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5. The initial peopling of the Americas: an ever-growing number of founding mitochondrial genomes from Beringia

Author

Perego, Ua, Angerhofer, N, Pala, M, Olivieri, A, Lancioni, Hovirag, Hooshiar Kashani, B, Carossa, V, Ekins, Je, Gómez Carballa, A, Huber, G, Zimmermann, B, Corach, D, Babudri, Nora, Panara, Fausto, Myres, Nm, Parson, W, Semino, O, Salas, A, Woodward, Sr, Achilli, Alessandro, and Torroni, A.

Subjects
human phylogeny, human phylogeny, mitochondrial DNA, population genetics, population genetics, mitochondrial DNA
Published
2010

7. Decrypting the mtDNA gene pool of modern Panamanians

Author

Achilli, Alessandro, Perego, Ua, Tribaldos, M, Angerhofer, N, Ritchie, Kj, Robinson, J, Milani, L, Lari, M, Caramelli, D, Myres, Nm, Cooke, R, Pascale, Jm, Motta, J, Torroni, A, and Woodward, Sr

Published
2009

11. Mitochondrial DNA footprints in modern Mongolia

Author

Woodward, Sr, Achilli, Alessandro, Perego, Ua, GOMEZ PALMIERI, E, Tumen, D, Myagmare, Bayarlhagva, D, Ritchie, Kh, Pollock, A, Angerhofer, N, Torroni, A, and Myres, Nm

Published
2008

15. 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

16. Reconciling migration models to the Americas with the variation of North American native mitogenomes.

Author

Achilli A, Perego UA, Lancioni H, Olivieri A, Gandini F, Hooshiar Kashani B, Battaglia V, Grugni V, Angerhofer N, Rogers MP, Herrera RJ, Woodward SR, Labuda D, Smith DG, Cybulski JS, Semino O, Malhi RS, and Torroni A

Subjects
Genome, Human, Humans, Emigration and Immigration, Human Migration, Indians, North American genetics
Abstract

In this study we evaluated migration models to the Americas by using the information contained in native mitochondrial genomes (mitogenomes) from North America. Molecular and phylogeographic analyses of B2a mitogenomes, which are absent in Eskimo-Aleut and northern Na-Dene speakers, revealed that this haplogroup arose in North America ∼11-13 ka from one of the founder Paleo-Indian B2 mitogenomes. In contrast, haplogroup A2a, which is typical of Eskimo-Aleuts and Na-Dene, but also present in the easternmost Siberian groups, originated only 4-7 ka in Alaska, led to the first Paleo-Eskimo settlement of northern Canada and Greenland, and contributed to the formation of the Na-Dene gene pool. However, mitogenomes also show that Amerindians from northern North America, without any distinction between Na-Dene and non-Na-Dene, were heavily affected by an additional and distinctive Beringian genetic input. In conclusion, most mtDNA variation (along the double-continent) stems from the first wave from Beringia, which followed the Pacific coastal route. This was accompanied or followed by a second inland migratory event, marked by haplogroups X2a and C4c, which affected all Amerindian groups of Northern North America. Much later, the ancestral A2a carriers spread from Alaska, undertaking both a westward migration to Asia and an eastward expansion into the circumpolar regions of Canada. Thus, the first American founders left the greatest genetic mark but the original maternal makeup of North American Natives was subsequently reshaped by additional streams of gene flow and local population dynamics, making a three-wave view too simplistic.

Published
2013
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17. The first peopling of South America: new evidence from Y-chromosome haplogroup Q.

Author

Battaglia V, Grugni V, Perego UA, Angerhofer N, Gomez-Palmieri JE, Woodward SR, Achilli A, Myres N, Torroni A, and Semino O

Subjects
Algorithms, DNA, Mitochondrial genetics, Genetics, Population, History, Ancient, Humans, Male, Microsatellite Repeats, Mongolia, Mutation, Phylogeny, Siberia, South America, Chromosomes, Human, Y, Haplotypes, Indians, Central American genetics, Indians, North American genetics, Indians, South American genetics
Abstract

