Mitochondrial DNA polymorphism in Russian population form five oblasts of the European part of Russia

New data on mitochondrial DNA polymorphism among Russian population from five oblasts, located within the main ethnic area of Russians, specifically, Ryazan' oblast, Ivanovo oblast, Vologda oblast, Orel oblast, and Tambov oblast (N = 177) are presented. RFLP analysis of the mtDNA coding region showed that most of the mtDNA diversity in the populations examined could be described by main European haplogroups H, U, T, J, K, I, V, W, and X. Haplogroup frequency distribution patterns in the populations of interest were analyzed in comparison with the European and Uralic populations. Based on the haplogroup frequencies, the indices of intraethnic population diversity, Wright's F(st) statistics, and the values of squared deviation from the mean, as well as genetic distances between Russians and European and Uralic populations were estimated. Analysis of these indices along with the anthropological data provided identification of a number of regional groups within the populations examined, which could either result from the interaction of ancient Slavs with different non-Slavic tribes, or could be caused by the ethnic heterogeneity of the ancient Slavs themselves.     

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 variability and differentiation of three Russian populations of potato cyst nematode <Emphasis Type="Italic">Globodera rostochiensis</Emphasis> as revealed by nuclear markers

Genetic variability of yellow potato cyst nematode G. rostochiensis from three Russian populations (Karelia, Vladimir oblast, and Moscow oblast) was investigated using two types of nuclear markers. Using RAPD markers identified with the help of six random primers (P-29, OPA-10, OPT-14, OPA-11, OPB-11, and OPH-20), it was possible to distinguish Karelian population from the group consisting of the populations from two adjacent regions (Moscow oblast and Vladimir oblast). Based on the combined matrix, containing 294 RAPD fragments, dendrogram of genetic differences was constructed, and the indices of genetic divergence and partition (P, H, and G _st), as well as the gene flow indices N _m between the nematode samples examined, were calculated. The dendrogram structure, genetic diversity indices, and variations of genetic distances between single individuals in each population from Karelia and Central Russia pointed to genetic isolation and higher genetic diversity of the nematodes from Karelia.Based on polymorphism of rDNA first intergenic spacer ITS1, attribution of all populations examined to the species G. rostochiensis was proved. Small variations of the ITS1 sequence in different geographic populations of nematodes from different regions of the species world range did not allow isolation of separate groups within the species. Possible factors (including interregional transportations of seed potato) affecting nematode population structure in Russia are discussed.     

On the origin of Mongoloid component in the mitochondrial gene pool of Slavs

The data on mitochondrial DNA (mtDNA) restriction polymorphism in Czech population (n = 279) are presented. It was demonstrated that in terms of their structure, mitochondrial gene pools of Czechs and other Slavic populations (Russians, Poles, Slovenians, and Bosnians) were practically indistinguishable. In Czechs, the frequency of eastern-Eurasian (Mongoloid) mtDNA lineages constituted 1.8%. The spread of eastern-Eurasian mtDNA lineages belonging to different ethnolinguistic groups in the populations of Europe was examined. Frequency variations of these DNA lineages in different Slavic groups was observed, with the range from 1.2 and 1.6% in Southern and Western Slavs, respectively, to 1.3 to 5.2% in Eastern Slavs, the Russian population of Eastern Europe. The highest frequency of Mongoloid component was detected in the mitochondrial gene pools of Russian populations from the Russian North and the Northwestern region of Russia. This finding can be explained in terms of assimilation of northern-European Finno-Ugric populations during the formation of the Russian population of these regions. The origin of Mongoloid component in the gene pools of different groups of Slavs is discussed.     

