Population genetic data for 10 X-STR loci in autochthonous Basques from Navarre (Spain)

Ten X chromosome markers (DXS6789, DXS6809, DXS7132, DXS7133, DXS7423, DXS8378, DXS9898, DXS9902, GATA172D05, and GATA31E08) were analyzed in a sample of 185 unrelated autochthonous Basques from Navarre. Deviations from Hardy-Weinberg equilibrium and linkage disequilibrium between markers were not observed at any loci. Combined power of discrimination was 0.999999999 (females) and 0.999998764 (males). Mean exclusion chance was 0.99999463 (trios) and 0.999761591 (duos). Pairwise genetic distances (Fst) of X-STR frequencies indicate significant differences in the allele frequency distribution between the autochthonous Basques from Navarre and American and Iberian populations except with the Basque Country.     

Highly discriminatory capacity of the PowerPlex® Y23 System for the study of isolated populations

In order to evaluate the forensic utility of the new PowerPlex^® Y23 System, two Northern Spanish populations, the autochthonous Basque Country (N = 105) and Cantabria (N = 98), were typed. Two of the new markers incorporated in the panel, the rapid mutating loci DYS576 and DYS570, were among the most discriminative markers in both population datasets. In terms of the analysis of 23 Y-STRs, the two populations showed high haplotype diversities, with values slightly superior in the population of Cantabria (1 ± 0.0015) than in the Basque Country (0.9987 ± 0.0016). The comparison of the discrimination capacity obtained with the analysis of 23 Y-STRs and other available markers sets of 12 Y-STRs (PowerPlex^® Y System) or 17 Y-STRs (YFiler™), clearly demonstrated an improvement in the population of the Basque Country. Nevertheless, in Cantabria this augment was only seen when the number of markers was increased from 12 to 23, since the study of 17 Y-STRs was enough to differentiate all haplotypes. Therefore, this study shows that the improvement in forensic parameters by increasing the number of Y-STR markers analyzed is much more pronounced in the case of isolated populations such as the autochthonous population of the Basque Country, as it facilitates the differentiation among similar haplotypes. Moreover, by the use of the PowerPlex^® Y23 identification of population specific haplotypes increased in both populations. Ultimately, the analysis of 23 Y-STRs differentiated among the two geographically close populations of Basque Country and Cantabria. Indeed it showed significant differences between the Basque Country population and all European populations included, meanwhile Cantabria did exhibit significant proximity with the Iberian and the majority of European populations considered.     

Y-STR variation in the Basque diaspora in the Western USA: evolutionary and forensic perspectives

Individuals of Basque origin migrated in large numbers to the Western USA in the second half of the nineteenth century, and the flow continued with less intensity during the last century. The European source population, that of the Basque Country, has long been a cultural and geographical isolate. Previous studies have demonstrated that Y-STR frequencies of Basques are different from those of other Spanish and European populations [1]. The Basque diaspora in the Western USA is a recent migration, but the founder effect and the incorporation of new American Y chromosomes into the paternal genetic pool of the Basque diaspora could have influenced its genetic structure and could thus have practical implications for forensic genetics. To check for genetic substructure among the European source and Basque diaspora populations and determine the most suitable population database for the Basque diaspora in the Western USA, we have analysed the haplotype distribution of 17 Y-STRs in both populations. We have found that the Basque diaspora in the Western USA largely conserve the Y chromosome lineage characteristic of the autochthonous European Basque population with no statistically significant differences. This implies that a common 17 Y-STR Basque population database could be used to calculate identification or kinship parameters regardless of whether the Basque individuals are from the European Basque Country or from the Basque diaspora in the Western USA.     

17 Y-STR haplotype data for a population sample of Residents in the Basque Country

Non autochthonous population is the most numerous group in the Basque Country. This group is named "Residents" to distinguish them from the "Autochthonous Basque" population. In this work, the 17 Y-STR loci distribution of Resident population was studied in a sample of 197 individuals, who were concretely genotyped for DYS19, DYS389I, DYS389II, DYS390, DYS391, DYS392, DYS393, DYS385, DYS439, DYS438, DYS437, DYS448, DYS456, DYS458, DYS635 and Y GATA H4. Resident population showed a high haplotype diversity and discrimination capacity. The distribution of Y-STRs haplotypes of the Resident population was statistically significant different to the one of the Autochthonous Basque population. The genetic substructure found between Resident and Autochthonous Basque 17 Y-STR haplotype distributions advises for the use of two different databases in the Basque Country, to ensure the most trustworthy frequency estimate in casework.     

