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International Journal of Legal Medicine
Erschienen in: International Journal of Legal Medicine 1/2012

01.01.2012 | Original Article

Analysis of 12 X-STRs in Greenlanders, Danes and Somalis using Argus X-12

verfasst von: Carmen Tomas, Vânia Pereira, Niels Morling

Erschienen in: International Journal of Legal Medicine | Ausgabe 1/2012

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Abstract

X-chromosome markers have become a useful set of markers of choice when certain complex kinship cases need to be unravelled. The Argus X-12 kit allows the co-amplification in a single PCR reaction of 12 X-chromosome short tandem repeats located in four linkage groups. A number of 507 unrelated individuals from Greenland, Denmark and Somalia together with two generation families were typed using the Argus X-12 kit. Silent alleles for the DXS10148 and DXS10146 systems were observed in males, mostly from Somalia. High levels of intrapopulation variability and therefore high forensic parameter values were calculated for the three studied populations. The population in Greenland showed a significantly lower intrapopulation variability and a high genetic differentiation compared with 13 other populations. Significant levels of linkage disequilibrium were observed between markers belonging to the same linkage group, mainly in the populations in Greenland and Somalia. Family studies allowed the calculation of mutation and recombination frequencies. A higher male versus female mutation rate was obtained, with an average value of 3.3 × 10−3. Recombination fraction calculations performed on two generation families showed, as previously described, a not complete independence between X-chromosome linkage groups 3 and 4.
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Literatur
1.
Szibor R, Krawczak M, Hering S, Edelmann J, Kuhlisch E, Kraune D (2003) Use of X-linked markers for forensic purposes. Int J Legal Med 117:67–74PubMed
2.
Gomes I, Prinz M, Pereira R, Meyers C, Mikulasovich RS, Amorim A, Carracedo A, Gusmão L (2007) Genetic analysis of three US population groups using an X-chromosomal STR decaplex. Int J Legal Med 121(3):198–203PubMedCrossRef
3.
Becker D, Rodig H, Augustin C, Edelmann J, Götz F, Hering S, Szibor R, Brabetz W (2008) Population genetic evaluation of eight X-chromosomal short tandem repeat loci using Mentype Argus X-8 PCR amplification kit. FSI Genetics 2:69–74PubMed
4.
Tomas C, Sanchez JJ, Castro JA, Børsting C, Morling N (2010) Forensic usefulness of a 25 X-chromosome single-nucleotide polymorphism marker set. Transfusion 50(10):2258–2265PubMedCrossRef
5.
Ribeiro-Rodrigues EM, Carneiro Dos Santos NP, Ribeiro Dos Santos AKC, Pereira R, Amorim A, Gusmão L, Zago MA, Batista Dos Santos SE (2009) Assessing interethnic admixture using an X-linked insertion-deletion multiplex. Am J Hum Biol 21:707–709PubMedCrossRef
6.
Edelmann J, Hering S, Augustin C, Szibor R (2009) Indel polymorphisms—an additional set of markers on the X-chromosome. FSI Genetics Supplement Series 2:510–512CrossRef
7.
Poetsch M, Petersmann H, Repenning A, Lignitz E (2005) Development of two pentaplex systems with X-chromosomal STR loci and their allele frequencies in a northeast German population. Forensic Sci Int 155:71–76PubMedCrossRef
8.
Hering S, Augustin C, Edelmann J, Heidel M, Dressler J, Rodig H, Kuhlisch E, Szibor R (2006) DXS10079, DXS10074 and DXS10075 are STRs located within a 280-kb region of Xq12 and provide stable haplotypes useful for complex kinship cases. Int J Legal Med 120:337–345PubMedCrossRef
9.
Hundertmark T, Hering S, Edelmann J, Augustin C, Plate I, Szibor R (2008) The STR cluster DXS10148–DXS8378–DXS10135 provides a powerful tool for X-chromosomal haplotyping at Xp22. Int J Legal Med 122:489–495PubMedCrossRef
10.
Edelmann J, Hering S, Augustin C, Szibor R (2008) Characterisation of the STR markers DXS10146, DXS10134 and DXS10147 located within a 79.1 kb region at Xq28. FSI Genetics 2:41–46PubMed
11.
12.
Tillmar AO, Egeland T, Lindblom B, Holmlund G, Mostad P (2010) Using X-chromosomal markers in relationship testing: calculation of likelihood ratios taking both linkage and linkage disequilibrium into account. FSI Genetics. doi:10.​1016/​j.​fsigen.​2010.​11.​004
13.
Excoffier L, Lischer HEL (2010) Arlequin ver. 3.5, Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and Windows. Mol Ecol Resour 10:564–567PubMedCrossRef
14.
15.
Inturri S, Menegon S, Amoroso A, Torre C, Robino C (2011) Linkage and linkage disequilibrium analysis of X-STRs in Italian families. FSI Genetics 5:152–154PubMed
16.
Bekada A, Benhamamouch S, Boudjema A, Fodil M, Menegon S, Torre C, Robino C (2010) Analysis of 21 X-chromosomal STRs in an Algerian population sample. Int J Legal Med 124:287–294PubMedCrossRef
