Comparative phylogenetic study of native north Eurasian populations from a panel of autosomal microsatellite loci

Genetic relationships among eighth Siberian and Central Asian ethnic groups were examined using autosomal microsatellite loci. Genetic similarity of Buryats and Evenks, as well as close relationships between Tuvinians and Kyrgyzes, most likely resulting from the Altai-Slavic co-ancestry of their gene pools, was demonstrated. Studies of gene flow in these populations demonstrated that, in general, Turkic ethnic groups of Southern Siberia (Altaians and Tuvinians) were the recipients of more intense gene flow compared to Eastern Siberian populations belonging to Altaic family. The local Buryat populations displayed substantial differences in the direction and the level of deviation of the observed gene diversity from the expected one, which was probably caused by the differences in the degree of isolation and/or in effective population sizes.     

Restriction polymorphism of the major noncoding region of mtDNA in the indigenous population of the TUVA republic]

Mitochondrial DNA sequence variation was examined in three rural populations of the indigenous inhabitants from the Tuva Republic. The frequencies of restriction sites within the D-loop region of mtDNA were determined. The three populations studied demonstrated similar patterns of mtDNA polymorphism. Like other Siberian populations, Tuvinians were characterized by high frequencies of the HaeIII 16517 and AspS9I (Cfr13I) 16516 restriction sites (about 75%). Moreover, in Tuvinians, a relatively low (71 to 81%) frequency of the KpnI 16129 restriction site was observed. The frequency of the mitotype differing from the Cambridge sequence by the HaeIII 16517 and KpnI 16129 sites in Tuvinians was higher than in Mongols and Russians. The features of mtDNA polymorphism point to the similarity between Tuvinians and other Siberian ethnic groups (Sel'kups in particular). This can be explained by the contribution of the Samoyed component, along with the Turkic and Mongoloid ones, to the formation of the Tuvinian ethnic group.     

Polymorphism T174M of the angiotensinogen gene in Siberian populations

The level of T174M polymorphism of the angiotensinogen gene (AGT) was studied for the first time in Siberian populations. The frequency of allele M was found to be 7% in Russians, 6% in Tuvinians, and 4% in Buryats. In the Mongoloid population of Siberia (Tuvinians and Buryats), the genotypic frequencies deviated from Hardy-Weinberg equilibrium (P < 0.05). The studied polymorphism of the AGT gene determined in Siberian populations was compared with that of other ethnic groups in the world population, and genetic distinctions were estimated. Only the Buryat population was found to differ significantly from the French, English, and Chinese in the frequency of allele M. No association between the T174M polymorphism of the AGT gene and pathological pregnancy (gestosis) was revealed in Buryat women.     

Genetic diversity of X-chromosome in populations of aboriginal Siberian ethnic groups: linkage disequilibrium structure and haplotype philogeography of ZFX locus

The structure of gene pool of the Siberian aboriginal population has been described based on the data on polymorphism of ZFX gene located on X-chromosome. In ten populations under study 49 haplotypes have been determined, three of which are presented with high frequency. Comparing the obtained results with the available data from HapMap project unique "African" haplotypes were revealed, which occurred in Yoruba population with the frequency of 3-7% and were not found in other populations. A coefficient of genetic differentiation of the Siberian ethnic groups under study amounted to 0.0486. Correlation analysis involving Mantel test did not reveal any significant correlations between a matrix of genetic distances and the matrices of geographic, linguistic and anthropological differences, where a maximum coefficient was obtained at the comparison with the anthropological matrix. Phylogenetic analysis proved strong isolation of African population from the other investigated ethnic groups. The Siberian populations were subdivided into two separate clusters: the first one included Yakuts, Buryats and Kets, while the second cluster included Altaians, Tuvinians and Khanty. A principal component analysis enabled to combine the investigated populations in three groups, which clearly differed by a degree of manifestation of Caucasoid and Mongoloid components. The first group included Europe inhabitants and one of Khanty populations, the second one--populations of South Siberia and China inhabitants. Mongoloid populations of East Siberia, the Japanese and Kets were combined in the third group. The results of barrier analysis revealed similar structure of genetic differentiation in the Siberian population. Linkage disequilibrium structure was obtained for six ethnic groups of Siberia. A unified linkage block by ten SNP of ZFX gene was found in five of the presented ethnic groups (excluding Ket population).     

