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International Journal of Legal Medicine
Published in: International Journal of Legal Medicine 4/2019

01-07-2019 | Short Communication

RETRACTED ARTICLE: Exploring the ancestry differentiation and inference capacity of the 28-plex AISNPs

Authors: Wei-Qi Hao, Jing Liu, Li Jiang, Jun-Ping Han, Ling Wang, Jiu-Ling Li, Quan Ma, Chao Liu, Hui-Jun Wang, Cai-Xia Li

Published in: International Journal of Legal Medicine | Issue 4/2019

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Abstract

Inferring an unknown DNA’s ancestry using a set of ancestry-informative single nucleotide polymorphisms (SNPs) in forensic science is useful to provide investigative leads. This is especially true when there is no DNA database match or specified suspect. Thus, a set of SNPs with highly robust and balanced differential power is strongly demanded in forensic science. In addition, it is also necessary to build a genotyping database for estimating the ancestry of an individual or an unknown DNA. For the differentiation of Africans, Europeans, East Asians, Native Americans, and Oceanians, the Global Nano set that includes just 31 SNPs was developed by de la Puente et al. Its ability for differentiation and balance was evaluated using the genotype data of the 1000 Genomes Phase III project and the Stanford University HGDP-CEPH. Just 402 samples were genotyped and analyzed as a reference set based on statistical methods. To validate the differentiating capacity using more samples, we developed a single-tube 28-plex SNP assay in which the SNPs were chosen from the 31 allelic loci of the Global AIMs Nano set. Three tri-allelic SNPs used to differentiate mixed-source DNA contribute little to population differentiation and were excluded here. Then, 998 individuals from 21 populations were typed, and these genotypes were combined with the genotype data obtained from 1000 Genomes Phase III and the Stanford University HGDP-CEPH (3090 total samples,43 populations) to estimate the power of this multiplex assay and build a database for the further inference of an individual or an unknown DNA sample in forensic practice.
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Literature
1.
Santos C, Fondevila M, Ballard D, Banemann R, Bento AM, Børsting C, Branicki W, Brisighelli F, Burrington M, Capal T, Chaitanya L, Daniel R, Decroyer V, England R, Gettings KB, Gross TE, Haas C, Harteveld J, Hoff-Olsen P, Hoffmann A, Kayser M, Kohler P, Linacre A, Mayr-Eduardoff M, McGovern C, Morling N, O'Donnell G, Parson W, Pascali VL, Porto MJ, Roseth A, Schneider PM, Sijen T, Stenzl V, Court DS, Templeton JE, Turanska M, Vallone PM, Oorschot RAHV, Zatkalikova L, Carracedo Á, Phillips C, EUROFORGEN-NoE Consortium (2015) Forensic ancestry analysis with two capillary electrophoresis ancestry informative marker (AIM) panels: results of a collaborative EDNAP exercise. Forensic Sci Int Genet 19:56–67CrossRef
2.
Cho S, Yu HJ, Han J, Kim Y, Lee J, Lee SD (2014) Forensic application of SNP-based resequencing array for individual identification. Forensic Sci Int Genet 13:45–52CrossRef
3.
Borsting C, Mogensen HS, Morling N (2013) Forensic genetic SNP typing of low-template DNA and highly degraded DNA from crime case samples. Forensic Sci Int Genet 7(3):345–352CrossRef
