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3. Origin and spread of human mitochondrial DNA haplogroup U7

Author

Sahakyan, H. Kashani, B.H. Tamang, R. Kushniarevich, A. Francis, A. Costa, M.D. Pathak, A.K. Khachatryan, Z. Sharma, I. Van Oven, M. Parik, J. Hovhannisyan, H. Metspalu, E. Pennarun, E. Karmin, M. Tamm, E. Tambets, K. Bahmanimehr, A. Reisberg, T. Reidla, M. Achilli, A. Olivieri, A. Gandini, F. Perego, U.A. Al-Zahery, N. Houshmand, M. Sanati, M.H. Soares, P. Rai, E. Šarac, J. Šarić, T. Sharma, V. Pereira, L. Fernandes, V. Černý, V. Farjadian, S. Singh, D.P. Azakli, H. Üstek, D. Trofimova, N.E. Kutuev, I. Litvinov, S. Bermisheva, M. Khusnutdinova, E.K. Rai, N. Singh, M. Singh, V.K. Reddy, A.G. Tolk, H.-V. Cvjetan, S. Lauc, L.B. Rudan, P. Michalodimitrakis, E.N. Anagnou, N.P. Pappa, K.I. Golubenko, M.V. Orekhov, V. Borinskaya, S.A. Kaldma, K. Schauer, M.A. Simionescu, M. Gusar, V. Grechanina, E. Govindaraj, P. Voevoda, M. Damba, L. Sharma, S. Singh, L. Semino, O. Behar, D.M. Yepiskoposyan, L. Richards, M.B. Metspalu, M. Kivisild, T. Thangaraj, K. Endicott, P. Chaubey, G. Torroni, A. Villems, R.

Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene hunter-gatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (∼16-19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that - analysed alongside 100 published ones - enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (∼11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (∼8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region. © The Author(s) 2017.

Published
2017

4. Origin and spread of mitochondrial DNA haplogroup U7

Author

Sahakyan, H, Kashani, BH, Tamang, R, Kushniarevich, A, Francis, A, Costa, MD, Pathak, AK, Khachatryan, Z, Sharma, I, van Oven, M, Parik, J, Hovhannisyan, H, Metspalu, E, Pennarun, E, Karmin, M, Tamm, E, Tambets, K, Bahmanimehr, A, Reisberg, T, Reidla, M, Achilli, A, Olivieri, A, Gandini, F, Perego, UA, Al-Zahery, N, Houshmand, M, Sanati, MH, Soares, P, Rai, E, Šarac, J, Šarić, T, Sharma, V, Pereira, L, Fernandes, V, Černý, V, Farjadian, S, Singh, DP, Azakli, H, Üstek, D, Ekomasova, NT, Kutuev, I, Litvinov, S, Bermisheva, M, Khusnutdinova, EK, Rai, N, Singh, M, Singh, VK, Reddy, AG, Tolk, HV, Cvjetan, S, Lauc, LB, Rudan, P, Michalodimitrakis, EN, Anagnou, NP, Pappa, KI, Golubenko, MV, Orekhov, V, Borinskaya, SA, Kaldma, K, Schauer, MA, Simionescu, M, Gusar, V, Grechanina, E, Govindaraj, P, Voevoda, M, Damba, L, Sharma, S, Singh, L, Semino, O, Behar, DM, Yepiskoposyan, L, Richards, MB, Metspalu, M, Kivisild, T, Thangaraj, K, Endicott, P, Chaubey, G, Torroni, A, Villems, R, and Instituto de Investigação e Inovação em Saúde

Subjects
Bronze Age, Europe, Mitochondrial haplogroup, Middle East, Steppe, Holocene, Human experiment, Neolithic, South Asia, Human, Language
Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene huntergatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (~16–19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that – analysed alongside 100 published ones – enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (~11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (~8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region.

Published
2017

7. The Genetic Canvas of European Roma

Author

Karmin, M, Baldovič, M, Jeran, Nina, Cvjetan, Svjetlana, Reidla, M, Šarić, Tena, Šarac, Jelena, Cenanović, M, Leskovac, A, Marjanović, Damir, Havaš Auguštin, Dubravka, Ficek, A, Chaubey, G, Rootsi, S, Ferak, V, Rudan, Pavao, Metspalu, E, Behar, DM, and Villems R

Subjects
Roma (Gypsies), mitochondrial DNA, y-chromosome
Abstract

According to linguistic evidence, the Indian exodus of the ancestors of the European Roma took place most probably around the end of the first millennium. By 13th - 15th centuries, different groups of Roma had spread throughout Europe. Virtual lack of written records prior to their arrival to Europe has left us with scarce knowledge about their historical migratory routes. Therefore, valuable insight may come from archaeogenetic studies. Here we report the results of a combined mtDNA, NRY and autosomal study of the genetic variation of Roma (Gypsies). We have studied variation of close to 600 Roma mtDNAs from six European countries, including 60 complete mitochondrial genomes from various populations of European Roma, India and the Near East. The most common Indian-specific maternal lineage among Roma is M5a1b1. Reaching from 5% to 35% in different Roma communities, it is, at the same time, present in various linguistically, socially and geographically different populations of India. The analysis of complete mitochondrial genomes shows that U3b1 and X2e1 lineages found in Roma have their closest relatives in the Near East and X2d1 lineages in the Caucasus, suggesting that at least a part of their West Eurasian-specific matrilineages has been picked up by the Roma en route before reaching Europe. We have analyzed over 250 Y-chromosomes from different Roma communities for their Y-STR and Y-SNP variation. Our results confirm previous studies, identifying NRY hg H1a as a clear sign of the Indian-specific contribution within the Y-chromosomal pool of Roma. Whole genome analysis of Roma, carried out using Illumina BeadArrays in the context of Eurasian and North African populations, revealed that Roma individuals exhibit varied levels of shared South Asian - West Eurasian ancestry. Taken together, our mtDNA, Y-chromosomal and GW analysis of European Roma populations in the context of Indian, Middle Eastern and European populations offers new insights into the demographic history of Roma populations.

Published
2010

8. The western and eastern roots of the Saami - The story of genetic 'outliers' told by mitochondrial DNA and Y chromosomes

Author

Tambets, K Rootsi, S Kivisild, T Help, H Serk, P and Loogvali, EL Tolk, HV Reidla, M Metspalu, E Pliss, L and Balanovsky, O Pshenichnov, A Balanovska, E Gubina, M and Zhadanov, S Osipova, L Damba, L Voevoda, M Kutuev, I and Bermisheva, M Khusnutdinova, E Gusar, V Grechanina, E and Parik, J Pennarun, E Richard, C Chaventre, A Moisan, JP and Barac, L Pericic, M Rudan, P Terzic, R Mikerezi, I and Krumina, A Baumanis, V Koziel, S Rickards, O De Stefano, GF Anagnou, N Pappa, KI Michalodimitrakis, E and Ferak, V Furedi, S Komel, R Beckman, L Villems, R

Abstract

The Saami are regarded as extreme genetic outliers among European populations. In this study, a high-resolution phylogenetic analysis of Saami genetic heritage was undertaken in a comprehensive context, through use of maternally inherited mitochondrial DNA ( mtDNA) and paternally inherited Y-chromosomal variation. DNA variants present in the Saami were compared with those found in Europe and Siberia, through use of both new and previously published data from 445 Saami and 17,096 western Eurasian and Siberian mtDNA samples, as well as 127 Saami and 2,840 western Eurasian and Siberian Y-chromosome samples. It was shown that the “Saami motif” variant of mtDNA haplogroup U5b is present in a large area outside Scandinavia. A detailed phylogeographic analysis of one of the predominant Saami mtDNA haplogroups, U5b1b, which also includes the lineages of the “Saami motif,” was undertaken in 31 populations. The results indicate that the origin of U5b1b, as for the other predominant Saami haplogroup, V, is most likely in western, rather than eastern, Europe. Furthermore, an additional haplogroup (H1) spread among the Saami was virtually absent in 781 Samoyed and Ob-Ugric Siberians but was present in western and central European populations. The Y-chromosomal variety in the Saami is also consistent with their European ancestry. It suggests that the large genetic separation of the Saami from other Europeans is best explained by assuming that the Saami are descendants of a narrow, distinctive subset of Europeans. In particular, no evidence of a significant directional gene flow from extant aboriginal Siberian populations into the haploid gene pools of the Saami was found.

