Genetic polymorphisms of the Basques from Gipuzkoa: genetic heterogeneity of the Basque population

The Y chromosome of autochthonous Basque populations and the Bronze Age replacement

Here we report on the Y haplogroup and Y-STR diversity of the three autochthonous Basque populations of Alava (n = 54), Guipuzcoa (n = 30) and Vizcaya (n = 61). The same samples genotyped for Y-chromosome SNPs were typed for 17 Y-STR loci (DYS19, DYS385a/b, DYS398I/II, DYS390, DYS391, DYS392, DYS393, DYS437, DYS438, DYS439, DYS448, DYS456, DYS458, DYS635, Y-GATA H4) using the AmpFlSTR Yfiler system. Six major haplogroups (R, I, E, J, G, and DE) were detected, being R-S116 (P312) haplogroup the most abundant at 75.0% in Alava, 86.7% in Guipuzcoa and 87.3% in Vizcaya. Age estimates for the R-S116 mutation in the Basque Country are 3975 ± 303, 3680 ± 345 and 4553 ± 285 years for Alava, Guipuzcoa and Vizcaya, respectively. Pairwise Rst genetic distances demonstrated close Y-chromosome affinities among the three autochthonous Basque populations and between them and the male population of Ireland and Gascony. In a MDS plot, the population of Ireland segregates within the Basque cluster and closest to the population of Guipuzcoa, which plots closer to Ireland than to any of the other Basque populations. Overall, the results support the notion that during the Bronze Age a dispersal of individuals carrying the R-S116 mutation reached the Basque Country replacing the Paleolithic/Neolithic Y chromosome of the region.

Forensically relevant phylogeographic evaluation of mitogenome variation in the Basque Country

The Basque Country has been the focus of population (genetic) and evolutionary studies for decades, as it represents an interesting evolutionary feature: it is the only European country where a non-Indo-European language is still spoken today and, for which there are no known living or extinct relatives. Early studies that were based on anatomical and serological methods, along with subsequent molecular genetic investigations, contain controversial interpretations of their data. Additionally, the analysis of mitochondrial DNA, which is maternally inherited and thus suitable for the examination of the maternal phylogeny of the population, was the focus of some studies. Early mtDNA studies were however restricted to the information provided by the control region or its hypervariable segments only. These are known to harbour little phylogenetic information, particularly for haplogroup H that is dominant in Westeurasian populations including the Basques. Later studies analysed complete mitogenome sequences. Their information content is however limited, either because the number of samples was low, or because these studies only considered particular haplogroups. In this study we present the full mitogenome sequences of 178 autochthonous Basque individuals that were carefully selected based on their familial descent and discuss the observed phylogenetic signals in the light of earlier published findings. We confirm the presence of Basque-specific mtDNA lineages and extend the knowledge of these lineages by providing data on their distribution in comparison to other Basque and non-Basque populations. This dataset improves our understanding of the Basque mtDNA phylogeny and serves as a high-quality dataset that is provided via EMPOP for forensic genetic purposes.

Paternal genetic history of the Basque population of Spain

This study examines the genetic variation in Basque Y chromosome lineages using data on 12 Y-short tandem repeat (STR) loci in a sample of 158 males from four Basque provinces of Spain (Alava, Vizcaya, Guipuzcoa, and Navarre). As reported in previous studies, the Basques are characterized by high frequencies of haplogroup R1b (83%). AMOVA analysis demonstrates genetic homogeneity, with a small but significant amount of genetic structure between provinces (Y-short tandem repeat loci STRs: 1.71%, p = 0.0369). Gene and haplotype diversity levels in the Basque population are on the low end of the European distribution (gene diversity: 0.4268; haplotype diversity: 0.9421). Post-Neolithic contribution to the paternal Basque gene pool was estimated by measuring the proportion of those haplogroups with a Time to Most Recent Common Ancestor (TMRCA) previously dated either prior (R1b, I2a2) or subsequent to (E1b1b, G2a, J2a) the Neolithic. Based on these estimates, the Basque provinces show varying degrees of post-Neolithic contribution in the paternal lineages (10.9% in the combined sample).

Autosomal short tandem repeat genetic variation of the Basques in Spain

Aim

To examine population genetic structure and hypotheses of the origin of the modern Basque population in Spain using autosomal short tandem repeat (STR) data from individuals living in 27 mountain villages in the provinces of Alava, Vizcaya, Guipuzcoa, and Navarre, by comparing Basque autosomal STR variation with that of neighboring populations in Europe, as well as proposed ancestral populations in North Africa and the Caucasus.