Recent progress in the phylogenetic resolution of the Y-chromosome phylogeny permits the male demographic dynamics and migratory events that occurred in Central and Southern America after the initial human spread into the Americas to be investigated at the regional level. To delve further into this issue, we examined more than 400 Native American Y chromosomes (collected in the region ranging from Mexico to South America) belonging to haplogroup Q - virtually the only branch of the Y phylogeny observed in modern-day Amerindians of Central and South America - together with 27 from Mongolia and Kamchatka. Two main founding lineages, Q1a3a1a-M3 and Q1a3a1-L54(xM3), were detected along with novel sub-clades of younger age and more restricted geographic distributions. The first was also observed in Far East Asia while no Q1a3a1-L54(xM3) Y chromosome was found in Asia except the southern Siberian-specific sub-clade Q1a3a1c-L330. Our data not only confirm a southern Siberian origin of ancestral populations that gave rise to Paleo-Indians and the differentiation of both Native American Q founding lineages in Beringia, but support their concomitant arrival in Mesoamerica, where Mexico acted as recipient for the first wave of migration, followed by a rapid southward migration, along the Pacific coast, into the Andean region. Although Q1a3a1a-M3 and Q1a3a1-L54(xM3) display overlapping general distributions, they show different patterns of evolution in the Mexican plateau and the Andean area, which can be explained by local differentiations due to demographic events triggered by the introduction of agriculture and associated with the flourishing of the Great Empires.

Published
2013
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18. The Mountain Meadows Massacre and "poisoned springs": scientific testing of the more recent, anthrax theory.

Author

Perego UA, Achilli A, Ekins JE, Milani L, Lari M, Pilli E, Brown A, Price EP, Wolken SR, Matthews M, Allen CA, Pearson TR, Angerhofer N, Caramelli D, Kupferschmid T, Keim PS, and Woodward SR

Subjects
Animals, Anthrax genetics, Bone and Bones chemistry, Cattle microbiology, DNA, Bacterial genetics, Exhumation, Female, History, 19th Century, Humans, Male, RNA, Ribosomal, 16S, Real-Time Polymerase Chain Reaction, Soil Microbiology, Spores, Bacterial, Utah, Anthrax history, Bacillus anthracis genetics, DNA, Mitochondrial genetics
Abstract

It has been recorded that one of the possible causes that eventually escalated into the 1857 manslaughter at Mountain Meadows in Southern Utah was the poisoning of an open spring by the Fancher-Baker party as they crossed the Utah territory on their way from Arkansas to California. Historical accounts report that a number of cattle died, followed by human casualties from those that came in contact with the dead animals. Even after the Arkansas party departed, animals continued to perish and people were still afflicted by some unknown plague. Proctor Hancock Robison, a local 14-year-old boy, died shortly after skinning one of the "poisoned" cows. A careful review of the historical records, along with the more recent scientific literature, seems to exclude the likelihood of actual poisoning in favor of a more recent theory that would point to the bacterium Bacillus anthracis as the possible cause of human and animal deaths. In order to test this hypothesis, Proctor's remains were exhumed, identified through mitochondrial DNA analysis, and tested for the presence of anthrax spores. Although preliminary testing of remains and soil was negative, description of the clinical conditions that affected Proctor and other individuals does not completely rule out the hypothesis of death by anthrax.

Published
2013
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19. 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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20. Rapid coastal spread of First Americans: novel insights from South America's Southern Cone mitochondrial genomes.

Author

Bodner M, Perego UA, Huber G, Fendt L, Röck AW, Zimmermann B, Olivieri A, Gómez-Carballa A, Lancioni H, Angerhofer N, Bobillo MC, Corach D, Woodward SR, Salas A, Achilli A, Torroni A, Bandelt HJ, and Parson W

Subjects
Gene Frequency, Haplotypes, History, Ancient, Humans, Indians, South American history, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, South America, Emigration and Immigration history, Genome, Mitochondrial, Indians, South American genetics
Abstract

It is now widely agreed that the Native American founders originated from a Beringian source population ~15-18 thousand years ago (kya) and rapidly populated all of the New World, probably mainly following the Pacific coastal route. However, details about the migration into the Americas and the routes pursued on the continent still remain unresolved, despite numerous genetic, archaeological, and linguistic investigations. To examine the pioneering peopling phase of the South American continent, we screened literature and mtDNA databases and identified two novel mitochondrial DNA (mtDNA) clades, here named D1g and D1j, within the pan-American haplogroup D1. They both show overall rare occurrences but local high frequencies, and are essentially restricted to populations from the Southern Cone of South America (Chile and Argentina). We selected and completely sequenced 43 D1g and D1j mtDNA genomes applying highest quality standards. Molecular and phylogeographic analyses revealed extensive variation within each of the two clades and possibly distinct dispersal patterns. Their age estimates agree with the dating of the earliest archaeological sites in South America and indicate that the Paleo-Indian spread along the entire longitude of the American double continent might have taken even <2000 yr. This study confirms that major sampling and sequencing efforts are mandatory for uncovering all of the most basal variation in the Native American mtDNA haplogroups and for clarification of Paleo-Indian migrations, by targeting, if possible, both the general mixed population of national states and autochthonous Native American groups, especially in South America.

Published
2012
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21. Arrival of Paleo-Indians to the southern cone of South America: new clues from mitogenomes.