On the taxonomic rank of <Emphasis Type="Italic">ciscaucasicus</Emphasis> and its relationships with the pygmy wood mouse <Emphasis Type="Italic">Sylvaemus uralensis</Emphasis> inferred from the mtDNA cytochrome b gene sequence

To specify the taxonomic rank of form ciscaucasicus (independent species Sylvaemus ciscaucasicus, or intraspecific form of pygmy wood mouse, S. uralensis), a 402-bp the mtDNA cytochrome b gene fragment (402 bp) was examined in ciscaucasicus individuals from six geographic localities of the Caucasus and Ciscaucasus (Krasnodar krai and Adygeya Republic) and 17 S. uralensis individuals from seven localities of the Russian Plain (Saratov oblast, Smolensk oblast, Voronezh oblast, Tula oblast, Moscow oblast, Tver’ oblast, and northern Krasnodar krai). For comparison, the cytochrome b gene was partly sequenced in the samples of yellow necked, S. flavicollis (n = 2, Samara oblast), and Caucasian, S. ponticus (n = 6, Krasnodar krai), wood mice. One Mus musculus specimen from Western Europe, whose nucleotide sequences were deposed in the GenBank, was used as intergeneric outgroup. Phylogenetic trees for the forms examined were constructed based on the mtDNA sequence variation and using the neighbor joining and maximum parsimony methods. The network of the cytochrome b haplotypes was also constructed. The level of genetic divergence was evaluated using Kimura’s two-parameter algorithm. Based on the data on the sequence variation in a 402-bp mtDNA cytochrome b gene fragment, the hypothesis on the species status of the ciscaucasicus form was. The mean intergroup distances (d) between the geographic groups of S. uralensis varied from 0.0036 to 0.0152. At the same time, the distances between the pygmy wood mice and the group of S. flavicollis-S. ponticus varies in the range from 0.0860 to 0.0935, and the level of intergeneric genetic differentiation (Sylvaemus-Mus) is higher than the latter index (d = 0.142). Ciscaucasicus should be considered as geographic substitution form of S. uralensis. Furthermore, the Caucasian populations of S. uralensis (= ciscaucasicus) were characterized by a threefold lower value of intergroup genetic divergence (d = 0.0062) than the East European populations (d = 0.0179). This finding pointed to some isolation of Caucasian populations of pygmy wood mouse and depletion of their gene pool. However other molecular genetic data (similarity of nucleotide composition and consistence of the levels of intra-and intergroup distances) suggest the absence of geographic subdivision between Caucasian and East European populations of S. uralensis relative to the molecular marker examined.     

Comparative morphological and genetic analysis of populations and species of the genus <Emphasis Type="Italic">Daphnia</Emphasis> O.F. Müller, 1785 (Crustacea; Daphniidae) from Lake Glubokoe and Lake Chany

The results of analysis of the variability of body shape of different Daphnia galeata morphs from geographically distinct populations—Lake Glubokoe (Moscow oblast) and Lake Chany (Novosibirsk oblast) are given. The morphological analysis was combined with the analysis of the variability of fragments of the 16S and 12S genes of the mitochondrial DNA (mtDNA) and the internal transcribed spacer 2 (ITS2) of the nuclear DNA. A reconstruction of the phylogenetic relationships between species of the genus Daphnia has been performed using a combined fragment of the 16S and 12S genes of the mtDNA. An inconsistency in the distribution of the 12S- and ITS2-haplotypes for the species D. galeata has been revealed, which indicates the introgression of mtDNA in the Lake Chany population.     

Russian ethnic history inferred from mitochondrial DNA diversity

With the aim of gaining insight into the genetic history of the Russians, we have studied mitochondrial DNA diversity among a number of modern Russian populations. Polymorphisms in mtDNA markers (HVS-I and restriction sites of the coding region) of populations from 14 regions within present-day European Russia were investigated. Based on analysis of the mitochondrial gene pool geographic structure, we have identified three different elements in it and a vast "intermediate" zone between them. The analysis of the genetic distances from these elements to the European ethnic groups revealed the main causes of the Russian mitochondrial gene pool differentiation. The investigation of this pattern in historic perspective showed that the structure of the mitochondrial gene pool of the present-day Russians largely conforms to the tribal structure of the medieval Slavs who laid the foundation of modern Russians. Our results indicate that the formation of the genetic diversity currently observed among Russians can be traced to the second half of the first millennium A.D., the time of the colonization of the East European Plain by the Slavic tribes. Patterns of diversity are explained by both the impact of the native population of the East European Plain and by genetic differences among the early Slavs.     