Published
2004

9. Disuniting uniformity: A pied cladistic canvas of mtDNA haplogroup H in Eurasia

Author

Loogvali, EL Roostalu, U Malyarchuk, BA Derenko, MV and Kivisild, T Metspalu, E Tambets, K Reidla, M Tolk, HV and Parik, J Pennarun, E Laos, S Lunkina, A Golubenko, M and Barac, L Pericic, M Balanovsky, OP Gusar, V and Khusnutdinova, EK Stepanov, V Puzyrev, V Rudan, P and Balanovska, EV Grechanina, E Richard, C Moisan, JP and Chaventre, A Anagnou, NP Pappa, KI Michalodimitrakis, EN and Claustres, M Golge, M Mikerezi, I Usanga, E Villems, R

Abstract

It has been often stated that the overall pattern of human maternal lineages in Europe is largely uniform. Yet this uniformity may also result from an insufficient depth and width of the phylogenetic analysis, in particular of the predominant western Eurasian haplogroup (Hg) H that comprises nearly a half of the European mitochondrial DNA (mtDNA) pool. Making use of the coding sequence information from 267 mtDNA Hg H sequences, we have analyzed 830 mtDNA genomes, from 11 European, Near and Middle Eastern, Central Asian, and Altaian populations. In addition to the seven previously specified subhaplogroups, we define fifteen novel subclades of Hg H present in the extant human populations of western Eurasia. The refinement of the phylogenetic resolution has allowed us to resolve a large number of homoplasies in phylogenetic trees of Hg H based on the first hypervariable segment (HVS-I) of mtDNA. As many as 50 out of 125 polymorphic positions in HVS-I were found to be mutated in more than one subcluster of Hg H. The phylogeographic analysis revealed that sub-Hgs H1*, H1b, H1f, H2a, H3, H6a, H6b, and H8 demonstrate distinct phylogeographic patterns. The monophyletic subhaplogroups of Hg H provide means for further progress in the understanding of the (pre)historic movements of women in Eurasia and for the understanding of the present-day genetic diversity of western Eurasians in general.

Published
2004

17. Binary signals in impedance spectroscopy

Author

Min, M., primary, Ojarand, J., additional, Martens, O., additional, Paavle, T., additional, Land, R., additional, Annus, P., additional, Rist, M., additional, Reidla, M., additional, and Parve, T., additional

Published
2012
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21. Deep common ancestry of Indian and western-Eurasian mitochondrial DNA lineages

Author

Kivisild, T., primary, Bamshad, M.J., additional, Kaldma, K., additional, Metspalu, M., additional, Metspalu, E., additional, Reidla, M., additional, Laos, S., additional, Parik, J., additional, Watkins, W.S., additional, Dixon, M.E., additional, Papiha, S.S., additional, Mastana, S.S., additional, Mir, M.R., additional, Ferak, V., additional, and Villems, R., additional

Published
1999
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24. Mitochondrial DNA signals of late glacial recolonization of Europe from near eastern refugia

Author

Vincent Macaulay, Maria Pala, Joana B. Pereira, Ene Metspalu, Nadia Al-Zahery, Ugo A. Perego, Francesca Gandini, Alessandro Achilli, Massoud Houshmand, Norman Angerhofer, Baharak Hooshiar Kashani, Monika Karmin, Valeria Carossa, Erika Tamm, Luísa Pereira, Douglas Baird, Ornella Semino, Tuuli Reisberg, Clive Gamble, Maere Reidla, Antonio Torroni, Mohammad Hossein Sanati, Richard Villems, Martin B. Richards, William Davies, Pedro Soares, Scott R. Woodward, Jiří Hatina, Anna Olivieri, Valerio Carelli, Sergei Rychkov, Matteo Accetturo, Instituto de Investigação e Inovação em Saúde, Pala M., Olivieri A., Achilli A., Accetturo M., Metspalu E., Reidla M., Tamm E., Karmin M., Reisberg T., Hooshiar Kashani B., Perego U.A., Carossa V., Gandini F., Pereira J.B., Soares P., Angerhofer N., Rychkov S., Al-Zahery N., Carelli V., Sanati M.H., Houshmand M., Hatina J., Macaulay V., Pereira L., Woodward S.R., Davies W., Gamble C., Baird D., Semino O., Villems R., Torroni A., and Richards M.B.

Subjects
Haplogroup, DNA Mitochondrial/genetics, 0302 clinical medicine, Peninsula, Ice age, Genetics(clinical), Glacial period, Europe, Eastern, European Continental Ancestry Group/genetics, Genetics (clinical), Phylogeny, Human evolution, 2. Zero hunger, 0303 health sciences, education.field_of_study, Middle East, geography.geographical_feature_category, Ecology, mtDNA, Last Glacial Maximum, Sequence Analysis DNA, Mitochondrial, Mitochondria, Europe, Europe Eastern/epidemiology, Human origins, Mitochondrial DNA, Population, Molecular Sequence Data, Biology, DNA, Mitochondrial, White People, 03 medical and health sciences, Paleontology, Genetic, Report, Genetics, Humans, education, 030304 developmental biology, geography, Genetic Variation, DNA, Sequence Analysis, DNA, DNA Mitochondrial/metabolism, Genetics, Population, Sequence Analysi, Mitochondria/genetics, 030217 neurology & neurosurgery
Abstract

Human populations, along with those of many other species, are thought to have contracted into a number of refuge areas at the height of the last Ice Age. European populations are believed to be, to a large extent, the descendants of the inhabitants of these refugia, and some extant mtDNA lineages can be traced to refugia in Franco-Cantabria (haplogroups H1, H3, V, and U5b1), the Italian Peninsula (U5b3), and the East European Plain (U4 and U5a). Parts of the Near East, such as the Levant, were also continuously inhabited throughout the Last Glacial Maximum, but unlike western and eastern Europe, no archaeological or genetic evidence for Late Glacial expansions into Europe from the Near East has hitherto been discovered. Here we report, on the basis of an enlarged whole-genome mitochondrial database, that a substantial, perhaps predominant, signal from mitochondrial haplogroups J and T, previously thought to have spread primarily from the Near East into Europe with the Neolithic population, may in fact reflect dispersals during the Late Glacial period, ∼19-12 thousand years (ka) ago. M.P. was supported by Marie Curie Early Stage Training “Advanced Genetic Analysis in the Postgenomic Era” (European Union MEST-CT-2004-504318) and by a Newton International Fellowship. This research was also supported by the Italian Ministry of Education, University, and Research: Progetti FIRB-Futuro in Ricerca 2008 (to A.A. and A.O.), and Progetti Ricerca Interesse Nazionale 2009 (to A.A., O.S. and A.T.); Fondazione Alma Mater Ticinensis (to A.T. and O.S.); the European Commission, Directorate-General for Research (FP7 Ecogene grant number 205419, to R.V.); the European Union Regional Development Fund (through the Centre of Excellence in Genomics, to R.V.); the Estonian Ministry of Education and Research (Basic Research grant numbers SF 0270177As08, to R.V., and SF 0270177Bs08, to E.M.); the Estonian Science Foundation (grant number 7858, to E.M.); and the FCT (Portuguese Foundation for Science and Technology), through research project PTDC/CS-ANT/113832/2009 and personal grants to J.B.P. (SFRH/BD/45657/2008) and P.S. (SFRH/BPD/64233/2009). P.S. also received support from the DeLaszlo Foundation. N.A.-Z. was supported by the Institute of International Education fellowship. IPATIMUP is an Associate Laboratory of the Portuguese Ministry of Science, Technology, and Higher Education (FCT) and is partially supported by FCT.