Methods

Allele frequencies for 9 autosomal STR loci (D3S1358, D5S818, D7S820, D8S1179, D13S317, D18S51, D21S11, FGA, and vWA) and several population genetic parameters were determined for the 4 provinces in the Basque region of Spain (n = 377). Heterozygosity within the Basque population was measured using a locus-by-locus analysis of molecular variance. Relationships between the Basques and other populations were examined using a multidimensional scaling (MDS) plot of Shriver’s D_SW distance matrix.

Results

Heterozygosity levels in the Basque provinces were on the low end of the European distribution (0.805-0.812). The MDS plot of genetic distances revealed that the Basques differed from both the Caucasian and North African populations with respect to autosomal STR variation.

Conclusions

Autosomal STR analysis does not support the hypotheses of a recent common ancestor between the Basques and populations either from the Caucasus or North Africa.

High-density SNP genotyping detects homogeneity of Spanish and French Basques, and confirms their genomic distinctiveness from other European populations

A recent study reported that Basques do not constitute a genetically distinct population, and that Basques from Spanish and French provinces do not show significant genetic similarity. These conclusions disagree with numerous previous studies, and are not consistent with the historical and linguistic evidence that supports the distinctiveness of Basques. In order to further investigate this controversy, we have genotyped 83 Spanish Basque individuals and used these data to infer population structure based on more than 60,000 single nucleotide polymorphisms of several European populations. Here, we present the first high-throughput analysis including Basques from Spanish and French provinces, and show that all Basques constitute a homogeneous group that can be clearly differentiated from other European populations.

DNA-based typing of Kell, Kidd, MNS, Dombrock, Colton, and Yt blood group systems in the French Basques

The Basques demonstrate peculiar characteristics regarding blood group systems. Although ABO, Rhesus, and Duffy have been extensively studied in this population, the distribution of other groups remains largely unknown. Therefore, we evaluated the frequency of less-explored- or still noninvestigated blood groups using DNA-based assays and interpreted these data in the view of population genetics. Polymorphisms of KEL (Kell), SLCA14A1 (Kidd), GYPA/GYPB (MNS), ART4 (Dombrock), AQP1 (Colton), and ACHE (Yt) blood group genes were determined from a sample of more than 100 autochthonous French Basques using allele-specific primer PCR (PCR-ASP) methods. Our results were compared with those previously obtained by the use of serology from both Basque and non-Basque European populations. MNS*1 and JK*1 allele frequencies were comparable with those reported from Basque samples. Conversely, the KEL*1 allele frequency differed significantly. To our knowledge, this is the first time that the other three systems are studied in the Basque population. DO*1 and CO*1 allele frequencies, being respectively 0.35 and 0.96, were significantly inferior to those published from various European populations. There were some discrepancies regarding these six blood systems when comparing molecular typing with serology. These findings may be explained by differences in either criteria for individual selection or technical assays. Nevertheless, these results constitute additional data to be included in the chapter of Basque biological anthropology.

Microsatellite data support subpopulation structuring among Basques

Genomic diversity based on 13 short tandem repeat (STR) loci (D3S1358, vWA, FGA, D8S1179, D21S11, D18S51, D5S818, D13S317, D7S820, D16S539, TH01, TPOX, and CSF1PO) is reported for the first time in Basques from the provinces of Guipúzcoa and Navarre (Spain). STR data from previous studies on Basques from Alava and Vizcaya provinces were also examined using hierarchal analysis of molecular variance (AMOVA) and genetic admixture estimations to ascertain whether the Basques are genetically heterogeneous. To assess the genetic position of Basques in a broader geographic context, we conducted phylogenetic analyses based on F(ST) genetic distances [neighbor-joining trees and multidimensional scaling (MDS)] using data compiled in previous publications. The genetic profile of the Basque groups revealed distinctive regional partitioning of short tandem repeat (STR) diversity. Consistent with the above, native Basques clearly segregated from other populations from Europe (including Spain), North Africa, and the Middle East. The main line of genetic discontinuity inferred from the spatial variability of the microsatellite diversity in Basques significantly overlapped the geographic distribution of the Basque language. The genetic heterogeneity among native Basque groups correlates with the peculiar geography of peopling and marital structure in rural Basque zones and with language boundaries resulting from the uneven impact of Romance languages in the different Basque territories.