Mitochondrial DNA Variation in Russian Populations of Stavropol Krai, Orel and Saratov Oblasts

Mitochondrial DNA (mtDNA) polymorphism was examined in three Russian populations from the European part of Russia (Stavropol krai, Orel oblast, and Saratov oblast). This analysis showed that mitochondrial gene pool of Russians was represented by the mtDNA types belonging to haplogroups H, V, HV*, J, T, U, K, I, W, and X. A mongoloid admixture (1.5%) was revealed in the form of mtDNA types of macrohaplogroup M. Comparative analysis of the mtDNA haplogroup frequency distribution patterns in six Russian populations from the European part of Russia indicated the absence of substantial genetic differences between them. However, in Russian populations from the southern and central regions the frequency of haplogroup V (average frequency 8%) was higher than in the populations from more northern regions. Based on the data on mtDNA HVS1 sequence variation, it was shown that the diversity of haplogroup V in Russians (h= 0.742) corresponded to the highest h values observed in Europe. The reasons for genetic differentiation of the Russian population (historical, ecological, and adaptive) are discussed.     

Genetic structure of the sable <Emphasis Type="Italic">Martes zibellina</Emphasis> L. populations from Magadan oblast as inferred from mitochondrial DNA variation

Restriction polymorphism of the mtDNA cytochrome b gene was studied in nine sable Martes zibellina L. populations from three introduction foci of Khabarovsk and Kamchatka sables in Magadan oblast: Olya, Kolyma, and Omolon. For comparison, similar studies were performed with the populations of central Kamchatka and Khabarovsk krai. In total, 444 DNA specimens were examined. Three mtDNA haplotypes (A, B, and C) proved to occur at various frequencies in the populations under study. The sable population system displayed high differentiation (F _ST = 22.3%). The populations of the Olya focus were most similar genetically to the populations of Kamchatka; those of the Omolon focus were similar to the Khabarovsk populations, and those of the Kolyma focus occupied an intermediate place. The observed spatial heterogeneity of the sable populations of Magadan oblast was explained in terms of the formation of the introduction foci of Kamchatka and Khabarovsk sables, starting from the 1950s.     

Polymorphism of the prion protein gene <Emphasis Type="Italic">PRNP</Emphasis> and risk of multiple sclerosis development in ethnic Russians from Bashkortostan

M129V polymorphism of prion protein gene PRNP has been studied in patients with multiple sclerosis (MS) and healthy ethnic Russians from Bashkortostan using allele-specific PCR. The genotype frequency distribution of the examined polymorphism in Russians from Bashkortostan was similar to that in European populations. MM, MV, and VV genotype frequencies in control group and in the MS patients were 50.24%, 42.58%, 7.18% and 43.33%, 45.83%, 10.84%, respectively. It was shown that in the group of MS patients with onset of the disease at the age of 21 and older, the frequency of the VV genotype was higher than in the control group (14.3% versus 6.18%, respectively, P = 0.041). We suggest that the VV genotype is associated with higher risk factor of MS development in the patients aged 21 years and older.     

On the origin of Solovetskaya vendace <Emphasis Type="Italic">Coregonus albula</Emphasis> and of the syamozero smelt <Emphasis Type="Italic">Osmerus eperlanus</Emphasis>

The genetic analysis is made on the population of the European smelt Osmerus eperlanus occasionally introduced to Lake Syamozero (Karelia) and of the vendace Coregous albula supposedly acclimatized in Solovetskie Islands as a result of fish cultural activities of the Solovetskii Monastery. They are compared with several natural populations—possible donors for both introductions. Genetic variation in a sample of smelt was estimated by means of restrictase analysis of mtDNA (fragment ND1/ND2) in samples of vendace—by means of allozyme analysis of six isoenzyme systems. The probable population for the Syamozero smelt is the population of Onega Lake in spite of the previously noted greater morphological similarity of colonizers with the smelt of Ladoga Lake. A high level of genetic variation in the Syamozero smelt in comparison with native populations indicates that, beside the introduction from Onega Lake, there were repeated introductions from neighboring water bodies. The genetic analysis of the Solovetskaya vendace does not prove that the vendace appeared on islands due to acclimatization. Frequencies of alleles of allozyme loci in the Solovetskaya population significantly differ from frequencies in continental populations. Still, it is compared with some populations of the Arkhangelsk oblast. Estimations of genetic diversity of the Solovetskaya vendace turned out to be comparable with those in native populations.     