Published
2012

25. Gene pool preservation across time and space In Mongolian-speaking Oirats.

Author

Balinova N, Hudjašov G, Pankratov V, Pennarun E, Reidla M, Metspalu E, Batyrov V, Khomyakova I, Reisberg T, Parik J, Dzhaubermezov M, Aiyzhy E, Balinova A, El'chinova G, Spitsyna N, Khusnutdinova E, Metspalu M, Tambets K, Villems R, and Kushniarevich A

Subjects
Humans, Mongolia, DNA, Mitochondrial genetics, Ethnicity genetics, China, Asian People genetics, Gene Flow, Russia, Gene Pool
Abstract

The Oirats are a group of Mongolian-speaking peoples residing in Russia, China, and Mongolia, who speak Oirat dialects of the Mongolian language. Migrations of nomadic ethnopolitical formations of the Oirats across the Eurasian Steppe during the Late Middle Ages/early Modern times resulted in a wide geographic spread of Oirat ethnic groups from present-day northwestern China in East Asia to the Lower Volga region in Eastern Europe. In this study, we generate new genome-wide and mitochondrial DNA data for present-day Oirat-speaking populations from Kalmykia in Eastern Europe, Western Mongolia, and the Xinjiang region of China, as well as Issyk-Kul Sart-Kalmaks from Central Asia, and historically related ethnic groups from Altai, Tuva, and Northern Mongolia to study the genetic structure and history of the Oirats. Despite their spatial and temporal separation, small current population census, both the Kalmyks of Eastern Europe and the Oirats of Western Mongolia in East Asia are characterized by strong genetic similarity, high effective population size, and low levels of interpopulation structure. This contrasts the fine genetic structure observed today at a smaller geographic scale in traditionally sedentary populations, and is conditioned by high mobility and marriage practices (traditional strict exogamy) in nomadic groups. Conversely, the genetic profile of the Issyk-Kul Sart-Kalmaks suggests a distinct source(s) of genetic ancestry, along with indications of isolation and genetic drift compared to other Oirats. Our results also show that there was limited gene flow between the ancestors of the Oirats and the Altaians during the late Middle Ages. Source of the yurt image: https://www.vecteezy.com/free-vector/yurt ., (© 2024. The Author(s).)

Published
2024
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26. Refining the Global Phylogeny of Mitochondrial N1a, X, and HV2 Haplogroups Based on Rare Mitogenomes from Croatian Isolates.

Author

Havaš Auguštin D, Šarac J, Reidla M, Tamm E, Grahovac B, Kapović M, Novokmet N, Rudan P, Missoni S, Marjanović D, and Korolija M

Subjects
Humans, Phylogeny, Croatia, Mitochondria genetics, DNA, Mitochondrial genetics, Genome, Mitochondrial genetics
Abstract

Mitochondrial DNA (mtDNA) has been used for decades as a predominant tool in population genetics and as a valuable addition to forensic genetic research, owing to its unique maternal inheritance pattern that enables the tracing of individuals along the maternal lineage across numerous generations. The dynamic interplay between evolutionary forces, primarily genetic drift, bottlenecks, and the founder effect, can exert significant influence on genetic profiles. Consequently, the Adriatic islands have accumulated a subset of lineages that exhibits remarkable absence or rarity within other European populations. This distinctive genetic composition underscores the islands' potential as a significant resource in phylogenetic research, with implications reaching beyond regional boundaries to contribute to a global understanding. In the initial attempt to expand the mitochondrial forensic database of the Croatian population with haplotypes from small isolated communities, we sequenced mitogenomes of rare haplogroups from different Croatian island and mainland populations using next-generation sequencing (NGS). In the next step and based on the obtained results, we refined the global phylogeny of haplogroup N1a, HV2, and X by analyzing rare haplotypes, which are absent from the current phylogenetic tree. The trees were based on 16 novel and 52 previously published samples, revealing completely novel branches in the X and HV2 haplogroups and a new European cluster in the ancestral N1a variant, previously believed to be an exclusively African-Asian haplogroup. The research emphasizes the importance of investigating geographically isolated populations and their unique characteristics within a global context.

Published
2023
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27. Genetic characterization of populations in the Marquesas Archipelago in the context of the Austronesian expansion.

Author

Tätte K, Metspalu E, Post H, Palencia-Madrid L, Luis JR, Reidla M, Tamm E, Ilumäe AM, de Pancorbo MM, Garcia-Bertrand R, Metspalu M, and Herrera RJ

Subjects
Haplotypes genetics, Humans, Polynesia, Y Chromosome, DNA, Mitochondrial genetics, Gene Flow
Abstract

Our exploration of the genetic constitution of Nuku Hiva (n = 51), Hiva Oa (n = 28) and Tahuata (n = 8) of the Marquesas Archipelago based on the analyses of genome-wide autosomal markers as well as high-resolution genotyping of paternal and maternal lineages provides us with information on the origins and settlement of these islands at the fringe of the Austronesian expansion. One widespread theme that emerges from this study is the genetic uniformity and relative isolation exhibited by the Marquesas and Society populations. This genetic homogeneity within East Polynesia groups is reflected in their limited average heterozygosity, uniformity of constituents in the Structure analyses, reiteration of complete mtDNA sequences, marked separation from Asian and other Oceanic populations in the PC analyses, limited differentiation in the PCAs and large number of IBD segments in common. Both the f3 and the Outgroup f3 results provide indications of intra-East Polynesian gene flow that may have promoted the observed intra-East Polynesia genetic homogeneity while ALDER analyses indicate that East Polynesia experienced two gene flow episodes, one relatively recent from Europe that coincides roughly with the European incursion into the region and an early one that may represent the original settlement of the islands by Austronesians. Median Network analysis based on high-resolution Y-STR loci under C2a-M208 generates a star-like topology with East Polynesian groups (especially from the Society Archipelago) in central stem positions and individuals from the different populations radiating out one mutational step away while several Samoan and outlier individuals occupy peripheral positions. This arrangement of populations is congruent with dispersals of C2a-M208 Y chromosomes from East Polynesia as a migration hub signaling dispersals in various directions. The equivalent ages of the C2a-M208 lineage of the populations in the Network corroborate an east to west flow of the most abundant Polynesian Y chromosome., (© 2022. The Author(s).)

Published
2022
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28. The Ami and Yami aborigines of Taiwan and their genetic relationship to East Asian and Pacific populations.

Author

Tätte K, Metspalu E, Post H, Palencia-Madrid L, Luis JR, Reidla M, Rea A, Tamm E, Moding EJ, de Pancorbo MM, Garcia-Bertrand R, Metspalu M, and Herrera RJ

Subjects
Chromosomes, Human, Y, DNA, Mitochondrial genetics, Asia, Eastern, Genotype, Haplotypes, Humans, Pacific Islands, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Taiwan, Asian People genetics, Genetics, Population
Abstract

This article reports on the genetic characteristics of the Ami and Yami, two aboriginal populations of Taiwan. Y-SNP and mtDNA markers as well as autosomal SNPs were utilized to investigate the phylogenetic relationships to groups from MSEA (mainland Southeast Asia), ISEA (island Southeast Asia), and Oceania. Both the Ami and Yami have limited genetic diversity, with the Yami having even less diversity than the Ami. The partitioning of populations within the PCA plots based on autosomal SNPs, the profile constitution observed in the structure analyses demonstrating similar composition among specific populations, the average IBD (identical by descent) tract length gradients, the average total length of genome share among the populations, and the outgroup f3 results all indicate genetic affinities among populations that trace a geographical arc from Taiwan south into the Philippine Archipelago, Borneo, Indonesia, and Melanesia. Conversely, a more distant kinship between the Ami/Yami and MSEA based on all the markers examined, the total mtDNA sequences as well as the admixture f3 and f4 analyses argue against strong genetic contribution from MSEA to the Austronesian dispersal. The sharing of long IBD tracts, total genome length, and the large number of segments in common between the Ami/Yami and the Society Archipelago populations East Polynesia standout considering they are located about 10,700 km apart., (© 2021. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published
2021
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29. Genetic ancestry changes in Stone to Bronze Age transition in the East European plain.

Author

Saag L, Vasilyev SV, Varul L, Kosorukova NV, Gerasimov DV, Oshibkina SV, Griffith SJ, Solnik A, Saag L, D'Atanasio E, Metspalu E, Reidla M, Rootsi S, Kivisild T, Scheib CL, Tambets K, Kriiska A, and Metspalu M

Abstract

The transition from Stone to Bronze Age in Central and Western Europe was a period of major population movements originating from the Ponto-Caspian Steppe. Here, we report new genome-wide sequence data from 30 individuals north of this area, from the understudied western part of present-day Russia, including 3 Stone Age hunter-gatherers (10,800 to 4250 cal BCE) and 26 Bronze Age farmers from the Corded Ware complex Fatyanovo Culture (2900 to 2050 cal BCE). We show that Eastern hunter-gatherer ancestry was present in northwestern Russia already from around 10,000 BCE. Furthermore, we see a change in ancestry with the arrival of farming-Fatyanovo Culture individuals were genetically similar to other Corded Ware cultures, carrying a mixture of Steppe and European early farmer ancestry. Thus, they likely originate from a fast migration toward the northeast from somewhere near modern-day Ukraine-the closest area where these ancestries coexisted from around 3000 BCE., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published
2021
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30. Y-chromosomal analysis of clan structure of Kalmyks, the only European Mongol people, and their relationship to Oirat-Mongols of Inner Asia.

