Haplotype of Y-chromosomes in the Central Asia population

The distribution of alleles and haplotypes of three diallellic Y-specific loci (YAP, DYF155S2, and Tat) in the populations of Kyrgyz, Uzbeks and Tajiks was analyzed. In Kyrgyzes and Uzbeks, a relatively high frequency of the DYF155S2 deletion (20 and 12.5%, respectively) and the C allele at the Tat locus (11.2 and 8.3%, respectively) were revealed. In the populations of southern Kyrgyzes and Uzbeks, two chromosomes carrying the YAP+ allele were detected. In both cases the YAP+ allele was found within the YAP+/DYF155S2+/TatT haplotype. The Tajik population was monomorphic in respect to the polymorphisms studied. The Tajiks demonstrated the presence of only the YAP-/DYF155S2+/TatT haplotype. This haplotype appeared to be most frequent in Kyrgyz (78.8%) and Uzbeks (83.3%). The question on the origin and the distribution of Y-chromosome variants in Eurasia are discussed.     

Distribution of the male lineages of Genghis Khan's descendants in northern Eurasian populations

Data on the variation of 12 microsatellite loci of Y-chromosome haplogroup C3 were used to screen lineages included in the cluster of Genghis Khan's descendants in 18 northern Eurasian populations (Altaian Kazakhs, Altaians-Kizhi, Teleuts, Khakassians, Shorians, Tyvans, Todjins, Tofalars, Sojots, Buryats, Khamnigans, Evenks, Mongols, Kalmyks, Tajiks, Kurds, Persians, and Russians; the total sample size was 1437 people). The highest frequency of haplotypes from the cluster of the Genghis Khan's descendants was found in Mongols (34.8%). In Russia, this cluster was found in Altaian Kazakhs (8.3%), Altaians (3.4%), Buryats (2.3%), Tyvans (1.9%), and Kalmyks (1.7%).     

Distribution of the male lineages of Genghis Khan’s descendants in northern Eurasian populations

Data on the variation of 12 microsatellite loci of Y-chromosome haplogroup C3 were used to screen lineages included in the cluster of Genghis Khan’s descendants in 18 northern Eurasian populations (Altaian Kazakhs, Altaians-Kizhi, Teleuts, Khakassians, Shorians, Tyvans, Todjins, Tofalars, Sojots, Buryats, Khamnigans, Evenks, Mongols, Kalmyks, Tajiks, Kurds, Persians, and Russians; the total sample size was 1437 people). The highest frequency of haplotypes from the cluster of the Genghis Khan’s descendants was found in Mongols (34.8%). In Russia, this cluster was found in Altaian Kazakhs (8.3%), Altaians (3.4%), Buryats (2.3%), Tyvans (1.9%), and Kalmyks (1.7%).     

Analysis of Y-chromosomal diallelic loci polymorphism in populations of the Volga-Ural region

Three diallelic polymorphisms of human Y chromosome, DYS287 (Y Alu polymorphism, YAP), T/C transition at the RBF5 locus (Tat), and G/A transition at the LLY22 locus, were studied in eight ethnic populations of the Volga-Ural region, representing Turkic (Bashkirs, Tatars, and Chuvashes) and Finno-Ugric (Maris, Mordovians, Udmurts, Komi-Zyryans, and Komi-Permyaks) branches of the Uralic linguistic family, and in the group of Slavic migrants, belonging to the Indo-European linguistic family (Russians). Ethnic populations of the Volga-Ural region were characterized by a low frequency of the Y chromosome Alu insertion. Examination of an association between the Alu polymorphism and Tat mutation revealed absolute C/YAP linkage. Analysis of the haplotype frequency distribution patterns constructed from the data on the DYS287 and RBF5 polymorphisms revealed substantial differences between Udmurts and the other ethnic populations. The differences were also observed between Komi-Zyryans and the populations of Bashkirs, Mordovians, Komi-Permyaks, and Russians. Analysis of the degree of genetic differentiation pointed to high level of genetic differentiation of the male lineages of the Finno-Ugric ethnic groups. The data on the linkage between mutations of the RBF5 and the LLY22 loci indicated the common origin of the Tat mutation in Bashkirs, Mordovians, Udmurts, and Komi-Zyryans, and of a number of ancestral C allele-bearing chromosomes in Tatars, Maris, and Chuvashes.     

African and Levantine origins of Pakistani YAP+ Y chromosomes.