4.
Wei YL, Li CX, Jia J, Hu L, Liu Y (2012) Forensic identification using a multiplex assay of 47 SNPs. J Forensic Sci 57(6):1448–1456CrossRef
5.
Li CX, Pakstis AJ, Jiang L, Wei YL, Sun QF, Wu H, Bulbul O, Wang P, Kang LL, Kidd JR, Kidd KK (2016) A panel of 74 AISNPs: improved ancestry inference within Eastern Asia. Forensic Sci Int Genet 23:101–110CrossRef
6.
Pakstis AJ, Haigh E, Cherni L, ElGaaied ABA, Barton A, Evsanaa B, Togtokh A, Brissenden J, Roscoe J, Bulbul O, Filoglu G, Gurkan C, Meiklejohn KA, Robertson JM, Li CX, Wei YL, Li H, Soundararajan U, Rajeevan H, Kidd JR, Kidd KK (2015) 52 additional reference population samples for the 55 AISNP panel. Forensic Sci Int Genet 19:269–271CrossRef
7.
Phillips C, Fondevila M, Lareau MV (2012) A 34-plex autosomal SNP single base extension assay for ancestry investigations. Methods Mol Biol 830:109–126CrossRef
8.
Inagaki S, Yamamoto Y, Doi Y, Takata T, Ishikawa T, Imabayashi K, Yoshitome K, Miyaishi S, Ishizu H (2004) A new 39-plex analysis method for SNPs including 15 blood group loci. Forensic Sci Int 144(1):45–57CrossRef
9.
Wei Y et al (2016) A single-tube 27-plex SNP assay for estimating individual ancestry and admixture from three continents. Int J Legal Med 130(1):27–37CrossRef
10.
Kidd JR, Friedlaender FR, Speed WC, Pakstis AJ, de la Vega FM, Kidd KK (2011) Analyses of a set of 128 ancestry informative single-nucleotide polymorphisms in a global set of 119 population samples. Investig Genet 2(1):1CrossRef
11.
Phillips C, Parson W, Lundsberg B, Santos C, Freire-Aradas A, Torres M, Eduardoff M, Børsting C, Johansen P, Fondevila M, Morling N, Schneider P, EUROFORGEN-NoE Consortium, Carracedo A, Lareu MV (2014) Building a forensic ancestry panel from the ground up: the EUROFORGEN Global AIM-SNP set. Forensic Sci Int Genet 11:13–25CrossRef
12.
Galanter JM et al (2012) Development of a panel of genome-wide ancestry informative markers to study admixture throughout the Americas. PLoS Genet 8(3):e1002554CrossRef
13.
de la Puente M, Santos C, Fondevila M, Manzo L, EUROFORGEN-NoE Consortium, Carracedo Á, Lareu MV, Phillips C (2016) The Global AIMs Nano set: a 31-plex SNaPshot assay of ancestry-informative SNPs. Forensic Sci Int Genet 22:81–88CrossRef
14.
Wei YL, Qin CJ, Liu HB, Jia J, Hu L, Li CX (2014) Validation of 58 autosomal individual identification SNPs in three Chinese populations. Croat Med J 55(1):10–13CrossRef
15.
Frudakis T, Venkateswarlu K, Thomas MJ, Gaskin Z, Ginjupalli S, Gunturi S, Ponnuswamy V, Natarajan S, Nachimuthu PK (2003) A classifier for the SNP-based inference of ancestry. J Forensic Sci 48(4):771–782CrossRef
16.
Budowle B, van Daal A (2008) Forensically relevant SNP classes. Biotechniques 44(5):603–608 610CrossRef
17.
Sanchez JJ, Phillips C, Børsting C, Balogh K, Bogus M, Fondevila M, Harrison CD, Musgrave-Brown E, Salas A, Syndercombe-Court D, Schneider PM, Carracedo A, Morling N (2006) A multiplex assay with 52 single nucleotide polymorphisms for human identification. Electrophoresis 27(9):1713–1724CrossRef
18.
Kidd KK, Pakstis AJ, Speed WC, Grigorenko EL, Kajuna SLB, Karoma NJ, Kungulilo S, Kim JJ, Lu RB, Odunsi A, Okonofua F, Parnas J, Schulz LO, Zhukova OV, Kidd JR (2006) Developing a SNP panel for forensic identification of individuals. Forensic Sci Int 164(1):20–32CrossRef