Author

Balinova N, Post H, Kushniarevich A, Flores R, Karmin M, Sahakyan H, Reidla M, Metspalu E, Litvinov S, Dzhaubermezov M, Akhmetova V, Khusainova R, Endicott P, Khusnutdinova E, Orlova K, Bakaeva E, Khomyakova I, Spitsina N, Zinchenko R, Villems R, and Rootsi S

Subjects
Chromosome Mapping, Europe, Genotype, Geography, Haplotypes, Humans, Male, Microsatellite Repeats, Mongolia, Phylogeny, Polymorphism, Genetic, Polymorphism, Single Nucleotide, Asian People genetics, Chromosomes, Human, Y, Genetics, Population
Abstract

Kalmyks, the only Mongolic-speaking population in Europe, live in the southeast of the European Plain, in Russia. They adhere to Buddhism and speak a dialect of the Mongolian language. Historical and linguistic evidence, as well a shared clan names, suggests a common origin with Oirats of western Mongolia; yet, only a limited number of genetic studies have focused on this topic. Here we compare the paternal genetic relationship of Kalmyk clans with ethnographically related groups from Mongolia, Kyrgyzstan and China, within the context of their neighbouring populations. A phylogeny of 37 high-coverage Y-chromosome sequences, together with further genotyping of larger sample sets, reveals that all the Oirat-speaking populations studied here, including Kalmyks, share, as a dominant paternal lineage, Y-chromosomal haplogroup C3c1-M77, which is also present in several geographically distant native Siberian populations. We identify a subset of this clade, C3c1b-F6379, specifically enriched in Kalmyks as well as in Oirat-speaking clans in Inner Asia. This sub-clade coalesces at around 1500 years before present, before the Genghis Khan era, and significantly earlier than the split between Kalmyks and other Oirat speakers about 400 years ago. We also show that split between the dominant hg C variant among Buryats-C3-M407-and that of C3-F6379, took place in the Early Upper Palaeolithic, suggesting an extremely long duration for the dissipation of hg C3-M217 carriers across northern Eurasia, which cuts through today's major linguistic phyla.

Published
2019
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31. Genes reveal traces of common recent demographic history for most of the Uralic-speaking populations.

Author

Tambets K, Yunusbayev B, Hudjashov G, Ilumäe AM, Rootsi S, Honkola T, Vesakoski O, Atkinson Q, Skoglund P, Kushniarevich A, Litvinov S, Reidla M, Metspalu E, Saag L, Rantanen T, Karmin M, Parik J, Zhadanov SI, Gubina M, Damba LD, Bermisheva M, Reisberg T, Dibirova K, Evseeva I, Nelis M, Klovins J, Metspalu A, Esko T, Balanovsky O, Balanovska E, Khusnutdinova EK, Osipova LP, Voevoda M, Villems R, Kivisild T, and Metspalu M

Subjects
Demography, Genes, Genetic Variation, Genome, Human, Humans, Linguistics, Population Dynamics, Asian People genetics, White People genetics
Abstract

Background: The genetic origins of Uralic speakers from across a vast territory in the temperate zone of North Eurasia have remained elusive. Previous studies have shown contrasting proportions of Eastern and Western Eurasian ancestry in their mitochondrial and Y chromosomal gene pools. While the maternal lineages reflect by and large the geographic background of a given Uralic-speaking population, the frequency of Y chromosomes of Eastern Eurasian origin is distinctively high among European Uralic speakers. The autosomal variation of Uralic speakers, however, has not yet been studied comprehensively., Results: Here, we present a genome-wide analysis of 15 Uralic-speaking populations which cover all main groups of the linguistic family. We show that contemporary Uralic speakers are genetically very similar to their local geographical neighbours. However, when studying relationships among geographically distant populations, we find that most of the Uralic speakers and some of their neighbours share a genetic component of possibly Siberian origin. Additionally, we show that most Uralic speakers share significantly more genomic segments identity-by-descent with each other than with geographically equidistant speakers of other languages. We find that correlated genome-wide genetic and lexical distances among Uralic speakers suggest co-dispersion of genes and languages. Yet, we do not find long-range genetic ties between Estonians and Hungarians with their linguistic sisters that would distinguish them from their non-Uralic-speaking neighbours., Conclusions: We show that most Uralic speakers share a distinct ancestry component of likely Siberian origin, which suggests that the spread of Uralic languages involved at least some demic component.

Published
2018
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32. Investigating the origins of eastern Polynesians using genome-wide data from the Leeward Society Isles.

Author

Hudjashov G, Endicott P, Post H, Nagle N, Ho SYW, Lawson DJ, Reidla M, Karmin M, Rootsi S, Metspalu E, Saag L, Villems R, Cox MP, Mitchell RJ, Garcia-Bertrand RL, Metspalu M, and Herrera RJ

Subjects
DNA, Mitochondrial genetics, Emigration and Immigration, Genetics, Population methods, Haplotypes genetics, Humans, Male, New Guinea, Philippines, Phylogeny, Polynesia, Chromosomes, Human, Y genetics, Genetic Variation genetics, Genome genetics
Abstract

The debate concerning the origin of the Polynesian speaking peoples has been recently reinvigorated by genetic evidence for secondary migrations to western Polynesia from the New Guinea region during the 2nd millennium BP. Using genome-wide autosomal data from the Leeward Society Islands, the ancient cultural hub of eastern Polynesia, we find that the inhabitants' genomes also demonstrate evidence of this episode of admixture, dating to 1,700-1,200 BP. This supports a late settlement chronology for eastern Polynesia, commencing ~1,000 BP, after the internal differentiation of Polynesian society. More than 70% of the autosomal ancestry of Leeward Society Islanders derives from Island Southeast Asia with the lowland populations of the Philippines as the single largest potential source. These long-distance migrants into Polynesia experienced additional admixture with northern Melanesians prior to the secondary migrations of the 2nd millennium BP. Moreover, the genetic diversity of mtDNA and Y chromosome lineages in the Leeward Society Islands is consistent with linguistic evidence for settlement of eastern Polynesia proceeding from the central northern Polynesian outliers in the Solomon Islands. These results stress the complex demographic history of the Leeward Society Islands and challenge phylogenetic models of cultural evolution predicated on eastern Polynesia being settled from Samoa.

Published
2018
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33. Extensive Farming in Estonia Started through a Sex-Biased Migration from the Steppe.

Author

Saag L, Varul L, Scheib CL, Stenderup J, Allentoft ME, Saag L, Pagani L, Reidla M, Tambets K, Metspalu E, Kriiska A, Willerslev E, Kivisild T, and Metspalu M

Subjects
Chromosomes, Human, X genetics, Chromosomes, Human, Y genetics, DNA, Mitochondrial chemistry, Estonia, History, Ancient, Humans, Agriculture history, DNA, Ancient analysis, Genome, Human genetics, Human Migration
Abstract

The transition from hunting and gathering to farming in Europe was brought upon by arrival of new people carrying novel material culture and genetic ancestry. The exact nature and scale of the transition-both material and genetic-varied in different parts of Europe [1-7]. Farming-based economies appear relatively late in Northeast Europe, and the extent to which they involve change in genetic ancestry is not fully understood due to the lack of relevant ancient DNA data. Here we present the results from new low-coverage whole-genome shotgun sequence data from five hunter-gatherers and five first farmers of Estonia whose remains date to 4,500 to 6,300 years before present. We find evidence of significant differences between the two groups in the composition of autosomal as well as mtDNA, X chromosome, and Y chromosome ancestries. We find that Estonian hunter-gatherers of Comb Ceramic culture are closest to Eastern hunter-gatherers, which is in contrast to earlier hunter-gatherers from the Baltics, who are close to Western hunter-gatherers [8, 9]. The Estonian first farmers of Corded Ware culture show high similarity in their autosomes with European hunter-gatherers, Steppe Eneolithic and Bronze Age populations, and European Late Neolithic/Bronze Age populations, while their X chromosomes are in addition equally closely related to European and Anatolian and Levantine early farmers. These findings suggest that the shift to intensive cultivation and animal husbandry in Estonia was triggered by the arrival of new people with predominantly Steppe ancestry but whose ancestors had undergone sex-specific admixture with early farmers with Anatolian ancestry., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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34. "Like sugar in milk": reconstructing the genetic history of the Parsi population.