A genetic overview of Atlantic coastal populations from Europe and North-West Africa based on a 17 X-STR panel

The forensic use of X-STRs requires the creation of allele and haplotype frequency databases in the populations where they are going to be used. Recently, an updated Spanish allele and haplotype frequency database for the new 17 X-STR panel has been created, being the only database available up to now for this new multiplex. In order to broaden the forensic applicability of the 17 X-STR panel, 513 individuals from four different populations located on the Atlantic Coast of Europe and North–West Africa have been studied, i.e. Brittany (France), Ireland, northern Portugal, and Casablanca (Morocco). Allele and haplotype frequency databases, as well as parameters of forensic interest for these populations are presented. The obtained results showed that the 17 X-STR panel constitutes a highly discriminative tool for forensic identification and kinship testing in the studied populations. Furthermore, we aimed to study if these populations located on the Atlantic coast actually share alike allele and haplotype frequency distributions since they have experienced genetic exchanges throughout history. This would allow creating larger forensic databases that include several genetically similar populations for its use in forensic casework. For this purpose, pairwise F_ST genetic distances between the analyzed populations and others from the Atlantic Coast previously studied with the 17 X-STR panel or the ten coincident markers included in the decaplex of the GHEP-ISFG were estimated. Our results suggest that certain nearby populations located on the European Atlantic coast could have underwent episodes of genetic interchange as they have not shown statistically significant differentiation between them. However, the population of Casablanca showed significant differentiation with the majority of the European populations. Likewise, the autochthonous Basque Country and Brittany populations have shown distinctive allele frequency distributions between them. Therefore, these findings seem to support that the use of independent allele and haplotype frequency databases for each population instead of a global database would be more appropriate for forensic purposes.     

Allelic frequencies and statistical data obtained from 48 AIM INDEL loci in an admixed population from the Brazilian Amazon

Allelic frequencies of 48 informative insert-delete (INDEL) loci were obtained from a sample set of 130 unrelated individuals living in Macapá, a city located in the northern Amazon region, in Brazil. The values of heterozygosity (H), polymorphic information content (PIC), power of discrimination (PD), power of exclusion (PE), matching probability (MP) and typical paternity index (TPI) were calculated and showed the forensic efficiency of these genetic markers. Based on the allele frequency obtained for the population of Macapá, we estimated an interethnic admixture for the three parental groups (European, Native American and African) of, respectively, 50%, 21% and 29%. Comparing these allele frequencies with those of other Brazilian populations and the parental populations, statistically significant distances were found. The interpopulation genetic distance (F(ST) coefficients) to the present database ranged from F(ST)=0.0431 (p<0.00001) between Macapá and Belém to F(ST)=0.266 (p<0.00001) between Macapá and the Native American group.     

Forensic performance of 30 InDels included in the Investigator DIPplex system in Miao population and comprehensive genetic relationship in China

Binary markers of insertion and deletion (InDel) play an important role in forensic personal identification, parentage testing, and individual ancestry inference. We first genotyped 30 InDels included in the Investigator DIPplex in 403 unrelated healthy Zunyi Miao people and analyzed the genetic polymorphisms, as well as explored the genetic relationship between Miao and 32 Chinese reference populations. No departures from the HWE were observed. The combined power of discrimination and the combined probability of exclusion were 0.99999999998 and 0.9884, respectively. Forensic parameters demonstrated that 30 markers are polymorphic and informative in the Zunyi Miao population and can be used as a tool for forensic personal identification and parentage testing. Allele frequency divergence analysis found that 12 out of 30 displaying high allele frequency difference between Turkic-speaking populations and other Chinese populations can be used as candidates of ancestry informative markers for ancestry inference of sub-population in East Asia. Population genetic parameters in the comprehensive population comparison among 33 Chinese populations indicated that our studied Hmong-Mien-speaking Miao has a close genetic relationship with geographically adjacent Enshi Tujia and genetically differentiate from Turkic-speaking populations.

