Your search keyword '"King, Roy J."' showing total 6 results

1. Modern DNA and the Ancient Mediterranean

Author

King, Roy J., author and Underhill, Peter A., author

Published

2019

2. Prehistoric migrations through the Mediterranean basin shaped Corsican Y-chromosome diversity.

Author

Di Cristofaro, Julie, Mazières, Stéphane, Tous, Audrey, Di Gaetano, Cornelia, Lin, Alice A., Nebbia, Paul, Piazza, Alberto, King, Roy J., Underhill, Peter, and Chiaroni, Jacques

Subjects

HUMAN migrations, CORSICANS, HUMAN chromosomes, Y chromosome, HEREDITY

Abstract

The rarity of human remains makes it difficult to apprehend the first settlements in Corsica. It is admitted that initial colonization could have occurred during the Mesolithic period when glaciations would have shortened the open water travel distance from the continent. Mesolithic sites in Corsica show relatively short and irregular occupation, and suggest discontinuous settling of very mobile groups probably traveling by boat. Previous genetic studies on Corsican populations showed internal differentiation and a relatively poor genetic relationship with continental populations, despite intense historical contacts, however local Mesolithic-based genetic inheritance has never been properly estimated. The aim of this study was to explore the Corsican genetic profile of Y-chromosomes in order to trace the genetic signatures back to the first migrations to Corsica. This study included 321 samples from men throughout Corsica; samples from Provence and Tuscany were added to the cohort. All samples were typed for 92 Y-SNPs, and Y-STRs were also analyzed. Results revealed highly differentiated haplogroup patterns among Corsican populations. Haplogroup G had the highest frequency in Corsica, mostly displaying a unique Y-STR profile. When compared with Provence and Tuscany, Corsican populations displayed limited genetic proximity. Corsican populations present a remarkable Y-chromosome genetic mixture. Although the Corsican Y-chromosome profile shows similarities with both Provence and to a lesser extent Tuscany, it mainly displays its own specificity. This study confirms the high level of genetic diversity in Corsican populations and backs genetic contributions from prehistoric migrations associated with the Mesolithic, Neolithic and Metal Age eras, rather than from historical movements to Corsica, respectively attested by frequencies and TMRCA of haplogroups G2a-L91 and G2a-P15, J2a-M241 and J2-DYS445 = 6, R1b-U152 and R1b-U106. These results suggest that marine routes to reach the Corsican coast in many different points may have led to such a genetic heterogeneity. [ABSTRACT FROM AUTHOR]

Published

2018

3. The phylogenetic and geographic structure of Y-chromosome haplogroup R1a.

Author

Underhill, Peter A, Poznik, G David, Rootsi, Siiri, Järve, Mari, Lin, Alice A, Wang, Jianbin, Passarelli, Ben, Kanbar, Jad, Myres, Natalie M, King, Roy J, Di Cristofaro, Julie, Sahakyan, Hovhannes, Behar, Doron M, Kushniarevich, Alena, Šarac, Jelena, Šaric, Tena, Rudan, Pavao, Pathak, Ajai Kumar, Chaubey, Gyaneshwer, and Grugni, Viola

Subjects

Y chromosome, SEX chromosomes, GENETICS, PHYLOGENY, CELL nuclei

Abstract

R1a-M420 is one of the most widely spread Y-chromosome haplogroups; however, its substructure within Europe and Asia has remained poorly characterized. Using a panel of 16 244 male subjects from 126 populations sampled across Eurasia, we identified 2923 R1a-M420 Y-chromosomes and analyzed them to a highly granular phylogeographic resolution. Whole Y-chromosome sequence analysis of eight R1a and five R1b individuals suggests a divergence time of ∼25 000 (95% CI: 21 300-29 000) years ago and a coalescence time within R1a-M417 of ∼5800 (95% CI: 4800-6800) years. The spatial frequency distributions of R1a sub-haplogroups conclusively indicate two major groups, one found primarily in Europe and the other confined to Central and South Asia. Beyond the major European versus Asian dichotomy, we describe several younger sub-haplogroups. Based on spatial distributions and diversity patterns within the R1a-M420 clade, particularly rare basal branches detected primarily within Iran and eastern Turkey, we conclude that the initial episodes of haplogroup R1a diversification likely occurred in the vicinity of present-day Iran. [ABSTRACT FROM AUTHOR]

Published

2015

4. The coming of the Greeks to Provence and Corsica: Y-chromosome models of archaic Greek colonization of the western Mediterranean.

Author

King, Roy J., DiCristofaro, Julie, Kouvatsi, Anastasia, Triantaphyllidis, Costas, Scheidel, Walter, Myres, Natalie M., Lin, Alice A., Eissautier, Alexandre, Mitchell, Michael, Binder, Didier, Semino, Ornella, Novelletto, Andrea, Underhill, Peter A., and Chiaroni, Jacques