Analysis of distribution of "mongoloid" haplogroups of mitochondrial DNA among indigenous population of the Tuva Republic

Variation of Mongoloid-specific restriction sites of mitochondrial genome was analyzed in three territorial groups of Tuvinians. Distribution of mitochondrial DNA haplogroups A, B, C, and D on the territory of the Tuva Republic was estimated. The populations studied did not display distinct differentiation in respect to the mtDNA polymorphism. The specific feature of Tuvinian mitochondrial gene pool was the prevalence of only one haplogroup C (over 40%), mainly represented by two mitotypes. The high frequency of this haplogroup makes Tuvinians similar to more northern Siberian populations. On the other hand, the presence of haplogroup B indicates that Tuvinians have affinity to ethnic groups of Central Asia.     

Genetic peculiarity of the yakut population from the autosomal loci data

The autosomal gene pool of Yakuts was analyzed with a panel of polymorphic Alu insertions. The observed allele frequencies were typical for other Asian ethnic groups. Genetic differentiation of three Yakut populations was relatively high, 2%. East Siberian ethnic groups were shown to have a common gene pool and to experience no intense gene flow from other populations. Development of the Yakut gene pool was assumed to involve no substantial genetic effect of neighboring populations. The results fit both autochthonous and southern origin hypotheses.     

Distribution of “Mongoloid” Haplogroups of Mitochondrial DNA Among Indigenous Population of the Tuva Republic

Variation of Mongoloid-specific restriction sites of mitochondrial genome was analyzed in three territorial groups of Tuvinians. Distribution of mitochondrial DNA haplogroups A, B, C, and D on the territory of the Tuva Republic was estimated. The populations studied did not display distinct differentiation in respect to the mtDNA polymorphism. The specific feature of Tuvinian mitochondrial gene pool was the prevalence of only one haplogroup C (over 40%), mainly represented by two mitotypes. The high frequency of this haplogroup makes Tuvinians similar to more northern Siberian populations. On the other hand, the presence of haplogroup B indicates that Tuvinians have affinity to ethnic groups of Central Asia.     

Study of the most often encountered allele of the HLA-B27 gene in Tuvinian and Russian inhabitants of Western Siberia

HLA-B27 gene frequencies and allelic polymorphism were studied in two Siberian ethnic groups: Russians from Novosibirsk (western Siberia) and Tuvinians from Kyzyl (southern Siberia). The HLA-B27 frequencies were determined by means of serologic typing of HLA antigens in 198 Tuvinians and 288 Russians. Molecular typing was performed via hybridization of oligonucleotide probes with amplified DNAs obtained from 30 HLA-B27-positive Russians and 11 HLA-B27-positive Tuvinians. The HLA-B27 gene frequencies in Tuvinians and Russians were 5.5 and 10.4%, respectively. Molecular variants of the HLA-B27 gene were studied in Tuvinians for the first time. The proportions of the HLA-B2705 and HLA-B2704 alleles were found to be 64 and 36%, respectively, in the population studied. The presence of the HLA-B2704 allele indicates a Mongoloid origin of Tuvinians. In the Russian population of Novosibirsk, the HLA-B2704 allele was not found, whereas the proportions of the HLA-B2705 and HLA-B2702 alleles were 76.2 and 23.8%, respectively, which is characteristic of Caucasoid populations.     

Genetic Peculiarity of the Yakut Population as Inferred from Autosomal Loci

The autosomal gene pool of Yakuts was analyzed with a panel of polymorphic Alu insertions. The observed allele frequencies were typical for other Asian ethnic groups. Genetic differentiation of three Yakut populations was relatively high, 2%. East Siberian ethnic groups were shown to have a common gene pool and to experience no intense gene flow from other populations. Development of the Yakut gene pool was assumed to involve no substantial genetic effect of neighboring populations. The results fit both autochthonous and southern origin hypotheses.     