     

Genetic polymorphism of inter-α-trypsin inhibitor (ITI) in the Basque Country (northern Spain)

Summary The genetic polymorphism of inter--trypsin inhibitor (ITI) was analyzed in 2 samples of 554 residents and 303 autochthonous healthy unrelated individuals from the Basque Country (northern Spain), by isoelectric focusing on miniaturized polyacrylamide gels followed by immunoblotting. The allele frequencies were ITI*1 = 0.586; ITI*2 = 0.402 and ITI*3 = 0.012 in residents and ITI*1= 0.548, ITI*2 = 0.449 and ITI*3 = 0.003 in the autochthonous population. These allele frequencies were compared with those reported in other European populations.     

Complex kinship analysis with a combination of STRs,SNPs, and indels

Complex kinship analysis has been widely applied in disaster victim identification and criminal investigations. A larger number of genetic markers is required to improve the discrimination power of the system in complex kinship analysis compared to that in paternity testing, as distant relatives share fewer genetic segments. Genetic markers, including short tandem repeats (STRs), single-nucleotide polymorphisms (SNPs), and insertions-deletions (indels), play complementary roles in kinship analysis. Few studies have systematically analyzed the system discrimination power of a new combination of different types of genetic markers before using these markers in practice. Here, we tested the ability of a set of 56 STRs available in commercial panels on complex kinship analysis. We next introduced a combination marker set of STRs, indels, and SNPs and evaluated the system discrimination power of 72 indels + 52 SNPs to improve the weight of 56 STRs. Statistical analysis of complex kinship within third-degree kinship testing was performed to compare 56 STRs or 72 indels + 52 SNPs alone. True samples were assessed, including 99 full siblings, 112 uncle/aunt-nephew/niece, 43 grandfather/grandmother-grandson/granddaughter, 63 first cousins, and 5931 unrelated pairs. Simulation was also performed using 10,000 pairs of relatives and 10,000 unrelated individuals. The effectiveness of the three marker sets in kinship testing was ranked as follows: 56 STRs + 72 indels + 52 SNPs > 56 STRs > 72 indels + 52 SNPs. All three marker sets were powerful in first-degree kinship testing; 56 STRs and 56 STRs + 72 indels + 52 SNPs could distinguish most second-degree relatives from unrelated pairs. However, only a portion of third-degree relatives was correctly determined from unrelated individuals using 56 STRs + 72 indels + 52 SNPs. In relationship testing, 56 STRs and 56 STRs + 72 indels + 52 SNPs were powerful enough to distinguish first-degree relatives from second-degree or third-degree relatives. Our results provide a strategy and guidance applicable in forensic practice for complex kinship analysis by combining STRs, SNPs, and indels.     

Basque Country autochthonous population data on 7 short tandem repeat loci

Blood samples from 202–208 unrelated Basque Country autochthonous individuals were amplified, typed and their allele frequencies were determined. Results demonstrate the assumption of independence within and between the loci analyzed. Therefore, a Basque population database can be used in identity testing to estimate the frequency of a multiple PCR-based locus DNA profile. Received: 22 September 1997 / Received in revised form: 12 November 1997     

Genetic polymorphism of human α2HS-glycoprotein (AHSG) in the resident population of the Basque Country (Northern Spain)

The genetic polymorphism of human alpha 2 HS-glycoprotein (AHSG) was studied in a sample of 466 healthy unrelated individuals resident in the Basque Country (Northern Spain) by isoelectric focusing on micro-ultrathin polyacrylamide gels followed by immunoblotting. The allele frequencies obtained were AHSG*1 = 0.7253, AHSG*2 = 0.2683 and AHSG*3 = 0.0064. These allele frequencies were compared with those reported in other European populations.     

Population genetic data of the NGM SElect STR loci in Chinese Han population from Zhejiang region, China

Genetic variations of the 17 NGM SElect STR loci in Chinese Han samples from the Zhejiang region were analyzed. The results show that the NGM SElect is a highly genetic informative system in Zhejiang Han, and this population shows quite different genetic data from other major populations in the world with the exception of the Fujian Han.     

Allele frequencies of nine STR systems in the Flemish population and application in parentage testing

In order to apply a set of nine STR loci in parentage testing, we performed a population genetic study on a sample of the Flemish population. Genotypes for HUMHPRTB, HUMFABP, HUMCD4, HUMCSF1PO, HUMTH01, HUMPLA2A, HUMPLA2A1, HUMF13A01, HUMCYAR04 and HUMLIPOL were determined using three triplex PCR reactions and silver staining. Allele frequencies showed no deviation from Hardy-Weinberg equilibrium. The frequency distribution agreed well with other Caucasian populations but three intermediate fragments, not previously found in Caucasians, were observed. We then resolved a series of 151 parentage disputes of which 103 were exclusions. In six cases, evidence for exclusion was obtained by only one informative STR locus out of eight for male children or out of nine for female children. These exclusions were confirmed with additional polymorphic markers. In one case of inclusion, a paternal allele expanded with one repeat unit of HUMHPRTB. This observation illustrates that STRs do not differ from other genetic systems in the fact that more than one excluding locus is required before exclusion is demonstrated.     

