Jennifer A Raff1, Margarita Rzhetskaya1, Justin Tackney2, M Geoffrey Hayes1,3,4. 1. Division of Endocrinology, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, Chicago, IL, 60611. 2. Department of Anthropology, University of Utah, Salt Lake City, UT, 84112. 3. Department of Anthropology, Northwestern University, Evanston, IL, 60208. 4. Center for Genetic Medicine, Northwestern University Feinberg School of Medicine, Chicago, IL, 60611.
Abstract
OBJECTIVES: All modern Iñupiaq speakers share a common origin, the result of a recent (∼800 YBP) and rapid trans-Arctic migration by the Neo-Eskimo Thule, who replaced the previous Paleo-Eskimo inhabitants of the region. Reduced mitochondrial haplogroup diversity in the eastern Arctic supports the archaeological hypothesis that the migration occurred in an eastward direction. We tested the hypothesis that the Alaskan North Slope served as the origin of the Neo- and Paleo-Eskimo populations further east. MATERIALS AND METHODS: We sequenced HVR I and HVR II of the mitochondrial D-loop from 151 individuals in eight Alaska North Slope communities, and compared genetic diversity and phylogenetic relationships between the North Slope Inupiat and other Arctic populations from Siberia, the Aleutian Islands, Canada, and Greenland. RESULTS: Mitochondrial lineages from the North Slope villages had a low frequency (2%) of non-Arctic maternal admixture, and all haplogroups (A2, A2a, A2b, D2a, and D4b1a-formerly known as D3) found in previously sequenced Neo- and Paleo-Eskimos and living Inuit and Eskimo peoples from across the North American Arctic. Lineages basal for each haplogroup were present in the North Slope. We also found the first occurrence of two haplogroups in contemporary North American Arctic populations: D2a, previously identified only in Aleuts and Paleo-Eskimos, and the pan-American C4. DISCUSSION: Our results yield insight into the maternal population history of the Alaskan North Slope and support the hypothesis that this region served as an ancestral pool for eastward movements to Canada and Greenland, for both the Paleo-Eskimo and Neo-Eskimo populations.
OBJECTIVES: All modern Iñupiaq speakers share a common origin, the result of a recent (∼800 YBP) and rapid trans-Arctic migration by the Neo-Eskimo Thule, who replaced the previous Paleo-Eskimo inhabitants of the region. Reduced mitochondrial haplogroup diversity in the eastern Arctic supports the archaeological hypothesis that the migration occurred in an eastward direction. We tested the hypothesis that the Alaskan North Slope served as the origin of the Neo- and Paleo-Eskimo populations further east. MATERIALS AND METHODS: We sequenced HVR I and HVR II of the mitochondrial D-loop from 151 individuals in eight Alaska North Slope communities, and compared genetic diversity and phylogenetic relationships between the North Slope Inupiat and other Arctic populations from Siberia, the Aleutian Islands, Canada, and Greenland. RESULTS: Mitochondrial lineages from the North Slope villages had a low frequency (2%) of non-Arctic maternal admixture, and all haplogroups (A2, A2a, A2b, D2a, and D4b1a-formerly known as D3) found in previously sequenced Neo- and Paleo-Eskimos and living Inuit and Eskimo peoples from across the North American Arctic. Lineages basal for each haplogroup were present in the North Slope. We also found the first occurrence of two haplogroups in contemporary North American Arctic populations: D2a, previously identified only in Aleuts and Paleo-Eskimos, and the pan-American C4. DISCUSSION: Our results yield insight into the maternal population history of the Alaskan North Slope and support the hypothesis that this region served as an ancestral pool for eastward movements to Canada and Greenland, for both the Paleo-Eskimo and Neo-Eskimo populations.
Authors: Pavel Flegontov; N Ezgi Altınışık; Piya Changmai; Nadin Rohland; Swapan Mallick; Nicole Adamski; Deborah A Bolnick; Nasreen Broomandkhoshbacht; Francesca Candilio; Brendan J Culleton; Olga Flegontova; T Max Friesen; Choongwon Jeong; Thomas K Harper; Denise Keating; Douglas J Kennett; Alexander M Kim; Thiseas C Lamnidis; Ann Marie Lawson; Iñigo Olalde; Jonas Oppenheimer; Ben A Potter; Jennifer Raff; Robert A Sattler; Pontus Skoglund; Kristin Stewardson; Edward J Vajda; Sergey Vasilyev; Elizaveta Veselovskaya; M Geoffrey Hayes; Dennis H O'Rourke; Johannes Krause; Ron Pinhasi; David Reich; Stephan Schiffels Journal: Nature Date: 2019-06-05 Impact factor: 49.962
Authors: Rocío Gómez; Miguel G Vilar; Marco Antonio Meraz-Ríos; David Véliz; Gerardo Zúñiga; Esther Alhelí Hernández-Tobías; Maria Del Pilar Figueroa-Corona; Amanda C Owings; Jill B Gaieski; Theodore G Schurr Journal: iScience Date: 2021-04-30