We surveyed 9 Pakistani subpopulations for variation on the nonrecombining portion of the Y chromosome. The polymorphic systems examined were the Y-chromosome Alu insertion polymorphism (YAP) at DYS287, 5 single nucleotide polymorphisms, and the tetranucleotide microsatellite DYS19. Y chromosomes carrying the YAP element (YAP+) were found in populations from southwestern Pakistan at frequencies ranging from 2% to 8%, whereas northeastern populations appeared to lack YAP+ chromosomes. In contrast to other South Asian populations, several Pakistani subpopulations had a high frequency of the DYS19*B allele, the most frequent allele in West Asian, North African, and European populations. The combination of alleles at all polymorphic sites gave rise to 9 YAP-DYS19 combination haplotypes in Pakistani populations, including YAP+ haplotypes 4-A, 4-B, 5-C, and 5-E. We hypothesize that the geographic distributions of YAP+ haplotypes 4 and 5 trace separate migratory routes to Pakistan: YAP+ haplotype 5 may have entered Pakistan from the Arabian Peninsula by means of migrations across the Gulf of Oman, whereas males possessing YAP+ haplotype 4 may have traveled over land from the Middle East. These inferences are consistent with ethnohistorical data suggesting that Pakistan's ethnic groups have been influenced by migrations from both African and Levantine source populations.     

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.     

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.     

The SRY-1532 site of the human Y chromosome is subject to recurrent single nucleotide mutations

Haplotype determination based on three Y-linked polymorphic sites, 92R7 (C/T), SRY-1532 (A/G), and YAP (-/+), in 127 males belonging to three caste Hindu populations of South India (Vizag Brahmins, Peruru Brahmins, and Kammas) and 13 males belonging to a migrant group (the Siddis) showed the existence of all four haplotypes (CA-, CG-, TG-, and TA-) under the YAP- background. This finding suggests that the reverse mutation (G-->A) at the SRY-1532 site, described earlier in the literature, is present in South Indian populations as well. The YAP+ mutation was seen in only five Siddi individuals. Four of these were of the CG+ haplotype structure, but a novel haplotype (CA+) was found in one male. To explain the occurrence of the six haplotypes found within these three sites, a haplotype tree is constructed that introduces a new reverse mutation at the SRY-1532 site (G-->A), occurring under the CG+ background after the migrant Siddi population arrived in India.     

Spectrum of pathogenic mtDNA mutations in Leber hereditary optic neuropathy families from Siberia

The results of clinical, genealogical and molecular investigation of eighteen families with Leber hereditary optic neuropathy (LHON), identified on the territory of Siberia during the period from 1997 to 2005, are presented. Comprehensive analysis of mitochondrial genome variations in probands and their matrilineal relatives revealed the presence of relatively frequent (G11778A, G3460A, and T14484C), as well as rare and new mutations with the established or presumptive pathological effect (T10663C, G363A, C4640T, and A14619G). The G11778A mutation was detected in nine pedigrees (50%), mostly in the families of ethnic Russians. In eight of these families G11778A was found in preferred association with the coding-region substitutions, typical of western Eurasian mtDNA lineage (haplogroup) TJ. On the contrary, the G3460A mutation was detected in the three families belonging to the indigenous Siberian populations (Tuvinians, Altaians, and Buryats). It was associated with clearly different haplotypes of eastern Eurasian haplogroups, C3, D5, and D8. Unexpectedly, the G3460A de novo mutation was found in a large Tuvinian pedigree. At the same time, in eleven out of fourteen families of Caucasoid origin pathogenic mutations in the ND genes were associated with the T4216C and C1542A coding-region mutations, marking the root motif of haplogoup TJ. It is suggested that phylogenetically ancient mutations could have provided their carriers with the adaptive advantages upon the development of Central and Northern Europe at the end of the last glaciation (10 000 to 9 000 years ago), thereby, contributing to the preservation of weekly pathogenic LHON mutations, appearing at specific genetic background.     

Genetic differentiation of the Tuva population with respect to the Alu insertions]

Polymorphism of three rural populations of the Tuva Republic was examined using a set of five autosomal Alu insertions at the ACE, PLAT, PV92, APOA1, and F13B loci. The allele frequency distribution patterns revealed in Tuvinians were typical to Mongoloid populations of Asia and were characterized by relatively high frequency of the Alu-repeat insertion at the PV92 and F13B loci along with relatively low insertion frequency at the APOA1 locus. With respect to the test systems used, Tuvinian populations examined displayed high levels of genetic diversity. The mean expected heterozygosity values in the populations of Kugurtug, Toora-Khem, and Teeli were 0.433, 0.407, and 0.437, respectively. The level of genetic diversity in the pooled Tuvinian sample was 0.432. The coefficient of genetic differentiation in the three populations studied was 1.45 pointing to relatively low level of genetic subdivision of the indigenous Tuvinian populations. However, estimates of genetic differentiation of the Tuvinian gene pool made by use of the Alu-repeat system were higher compared to those performed using classical protein systems, mtDNA, or Y-chromosomal haplotypes. Even though Tuvinian populations were characterized by common gene pool, some features specific to Western Tuvinian population could be distinguished. These features could be associated with higher contribution of the Caucasian component to the gene pool of this population. Phylogenetic analysis demonstrated close genetic relationships between the Tuvinian and Altaic ethnic populations.     