Completion of a worldwide reference panel of samples for an ancestry informative Indel assay

The use of ancestry informative markers (AIMs) in forensic analysis is of considerable utility since ancestry inference can progress an investigation when no identification has been made of DNA from the crime-scene. Short-amplicon markers, including insertion deletion polymorphisms, are particularly useful in forensic analysis due to their mutational stability, capacity to amplify degraded samples and straightforward amplification technique. In this study we report the completion of H952 HGDP–CEPH panel genotyping with a set of 46 AIM-Indels. The study adds Central South Asian and Middle Eastern population data, allowing a comparison of patterns of variation in Eurasia for these markers, in order to enhance their use in forensic analyses, particularly when combined with sets of ancestry informative SNPs. Ancestry analysis using principal component analysis and Bayesian methods indicates that a proportion of classification error occurs with European–Middle East population comparisons, but the 46 AIM-Indels have the capability to differentiate six major population groups when European–Central South Asian comparisons are made. These findings have relevance for forensic ancestry analyses in countries where South Asians form much of the demographic profile, including the UK, USA and South Africa. A novel third allele detected in MID-548 was characterized – despite a low frequency in the HGDP–CEPH panel samples, it appears confined to Central South Asian populations, increasing the ability to differentiate this population group. The H952 data set was implemented in a new open access SPSmart frequency browser – forInDel: Forensic Indel browser.     

Population genetic data of 30 autosomal indels in Central Spain and the Basque Country populations

Samples from 71 unrelated Central Spain individuals and 60 Basque Country autochthonous individuals were typed with the Investigator DIPplex kit (30 biallelic autosomal mini-indels and amelogenin) and their allele frequencies were determined. Results demonstrated the assumption of independence within and between the loci analyzed. Different partially silent alleles were observed for the locus HLD97 (rs17238892) produced by a neighboring SNP (A/G), located 61 bp downstream from the main indel site as shown by sequencing analysis.     

Genetic portrait of Jewish populations based on three sets of X-chromosome markers: Indels,Alu insertions and STRs

Population genetic data for 53 X-chromosome markers (32 X-indels, 9 X-Alu insertions and 12 X-STRs) are reported for five populations with Jewish ancestry (Sephardim, North African Jews, Middle Eastern Jews, Ashkenazim, and Chuetas) and Majorca, as the host population of Chuetas.Genetic distances between these populations demonstrated significant differences, except between Sephardic and North African Jews, with the Chuetas as the most differentiated group, in accordance with the particular demographic history of this population. X-chromosome analysis and a comparison with autosomal data suggest a generally sex-biased demographic history in Jewish populations. Asymmetry was found between female and male effective population sizes both in the admixture processes between Jewish communities, and between them and their respective non-Jewish host populations.Results further show that these X-linked markers are highly informative for forensic purposes, and highlight the need for specific databases for differentiated Jewish populations.     

Y-STR genetic diversity in autochthonous Andalusians from Huelva and Granada provinces (Spain)

Seventeen Y-chromosomal short tandem repeats (STRs) were analyzed in 347 healthy, unrelated, autochthonous males from the Andalusian provinces of Huelva (N=167) and Granada (N=180). AmpFlSTR Y-filer PCR Amplification kit (Applied Biosystems) was used to type the Y-STR markers. A total of 156 and 166 different haplotypes for the 17 Y-STR set were detected in Huelva, and Granada, respectively. The same haplotype diversity was found for both samples (0.998±0.001), and the overall discrimination capacity was 0.904. The most common minimal haplotype (DYS19, DYS389 I, DYS389 II, DYS390, DYS391, DYS392, DYS393) in both subpopulations was 14-13-16-24-11-13-13, which is also the most frequent haplotype among Atlantic European populations. Comparison analysis using pairwise R(ST) values and Analysis of Molecular Variance (AMOVA) revealed a significant genetic distance between our Andalusian samples and other ones from the northern Iberian fringe (including Basque and Pyrenean populations). However, results from the multi-dimensional scaling analysis (MDS) yielded a well-defined group of Iberian populations separated from the other Mediterranean clusters observed.     