Genetic diversity of the chromosome X in aboriginal Siberian populations: The structure of linkage disequilibrium and haplotype phylogeography of the <Emphasis Type="Italic">ZFX</Emphasis> locus

The gene pool structure of aboriginal Siberian populations has been described based on the polymorphism of the ZFX gene located on the chromosome X. In the ten populations studied, 49 haplotypes were present, three of them with high frequencies. Comparison of the obtained results with the available data from the HapMap project revealed unique African haplotypes that occurred in the Yoruba with the frequency of 3–7% and were not found in other populations. The genetic differentiation coefficient of the Siberian ethnic groups studied was 0.0486. Correlation analysis using Mantel’s test did not detect significant correlations between the genetic distance matrix and the matrices of geographic, linguistic, and anthropological differences, although the correlation with the anthropological matrix was the highest. Phylogenetic analysis proved strong isolation of the African population from the other ethnic groups investigated. The Siberian populations were divided into two separate clusters: the first one included Yakuts, Buryats, and Kets, while the second cluster included Altaians, Tuvinians, and Khanty. Using the principal component analysis, the populations were combined into three groups clearly differing by manifestation of Caucasoid and Mongoloid components. The first group included residents of Europe and one of Khanty populations, the second group included populations of South Siberia and residents of China. Mongoloid populations of East Siberia, the Japanese, and Kets were combined into the third group. Barrier analysis revealed a similar structure of genetic differentiation of Siberian populations. Linkage disequilibrium structure was obtained for six ethnic groups of Siberia. In five of them (except for the Ket population), ten ZFX SNPs formed a single linkage block.     

Polymorphism of the HFE gene associated with hereditary hemochromatosis in populations of Russia

Expression of hereditary hemochromatosis as well as predisposition to iron overload syndrome and sporadic porphyria cutanea tarda are currently believed to be associated with the inheritance of certain allelic variants of the HFE gene. Allele frequencies of the C282Y (845A) and H63D (187G) mutations in the HFE gene in human populations of different races are remarkably different, and the prevalence of the S65C (193T) mutation is still poorly studied. In the present study we estimated allele frequencies of HFE mutations in Russians and in a number of Siberian ethnic indigenous populations. In Russians, allele frequencies of the C282Y, H63D and S65C mutations were 3.7, 13.3 and 1.7%, respectively. These values were similar to those observed in populations of Europe. The C282Y mutation was not detected in the population samples of Siberian ethnic groups, including Mansis, Khantys (Finno-Ugric group), Altaians, and Nivkhs (Mongoloids), suggesting that the frequency of this allele in the populations examined was lower than 1%. The frequency of the C282Y allele in the Tuvinian and Chukchi samples (Mongoloids) constituted 0.45 and 0.8%, respectively. Furthermore, pedigree analysis of both Chukchi carriers discovered showed that some of their ancestors were from other ethnic groups. Low frequencies of this allelic variant is typical of many Eastern Asian populations, which are also characterized by rather low frequencies of the H63D variant. In contrast, in some ethnic groups of Western Siberia allelic frequency of the H63D mutation is rather high, constituting 8.7% in Altaians, 15.5% in Mansis, and 11.3% in Khantys. The frequency of this allele in Tuvinians, Nivkhs, and Chukchis constituted 5, 4.7, and 0.8%, respectively. These findings make it possible to estimate the proportion of individuals predisposed to iron overload syndrome in different Russian ethnic groups. The HFE allele frequency distribution patterns observed in the populations examined pointed to pre-Celtic appearance of the CY82 allele. It also provides elucidation of the evolutionary genetic relationships between Siberian ethnic groups and the contemporary populations of Eastern and Western Europe.     