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.     

Transferrin types in different ethnic groups of the USSR and Mongolia

Transferrin (TF) subtypes were studied in 7 different populations from the Soviet Union (Buryats, Russians, Koreans, Kirghizes and Pamirians) and in 3 different populations from Mongolia. The frequency of the C2 gene varied between 10.4% in Pamirians and 27.4% in Koreans and was generally higher in populations of Mongoloid origin. The frequency of the C3 gene was found to be very low (nonpolymorphic) in the Mongoloid groups, but it was also low (1.5%) in Russians. Rare B and D variants were found in 7 populations. The highest D frequencies were found in the Mongoloid populations.     

Polymorphism of pigmentation genes (<Emphasis Type="Italic">OCA2</Emphasis> and <Emphasis Type="Italic">ASIP</Emphasis>) in some populations of Russia

In Russian populations, polymorphism of two pigmentation system genes, OCA2 (loci 305, 355, and 419, tested in Russians, Buryats, Chukchi, Koryaks, and Evens) and ASIP (locus 8818, tested in Russians and Buryats) was examined. Pairwise comparisons of the F _ST distances between the populations showed that only the populations from Northeast Asia (Chukchi, Koryaks, and Evens) were statistically significantly different from all other populations, at least relative to one of the OCA2 locus. In Russians from Pskov oblast and Novgorod oblast, increased frequency (up to 6%) of the OCA2 allele 419A was revealed. In earlier studies, as association of this allele with green eye color was demonstrated. The data obtained in terms of their application for ethnic population genetics.     

Genetic Differentiation of the Tuva Population with Respect to the AluInsertions

Polymorphism of three rural populations of the Tuva Republic was examined using a set of five autosomal Aluinsertions at the ACE, PLAT, PV92, APOA1,and F13Bloci. The allele frequency distribution patterns revealed in Tuvinians were typical to Mongoloid populations of Asia and were characterized by relatively high frequency of the Alu-repeat insertion at the PV92and F13Bloci along with relatively low insertion frequency at the APOA1locus. With respect to the test systems used, Tuvinian populations examined displayed high levels of genetic diversity. The mean expected heterozygosity values in the populations of Kungurtug, Toora-Khem, and Teeli were 0.433, 0.407, and 0.437, respectively. The level of genetic diversity in the pooled Tuvinian sample was 0.432. The coefficient of genetic differentiation in the three populations studied was 1.4% pointing to relatively low level of genetic subdivision of the indigenous Tuvinian populations. However, estimates of genetic differentiation of the Tuvinian gene pool made by use of the Alu-repeat system were higher compared to those performed using classical protein systems, mtDNA, or Y-chromosomal haplotypes. Even though Tuvinian populations were characterized by common gene pool, some features specific to Western Tuvinian population could be distinguished. These features could be associated with higher contribution of the Caucasian component to the gene pool of this population. Phylogenetic analysis demonstrated close genetic relationships between the Tuvinian and Altaic ethnic populations.     

Y chromosomal DNA variation and the peopling of Japan.

Four loci mapping to the nonrecombining portion of the Y chromosome were genotyped in Japanese populations from Okinawa, the southernmost island of Japan; Shizuoka and Aomori on the main island of Honshu; and a small sample of Taiwanese. The Y Alu polymorphic (YAP) element is present in 42% of the Japanese and absent in the Taiwanese, confirming the irregular distribution of this polymorphism in Asia. Data from the four loci were used to determine genetic distances among populations, construct Y chromosome haplotypes, and estimate the degree of genetic diversity in each population and on different Y chromosome haplotypes. Evolutionary analysis of Y haplotypes suggests that polymorphisms at the YAP (DYS287) and DXYS5Y loci originated a single time, whereas restriction patterns at the DYS1 locus and microsatellite alleles at the DYS19 locus arose more than once. Genetic distance analysis indicated that the Okinawans are differentiated from Japanese living on Honshu. The data support the hypotheses that modern Japanese populations have resulted from distinctive genetic contributions involving the ancient Jomon people and Yayoi immigrants from Korea or mainland China, with Okinawans experiencing the least amount of admixture with the Yayoi. It is suggested that YAP+ chromosomes migrated to Japan with the Jomon people > 10,000 years ago and that a large infusion of YAP- chromosomes entered Japan with the Yayoi migration starting 2,300 years ago. Different degrees of genetic diversity carried by these two ancient chromosomal lineages may be explained by the different life-styles (hunter-gatherer versus agriculturalist). of the migrant groups, the size of the founding populations, and the antiquities of the founding events.     