Subjects

*GENETICS, *POPULATION genetics, *CHROMOSOMES, *COLONIZATION, *HEREDITY

Abstract

Background: The process of Greek colonization of the central and western Mediterranean during the Archaic and Classical Eras has been understudied from the perspective of population genetics. To investigate the Y chromosomal demography of Greek colonization in the western Mediterranean, Y-chromosome data consisting of 29 YSNPs and 37 YSTRs were compared from 51 subjects from Provence, 58 subjects from Smyrna and 31 subjects whose paternal ancestry derives from Asia Minor Phokaia, the ancestral embarkation port to the 6th century BCE Greek colonies of Massalia (Marseilles) and Alalie (Aleria, Corsica). Results: 19% of the Phokaian and 12% of the Smyrnian representatives were derived for haplogroup E-V13, characteristic of the Greek and Balkan mainland, while 4% of the Provencal, 4.6% of East Corsican and 1.6% of West Corsican samples were derived for E-V13. An admixture analysis estimated that 17% of the Y-chromosomes of Provence may be attributed to Greek colonization. Using the following putative Neolithic Anatolian lineages: J2a- DYS445 = 6, G2a-M406 and J2a1b1-M92, the data predict a 0% Neolithic contribution to Provence from Anatolia. Estimates of colonial Greek vs. indigenous Celto-Ligurian demography predict a maximum of a 10% Greek contribution, suggesting a Greek male elite-dominant input into the Iron Age Provence population. Conclusions: Given the origin of viniculture in Provence is ascribed to Massalia, these results suggest that E-V13 may trace the demographic and socio-cultural impact of Greek colonization in Mediterranean Europe, a contribution that appears to be considerably larger than that of a Neolithic pioneer colonization. [ABSTRACT FROM AUTHOR]

Published

2011

5. The emergence of Y-chromosome haplogroup J1e among Arabic-speaking populations.

Author

Chiaroni, Jacques, King, Roy J., Myres, Natalie M., Henn, Brenna M., Ducourneau, Axel, Mitchell, Michael J., Boetsch, Gilles, Sheikha, Issa, Lin, Alice A., Nik-Ahd, Mahnoosh, Ahmad, Jabeen, Lattanzi, Francesca, Herrera, Rene J., Ibrahim, Muntaser E., Brody, Aaron, Semino, Ornella, Kivisild, Toomas, and Underhill, Peter A.

Subjects

*Y chromosome, *CELL nuclei, *KARYOKINESIS, *GENETICS, *CELL division

Abstract

Haplogroup J1 is a prevalent Y-chromosome lineage within the Near East. We report the frequency and YSTR diversity data for its major sub-clade (J1e). The overall expansion time estimated from 453 chromosomes is 10 000 years. Moreover, the previously described J1 (DYS388=13) chromosomes, frequently found in the Caucasus and eastern Anatolian populations, were ancestral to J1e and displayed an expansion time of 9000 years. For J1e, the Zagros/Taurus mountain region displays the highest haplotype diversity, although the J1e frequency increases toward the peripheral Arabian Peninsula. The southerly pattern of decreasing expansion time estimates is consistent with the serial drift and founder effect processes. The first such migration is predicted to have occurred at the onset of the Neolithic, and accordingly J1e parallels the establishment of rain-fed agriculture and semi-nomadic herders throughout the Fertile Crescent. Subsequently, J1e lineages might have been involved in episodes of the expansion of pastoralists into arid habitats coinciding with the spread of Arabic and other Semitic-speaking populations. [ABSTRACT FROM AUTHOR]

Published

2010

6. Y-chromosomal evidence of the cultural diffusion of agriculture in southeast Europe.

Author

Battaglia, Vincenza, Fornarino, Simona, Al-Zahery, Nadia, Olivieri, Anna, Pala, Maria, Myres, Natalie M., King, Roy J., Rootsi, Siiri, Marjanovic, Damir, Primorac, Dragan, Hadziselimovic, Rifat, Vidovic, Stojko, Drobnic, Katia, Durmishi, Naser, Torroni, Antonio, Santachiara-Benerecetti, A. Silvana, Underhill, Peter A., and Semino, Ornella

Subjects

Y chromosome, CHROMOSOMES, GENETICS, CELL nuclei

Abstract

The debate concerning the mechanisms underlying the prehistoric spread of farming to Southeast Europe is framed around the opposing roles of population movement and cultural diffusion. To investigate the possible involvement of local people during the transition of agriculture in the Balkans, we analysed patterns of Y-chromosome diversity in 1206 subjects from 17 population samples, mainly from Southeast Europe. Evidence from three Y-chromosome lineages, I-M423, E-V13 and J-M241, make it possible to distinguish between Holocene Mesolithic forager and subsequent Neolithic range expansions from the eastern Sahara and the Near East, respectively. In particular, whereas the Balkan microsatellite variation associated to J-M241 correlates with the Neolithic period, those related to E-V13 and I-M423 Balkan Y chromosomes are consistent with a late Mesolithic time frame. In addition, the low frequency and variance associated to I-M423 and E-V13 in Anatolia and the Middle East, support an European Mesolithic origin of these two clades. Thus, these Balkan Mesolithic foragers with their own autochthonous genetic signatures, were destined to become the earliest to adopt farming, when it was subsequently introduced by a cadre of migrating farmers from the Near East. These initial local converted farmers became the principal agents spreading this economy using maritime leapfrog colonization strategies in the Adriatic and transmitting the Neolithic cultural package to other adjacent Mesolithic populations. The ensuing range expansions of E-V13 and I-M423 parallel in space and time the diffusion of Neolithic Impressed Ware, thereby supporting a case of cultural diffusion using genetic evidence.European Journal of Human Genetics (2009) 17, 820–830; doi:10.1038/ejhg.2008.249; published online 24 December 2008 [ABSTRACT FROM AUTHOR]

Published

2009