Y-chromosomal variation in the Czech Republic

To analyze the contribution of the Czech population to the Y‐chromosome diversity landscape of Europe and to reconstruct past demographic events, we typed 257 males from five locations for 21 UEPs. Moreover, 141 carriers of the three most common haplogroups were typed for 10 microsatellites and coal...

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Veröffentlicht in:	American journal of physical anthropology 2007-01, Vol.132 (1), p.132-139
Hauptverfasser:	Luca, F., Di Giacomo, F., Benincasa, T., Popa, L.O., Banyko, J., Kracmarova, A., Malaspina, P., Novelletto, A., Brdicka, R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis of Variance Chromosomes Chromosomes, Human, Y - genetics Czech Republic Demography DNA DNA Primers Europe Evolution, Molecular Generalities genetic dating Genetic Variation Genetics Haplotypes - genetics Humans Male Metal industry Methodology Methodology and general studies Microsatellite Repeats - genetics microsatellite variation Organisation and history of research peopling of Europe Physical anthropology Population Dynamics Prehistory and protohistory Typology, technology and attribute analysis Variance Y chromosome
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container_title	American journal of physical anthropology
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creator	Luca, F. Di Giacomo, F. Benincasa, T. Popa, L.O. Banyko, J. Kracmarova, A. Malaspina, P. Novelletto, A. Brdicka, R.
description	To analyze the contribution of the Czech population to the Y‐chromosome diversity landscape of Europe and to reconstruct past demographic events, we typed 257 males from five locations for 21 UEPs. Moreover, 141 carriers of the three most common haplogroups were typed for 10 microsatellites and coalescent analyses applied. Sixteen Hg's characterized by derived alleles were identified, the most common being R1a‐SRY10831 and P‐DYS257(xR1a). The pool of haplogroups within I‐M170 represented the third most common clade. Overall, the degree of population structure was low. The ages for Hg I‐M170, P‐DYS257(xR1a), and R1a‐SRY10831 ap peared to be comparable and compatible with their presence during or soon after the LGM. A signal of population growth beginning in the first millennium B.C. was detected. Its similarity among the three most common Hg's indicated that growth was characteristic for a gene pool that already contained all of them. The Czech population appears to be influenced, to a very moderate extent, by genetic inputs from outside Europe in the post‐Neolithic and historical times. Population growth postdated the archaeologically documented introduction of Neolithic technology and the estimated central value coincides with a period of repeated changes driven by the development of metal technologies and the associated social and trade organization. Am J Phys Anthropol, 2006. © 2006 Wiley‐Liss, Inc.
doi_str_mv	10.1002/ajpa.20500
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J. Phys. Anthropol</addtitle><description>To analyze the contribution of the Czech population to the Y‐chromosome diversity landscape of Europe and to reconstruct past demographic events, we typed 257 males from five locations for 21 UEPs. Moreover, 141 carriers of the three most common haplogroups were typed for 10 microsatellites and coalescent analyses applied. Sixteen Hg's characterized by derived alleles were identified, the most common being R1a‐SRY10831 and P‐DYS257(xR1a). The pool of haplogroups within I‐M170 represented the third most common clade. Overall, the degree of population structure was low. The ages for Hg I‐M170, P‐DYS257(xR1a), and R1a‐SRY10831 ap peared to be comparable and compatible with their presence during or soon after the LGM. A signal of population growth beginning in the first millennium B.C. was detected. Its similarity among the three most common Hg's indicated that growth was characteristic for a gene pool that already contained all of them. 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A signal of population growth beginning in the first millennium B.C. was detected. Its similarity among the three most common Hg's indicated that growth was characteristic for a gene pool that already contained all of them. The Czech population appears to be influenced, to a very moderate extent, by genetic inputs from outside Europe in the post‐Neolithic and historical times. Population growth postdated the archaeologically documented introduction of Neolithic technology and the estimated central value coincides with a period of repeated changes driven by the development of metal technologies and the associated social and trade organization. Am J Phys Anthropol, 2006. © 2006 Wiley‐Liss, Inc.</abstract><cop>Hoboken</cop><pub>Wiley Subscription Services, Inc., A Wiley Company</pub><pmid>17078035</pmid><doi>10.1002/ajpa.20500</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis of Variance Chromosomes Chromosomes, Human, Y - genetics Czech Republic Demography DNA DNA Primers Europe Evolution, Molecular Generalities genetic dating Genetic Variation Genetics Haplotypes - genetics Humans Male Metal industry Methodology Methodology and general studies Microsatellite Repeats - genetics microsatellite variation Organisation and history of research peopling of Europe Physical anthropology Population Dynamics Prehistory and protohistory Typology, technology and attribute analysis Variance Y chromosome
title	Y-chromosomal variation in the Czech Republic
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