Gene-pool structure of Tuvinians inferred from Y-chromosome marker data

The gene-pool structure of Tuvinians was examined in terms of the composition and frequency of Y-chromosome haplogroups in five geographically distanct populations. In the Tuvinian gene pool, a total of 22 haplogroups were identified with six of these, which were the most frequent (C3c, C3*, N1b, N1c1, Q1a3, and R1a1a). It was demonstrated that eastern regions of Tuva were most different from the other regions in haplotype frequencies. The evaluation of genetic diversity based on the frequencies of biallelic haplogroups and YSTR haplotypes revealed very high diversity values for all samples. In general, the genetic diversity values identified in Tuvinians were the highest for the indigenous ethnic groups of Siberia. The evaluation of the genetic differentiation of the samples examined using the analysis of molecular variance (AMOVA) showed that the gene pool of Tuvinians was relatively poorly differentiated with respect to haplogroup frequencies. Phylogenetic analysis within haplogroup N1b revealed strong founder effect, i.e., reduced diversity and star-like phylogeny of the median network of haplotypes, which formed a separate subcluster exclusive to Tuvinians. It was demonstrated that, in Tuvinians, haplogroup N1c1 was the most heterogeneous in haplotype profile and consisted of three different haplotype clusters, demonstrating considerable differences of western population from the rest of the Tuva populations. Phylogenetic analysis of haplogroups revealed common components for Tuvinians, Khakasses, Altaians, and Mongols.     

Polymorphism of the HFE Gene Associated with Hereditary Hemochromatosis in Populations of Russia

The incidence of hereditary hemochromatosis as well as the predisposition to the iron overload syndrome and sporadic porphyria cutanea tarda are currently believed to be associated with the inheritance of certain allelic variants of the HFE gene. Allele frequencies of the C282Y (845A) and H63D(187G) mutations in theHFE gene in human populations of different races are remarkably different, and the prevalence of the S65C (193T) mutation is still poorly studied. In the present study we estimated allele frequencies ofHFE mutations in Russians and in a number of Siberian ethnic indigenous populations. In Russians, the allele frequencies of the C282Y, H63D andS65C mutations were 3.7, 13.3 and 1.7%, respectively. These values were similar to those observed in populations of Europe. The C282Y mutation was not detected in the population samples of Siberian ethnic groups, including Mansis, Khantys (Finno-Ugric group), Altaians, and Nivkhs (Asians), suggesting that the frequency of this allele in the populations examined was lower than 1%. The frequency of the C282Y allele in the Tuvinian and Chukchi samples (Asians) constituted 0.45 and 0.8%, respectively. Furthermore, pedigree analysis of both identified Chukchi carriers discovered showed that some of their ancestors were from other ethnic groups. Low frequencies of this allelic variant were typical of many Eastern Asian populations, which were also characterized by rather low frequencies of the H63D variant. In contrast, in some ethnic groups of Western Siberia, the allelic frequency of the H63D mutation was rather high, constituting 8.5% in Altaians, 15.5% in Mansis, and 11.3% in Khantys. The frequency of this allele in Tuvinians, Nivkhs, and Chukchis constituted 5.0, 4.7, and 0.8%, respectively. These findings made it possible to estimate the proportion of individuals predisposed to the iron overload syndrome in different Russian ethnic groups. TheHFE allele frequency distribution patterns observed in the populations examined pointed to pre-Celtic appearance of the C282Y allele. It also provides an explanation of the evolutionary genetic relationships between Siberian ethnic groups and the contemporary populations of Eastern and Western Europe.     

Variability and identification power of 60 X-chromosome in two native Siberian populations

Genetic diversity of 60 X-chromosome single nucleotide polymorphisms (XSNPid panel) in populations of Siberian Tatars and Tuvinians is described. A close spectrum of allele frequencies and a low level of their genetic differentiation (G_st = 0.021) is revealed. High discriminating power of the XSNPid panel in populations under study is demonstrated. The random matching probability (MP) of multilocus genotypes in males is 1.12 × 10^–18 in Siberian Tatars and 7.77 × 10^–16 in Tuvans. In females, MP is several orders of magnitude lower: 1.51 × 10^–25 in Siberian Tatars and 1.83 × 10^–23 in Tuvinians.     