Author

Chaubey G, Ayub Q, Rai N, Prakash S, Mushrif-Tripathy V, Mezzavilla M, Pathak AK, Tamang R, Firasat S, Reidla M, Karmin M, Rani DS, Reddy AG, Parik J, Metspalu E, Rootsi S, Dalal K, Khaliq S, Mehdi SQ, Singh L, Metspalu M, Kivisild T, Tyler-Smith C, Villems R, and Thangaraj K

Subjects
Emigration and Immigration, Ethnicity history, Female, Geography, Haplotypes, History, Ancient, Humans, India, Iran, Pakistan, Phylogeny, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Ethnicity genetics, Genetics, Population
Abstract

Background: The Parsis are one of the smallest religious communities in the world. To understand the population structure and demographic history of this group in detail, we analyzed Indian and Pakistani Parsi populations using high-resolution genetic variation data on autosomal and uniparental loci (Y-chromosomal and mitochondrial DNA). Additionally, we also assayed mitochondrial DNA polymorphisms among ancient Parsi DNA samples excavated from Sanjan, in present day Gujarat, the place of their original settlement in India., Results: Among present-day populations, the Parsis are genetically closest to Iranian and the Caucasus populations rather than their South Asian neighbors. They also share the highest number of haplotypes with present-day Iranians and we estimate that the admixture of the Parsis with Indian populations occurred ~1,200 years ago. Enriched homozygosity in the Parsi reflects their recent isolation and inbreeding. We also observed 48% South-Asian-specific mitochondrial lineages among the ancient samples, which might have resulted from the assimilation of local females during the initial settlement. Finally, we show that Parsis are genetically closer to Neolithic Iranians than to modern Iranians, who have witnessed a more recent wave of admixture from the Near East., Conclusions: Our results are consistent with the historically-recorded migration of the Parsi populations to South Asia in the 7th century and in agreement with their assimilation into the Indian sub-continent's population and cultural milieu "like sugar in milk". Moreover, in a wider context our results support a major demographic transition in West Asia due to the Islamic conquest.

Published
2017
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35. Origin and spread of human mitochondrial DNA haplogroup U7.

Author

Sahakyan H, Hooshiar Kashani B, Tamang R, Kushniarevich A, Francis A, Costa MD, Pathak AK, Khachatryan Z, Sharma I, van Oven M, Parik J, Hovhannisyan H, Metspalu E, Pennarun E, Karmin M, Tamm E, Tambets K, Bahmanimehr A, Reisberg T, Reidla M, Achilli A, Olivieri A, Gandini F, Perego UA, Al-Zahery N, Houshmand M, Sanati MH, Soares P, Rai E, Šarac J, Šarić T, Sharma V, Pereira L, Fernandes V, Černý V, Farjadian S, Singh DP, Azakli H, Üstek D, Ekomasova Trofimova N, Kutuev I, Litvinov S, Bermisheva M, Khusnutdinova EK, Rai N, Singh M, Singh VK, Reddy AG, Tolk HV, Cvjetan S, Lauc LB, Rudan P, Michalodimitrakis EN, Anagnou NP, Pappa KI, Golubenko MV, Orekhov V, Borinskaya SA, Kaldma K, Schauer MA, Simionescu M, Gusar V, Grechanina E, Govindaraj P, Voevoda M, Damba L, Sharma S, Singh L, Semino O, Behar DM, Yepiskoposyan L, Richards MB, Metspalu M, Kivisild T, Thangaraj K, Endicott P, Chaubey G, Torroni A, and Villems R

Subjects
Bayes Theorem, Geography, Humans, Mutation genetics, Phylogeny, DNA, Mitochondrial genetics, Evolution, Molecular, Haplotypes genetics
Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene hunter-gatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (~16-19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that - analysed alongside 100 published ones - enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (~11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (~8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region.

Published
2017
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36. Human Y Chromosome Haplogroup N: A Non-trivial Time-Resolved Phylogeography that Cuts across Language Families.

Author

Ilumäe AM, Reidla M, Chukhryaeva M, Järve M, Post H, Karmin M, Saag L, Agdzhoyan A, Kushniarevich A, Litvinov S, Ekomasova N, Tambets K, Metspalu E, Khusainova R, Yunusbayev B, Khusnutdinova EK, Osipova LP, Fedorova S, Utevska O, Koshel S, Balanovska E, Behar DM, Balanovsky O, Kivisild T, Underhill PA, Villems R, and Rootsi S

Subjects
Asia, Europe, Humans, Phylogeography, Time Factors, Chromosomes, Human, Y genetics, Haplotypes genetics, Language
Abstract

The paternal haplogroup (hg) N is distributed from southeast Asia to eastern Europe. The demographic processes that have shaped the vast extent of this major Y chromosome lineage across numerous linguistically and autosomally divergent populations have previously been unresolved. On the basis of 94 high-coverage re-sequenced Y chromosomes, we establish and date a detailed hg N phylogeny. We evaluate geographic structure by using 16 distinguishing binary markers in 1,631 hg N Y chromosomes from a collection of 6,521 samples from 56 populations. The more southerly distributed sub-clade N4 emerged before N2a1 and N3, found mostly in the north, but the latter two display more elaborate branching patterns, indicative of regional contrasts in recent expansions. In particular, a number of prominent and well-defined clades with common N3a3'6 ancestry occur in regionally dissimilar northern Eurasian populations, indicating almost simultaneous regional diversification and expansion within the last 5,000 years. This patrilineal genetic affinity is decoupled from the associated higher degree of language diversity., (Copyright © 2016 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2016
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37. Genetic Heritage of the Balto-Slavic Speaking Populations: A Synthesis of Autosomal, Mitochondrial and Y-Chromosomal Data.

Author

Kushniarevich A, Utevska O, Chuhryaeva M, Agdzhoyan A, Dibirova K, Uktveryte I, Möls M, Mulahasanovic L, Pshenichnov A, Frolova S, Shanko A, Metspalu E, Reidla M, Tambets K, Tamm E, Koshel S, Zaporozhchenko V, Atramentova L, Kučinskas V, Davydenko O, Goncharova O, Evseeva I, Churnosov M, Pocheshchova E, Yunusbayev B, Khusnutdinova E, Marjanović D, Rudan P, Rootsi S, Yankovsky N, Endicott P, Kassian A, Dybo A, Tyler-Smith C, Balanovska E, Metspalu M, Kivisild T, Villems R, and Balanovsky O

Subjects
Europe, Humans, Phylogeny, Polymorphism, Single Nucleotide, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Gene Pool, Genetic Variation, Language, White People genetics
Abstract

The Slavic branch of the Balto-Slavic sub-family of Indo-European languages underwent rapid divergence as a result of the spatial expansion of its speakers from Central-East Europe, in early medieval times. This expansion-mainly to East Europe and the northern Balkans-resulted in the incorporation of genetic components from numerous autochthonous populations into the Slavic gene pools. Here, we characterize genetic variation in all extant ethnic groups speaking Balto-Slavic languages by analyzing mitochondrial DNA (n = 6,876), Y-chromosomes (n = 6,079) and genome-wide SNP profiles (n = 296), within the context of other European populations. We also reassess the phylogeny of Slavic languages within the Balto-Slavic branch of Indo-European. We find that genetic distances among Balto-Slavic populations, based on autosomal and Y-chromosomal loci, show a high correlation (0.9) both with each other and with geography, but a slightly lower correlation (0.7) with mitochondrial DNA and linguistic affiliation. The data suggest that genetic diversity of the present-day Slavs was predominantly shaped in situ, and we detect two different substrata: 'central-east European' for West and East Slavs, and 'south-east European' for South Slavs. A pattern of distribution of segments identical by descent between groups of East-West and South Slavs suggests shared ancestry or a modest gene flow between those two groups, which might derive from the historic spread of Slavic people.

Published
2015
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38. Maternal genetic heritage of Southeastern Europe reveals a new Croatian isolate and a novel, local sub-branching in the x2 haplogroup.