Author

de Saint Pierre M, Gandini F, Perego UA, Bodner M, Gómez-Carballa A, Corach D, Angerhofer N, Woodward SR, Semino O, Salas A, Parson W, Moraga M, Achilli A, Torroni A, and Olivieri A

Subjects
Asian People genetics, Female, Haplotypes, Humans, Phylogeny, South America, DNA, Mitochondrial genetics, Evolution, Molecular, Genome, Mitochondrial, Indians, North American genetics
Abstract

With analyses of entire mitogenomes, studies of Native American mitochondrial DNA (MTDNA) variation have entered the final phase of phylogenetic refinement: the dissection of the founding haplogroups into clades that arose in America during and after human arrival and spread. Ages and geographic distributions of these clades could provide novel clues on the colonization processes of the different regions of the double continent. As for the Southern Cone of South America, this approach has recently allowed the identification of two local clades (D1g and D1j) whose age estimates agree with the dating of the earliest archaeological sites in South America, indicating that Paleo-Indians might have reached that region from Beringia in less than 2000 years. In this study, we sequenced 46 mitogenomes belonging to two additional clades, termed B2i2 (former B2l) and C1b13, which were recently identified on the basis of mtDNA control-region data and whose geographical distributions appear to be restricted to Chile and Argentina. We confirm that their mutational motifs most likely arose in the Southern Cone region. However, the age estimate for B2i2 and C1b13 (11-13,000 years) appears to be younger than those of other local clades. The difference could reflect the different evolutionary origins of the distinct South American-specific sub-haplogroups, with some being already present, at different times and locations, at the very front of the expansion wave in South America, and others originating later in situ, when the tribalization process had already begun. A delayed origin of a few thousand years in one of the locally derived populations, possibly in the central part of Chile, would have limited the geographical and ethnic diffusion of B2i2 and explain the present-day occurrence that appears to be mainly confined to the Tehuelche and Araucanian-speaking groups.

Published
2012
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22. Decrypting the mitochondrial gene pool of modern Panamanians.

Author

Perego UA, Lancioni H, Tribaldos M, Angerhofer N, Ekins JE, Olivieri A, Woodward SR, Pascale JM, Cooke R, Motta J, and Achilli A

Subjects
DNA, Mitochondrial genetics, Genealogy and Heraldry, Genetics, Population, Genome, Mitochondrial genetics, Geography, Haplotypes genetics, Humans, Indians, North American genetics, Panama, Phylogeny, Gene Pool, Genes, Mitochondrial genetics
Abstract

The Isthmus of Panama--the narrow neck of land connecting the northern and southern American landmasses--was an obligatory corridor for the Paleo-Indians as they moved into South America. Archaeological evidence suggests an unbroken link between modern natives and their Paleo-Indian ancestors in some areas of Panama, even if the surviving indigenous groups account for only 12.3% of the total population. To evaluate if modern Panamanians have retained a larger fraction of the native pre-Columbian gene pool in their maternally-inherited mitochondrial genome, DNA samples and historical records were collected from more than 1500 volunteer participants living in the nine provinces and four indigenous territories of the Republic. Due to recent gene-flow, we detected ~14% African mitochondrial lineages, confirming the demographic impact of the Atlantic slave trade and subsequent African immigration into Panama from Caribbean islands, and a small European (~2%) component, indicating only a minor influence of colonialism on the maternal side. The majority (~83%) of Panamanian mtDNAs clustered into native pan-American lineages, mostly represented by haplogroup A2 (51%). These findings reveal an overwhelming native maternal legacy in today's Panama, which is in contrast with the overall concept of personal identity shared by many Panamanians. Moreover, the A2 sub-clades A2ad and A2af (with the previously named 6 bp Huetar deletion), when analyzed at the maximum level of resolution (26 entire mitochondrial genomes), confirm the major role of the Pacific coastal path in the peopling of North, Central and South America, and testify to the antiquity of native mitochondrial genomes in Panama.

Published
2012
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23. Mitochondrial haplogroup C4c: a rare lineage entering America through the ice-free corridor?