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.     

Microsatellite haplotypes of the Y-chromosome demonstrate the absence of subdivisions and presence of several components in the Tuvinian male gene pool

The haplotype analysis of seven Y-chromosome microsatellites in three regional populations of Tuvinians revealed high intrapopulation variation in the male gene pool of the modern population of the Tuva Republic. In total, 49 haplotypes were found in 111 individuals; only four haplotypes occurred at a frequency higher than 5%. High genetic diversity (H = 0.935) suggested a high power of discrimination for the Y-chromosome haplotypes. The analysis of molecular variance (AMOVA) and other data did not reveal subdivision of the Tuvinian population with respect to Y-chromosome haplotypes. Most haplotypes found in Tuvinians formed two lines. Line A included approximately 64% of the haplotypes found, line B, approximately 24%. A putative ancestral haplotype of line B was similar to a haplotype most common in modern Caucasoids (Md = 3), whereas a putative ancestral haplotype of line A proved to be distant from the ancestral haplotype of line A and haplotypes common for Caucasoids and Mongoloids. Estimates of the age of the Y-chromosome lines showed that the male gene pool of modern Tuvinians originated in the late Paleolithic or Neolithic period. With two methods, the age of line A was estimated at 3500 or 18,000 years and the age of line B was approximately at 5500 or 15,000 years. Considering the less conservative estimates to be more reliable, line B was assumed to originate from the ancient Caucasoid population of the Tuva region. The more widespread and evolutionarily younger line A was associated with the peopling region by ancient Mongoloid tribes of the Turkic language group in the Hun-Sarmatian period.     

Spectrum of pathogenic mtDNA mutations in Leber’s hereditary optic neuropathy families from Siberia

The results of clinical, genealogical and molecular investigation of eighteen families with Leber’s hereditary optic neuropathy (LHON), identified on the territory of Siberia during the period from 1997 to 2005, are presented. Comprehensive analysis of mitochondrial genome variations in probands and their matrilineal relatives revealed the presence of relatively frequent (G11778A, G3460A, and T14484C), as well as rare and new mutations with the established or presumptive pathological effect (T10663C, G3535A, C4640A, and A14619G). The G11778A mutation was detected in nine pedigrees (50%), mostly in the families of ethnic Russians. In eight of these families G11778A was found in preferred association with the coding-region substitutions, typical of western Eurasian mtDNA lineage (haplogroup) TJ. On the contrary, the G3460A mutation was detected in the three families belonging to the indigenous Siberian populations (Tuvinians, Altaians, and Buryats). It was associated with clearly different haplotypes of eastern Eurasian haplogroups, C3, D5, and D8. Unexpectedly, the G3460A de novo mutation was found in a large Tuvinian pedigree. At the same time, in eleven out of fourteen families of Caucasoid origin pathogenic mutations in the ND genes were associated with the T4216C and C15445A coding-region mutations, marking the root motif of haplogoup TJ. It is suggested that phylogenetically ancient mutations could have provided their carriers with the adaptive advantages upon the development of Central and Northern Europe at the end of the last glaciation (10 000 to 9000 years ago), thereby, contributing to the preservation of weekly pathogenic LHON mutations, appearing at specific genetic background.     

Ancestral Asian source(s) of new world Y-chromosome founder haplotypes

Haplotypes constructed from Y-chromosome markers were used to trace the origins of Native Americans. Our sample consisted of 2,198 males from 60 global populations, including 19 Native American and 15 indigenous North Asian groups. A set of 12 biallelic polymorphisms gave rise to 14 unique Y-chromosome haplotypes that were unevenly distributed among the populations. Combining multiallelic variation at two Y-linked microsatellites (DYS19 and DXYS156Y) with the unique haplotypes results in a total of 95 combination haplotypes. Contra previous findings based on Y- chromosome data, our new results suggest the possibility of more than one Native American paternal founder haplotype. We postulate that, of the nine unique haplotypes found in Native Americans, haplotypes 1C and 1F are the best candidates for major New World founder haplotypes, whereas haplotypes 1B, 1I, and 1U may either be founder haplotypes and/or have arrived in the New World via recent admixture. Two of the other four haplotypes (YAP+ haplotypes 4 and 5) are probably present because of post-Columbian admixture, whereas haplotype 1G may have originated in the New World, and the Old World source of the final New World haplotype (1D) remains unresolved. The contrasting distribution patterns of the two major candidate founder haplotypes in Asia and the New World, as well as the results of a nested cladistic analysis, suggest the possibility of more than one paternal migration from the general region of Lake Baikal to the Americas.     

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.