Author

Sarac J, Sarić T, Auguštin DH, Jeran N, Kovačević L, Cvjetan S, Lewis AP, Metspalu E, Reidla M, Novokmet N, Vidovič M, Nevajda B, Glasnović A, Marjanović D, Missoni S, Villems R, and Rudan P

Subjects
Analysis of Variance, Base Sequence, Genetic Variation, Genotype, Haplotypes genetics, Humans, Molecular Sequence Data, Polymerase Chain Reaction, Sequence Analysis, DNA, Yugoslavia ethnology, DNA, Mitochondrial genetics, Gene Flow genetics, Phylogeny
Abstract

High mtDNA variation in Southeastern Europe (SEE) is a reflection of the turbulent and complex demographic history of this area, influenced by gene flow from various parts of Eurasia and a long history of intermixing. Our results of 1035 samples (488 from Croatia, 239 from Bosnia and 130 from Herzegovina, reported earlier, and 97 Slovenians and 81 individuals from Žumberak, reported here for the first time) show that the SEE maternal genetic diversity fits within a broader European maternal genetic landscape. The study also shows that the population of Žumberak, located in the continental part of Croatia, developed some unique mtDNA haplotypes and elevated haplogroup frequencies due to distinctive demographic history and can be considered a moderate genetic isolate. We also report seven samples from the Bosnian population and one Herzegovinian sample designated as X2* individuals that could not be assigned to any of its sublineages (X2a'o) according to the existing X2 phylogeny. In an attempt to clarify the phylogeny of our X2 samples, their mitochondrial DNA has been completely sequenced. We suppose that these lineages are signs of local microdifferentiation processes that occurred in the recent demographic past in this area and could possibly be marked as SEE-specific X2 sublineages., (© 2014 John Wiley & Sons Ltd/University College London.)

Published
2014
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39. Autosomal and uniparental portraits of the native populations of Sakha (Yakutia): implications for the peopling of Northeast Eurasia.

Author

Fedorova SA, Reidla M, Metspalu E, Metspalu M, Rootsi S, Tambets K, Trofimova N, Zhadanov SI, Hooshiar Kashani B, Olivieri A, Voevoda MI, Osipova LP, Platonov FA, Tomsky MI, Khusnutdinova EK, Torroni A, and Villems R

Subjects
Asian People classification, Asian People ethnology, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Asia, Eastern ethnology, Female, Gene Pool, Haplotypes, Humans, Male, Phylogeny, Polymorphism, Single Nucleotide, Siberia ethnology, White People classification, White People ethnology, Asian People genetics, Genetics, Population, White People genetics
Abstract

Background: Sakha--an area connecting South and Northeast Siberia--is significant for understanding the history of peopling of Northeast Eurasia and the Americas. Previous studies have shown a genetic contiguity between Siberia and East Asia and the key role of South Siberia in the colonization of Siberia., Results: We report the results of a high-resolution phylogenetic analysis of 701 mtDNAs and 318 Y chromosomes from five native populations of Sakha (Yakuts, Evenks, Evens, Yukaghirs and Dolgans) and of the analysis of more than 500,000 autosomal SNPs of 758 individuals from 55 populations, including 40 previously unpublished samples from Siberia. Phylogenetically terminal clades of East Asian mtDNA haplogroups C and D and Y-chromosome haplogroups N1c, N1b and C3, constituting the core of the gene pool of the native populations from Sakha, connect Sakha and South Siberia. Analysis of autosomal SNP data confirms the genetic continuity between Sakha and South Siberia. Maternal lineages D5a2a2, C4a1c, C4a2, C5b1b and the Yakut-specific STR sub-clade of Y-chromosome haplogroup N1c can be linked to a migration of Yakut ancestors, while the paternal lineage C3c was most likely carried to Sakha by the expansion of the Tungusic people. MtDNA haplogroups Z1a1b and Z1a3, present in Yukaghirs, Evens and Dolgans, show traces of different and probably more ancient migration(s). Analysis of both haploid loci and autosomal SNP data revealed only minor genetic components shared between Sakha and the extreme Northeast Siberia. Although the major part of West Eurasian maternal and paternal lineages in Sakha could originate from recent admixture with East Europeans, mtDNA haplogroups H8, H20a and HV1a1a, as well as Y-chromosome haplogroup J, more probably reflect an ancient gene flow from West Eurasia through Central Asia and South Siberia., Conclusions: Our high-resolution phylogenetic dissection of mtDNA and Y-chromosome haplogroups as well as analysis of autosomal SNP data suggests that Sakha was colonized by repeated expansions from South Siberia with minor gene flow from the Lower Amur/Southern Okhotsk region and/or Kamchatka. The minor West Eurasian component in Sakha attests to both recent and ongoing admixture with East Europeans and an ancient gene flow from West Eurasia.

Published
2013
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40. Uniparental genetic heritage of belarusians: encounter of rare middle eastern matrilineages with a central European mitochondrial DNA pool.

Author

Kushniarevich A, Sivitskaya L, Danilenko N, Novogrodskii T, Tsybovsky I, Kiseleva A, Kotova S, Chaubey G, Metspalu E, Sahakyan H, Bahmanimehr A, Reidla M, Rootsi S, Parik J, Reisberg T, Achilli A, Hooshiar Kashani B, Gandini F, Olivieri A, Behar DM, Torroni A, Davydenko O, and Villems R

Subjects
Ethnicity genetics, Haplotypes, Humans, Male, Phylogeny, Phylogeography, Republic of Belarus, Chromosomes, Human, Y, DNA, Mitochondrial genetics, Gene Pool, White People genetics
Abstract

Ethnic Belarusians make up more than 80% of the nine and half million people inhabiting the Republic of Belarus. Belarusians together with Ukrainians and Russians represent the East Slavic linguistic group, largest both in numbers and territory, inhabiting East Europe alongside Baltic-, Finno-Permic- and Turkic-speaking people. Till date, only a limited number of low resolution genetic studies have been performed on this population. Therefore, with the phylogeographic analysis of 565 Y-chromosomes and 267 mitochondrial DNAs from six well covered geographic sub-regions of Belarus we strove to complement the existing genetic profile of eastern Europeans. Our results reveal that around 80% of the paternal Belarusian gene pool is composed of R1a, I2a and N1c Y-chromosome haplogroups - a profile which is very similar to the two other eastern European populations - Ukrainians and Russians. The maternal Belarusian gene pool encompasses a full range of West Eurasian haplogroups and agrees well with the genetic structure of central-east European populations. Our data attest that latitudinal gradients characterize the variation of the uniparentally transmitted gene pools of modern Belarusians. In particular, the Y-chromosome reflects movements of people in central-east Europe, starting probably as early as the beginning of the Holocene. Furthermore, the matrilineal legacy of Belarusians retains two rare mitochondrial DNA haplogroups, N1a3 and N3, whose phylogeographies were explored in detail after de novo sequencing of 20 and 13 complete mitogenomes, respectively, from all over Eurasia. Our phylogeographic analyses reveal that two mitochondrial DNA lineages, N3 and N1a3, both of Middle Eastern origin, might mark distinct events of matrilineal gene flow to Europe: during the mid-Holocene period and around the Pleistocene-Holocene transition, respectively.

Published
2013
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41. Mitochondrial DNA signals of late glacial recolonization of Europe from near eastern refugia.

Author

Pala M, Olivieri A, Achilli A, Accetturo M, Metspalu E, Reidla M, Tamm E, Karmin M, Reisberg T, Hooshiar Kashani B, Perego UA, Carossa V, Gandini F, Pereira JB, Soares P, Angerhofer N, Rychkov S, Al-Zahery N, Carelli V, Sanati MH, Houshmand M, Hatina J, Macaulay V, Pereira L, Woodward SR, Davies W, Gamble C, Baird D, Semino O, Villems R, Torroni A, and Richards MB

Subjects
Europe, Europe, Eastern epidemiology, Genetic Variation, Genetics, Population, Humans, Middle East, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, Mitochondria genetics, White People genetics
Abstract

Human populations, along with those of many other species, are thought to have contracted into a number of refuge areas at the height of the last Ice Age. European populations are believed to be, to a large extent, the descendants of the inhabitants of these refugia, and some extant mtDNA lineages can be traced to refugia in Franco-Cantabria (haplogroups H1, H3, V, and U5b1), the Italian Peninsula (U5b3), and the East European Plain (U4 and U5a). Parts of the Near East, such as the Levant, were also continuously inhabited throughout the Last Glacial Maximum, but unlike western and eastern Europe, no archaeological or genetic evidence for Late Glacial expansions into Europe from the Near East has hitherto been discovered. Here we report, on the basis of an enlarged whole-genome mitochondrial database, that a substantial, perhaps predominant, signal from mitochondrial haplogroups J and T, previously thought to have spread primarily from the Near East into Europe with the Neolithic population, may in fact reflect dispersals during the Late Glacial period, ∼19-12 thousand years (ka) ago., (Copyright © 2012 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2012
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42. Binary signals in impedance spectroscopy.