Author

Hooshiar Kashani B, Perego UA, Olivieri A, Angerhofer N, Gandini F, Carossa V, Lancioni H, Semino O, Woodward SR, Achilli A, and Torroni A

Subjects
Canada, Colombia, Genetic Variation genetics, Genetics, Population, History, Ancient, Humans, Phylogeny, Sequence Analysis, DNA, United States, Asian People genetics, DNA, Mitochondrial genetics, Emigration and Immigration history, Haplotypes genetics, Indians, North American genetics
Abstract

Recent analyses of mitochondrial genomes from Native Americans have brought the overall number of recognized maternal founding lineages from just four to a current count of 15. However, because of their relative low frequency, almost nothing is known for some of these lineages. This leaves a considerable void in understanding the events that led to the colonization of the Americas following the Last Glacial Maximum (LGM). In this study, we identified and completely sequenced 14 mitochondrial DNAs belonging to one extremely rare Native American lineage known as haplogroup C4c. Its age and geographical distribution raise the possibility that C4c marked the Paleo-Indian group(s) that entered North America from Beringia through the ice-free corridor between the Laurentide and Cordilleran ice sheets. The similarities in ages andgeographical distributions for C4c and the previously analyzed X2a lineage provide support to the scenario of a dual origin for Paleo-Indians. Taking into account that C4c is deeply rooted in the Asian portion of the mtDNA phylogeny and is indubitably of Asian origin, the finding that C4c and X2a are characterized by parallel genetic histories definitively dismisses the controversial hypothesis of an Atlantic glacial entry route into North America., (Copyright © 2011 Wiley Periodicals, Inc.)

Published
2012
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24. The initial peopling of the Americas: a growing number of founding mitochondrial genomes from Beringia.

Author

Perego UA, Angerhofer N, Pala M, Olivieri A, Lancioni H, Hooshiar Kashani B, Carossa V, Ekins JE, Gómez-Carballa A, Huber G, Zimmermann B, Corach D, Babudri N, Panara F, Myres NM, Parson W, Semino O, Salas A, Woodward SR, Achilli A, and Torroni A

Subjects
Americas, DNA, Mitochondrial genetics, Emigration and Immigration, Genetic Variation, Genome, Human, Geography, Haplotypes, Humans, Molecular Sequence Data, Phylogeny, Genome, Mitochondrial genetics, Indians, North American genetics
Abstract

Pan-American mitochondrial DNA (mtDNA) haplogroup C1 has been recently subdivided into three branches, two of which (C1b and C1c) are characterized by ages and geographical distributions that are indicative of an early arrival from Beringia with Paleo-Indians. In contrast, the estimated ages of C1d--the third subset of C1--looked too young to fit the above scenario. To define the origin of this enigmatic C1 branch, we completely sequenced 63 C1d mitochondrial genomes from a wide range of geographically diverse, mixed, and indigenous American populations. The revised phylogeny not only brings the age of C1d within the range of that of its two sister clades, but reveals that there were two C1d founder genomes for Paleo-Indians. Thus, the recognized maternal founding lineages of Native Americans are at least 15, indicating that the overall number of Beringian or Asian founder mitochondrial genomes will probably increase extensively when all Native American haplogroups reach the same level of phylogenetic and genomic resolution as obtained here for C1d.

Published
2010
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25. Distinctive Paleo-Indian migration routes from Beringia marked by two rare mtDNA haplogroups.

Author

Perego UA, Achilli A, Angerhofer N, Accetturo M, Pala M, Olivieri A, Hooshiar Kashani B, Ritchie KH, Scozzari R, Kong QP, Myres NM, Salas A, Semino O, Bandelt HJ, Woodward SR, and Torroni A

Subjects
Base Sequence, Geography, History, Ancient, Humans, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Sequence Analysis, DNA, DNA, Mitochondrial genetics, Emigration and Immigration history, Evolution, Molecular, Haplotypes genetics, Indians, North American genetics, Indians, North American history, Phylogeny
Abstract

Background: It is widely accepted that the ancestors of Native Americans arrived in the New World via Beringia approximately 10 to 30 thousand years ago (kya). However, the arrival time(s), number of expansion events, and migration routes into the Western Hemisphere remain controversial because linguistic, archaeological, and genetic evidence have not yet provided coherent answers. Notably, most of the genetic evidence has been acquired from the analysis of the common pan-American mitochondrial DNA (mtDNA) haplogroups. In this study, we have instead identified and analyzed mtDNAs belonging to two rare Native American haplogroups named D4h3 and X2a., Results: Phylogeographic analyses at the highest level of molecular resolution (69 entire mitochondrial genomes) reveal that two almost concomitant paths of migration from Beringia led to the Paleo-Indian dispersal approximately 15-17 kya. Haplogroup D4h3 spread into the Americas along the Pacific coast, whereas X2a entered through the ice-free corridor between the Laurentide and Cordilleran ice sheets. The examination of an additional 276 entire mtDNA sequences provides similar entry times for all common Native American haplogroups, thus indicating at least a dual origin for Paleo- Indians., Conclusions: A dual origin for the first Americans is a striking novelty from the genetic point of view, and it makes plausible a scenario positing that within a rather short period of time, there may have been several entries into the Americas from a dynamically changing Beringian source. Moreover, this implies that most probably more than one language family was carried along with the Paleo-Indians.

Published
2009
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