Structure and diversity of the mitochondrial gene pool of the aboriginal population of Tuva and Buriatia from restriction polymorphism data

The populations of Tuvinians (N = 36) and Buryats (N = 105) were characterized by using the data on mitochondrial DNA (mtDNA) polymorphism. The gene pools of both ethnic groups possessed the mtDNA types belonging to the four main haplogroups, A, B, C, and D, found only in the indigenous populations of Asia and America. The total frequencies of the A, B, C, and D haplogroups in Tuvinians and Buryats were 72.3% and 52.4%, respectively. These values, along with the frequency for Altai populations (57.2%), were highest in the Asian populations studied, indicating that the populations Southern and Eastern Siberia can be considered as ancestral relatives to the ethnic groups of the New World. Analysis of the mtDNA region V polymorphism showed the presence of 9-bp deletion and 4-bp insertion in both populations with frequencies respectively of 13.9 and 5.56% in Tuvinians and 4.8 and 1.9% in Buryats. The frequency of the +AvaII/8249 variant was 11.1% in Tuvinians and 3.81% in Buryats. Analysis of the association between the region V deletion-insertion polymorphism and certain restriction haplogroups pointed to repeated and independent emergence of the 4-bp insertion in Siberia.     

Molecular Genetic Differentiation of the Ethnic Populations of South and East Siberia Based on Mitochondrial DNA Polymorphism

Using the data on mitochondrial DNA (mtDNA) polymorphism, genetic structures of the ethnic groups inhabiting South and East Siberia, including Altaians, Buryats, Tuvinians, Todjins, Tofalars, Yakuts, and Evenks were described. Mitochondrial gene pools of the populations examined were characterized by different ratios between Mongoloid (M*, C, D, E/G, G, A, B, and F) and Caucasoid (H, HV, I, J, K, T, U, and X) mtDNA lineages. All the populations studied carried a marked Mongoloid component, maximum frequency of which was observed in Evenks (92.4%) and Buryats (90.1%). Maximum frequencies of Caucasoid mtDNA lineages were detected in Tofalars (20.7%) and Yakuts (14.5%). Statistically significant interpopulation differences regarding the frequencies of mtDNA haplogroups were observed between all populations examined, excluding the pairs of Evenks–Yakuts, Evenks–Tuvinians, and Tuvinians-Todjins. Differentiation of the ethnic groups inhabiting South and East Siberia, as well as Central and Middle Asia, is discussed based on genetic, linguistic, and anthropological data.     

Analysis of genetic diversity of population of Northern Eurasia from autosomal microsatellite loci

The paper presents the results of analysis of the gene pools of several North Eurasian ethnic groups (Buryats, Evenks, Altaians, Russians, Kyrgyzes, Tuvinians, Tatars, and Ukrainians) examined using a panel of autosomal microsatellite markers (D4S397, D5S393, D7S640, D8S514, D9S161, D10S197, D11S1358, D12S364, and D13S173) mapped on different chromosomes and represented by the (CA)n dinucleotide repeats. In the group of populations examined the proportion of genetic variability at microsatellite loci explained by interpopulation differences was about 2.5%, while genetic differences between the individuals within a population accounted for 97.5% of this variability. Analysis of genetic relationships among the populations revealed substantial differences between the populations belonging to the Indo-European and Altaic linguistic families in gene diversity at microsatellite loci.     

