, Madagascar, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Evolution, Molecular, Genetics, Population, Genome, Human, Genome, Mitochondrial, Phylogeny

Abstract

Background: Current models propose that mitochondrial DNA macrohaplogroups M and N evolved from haplogroup L3 soon after modern humans left Africa. Increasingly, however, analysis of isolated populations is filling in the details of, and in some cases challenging, aspects of this general model., Results: Here, we present the first comprehensive study of three such isolated populations from Madagascar: the Mikea hunter-gatherers, the neighbouring Vezo fishermen, and the Merina central highlanders (n = 266). Complete mitochondrial DNA genome sequences reveal several unresolved lineages, and a new, deep branch of the out-of-Africa founder clade M has been identified. This new haplogroup, M23, has a limited global distribution, and is restricted to Madagascar and a limited range of African and Southwest Asian groups., Conclusions: The geographic distribution, phylogenetic placement and molecular age of M23 suggest that the colonization of Madagascar was more complex than previously thought.

Published

2009

48. Cranial discrete traits in a Byzantine population and eastern Mediterranean population movements.

Author

Ricaut FX and Waelkens M

Subjects

Africa South of the Sahara, Byzantium, Cluster Analysis, Data Collection, Female, Gene Flow, Humans, Male, Mediterranean Region, Molecular Biology statistics & numerical data, Turkey, Cephalometry statistics & numerical data, Emigration and Immigration, Genetic Variation genetics, Genetics, Population statistics & numerical data

Abstract

Since the beginning of the Holocene, the Anatolian region has been a crossroads for populations and civilizations from Europe, Asia, and the Near to Middle East, with increasing interactions since the Bronze Age. In this context, we examine cranial discrete traits from a Byzantine population from southwest Turkey, excavated at the archeological site of Sagalassos; the site displays human occupation since the 12th millennium B.P. To investigate the biological history of this population, we analyzed the frequency distribution of 17 cranial discrete traits from Sagalassos and 27 Eurasian and African populations. Ward's clustering procedure and multidimensional scaling analyses of the standardized mean measure of divergence (MMD(st)), based on trait frequencies, were used to represent the biological affinity between populations. Our results, considered within a large interpretive framework that takes into account the idea that populations are dynamic entities affected by various influences through time and space, revealed different strata of the Sagalassos biological history. Indeed, beyond an expected biological affinity of the Sagalassos population with eastern Mediterranean populations, we also detected affinities with sub-Saharan and northern and central European populations. We hypothesize that these affinity patterns in the Sagalassos biological package are the traces of the major migratory events that affected southwest Anatolia over the last millennia, as suggested from biological, archeological, and historical data.

Published

2008

49. Mitochondrial DNA variation in Karkar Islanders.

Author

Ricaut FX, Thomas T, Arganini C, Staughton J, Leavesley M, Bellatti M, Foley R, and Mirazon Lahr M

Subjects

Base Sequence, Haplotypes, Humans, Papua New Guinea, Phylogeny, DNA, Mitochondrial genetics, Genetic Variation, Geography

Abstract

We analyzed 375 base pairs (bp) of the first hypervariable region (HVS-I) of the mitochondrial DNA (mtDNA) control region and intergenic COII/tRNALys 9-bp deletion from 47 Karkar Islanders (north coast of Papua New Guinea) belonging to the Waskia Papuan language group. To address questions concerning the origin and evolution of this population we compared the Karkar mtDNA haplotypes and haplogroups to those of neighbouring East Asians and Oceanic populations. The results of the phylogeographic analysis show grouping in three different clusters of the Karkar Islander mtDNA lineages: one group of lineages derives from the first Pleistocene settlers of New Guinea-Island Melanesia, a second set derives from more recent arrivals of Austronesian speaking populations, and the third contains lineages specific to the Karkar Islanders, but still rooted to Austronesian and New Guinea-Island Melanesia populations. Our results suggest (i) the absence of a strong association between language and mtDNA variation and, (ii) reveal that the mtDNA haplogroups F1a1, M7b1 and E1a, which probably originated in Island Southeast Asia and may be considered signatures of Austronesian population movements, are preserved in the Karkar Islanders but absent in other New Guinea-Island Melanesian populations. These findings indicate that the Karkar Papuan speakers retained a certain degree of their own genetic uniqueness and a high genetic diversity. We present a hypothesis based on archaeological, linguistic and environmental datasets to argue for a succession of (partial) depopulation and repopulation and expansion events, under conditions of structured interaction, which may explain the variability expressed in the Karkar mtDNA.

Published

2008

50. Ancient mitochondrial DNA from Malaysian hair samples: some indications of Southeast Asian population movements.

Author

Ricaut FX, Bellatti M, and Lahr MM

Subjects

Anthropology, Physical, Asia, Southeastern, Asian People history, History, Ancient, Humans, Asian People genetics, DNA, Mitochondrial genetics, Genetic Variation, Phylogeny

Abstract

The late Pleistocene and early Holocene population history of Southeast Asia is not well-known. Our study provides new data on mitochondrial DNA (mtDNA) lineages of the aboriginal inhabitants of the Malay Peninsula, and through an extensive comparison to the known mtDNA diversity in Southeast and East Asia, provides some new insights into the origins and historical geography of certain mtDNA lineages in the region. We extracted DNA from hair samples (dating back 100 years) preserved in the Duckworth Collection and belonging to two Peninsular Malaysian individuals identified as "Negrito." Ancient DNA was analyzed by sequencing hypervariable region I (HVS-I) of the mtDNA control region and the mtDNA region V length polymorphism. The results show that the maternal lineages of these individuals belong to a recently defined haplogroup B sub-branch called B4c2. A comparison of mitochondrial haplotypes and haplogroups with those of 10,349 East Asian individuals indicates their very restricted geographical distribution (southwestern China, Southeast Asia Peninsula, and Indonesia). Recalculation of the B4c2 age across all of East Asia ( approximately 13,000 years) and in different subregions/populations suggests its rapid diffusion in Southeast Asia between the end of the Last Glacial Maximum and the Neolithic expansion of the Holocene.

Published

2006