Biological chemistry as a foundation of DNA genealogy: The emergence of “molecular history”

This paper presents the basis of DNA genealogy, a new field of science, which is currently emerging as an unusual blend of biochemistry, history, linguistics, and chemical kinetics. The methodology of the new approach is comprised of chemical (biological) kinetics applied to a pattern of mutations in non-recombinant fragments of DNA (Y chromosome and mtDNA, the latter not being considered in this overview). The goal of the analysis is to translate DNA mutation patterns into time spans to the most recent common ancestors of a given population or tribe and to the dating of ancient migration routes. To illustrate this approach, time spans to the common ancestors are calculated for ethnic Russians, that is Eastern Slavs (R1a1 tribe), Western Slavs (I1 and I2 tribes), and Northern (or Uralic) Slavs (N1c tribe), which were found to live around 4600 years before present (R1a1), 3650 ybp (I1), 3000 and 10,500 ybp (I2, two principal DNA lineages), and 3525 ybp (N1c) (confidence intervals are given in the main text). The data were compared with the respective dates for the nearest common ancestor of the R1a1 “Indo-European” population in India, who lived 4050 years before present, whose descendants represent the majority of the upper castes in India today (up to 72%). Furthermore, it was found that the haplotypes of ethnic Russians of the R1a1 haplogroup (up to 62% of the population in the Russian Federation) and those of the R1a1 Indians (more than 100 million today) are practically identical to each other, up to 67-marker haplotypes. This essentially solves a 200-year-old mystery of who were the Aryans who arrived in India around 3500 years before the present. Haplotypes and time spans to the ancient common ancestors were also compared for the ethnic Russians of haplogroups I1 and I2, on one hand, and the respective I1 and I2 populations in Eastern and Western Europe and Scandinavia, on the other. It is suggested that the approach described in this overview lays the foundation for “molecular history”, in which the principal tool is high-technology analysis of DNA molecules of both our contemporaries and excavated ancient DNA samples, along with their biological kinetics.     

Genetic structure of the Russian populations of <Emphasis Type="Italic">Pyrenophora tritici-repentis</Emphasis>, determined by using microsatellite markers

The population genetic structure of plant pathogenic fungus Pyrenophora tritici-repentis was examined using microsatellite (SSR) markers. According to the geographical origin of the pathogen populations, they were designated as North Caucasian (S, 33 isolates), northwest (Nw, 39), and Omsk (Om, 43). The populations were analyzed at the nine most polymorphic SSR loci, at which 75 alleles were identified. To characterize the genetic variation within and between populations, the AMOVA algorithm as implemented in the Arlequin v. 3.5 software program was used. The number of alleles per locus ranged from 5 to 12 and their sizes varied within the range from 180 to 400 bp. The mean gene diversity at SSR loci was high for all populations (H = 0.58–0.75). The populations were considerably different in the frequencies of individual alleles of the SSR loci. Most isolates in the populations were represented by unique haplotypes. The within-population variation of the isolates at molecular markers was 86.4%; among the populations, 13.6%. Substantial interpopulation differences were found between the Om and S (F_st = 0.16) and between the Om and Nw (F_st = 0.20) populations, whereas between the S and Nw populations, these differences were small (F_st = 0.05). Thus, it was demonstrated that the population of P. tritici-repentis from Omsk oblast had the independent status of the geographical population; northwest and North Caucasian populations differed in the allelic diversity of SSR loci, and despite the low F_st value (0.05), they also belonged to independent geographical populations.     

