TY - JOUR
T1 - The mtDNA composition of Uzbekistan
T2 - A microcosm of Central Asian patterns
AU - Irwin, Jodi A.
AU - Ikramov, Abror
AU - Saunier, Jessica
AU - Bodner, Martin
AU - Amory, Sylvain
AU - Röck, Alexander
AU - O'Callaghan, Jennifer
AU - Nuritdinov, Abdurakhmon
AU - Atakhodjaev, Sattar
AU - Mukhamedov, Rustam
AU - Parson, Walther
AU - Parsons, Thomas J.
N1 - Funding Information:
The authors would like to thank Kimberly Sturk, Toni Diegoli, Katharine Strouss, Carla Paintner, Daniela Niederwieser, Bettina Zimmermann, and Gabriela Huber for excellent technical assistance; collaborators Dilobar Akhmedova, and Nizom Rakhmatullaev; Nina Duftner for data analysis; Rebecca Just, Michael Coble, and Ibrokhim Abdurakhmanov for helpful discussion; and the Armed Forces Institute of Pathology, the American Registry of Pathology, James Canik, Brion Smith, and Louis Finelli for logistical and administrative support. Part of this research received support from the FWF Austrian Science Fund (L397). The opinions and assertions contained herein are solely those of the authors and are not to be construed as official or as views of the U.S. Department of Defense, the U.S. Department of the Army, or the U.S. Department of Justice.
PY - 2010/5
Y1 - 2010/5
N2 - In order to better characterize and understand the mtDNA population genetics of Central Asia, the mtDNA control regions of over 1,500 individuals from Uzbekistan have been sequenced. Although all samples were obtained from individuals residing in Uzbekistan, individuals with direct ancestry from neighboring Central Asian countries are included. Individuals of Uzbek ancestry represent five distinct geographic regions of Uzbekistan: Fergana, Karakalpakstan, Khorezm, Qashkadarya, and Tashkent. Individuals with direct ancestry in nearby countries originate from Kazakhstan, Kyrgyzstan, Russia, Afghanistan, Turkmenistan, and Tajikistan. Our data reinforce the evidence of distinct clinal patterns that have been described among Central Asian populations with classical, mtDNA, and Y-chromosomal markers. Our data also reveal hallmarks of recent demographic events. Despite their current close geographic proximity, the populations with ancestry in neighboring countries show little sign of admixture and retain the primary mtDNA patterns of their source populations. The genetic distances and haplogroup distributions among the ethnic populations are more indicative of a broad east-west cline among their source populations than of their relatively small geographic distances from one another in Uzbekistan. Given the significant mtDNA heterogeneity detected, our results emphasize the need for heightened caution in the forensic interpretation of mtDNA data in regions as historically rich and genetically diverse as Central Asia.
AB - In order to better characterize and understand the mtDNA population genetics of Central Asia, the mtDNA control regions of over 1,500 individuals from Uzbekistan have been sequenced. Although all samples were obtained from individuals residing in Uzbekistan, individuals with direct ancestry from neighboring Central Asian countries are included. Individuals of Uzbek ancestry represent five distinct geographic regions of Uzbekistan: Fergana, Karakalpakstan, Khorezm, Qashkadarya, and Tashkent. Individuals with direct ancestry in nearby countries originate from Kazakhstan, Kyrgyzstan, Russia, Afghanistan, Turkmenistan, and Tajikistan. Our data reinforce the evidence of distinct clinal patterns that have been described among Central Asian populations with classical, mtDNA, and Y-chromosomal markers. Our data also reveal hallmarks of recent demographic events. Despite their current close geographic proximity, the populations with ancestry in neighboring countries show little sign of admixture and retain the primary mtDNA patterns of their source populations. The genetic distances and haplogroup distributions among the ethnic populations are more indicative of a broad east-west cline among their source populations than of their relatively small geographic distances from one another in Uzbekistan. Given the significant mtDNA heterogeneity detected, our results emphasize the need for heightened caution in the forensic interpretation of mtDNA data in regions as historically rich and genetically diverse as Central Asia.
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U2 - 10.1007/s00414-009-0406-z
DO - 10.1007/s00414-009-0406-z
M3 - Article
C2 - 20140442
AN - SCOPUS:77954565204
SN - 0937-9827
VL - 124
SP - 195
EP - 204
JO - International Journal of Legal Medicine
JF - International Journal of Legal Medicine
IS - 3
ER -