Author

Min M, Ojarand J, Martens O, Paavle T, Land R, Annus P, Rist M, Reidla M, and Parve T

Subjects
Dielectric Spectroscopy instrumentation, Dielectric Spectroscopy methods, Models, Theoretical, Signal Processing, Computer-Assisted
Abstract

Using of binary waveforms in the fast impedance spectroscopy of biological objects is discussed in the paper. There is shown that the energy of binary waveforms can be concentrated onto selected separate frequencies. We can optimize the binary excitation waveform depending on the shape of frequency response of the impedance under study to maximize the levels of signal components with certain selected frequencies. As a result, we are able to receive maximal amount of information about the properties and behavior of the impedance to be studied. We have designed and prototyped the impedance spectroscopy device operating in the frequency range from 100 mHz to 500 kHz to cover α- and β-regions of the bio-impedance spectrum of time-varying subjects as, for example, fast moving cells in micro-fluidic devices, beating heart and breathing lungs or the whole cardiovascular system.

Published
2012
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43. Genetic diversity and evidence for population admixture in Batak Negritos from Palawan.

Author

Scholes C, Siddle K, Ducourneau A, Crivellaro F, Järve M, Rootsi S, Bellatti M, Tabbada K, Mormina M, Reidla M, Villems R, Kivisild T, Lahr MM, and Migliano AB

Subjects
Analysis of Variance, Chromosomes, Human, Y, DNA, Mitochondrial genetics, Genetics, Population, Haplotypes, Humans, Male, Philippines, Population Dynamics, Asian People genetics, Genetic Variation, Phylogeny
Abstract

Anthropologists have long been fascinated by the isolated hunter-gatherer populations in Southeast Asia (SEA) collectively known as "Negritos." However, the origins and affinities of these groups remain unresolved. Negritos are characterized by their short stature, dark skin color, and wiry hair, and they inhabit the Philippines, Malay Peninsula, and the Andaman Islands. Among Philippine Negritos, the Batak are of particular interest in understanding population interactions in the region due to their location on Palawan Island, which likely formed a corridor by which human migrations entered the rest of the Philippine archipelago from Island SEA. Here, we extend current understanding of the distribution of genetic diversity in Negritos by presenting the first analysis of mitochondrial DNA and Y-chromosome diversity among the Batak. We show that the Batak are genetically distinct from Negritos of the Andaman Islands and Malay Peninsula and instead bear most resemblance to geographically proximate Philippine Negritos and to non-Negrito populations from the Philippines and Island SEA. An extensive degree of recent admixture between the Batak and their neighbors is indicated by the high frequency of recently coalescing haplogroups in the Batak that are found throughout Island SEA. The comparison of results from these two loci further lends support to the hypothesis that male-biased admixture has, in particular, been a prominent feature of the interactions between the Batak and surrounding non-Negrito populations., (2011 Wiley-Liss, Inc.)

Published
2011
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44. Paleo-Eskimo mtDNA genome reveals matrilineal discontinuity in Greenland.

Author

Gilbert MT, Kivisild T, Grønnow B, Andersen PK, Metspalu E, Reidla M, Tamm E, Axelsson E, Götherström A, Campos PF, Rasmussen M, Metspalu M, Higham TF, Schwenninger JL, Nathan R, De Hoog CJ, Koch A, Møller LN, Andreasen C, Meldgaard M, Villems R, Bendixen C, and Willerslev E

Subjects
Asian People genetics, Emigration and Immigration, Female, Genetics, Population, Greenland, Hair chemistry, Haplotypes, History, Ancient, Humans, Indians, North American genetics, Inuit classification, Inuit history, Male, Molecular Sequence Data, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, DNA, Mitochondrial genetics, Genome, Mitochondrial, Inuit genetics
Abstract

The Paleo-Eskimo Saqqaq and Independence I cultures, documented from archaeological remains in Northern Canada and Greenland, represent the earliest human expansion into the New World's northern extremes. However, their origin and genetic relationship to later cultures are unknown. We sequenced a mitochondrial genome from a Paleo-Eskimo human by using 3400-to 4500-year-old frozen hair excavated from an early Greenlandic Saqqaq settlement. The sample is distinct from modern Native Americans and Neo-Eskimos, falling within haplogroup D2a1, a group previously observed among modern Aleuts and Siberian Sireniki Yuit. This result suggests that the earliest migrants into the New World's northern extremes derived from populations in the Bering Sea area and were not directly related to Native Americans or the later Neo-Eskimos that replaced them.

Published
2008
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45. Beringian standstill and spread of Native American founders.

Author

Tamm E, Kivisild T, Reidla M, Metspalu M, Smith DG, Mulligan CJ, Bravi CM, Rickards O, Martinez-Labarga C, Khusnutdinova EK, Fedorova SA, Golubenko MV, Stepanov VA, Gubina MA, Zhadanov SI, Ossipova LP, Damba L, Voevoda MI, Dipierri JE, Villems R, and Malhi RS

Subjects
Asia, Genotype, Haplotypes, Humans, Mutation, Phylogeny, DNA, Mitochondrial genetics, Indians, North American
Abstract

Native Americans derive from a small number of Asian founders who likely arrived to the Americas via Beringia. However, additional details about the initial colonization of the Americas remain unclear. To investigate the pioneering phase in the Americas we analyzed a total of 623 complete mtDNAs from the Americas and Asia, including 20 new complete mtDNAs from the Americas and seven from Asia. This sequence data was used to direct high-resolution genotyping from 20 American and 26 Asian populations. Here we describe more genetic diversity within the founder population than was previously reported. The newly resolved phylogenetic structure suggests that ancestors of Native Americans paused when they reached Beringia, during which time New World founder lineages differentiated from their Asian sister-clades. This pause in movement was followed by a swift migration southward that distributed the founder types all the way to South America. The data also suggest more recent bi-directional gene flow between Siberia and the North American Arctic.

Published
2007
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46. An mtDNA perspective of French genetic variation.

Author

Richard C, Pennarun E, Kivisild T, Tambets K, Tolk HV, Metspalu E, Reidla M, Chevalier S, Giraudet S, Lauc LB, Pericić M, Rudan P, Claustres M, Journel H, Dorval I, Müller C, Villems R, Chaventré A, and Moisan JP

Subjects
France, Gene Pool, Haplotypes, Humans, Phylogeny, Sequence Analysis, DNA methods, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population methods
Abstract

Background: The French has been insufficiently characterized so far for mitochondrial DNA (mtDNA) diversity., Aims: The study aimed to enhance the information available for the French mtDNA pool and to explore the potential microgeographical differentiation of two French regions selected for their linguistic and historical idiosyncrasies., Subjects and Methods: A total of 868 samples from 12 different locations in France were collected. They were sequenced for the hypervariable segment I (HVS-I) and typed for haplogroup defining markers from the coding region either by restriction fragment length polymorphism (RFLP) or by a new protocol based on the 5' nuclease allelic discrimination. The mtDNA gene pools of French Basques and Bretons were compared in terms of frequency and composition with relevant neighbouring populations., Results: The French Basques' mtDNA pool shares some common features with that of the Spanish Basques, such as the high frequency of haplogroup H. However, the French Basques exhibit a number of distinct features, most notably expressed in the prevalence of haplogroups linked with the Neolithic diffusion in Europe. In Brittany, Finistère shows closer affinities with Britain and Scandinavia than the two other departments of Brittany., Conclusion: The mtDNA haplogroup composition of the French does not differ significantly from the surrounding European genetic landscape. At a finer grain, microgeographical differentiation can be revealed, as shown for the French Basque country and for Brittany.

Published
2007
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47. Disuniting uniformity: a pied cladistic canvas of mtDNA haplogroup H in Eurasia.