Genetic and morphoecological characteristics of peled <Emphasis Type="Italic">Coregonus peled</Emphasis> acclimatized in lakes of Tuva Republic

Morphoecological and genetic characters were studied of peled Coregonus peled naturalized in lakes of Tuva Republic. For comparison (as a donor), peled was considered from Leningrad oblast to originate from “wild” peled from Lake Endyr and dispersed widely into water bodies of the former Soviet Union. The results of analysis of variations in 18 polymorphic nuclear loci, coding the proteins (allozymes), and the part of mitochondrial (mt)DNA, coding the first subunit of NADH-dehydrogenase, attest genetic and morphoecological differentiation of populations formed in Tuva lakes. Significant differences were found between them in age composition, rate of growth, and external morphology. Statistically significant differences in allele frequencies of some loci were observed between the samples of acclimatized peled, though total level of genetic differentiation between the populations was not high (F _ST = 0.028). Estimates of gene diversity by allozyme loci were maximal in the population of alpine Lake Sut-Khol, but almost minimum diversity of mtDNA was observed in this population. It is obvious that “own” genetic appearance is formed in introduced fishes in every lake with peculiar diversity in the result of interaction between relatively homogeneous donor material and specific conditions of new environment, and this interaction is especially intense at the first stages of introduction.     

Polymorphism of the mtDNA Control Region in Reindeer (<Emphasis Type="Italic">Rangifer tarandus</Emphasis>) from the Mainland of the Northeastern Part of European Russia

Based on an analysis of the polymorphism of nucleotide sequences (n = 103) of the hypervariable fragment of the mtDNA control region (D-loop), the genetic diversity of wild and domestic reindeer from the mainland of the European Northeast of Russia (eastern parts of Arkhangelsk oblast, Komi Republic, and the Nenets Autonomous Okrug) was studied. Relatively high values of genetic diversity indices were detected. Phylogenetic analysis showed close relationships between reindeer of the study region and those of the tundra zone of Siberia. The influence of domestic reindeer on the formation of the genetic diversity of the wild reindeer was considered as negligible. Genetic lines belonging to an extinct group of forest reindeer from the Nizhny Novgorod region were found among the modern groups of reindeer from the European Northeast of Russia.     

Polymorphism of Y-chromosomal microsatellites in Russian population from Southern Federal district of the Russian Federation

Haplotype frequencies and allele distributions at 11 STR loci of the Y chromosome were evaluated in 180 unrelated individuals from Russian population of Southern Federal district of the Russian Federation (Rostov oblast, Krasnodar krai, and Stavropol krai). Among 153 Y-chromosomal haplotypes discovered, 62 were unique. In the sample of Russian population, the most frequent haplotype (frequency of 5.56%) was 16-11,14-13-30-25-11-11-13-14-11-10 (for the loci DYS19, DYS385a,b, DYS389I, DYS389II, DYS390, DYS391, DYS392, DYS393, DYS437, DYS438, and DYS439, respectively). Despite the high diversity of Y-chromosomal haplotypes in the Russian populations from the south of Russia (the h value was 0.997, 0.995, and 0.994 in Rostov, Krasnodar, and Stavropol samples, respectively), analysis of molecular variance (AMOVA) showed the absence of differentiation between the populations (Φ_ST = 0.1%, P = 0.36). Comparative differentiation analysis performed for 13 Russian populations from the European part of Russia pointed to low among-population differentiation in Y-chromosomal lineages (Φ_ST = 0.52%, P = 0.03).     

Glutathione-S-transferase gene polymorphism in Russian populations of European part of Russia

Distribution of several widespread, extensively studied polymorphic variants of genes of the cytosol glutathione-S-transferase subfamily (GSTA1, GSTM1, GSTM3, GSTP1, and GSTT1) has been studied in samples from Russian populations of European Russia, as well as Komi and Yakut populations used for comparison. Analysis of the GSTP1 and GSTM3 polymorphisms has not revealed significant differences in the distribution of alleles of the loci, including two-site GSTP1 haplotypes, in most Russian populations and between Komi populations. Only in the Yakut sample have a significant difference been found with respect to these loci in each pairwise comparison. Regarding the GSTT1 and GSTA1 genes, in addition to differences between the Yakut population and all other populations with respect to the GSTA1 gene, it has been found that the frequencies of the GSTT1 0/0 deletion genotype and GSTA1 ?69T allele in the Russian sample from Mezen’ (Arkhangel’sk oblast) are substantially lower than in other Russian populations and Komi populations. The significance of these differences has been confirmed by tests for heterogeneity of the entire pool of Russian populations.     