Mitochondrial DNA variation in two South Siberian Aboriginal populations: implications for the genetic history of North Asia

The mtDNAs of 76 individuals representing the aboriginal populations of South Siberia, the Tuvinians and Buryats, were subjected to restriction fragment length polymorphism (RFLP) analysis and control region hypervariable segment I (HVS-I) sequencing, and the resulting data were combined with those available for other Siberian and East Asian populations and subjected to statistical and phylogenetic analysis. This analysis showed that the majority of the Tuvinian and Buryat mtDNAs (94.4% and 92.5%, respectively) belong to haplogroups A, B, C, D, E, F, and M*, which are characteristic of Mongoloid populations. Furthermore, the Tuvinians and Buryats harbor four Asian- and Native American-specific haplogroups (A-D) with frequencies (72.2% and 55%, respectively) exceeding those reported previously for Mongolians, Chinese, and Tibetans. They represent, therefore, the populations that are most closely related to New World indigenous groups. Despite their geographical proximity, the Tuvinians and Buryats shared no HVS-I sequences in common, although individually they shared such sequences with a variety of other Siberian and East Asian populations. In addition, phylogenetic and principal component analyses data of mtDNA sequences show that the Tuvinians clustered more closely with Turkic-speaking Yakuts, whereas the Mongolic-speaking Buryats clustered closer to Korean populations. Furthermore, HVS-I sequences, comprising one-fourth of the Buryat lineages and characterized by the only C-to-T transition at nucleotide position 16223, were identified as different RFLP haplotypes (B, C, D, E, M*, and H). This finding appears to indicate the putative ancestral state of the 16223T HVS-I sequences to Mongoloid macrohaplogroup M, at least. Finally, the results of nucleotide diversity analysis in East Asian and Siberian populations suggest that Central and East Asia were the source areas from which the genetically heterogeneous Tuvinians and Buryats first emerged.     

Contrasting patterns of Y-chromosome variation in South Siberian populations from Baikal and Altai-Sayan regions

In order to investigate the genetic history of autochthonous South Siberian populations and to estimate the contribution of distinct patrilineages to their gene pools, we have analyzed 17 Y-chromosomal binary markers (YAP, RPS4Y₇₁₁, SRY-8299, M89, M201, M52, M170, 12f2, M9, M20, 92R7, SRY-1532, DYS199, M173, M17, Tat, and LLY22 g) in a total sample of 1,358 males from 14 ethnic groups of Siberia (Altaians-Kizhi, Teleuts, Shors, Tuvinians, Todjins, Tofalars, Sojots, Khakassians, Buryats, Evenks), Central/Eastern Asia (Mongolians and Koreans) and Eastern Europe (Kalmyks and Russians). Based on both, the distribution pattern of Y-chromosomal haplogroups and results on AMOVA analysis we observed the statistically significant genetic differentiation between the populations of Baikal and Altai–Sayan regions. We suggest that these regional differences can be best explained by different contribution of Central/Eastern Asian and Eastern European paternal lineages into gene pools of modern South Siberians. The population of the Baikal region demonstrates the prevalence of Central/Eastern Asian lineages, whereas in the populations of Altai and Sayan regions the highest paternal contribution resulted from Eastern European descent is revealed. Yet, our data on Y-chromosome STRs variation demonstrate the clear differences between the South Siberian and Eastern European R1a1-lineages with the evolutionary ages compatible with divergence time between these two regional groups.     

Polymorphism of immunological and biochemical marker genes in rural populations of the Tuva Republic

This article continues the series of publications on the population genetic structure of the Tuva Republic. The polymorphism of immunological (ABO, MN, and the Dd locus of Rhesus) and biochemical (TF, GC, HP, PGD, PGM1, ACP1, and ESD) marker systems was studied in three rural populations of the Tuva Republic: the Shinaanskii, Todzhinskii, and Bai-Taiginskii populations (the Kungurtug, Toora-Khem, and Teeli villages, respectively). Genetic subdivision of the populations and genetic distances between the Tuvinian populations and the populations of neighboring regions were estimated. Tuvinians were demonstrated to be genetically heterogeneous. Data on their population-genetic structure with respect to several classical marker systems agree with the results obtained for quasigenetic (family names) and molecular (mtDNA) markers. Prolonged isolation of individual populations in the republic promoted formation of specific patterns of gene frequencies in some of them. These patterns account for differences between Tuvinians and other populations belonging to the Altaic language family. Tuvinians in general are genetically closer to Mongolian populations inhabiting the regions bordering the Tuva Republic than to southern Altaians.