Author

Loogväli EL, Roostalu U, Malyarchuk BA, Derenko MV, Kivisild T, Metspalu E, Tambets K, Reidla M, Tolk HV, Parik J, Pennarun E, Laos S, Lunkina A, Golubenko M, Barac L, Pericic M, Balanovsky OP, Gusar V, Khusnutdinova EK, Stepanov V, Puzyrev V, Rudan P, Balanovska EV, Grechanina E, Richard C, Moisan JP, Chaventré A, Anagnou NP, Pappa KI, Michalodimitrakis EN, Claustres M, Gölge M, Mikerezi I, Usanga E, and Villems R

Subjects
Asia, Ethnicity, Europe, Evolution, Molecular, Female, Gene Pool, Genetic Variation, Genetics, Population, Geography, Haplotypes, Humans, Models, Genetic, Mothers, Multigene Family, Mutation, Phylogeny, DNA, Mitochondrial genetics
Abstract

It has been often stated that the overall pattern of human maternal lineages in Europe is largely uniform. Yet this uniformity may also result from an insufficient depth and width of the phylogenetic analysis, in particular of the predominant western Eurasian haplogroup (Hg) H that comprises nearly a half of the European mitochondrial DNA (mtDNA) pool. Making use of the coding sequence information from 267 mtDNA Hg H sequences, we have analyzed 830 mtDNA genomes, from 11 European, Near and Middle Eastern, Central Asian, and Altaian populations. In addition to the seven previously specified subhaplogroups, we define fifteen novel subclades of Hg H present in the extant human populations of western Eurasia. The refinement of the phylogenetic resolution has allowed us to resolve a large number of homoplasies in phylogenetic trees of Hg H based on the first hypervariable segment (HVS-I) of mtDNA. As many as 50 out of 125 polymorphic positions in HVS-I were found to be mutated in more than one subcluster of Hg H. The phylogeographic analysis revealed that sub-Hgs H1*, H1b, H1f, H2a, H3, H6a, H6b, and H8 demonstrate distinct phylogeographic patterns. The monophyletic subhaplogroups of Hg H provide means for further progress in the understanding of the (pre)historic movements of women in Eurasia and for the understanding of the present-day genetic diversity of western Eurasians in general.

Published
2004
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48. Ethiopian mitochondrial DNA heritage: tracking gene flow across and around the gate of tears.

Author

Kivisild T, Reidla M, Metspalu E, Rosa A, Brehm A, Pennarun E, Parik J, Geberhiwot T, Usanga E, and Villems R

Subjects
Base Sequence, DNA, Mitochondrial genetics, Ethiopia, Evolution, Molecular, Geography, Haplotypes genetics, Humans, Molecular Sequence Data, Polymorphism, Restriction Fragment Length, Sequence Analysis, DNA, Yemen, Ethnicity genetics, Genetic Variation, Genetics, Population, Phylogeny
Abstract

Approximately 10 miles separate the Horn of Africa from the Arabian Peninsula at Bab-el-Mandeb (the Gate of Tears). Both historic and archaeological evidence indicate tight cultural connections, over millennia, between these two regions. High-resolution phylogenetic analysis of 270 Ethiopian and 115 Yemeni mitochondrial DNAs was performed in a worldwide context, to explore gene flow across the Red and Arabian Seas. Nine distinct subclades, including three newly defined ones, were found to characterize entirely the variation of Ethiopian and Yemeni L3 lineages. Both Ethiopians and Yemenis contain an almost-equal proportion of Eurasian-specific M and N and African-specific lineages and therefore cluster together in a multidimensional scaling plot between Near Eastern and sub-Saharan African populations. Phylogeographic identification of potential founder haplotypes revealed that approximately one-half of haplogroup L0-L5 lineages in Yemenis have close or matching counterparts in southeastern Africans, compared with a minor share in Ethiopians. Newly defined clade L6, the most frequent haplogroup in Yemenis, showed no close matches among 3,000 African samples. These results highlight the complexity of Ethiopian and Yemeni genetic heritage and are consistent with the introduction of maternal lineages into the South Arabian gene pool from different source populations of East Africa. A high proportion of Ethiopian lineages, significantly more abundant in the northeast of that country, trace their western Eurasian origin in haplogroup N through assorted gene flow at different times and involving different source populations.

Published
2004
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49. The western and eastern roots of the Saami--the story of genetic "outliers" told by mitochondrial DNA and Y chromosomes.

Author

Tambets K, Rootsi S, Kivisild T, Help H, Serk P, Loogväli EL, Tolk HV, Reidla M, Metspalu E, Pliss L, Balanovsky O, Pshenichnov A, Balanovska E, Gubina M, Zhadanov S, Osipova L, Damba L, Voevoda M, Kutuev I, Bermisheva M, Khusnutdinova E, Gusar V, Grechanina E, Parik J, Pennarun E, Richard C, Chaventre A, Moisan JP, Barác L, Pericić M, Rudan P, Terzić R, Mikerezi I, Krumina A, Baumanis V, Koziel S, Rickards O, De Stefano GF, Anagnou N, Pappa KI, Michalodimitrakis E, Ferák V, Füredi S, Komel R, Beckman L, and Villems R

Subjects
Europe ethnology, Gene Frequency genetics, Gene Pool, Genetic Variation genetics, Geography, Haplotypes genetics, Humans, Siberia ethnology, Time Factors, Chromosomes, Human, Y genetics, DNA, Mitochondrial genetics, Ethnicity genetics, Phylogeny
Abstract

The Saami are regarded as extreme genetic outliers among European populations. In this study, a high-resolution phylogenetic analysis of Saami genetic heritage was undertaken in a comprehensive context, through use of maternally inherited mitochondrial DNA (mtDNA) and paternally inherited Y-chromosomal variation. DNA variants present in the Saami were compared with those found in Europe and Siberia, through use of both new and previously published data from 445 Saami and 17,096 western Eurasian and Siberian mtDNA samples, as well as 127 Saami and 2,840 western Eurasian and Siberian Y-chromosome samples. It was shown that the "Saami motif" variant of mtDNA haplogroup U5b is present in a large area outside Scandinavia. A detailed phylogeographic analysis of one of the predominant Saami mtDNA haplogroups, U5b1b, which also includes the lineages of the "Saami motif," was undertaken in 31 populations. The results indicate that the origin of U5b1b, as for the other predominant Saami haplogroup, V, is most likely in western, rather than eastern, Europe. Furthermore, an additional haplogroup (H1) spread among the Saami was virtually absent in 781 Samoyed and Ob-Ugric Siberians but was present in western and central European populations. The Y-chromosomal variety in the Saami is also consistent with their European ancestry. It suggests that the large genetic separation of the Saami from other Europeans is best explained by assuming that the Saami are descendants of a narrow, distinctive subset of Europeans. In particular, no evidence of a significant directional gene flow from extant aboriginal Siberian populations into the haploid gene pools of the Saami was found.

Published
2004
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50. Origin and diffusion of mtDNA haplogroup X.

Author

Reidla M, Kivisild T, Metspalu E, Kaldma K, Tambets K, Tolk HV, Parik J, Loogväli EL, Derenko M, Malyarchuk B, Bermisheva M, Zhadanov S, Pennarun E, Gubina M, Golubenko M, Damba L, Fedorova S, Gusar V, Grechanina E, Mikerezi I, Moisan JP, Chaventré A, Khusnutdinova E, Osipova L, Stepanov V, Voevoda M, Achilli A, Rengo C, Rickards O, De Stefano GF, Papiha S, Beckman L, Janicijevic B, Rudan P, Anagnou N, Michalodimitrakis E, Koziel S, Usanga E, Geberhiwot T, Herrnstadt C, Howell N, Torroni A, and Villems R

Subjects
Africa, Asia, Emigration and Immigration, Europe, Humans, Indians, North American genetics, Polymorphism, Genetic genetics, Regulatory Sequences, Nucleic Acid genetics, DNA, Mitochondrial genetics, Genetic Variation genetics, Haplotypes genetics, Phylogeny
Abstract

A maximum parsimony tree of 21 complete mitochondrial DNA (mtDNA) sequences belonging to haplogroup X and the survey of the haplogroup-associated polymorphisms in 13,589 mtDNAs from Eurasia and Africa revealed that haplogroup X is subdivided into two major branches, here defined as "X1" and "X2." The first is restricted to the populations of North and East Africa and the Near East, whereas X2 encompasses all X mtDNAs from Europe, western and Central Asia, Siberia, and the great majority of the Near East, as well as some North African samples. Subhaplogroup X1 diversity indicates an early coalescence time, whereas X2 has apparently undergone a more recent population expansion in Eurasia, most likely around or after the last glacial maximum. It is notable that X2 includes the two complete Native American X sequences that constitute the distinctive X2a clade, a clade that lacks close relatives in the entire Old World, including Siberia. The position of X2a in the phylogenetic tree suggests an early split from the other X2 clades, likely at the very beginning of their expansion and spread from the Near East.

Published
2003
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