17.
Hedman M, Palo JU, Sajantila A (2009) X-STR diversity patterns in the Finnish and the Somali population. FSI Genetics 3:173–178
18.
Zalán A, Völgyi A, Jung M, Peterman O, Pamjav H (2007) Hungarian population data of four X-linked markers: DXS8378, DXS7132, HPRTB, and DXS7423. Int J Legal Med 121:74–77PubMedCrossRef
19.
Zalán A, Völgyi A, Brabetz W, Schleinitz D, Pamjav H (2008) Hungarian population data of eight X-linked markers in four linkage groups. Forensic Sci Int 175:73–78PubMedCrossRef
20.
Lim EJ, Lee HY, Sim JE, Yang WI, Shin KJ (2009) Genetic polymorphism and haplotype analysis of 4 tightly linked X-STR duos in Koreans. Croat Med J 50:305–312PubMedCrossRef
21.
Thiele K, Löffler S, Löffler J, Günthner F, Nitschke K, Edelmann J, Lessig R (2008) Population data of eight X-chromosomal STR markers in Ewe individuals from Ghana. FSI Genetics Supplement Series 1:167–169CrossRef
22.
Luczak S, Rogalla U, Malyarchuk BA, Grzybowski T (2010) Diversity of 15 human X chromosome microsatellite loci in Polish populations. FSI Genetics 5:e71–77
23.
Tie J, Uchigasaki S, Oshida S (2010) Genetic polymorphisms of eight X-chromosomal STR loci in the population of Japanese. FSI Genetics 4:e105–e108PubMed
24.
Luo H-B, Ye Y, Wang Y-Y, Liang W-B, Yun L-B, Liao M, Yan J, Wu J, Li Y-B, Hou Y-P (2011) Characteristics of eight X-STR loci for forensic purposes in the Chinese population. Int J Legal Med 125:127–131PubMedCrossRef
25.
Desmarais D, Zhong Y, Chakraborty R, Perreault C, Busque L (1998) Development of a highly polymorphic STR marker for identity testing purposes at the human androgen receptor gene (HUMARA). J Forensic Sci 43(5):1046–1049PubMed
26.
Lange K, Cantor R, Horvath S, Perola M, Sabatti C, Sinsheimer J, Sobel E (2001) MENDEL version 4.0: a complete package for the exact genetic analysis of discrete traits in pedigree and population data sets. Am J Hum Genet Supplement 69:504
27.
Bonferroni CE (1936) Teoria statistica delle classi e calcolo delle probabilità. Pubblicazioni del R Istituto Superiore di Scienze Economiche e Commerciali di Firenze 8:3–62
28.
Mertens G, Gielis M, Mommers N, Mularoni A, Lamartine J, Heylen H, Muylle L, Vandenberghe A (1999) Mutation of the repeat number of the HPRTB locus and structure of rare intermediate alleles. Int J Legal Med 112:192–194PubMedCrossRef
29.
Ardlie KG, Kruglyak L, Seielstad M (2002) Patterns of linkage disequilibrium in the human genome. Nat Rev Genet 3:299–309PubMedCrossRef
30.
Bosch E, Calafell F, Rosser ZH, Nørby S, Lynnerup N, Hurles ME, Jobling MA (2003) High level of male-biased Scandinavian admixture in Greenlandic Inuit shown by Y-chromosomal analysis. Hum Genet 112:353–363PubMed
31.
Hallenberg C, Tomas C, Simonsen B, Morling N (2009) Y-chromosome STR haplotypes in males from Greenland. FSI Genetics 3:e145–e146PubMed
32.
Sanchez JJ, Børsting C, Hernandez A, Mengel-Jørgensen J, Morling N (2004) Y chromosome SNP haplogroups in Danes, Greenlanders and Somalis. Int Congr Ser 1261:347–349CrossRef
33.
Saillard J, Forster P, Lynnerup N, Bandelt H-J, Nørby S (2000) MtDNA variation among Greenland Eskimos: the edge of the Beringian expansion. Am J Hum Genet 67:718–726PubMedCrossRef
34.
Helgason A, Pálsson G, Pedersen HS, Angulalik E, Gunnarsdóttir ED, Yngvadóttir B, Stefánsson K (2006) MtDNA variation in Inuti populations of Greenland and Canada: migration history and population structure. Am J Phys Anthropol 130:123–134PubMedCrossRef
35.
Gilbert MTP, Kivisild T, Grønnow B et al (2010) Paleo-Eskimo mtDNA genome reveals matrilineal discontinuity in Greenland. Science 320:1787–1789CrossRef
36.
Rasmussen M, Li Y, Lindgreen S et al (2010) Ancient human genome sequence of an extinct Palaeo-Eskimo. Nature 463:757–762PubMedCrossRef
37.
Brinkmann B, Klintschar M, Nuehuber F, Hühne J, Rolf B (1998) Mutation rate in human microsatellites: influence of the structure and length of the tandem repeat. Am J Hum Genet 62:1408–1415PubMedCrossRef
38.
Rolf B, Wiegand P, Brinkmann B (2002) Somatic mutations at STR loci—a reason for three-allele pattern and mosaicism. Forensic Sci Int 126:200–202PubMedCrossRef
39.
Tillmar AO, Mostad P, Egeland T, Lindblom B, Holmlund G, Montelius K (2008) Analysis of linkage and linkage disequilibrium for eight X-STR markers. FSI Genetics 3:37–41
Metadaten
Titel
Analysis of 12 X-STRs in Greenlanders, Danes and Somalis using Argus X-12
verfasst von
Carmen Tomas
Vânia Pereira
Niels Morling
Publikationsdatum
01.01.2012
Verlag
Springer-Verlag
Erschienen in
International Journal of Legal Medicine / Ausgabe 1/2012
Print ISSN: 0937-9827
Elektronische ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-011-0609-y

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