Population and performance analyses of four major populations with Illumina’s FGx Forensic Genomics System

The MiSeq FGx Forensic Genomics System (Illumina) enables amplification and massively parallel sequencing of 59 STRs, 94 identity informative SNPs, 54 ancestry informative SNPs, and 24 phenotypic informative SNPs. Allele frequency and population statistics data were generated for the 172 SNP loci included in this panel on four major population groups (Chinese, African Americans, US Caucasians, and Southwest Hispanics). Single-locus and combined random match probability values were generated for the identity informative SNPs. The average combined STR and identity informative SNP random match probabilities (assuming independence) across all four populations were 1.75E-67 and 2.30E-71 with length-based and sequence-based STR alleles, respectively. Ancestry and phenotype predictions were obtained using the ForenSeq™ Universal Analysis System (UAS; Illumina) based on the ancestry informative and phenotype informative SNP profiles generated for each sample. Additionally, performance metrics, including profile completeness, read depth, relative locus performance, and allele coverage ratios, were evaluated and detailed for the 725 samples included in this study. While some genetic markers included in this panel performed notably better than others, performance across populations was generally consistent. The performance and population data included in this study support that accurate and reliable profiles were generated and provide valuable background information for laboratories considering internal validation studies and implementation.     

Mitochondrial DNA control region variation in an autochthonous Basque population sample from the Basque Country

Mitochondrial control region (16024-576) sequences were generated from 106 samples from autochthonous Basques from the Autonomous Community of the Basque Country. It is especially important to generate mtDNA databases from isolated populations in order to maximize the power of discrimination of this molecular marker. It also represents a useful approach to carry out a more accurate haplogroup classification. This is the first database report of complete control region sequences in an autochthonous Basque population sample. Strict selection criteria of autochthonous individuals, automation of laboratory processing and independent reviews of the raw electropherograms ensure the high quality of these sequences and their utility as reference population data of the autochthonous Basque population.     

Development and evaluations of the ancestry informative markers of the VISAGE Enhanced Tool for Appearance and Ancestry

The VISAGE Enhanced Tool for Appearance and Ancestry (ET) has been designed to combine markers for the prediction of bio-geographical ancestry plus a range of externally visible characteristics into a single massively parallel sequencing (MPS) assay. We describe the development of the ancestry panel markers used in ET, and the enhanced analyses they provide compared to previous MPS-based forensic ancestry assays. As well as established autosomal single nucleotide polymorphisms (SNPs) that differentiate sub-Saharan African, European, East Asian, South Asian, Native American, and Oceanian populations, ET includes autosomal SNPs able to efficiently differentiate populations from Middle East regions. The ability of the ET autosomal ancestry SNPs to distinguish Middle East populations from other continentally defined population groups is such that characteristic patterns for this region can be discerned in genetic cluster analysis using STRUCTURE. Joint cluster membership estimates showing individual co-ancestry that signals North African or East African origins were detected, or cluster patterns were seen that indicate origins from central and Eastern regions of the Middle East. In addition to an augmented panel of autosomal SNPs, ET includes panels of 85 Y-SNPs, 16 X-SNPs and 21 autosomal Microhaplotypes. The Y- and X-SNPs provide a distinct method for obtaining extra detail about co-ancestry patterns identified in males with admixed backgrounds. This study used the 1000 Genomes admixed African and admixed American sample sets to fully explore these enhancements to the analysis of individual co-ancestry. Samples from urban and rural Brazil with contrasting distributions of African, European, and Native American co-ancestry were also studied to gauge the efficiency of combining Y- and X-SNP data for this purpose. The small panel of Microhaplotypes incorporated in ET were selected because they showed the highest levels of haplotype diversity amongst the seven population groups we sought to differentiate. Microhaplotype data was not formally combined with single-site SNP genotypes to analyse ancestry. However, the haplotype sequence reads obtained with ET from these loci creates an effective system for de-convoluting two-contributor mixed DNA. We made simple mixture experiments to demonstrate that when the contributors have different ancestries and the mixture ratios are imbalanced (i.e., not 1:1 mixtures) the ET Microhaplotype panel is an informative system to infer ancestry when this differs between the contributors.