Analysis of the mitochondrial DNA diversity in Yukaghirs in the evolutionary context

Based on the mtDNA first hypervariable segment sequence variation data, statistical analysis of the diversity in Yukaghirs in comparison with the other indigenous populations of Siberia, was carried out. The level of the Yukaghir mtDNA gene diversity (GD) constituted 0.920, which was only slightly different from the corresponding estimate for the other Siberian populations. Integral estimates of the genetic structure of Siberian populations (k, S, θ _S , and π) are presented. Phylogenetic analysis, performed using the neighbor-joining method, showed that the Siberian populations clustered irrespectively to their language affiliation. Negative F _s values found in Yukaghirs pointed to the possible influence of adaptive selection.     

Genetic diversity and the structure of linkage disequilibrium in the methylenetetrahydrofolate reductase locus

Investigation of linkage disequilibrium block architecture in human genome is modern, intensely investigated field of molecular genetics. In the present study, genetic differentiation and linkage disequilibrium pattern in the methylenetetrahydrofolate reductase (MTHFR) locus was examined in the populations of Russians, Tuvinians, and Northern and Southern Kyrgyzes. Methylenetetrahydrofolate reductase is the key enzyme of folate cycle, responsible for reduction of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate. Decreased enzymatic activity of this protein often caused by certain associations of MTHFR alleles results in the increased plasma homocysteine levels. In the population groups examined, genotype and allele frequencies at five polymorphic MTHFR loci: rs17037397, rs4846052, rs1801133, rs1801131, and rs1537516 were evaluated. Statistically significant genetic differences between the population group of Southern Kyrgyzes and the other groups, as well as between Russians and Tuvinians, were demonstrated. In the MTHFR gene from the population of Southern Kyrgyzes one block was revealed; in the populations of Russians, Tuvinians, and Northern Kyrgyzes two blocks were detected. Thus, the structure of linkage disequilibrium in the MTHFR locus demonstrated population-specific pattern.     

Phylogeography of endangered <Emphasis Type="Italic">Dendrobium moniliforme</Emphasis> in East Asia based on mitochondrial DNA sequence variations

Belonging to the genus Dendrobium of Orchidaceae, Dendrobium moniliforme is an endangered species with disjunct distribution in East Asia, possessing significant medicinal value. To investigate its phylogeography, this study compared sequences of two mitochondrial DNA (mtDNA) fragments (nad 1/b-c and nad 7/2-3) from 143 samples of 18 natural populations of D. moniliforme almost covering the entire range of the Sino-Japanese Floristic Region (SJFR) of East Asia. As a result, a total of 30 mtDNA haplotypes were identified in these populations which revealed high levels of haplotype diversity (H _d  = 0.8733) and total genetic diversity (H _T  = 0.8886). Additionally, G _ST value being significantly lower (0.451) than N _ST value (0.722) (P < 0.05) indicated the presence of strong phylogeographic structure in these populations, and the network of mtDNA haplotypes showed that all haplotypes were divided into two clades (A and B). Haplotype overlap was observed among several D. moniliforme population groups in mainland China, suggesting the occurrence of ongoing and/or historical gene flow among them. No common haplotypes were shared by D. moniliforme populations from mainland China and the CKJ Islands (representing Taiwan [China], South Korea, and Japan collectively), pointing to their allopatric evolution in the two regions. Moreover, mismatch distribution analysis and neutral test of mtDNA data rejected the population expansion model. According to the mtDNA-based results, we infer that multiple refugia for D. moniliforme existed in the SJFR of East Asia during the Quaternary glacial period.