19.
Porras-Hurtado L et al (2013) An overview of STRUCTURE: applications, parameter settings, and supporting software. Front Genet 4:98CrossRef
20.
Earl DA, vonHoldt BM (2012) STRUCTURE HARVESTER: a website and program for visualizing STRUCTURE output and implementing the Evanno method. Conserv Genet Resour 4:359–361CrossRef
21.
Rosenberg NA (2004) DISTRUCT a program for the graphical display of population structure. Mol Ecol Notes 4(1):137–138CrossRef
22.
Phillips C, Salas A, Sánchez JJ, Fondevila M, Gómez-Tato A, Alvarez-Dios J, Calaza M, de Cal MC, Ballard D, Lareu MV, Carracedo A, SNPforID Consortium (2007) Inferring ancestral origin using a single multiplex assay of ancestry-informative marker SNPs. Forensic Sci Int Genet 1(3–4):273–280CrossRef
23.
Yang L, Tan SJ, Yu HJ, Zheng BR, Qiao EF, Dong YL, Zan RG, Xiao CJ (2008) Gene admixture in ethnic populations in upper part of Silk Road revealed by mtDNA polymorphism. Sci China C Life Sci 51(5):435–444CrossRef
24.
Ballantyne KN, van Oven M, Ralf A, Stoneking M, Mitchell RJ, van Oorschot RAH, Kayser M (2012) MtDNA SNP multiplexes for efficient inference of matrilineal genetic ancestry within Oceania. Forensic Sci Int Genet 6(4):425–436CrossRef
25.
Shi W, Ayub Q, Vermeulen M, Shao RG, Zuniga S, van der Gaag K, de Knijff P, Kayser M, Xue Y, Tyler-Smith C (2010) A worldwide survey of human male demographic history based on Y-SNP and Y-STR data from the HGDP-CEPH populations. Mol Biol Evol 27(2):385–393CrossRef
26.
Kayser M (2017) Forensic use of Y-chromosome DNA: a general overview. Hum Genet 136:621–635CrossRef
27.
Pereira R, Phillips C, Pinto N, Santos C, Santos SEB, Amorim A, Carracedo Á, Gusmão L (2012) Straightforward inference of ancestry and admixture proportions through ancestry-informative insertion deletion multiplexing. PLoS One 7(1):e29684CrossRef
28.
Phillips C, Aradas AF, Kriegel AK, Fondevila M, Bulbul O, Santos C, Rech FS, Carceles MDP, Carracedo Á, Schneider PM, Lareu MV (2013) Eurasiaplex: a forensic SNP assay for differentiating European and South Asian ancestries. Forensic Sci Int Genet 7(3):359–366CrossRef
29.
Kidd KK, Speed WC, Pakstis AJ, Furtado MR, Fang R, Madbouly A, Maiers M, Middha M, Friedlaender FR, Kidd JR (2014) Progress toward an efficient panel of SNPs for ancestry inference. Forensic Sci Int Genet 10:23–32CrossRef
30.
Ovchinnikov IV, Malek MJ, Drees K, Kholina OI (2014) Mitochondrial DNA variation in Tajiks living in Tajikistan. Legal Med (Tokyo) 16(6):390–395CrossRef
31.
Triki-Fendri S, Sánchez-Diz P, Rey-González D, Alfadhli S, Ayadi I, Ben Marzoug R, Carracedo Á, Rebai A (2016) Genetic structure of the Kuwaiti population revealed by paternal lineages. Am J Hum Biol 28(2):203–212CrossRef
32.
Phillips C (2015) Forensic genetic analysis of bio-geographical ancestry. Forensic Sci Int Genet 18:49–65CrossRef
Metadata
Title
RETRACTED ARTICLE: Exploring the ancestry differentiation and inference capacity of the 28-plex AISNPs
Authors
Wei-Qi Hao
Jing Liu
Li Jiang
Jun-Ping Han
Ling Wang
Jiu-Ling Li
Quan Ma
Chao Liu
Hui-Jun Wang
Cai-Xia Li
Publication date
01-07-2019
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Legal Medicine / Issue 4/2019
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-018-1863-z

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