[Association of vitamin D receptor gene polymorphism with type 1 diabetes mellitus in two Spanish populations]

BACKGROUND AND OBJECTIVE

In order to assess whether vitamin D receptor gene polymorphisms are involved in the genetic regulation of type 1 diabetes susceptibility, a case-control study was conducted in two Spanish populations with different genetic backgrounds.

PATIENTS AND METHOD

155 patients with childhood-onset type 1 diabetes and 280 healthy controls from Barcelona, and 89 patients and 116 controls from Navarre were studied for vitamin D receptor gene polymorphisms in peripheral blood DNA. Intron 8 (BsmI) and exon 2 (FokI) segments were amplified by PCR and sequenced to determine each corresponding genotype. Differences for allele, genotype and combined haplotype and genotype distribution between patients and controls within each population and between the two populations were analyzed.

RESULTS

BsmI genotype and allele frequencies showed a tendency towards increased bb genotype and b allele frequencies in Barcelona patients and the tendency was inverse in Navarre. FokI polymorphism distribution analysis showed a significant decrease in ff genotype (p = 0.016) in patients versus controls from Navarre. Combined genotypes showed homozygous bb/FF genotype to be increased in Barcelona patients (p = 0.04) whereas homozygous bb/ff genotype was decreased in Navarre patients (p = 0.02) versus their corresponding controls. BF haplotype frequency distribution between patients and controls was inverse and significantly different between Barcelona and Navarre (p = 0.04).

CONCLUSIONS

Combined genotypes for vitamin D receptor gene polymorphisms at intron 8 and exon 2 suggest that the more active form of vitamin D receptor gene (FF genotype) can be increased in Mediterranean diabetic patients whereas the less active form (ff genotype) can be decreased in those from Navarre. Our results suggest that, in both groups, the F allele of exon 2 VDR gene polymorphism may increase type 1 diabetes susceptibility.

Distribution of Rhesus Blood Group System in the French Basques: A Reappraisal Using the Allele-Specific Primers PCR Method

OBJECTIVES

To determine for the first time using PCR the distribution of Rhesus (Rh) blood group in French Basques and compare these results with those obtained by serology in the same sample and in the historical series from various Basque subgroups.

METHODS

Rh polymorphism was determined in a sample of 127 autochthonous French Basques using allele-specific primers (ASP) PCR and traditional serological technique. Statistical comparisons were performed between both techniques and with the data published from various Basque subpopulations.

RESULTS

No intra-sample discrepancies were detected between ASP-PCR and serology. A high frequency of RH Ddel exceeding 0.50, as typically described from several decades, was found here (0.511), as the peculiar frequency of cde (0.456) and cDE (0.073) haplotypes. This profile, obtained by molecular analysis, was within the range of previous historical studies in various Basque subpopulations using serological approach. The Rh polymorphism among the reviewed autochthonous Basque samples indicates a heterogeneous pattern of distribution, with individuals from the Alava province demonstrating the most atypical profile.

CONCLUSIONS

Molecular biology approach using PCR confirms the peculiar pattern of Rh polymorphism which was previously defined by serology among Basques. Nevertheless, this distribution profile is not homogeneous within the Basque area.

DNA polymorphisms detect ancient barriers to gene flow in Basques

This work features the first district-by-district analysis of all provinces in the Iberian Peninsula with an autochthonous Basque population, and indicates the existence of genetic heterogeneity. The populations cluster in three groups arising from processes of genetic drift which probably occurred in pre-Mesolithic times, and were probably those which repopulated the southern areas of the Basque Country after the Last Glacial Maximum. It seems that from that period onwards, the population settled in three major groups (West Basques, Central Basques, and East Basques), along geographical axes which appear substantial in the maintaining of each population unit. This genetic structure is probably reflected in other aspects such as the existence of ancient tribes and the dialects of the Basque language, the boundaries of which may be related at origin and which are quite similar to those detected in this work. Our results indicate that the populations of the Basque Country are genetically close to other neighboring populations, such as that of Aragon, which may indicate an outgoing gene flow from the Basque area down the River Ebro towards the Mediterranean seaboard. While our short tandem repeat data suggest that population structure within the Basques dates back to the Mesolithic, our findings are also consistent with the hypothesis that patterns of modern European genetic diversity have been shaped mainly during the Neolithic.

Genetic structure and affinities of the Corsican population (France): classical genetic markers analysis

The frequencies of 19 classical genetic markers for a total of 54 alleles were studied in a sample of 1,164 individuals born and residing in five different regions of Corsica. The results, which are also discussed in the context of the Mediterranean populations, show the existence within Corsica of a certain genetic differentiation between north and south which follows the linguistic subdivision differentiation. Compared to the other Mediterranean populations, Corsica also appears to be greatly differentiated from the populations of regions such as France and Tuscany, regions which have had great political and cultural influence. The Mediterranean population most comparable to Corsica is Sardinia. Despite their common origin, however, they do not prove to be absolutely identical. The genetic characteristics of Corsica and their relationship with the Mediterranean populations are interpreted in terms of demographic and matrimonial structure, isolation, and genetic drift.

Duffy blood group genotyping in French Basques using polymerase chain reaction with allele-specific primers (PCR-ASP)

Blood group antigens such as Duffy represent interesting models for population genetics studies. The distribution of the Duffy blood group was determined using PCR in a sample of Basque (n = 126) and non-Basque (n = 110) patients from the general hospital of the French Basque Country. The frequency of FY*A allele was significantly lower among autochthonous French Basques (P < 0.001). This result, obtained for the first time by PCR analysis in this population, was within the range of previous historical studies in various Basque subpopulations using traditional hemagglutination methods. When compared with European data, our Basque sample demonstrated the lowest FY*A/FY*B ratio, this fact confirming hemotypology data published before the molecular biology era. Our results with FY*X were quite similar to those reported in European populations.

Genetic relationships between southeastern Spain and Morocco: New data on ABO, RH, MNSs, and DUFFY polymorphisms

The genetic polymorphism of four blood group systems (ABO, RH, MNSs, and DUFFY) was analyzed in two well-defined population samples coming from south-central Morocco and southeastern Spain. Both a controversial ancient common substrate and the long period of coexistence between North Africa and southern Spain during the eight centuries of the Islamic invasion of the Iberian Peninsula suggest a particular genetic relationship between northwestern Africa and southern Spain. Allele distributions in each sample are in general agreement with that expected according to the geographical and historical characteristics in the Mediterranean region. However, the differences between the Moroccan sample and other north African groups illustrate considerable genetic variability in this geographical region. In comparison with other samples from different regions of the Iberian Peninsula, the markers examined fail to demonstrate any particular affinity between the southern Spanish sample of La Alpujarra and Moroccan populations. Am. J. Hum. Biol. 11:745-752, 1999. Copyright 1999 Wiley-Liss, Inc.

MS205 minisatellite diversity in Basques: evidence for a pre-Neolithic component

A number of studies have suggested that Basques might be a relic of Mesolithic Europeans who escaped much of the homogenization brought about by the Neolithic expansion. In an attempt to add new insights into this hypothesis, MS205 minisatellite diversity has been investigated by Minisatellite Variant Repeat (MVR) analysis in a sample of >100 autochthonous individuals from the Basque Country, along with 24 Castilian (N. Spain) and 23 individuals from the United Kingdom. These populations were examined in the context of the available world database for MS205 alleles. To deduce the similarities among populations, we have applied a phylogenetic approach that takes into account similarity between alleles. The variability of these populations seems to be a subset of the greater and presumably older African diversity, as has been suggested previously for non-Africans. Within non-Africans, Basques seem to cluster with other Northern European populations; however, some apparently Basque-specific alleles can be dated back to post-Aurignacian times, supporting the continuity of some lineages of this population since the Upper Paleolithic period.

HLA class I and class II DNA typing and the origin of Basques

Seven HLA class I and class II loci (HLA-A, B, C, DRB1, DQA1, DPA1 and DPB1) were typed at the DNA level in two populations of the Iberian Peninsula (100 Basque and 88 Catalan individuals) in order to unravel their genetic relationship and to compare these results with other European and Mediterranean populations. For the first time, the frequencies of alleles and haplotypes for the class I HLA loci at the DNA level in these populations are presented. The most frequent haplotype in both populations is A*29-Cw*1601-B*44-DRB1*0701-DQA1*0201-DPA1*0103-DPB 1*0401. Neither population differed markedly from the highly homogeneous European and Mediterranean genetic landscape. The Basques, a European outlier population according to classical genetic markers, appear to lie within the genetic European variation with a slight uniqueness and show no clear relationship to North African populations, as has been postulated in some previous HLA studies. Here, the range of possibilities provided by the highly polymorphic HLA system is stressed by using genetic distances, phylogenetic trees and principal component analyses in order to reconstruct population history.