Diversity of topological palmar patterns in Iranian populations

The bilateral palmar prints of 3,158 females and males from 13 Iranian populations of diverse origins were analyzed to see how well topological palmar pattern frequencies reflect population distances. The results showed bimanual variation among most of the populations studied. Sex variation showed significant differences among all of the populations studied. Distance analysis and constructed dendrograms showed separation between the populations studied. These distances were frequently in agreement with the known ethnohistoric background of the populations studied. The male data gave better results. It appears that topological palmar patterns are a better indicator of population distance than topological finger patterns.     

Molecular genetic differentiation of ethnic populations in Southern and Eastern 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.     

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.     

The blood groups of the Timuri and related tribes in Afghanistan

The present investigation is a study of the blood groups of the Timuri and related tribes in Afghanistan. There is little historical documentation for the origin of the Timuri. Their name is probably a misnomer, however, since they are apparently not descended from the armies of Timur, or Tamerlane, which invaded Afghanistan during the fourteenth century. Relatively few blood group studies have been carried out on the inhabitants of Afghanistan, so detailed comparisons with other populations can be made only for the ABO system. (Certain populations in Iran to the west and a few rather widely separated populations, such as the Baltis and Nepalis to the east, have been more thoroughly investigated, and comparisons can be made with them on at least seven genetical systems.) The presence of the A₂ allele suggests gene flow from the West, but the high frequency of B is consistent with other populations tested in Afghanistan. The Rh frequencies give little critical information but the low level of cde is suggestive of Mongoloid origin. On the other hand, for the MNS system the high level of MS is typically Caucasoid. The high total M is found in Asia both in Caucasoids and Mongoloids. The presence of the Lu^a allele and the relatively high frequency of the K allele are more Caucasoid than Mongoloid, but the presence of even one Diego (Di^a) positive among the Timuri and related tribes suggests a Mongoloid contribution to the gene pool. The low frequency of P₁, though always a little suspect on travelled specimens, is consistent with this. All of the Iranian populations tested may be regarded as essentially Caucasoid from the blood group point of view. The Baltis and Nepalis show certain Mongoloid characteristics. The Timuri are distinctly more Mongoloid than the former but less so than the latter. In summary, the Timuri appear to be intermediate in allele frequencies between Caucasoid and Mongoloid populations, with unmistakable evidence of both in their ancestry.     

The relationship between total ridge count and pattern intensity index of digital dermatoglyphics

A mathematical relationship between total ridge count (TRC) and pattern intensity index (PII) is explored using data from a sample of 180 males and 213 females of Negroid origin from southwestern Haiti, West Indies. Linear regression of total ridge count on pattern intensity index gave good fit to data in males. In females the linear and quadratic regression models were less satisfactory probably due to the considerable overlap of ridge count distribution between loops and whorls. Two other measures which compare better than total ridge count are absolute ridge count and weighted total ridge count. Predictions of TRC from PII on the basis of regression estimates from Haitian data gave satisfactory results for Negroid and some Caucasoid populations but less satisfactory results for Mongoloid groups suggesting that the relationship might be different in different ethnic groups.     

The dentition of the Queckchi Indians. Anthropological aspects

The incidence of nine minor dental traits, in 540 Queckchi Indians from Guatemala is reported. A combination of frequencies of neither Caucasoid nor Mongoloid groups was observed. The apparently Caucasoid elements of their tooth morphology might well be the result of admixture with Spanish genes during the conquest.     

Population study in Assam: ABO blood groups, haemoglobin E and G-6-PD deficiency

An attempt has been made to give a comprehensive picture of occurrence of ABO blood groups, haemoglobin E and G-6-PD deficiency among certain representative populations of the two major racial groups--Mongoloids and Caucasoids--of Assam, India. The qualitative pattern of distribution of ABO gene frequencies shows a clear demarcation between these two major groups. The same is true in respect of HbE gene, too. The Mongoloids present high frequencies of this gene, while among the Caucasoids its frequency is comparatively much lower. With regard to G-6-PD deficiency the distinction between the two groups is not so clear cut, yet some Mongoloid populations show relatively higher incidence of the trait in comparison to that in the Caucasoid populations.     

Structure of the gene pool of ethnic groups from the Altai-Sayan region from data on mitochondrial polymorphism]

Using the data on mitochondrial DNA (mtDNA) polymorphism, genetic structures of the four Turkic-speaking ethnic groups of Altai-Sayan highlands, Southern Altaians (Altai-Kizhi), Khakassians, Shorians, and Sojots, were described. Mitochondrial gene pools of the populations examined were characterized by different ratios between Mongoloid (M*, C, D, E, G, A, B, and F) and Caucasoid (H, U, T, J, and K) mtDNA lineages. All the populations studied had a strongly pronounced Mongoloid component, the frequency of which was 88.2% in Sojots, 75.9% in Khakassians, 67.4% in Altaians, and 64.3% in Shorians. Maximum frequency of the Caucasoid component (35.7%) was observed in Shorians. Phylogenetic and statistical analyses of the mtDNA group frequency distribution patterns in the gene pools of the ethnic populations of Altai-Sayan highlands and the adjacent territories showed that the populations of the region fell into three groups. The first group included Khakassians, Tuvinians and Altaians, the second group consisted of Sojots, Buryats, and Mongols, while the third group was composed of Uigurs, Kazakhs, and Kyrgyzes. The isolated position of Shorians among the populations examined can be explained by their different anthropological composition and their presumptive relatedness to Finno-Ugric populations of Siberia.     

Insertion-deletion polymorphism of the angiotensin-converting enzyme gene in populations of the Volga-Ural region

Insertion-deletion polymorphism at the angiotensin I-converting enzyme (ACE) gene in populations of the Volga-Ural region was examined by means of polymerase chain reaction. The populations studied belong to the Finno-Ugric (Komis, Maris, Mordovians, and Udmurts), Turkic (Chuvashes, Tatars, and Bashkirs), and Eastern-Slavic (Russians) ethnic groups. Distribution patterns of allele and genotype frequencies of this polymorphic system in the examined region were characterized. Comparison of the obtained results with the literature data on the ACE gene polymorphism in other Caucasoid and Mongoloid populations revealed some trends in the ACE genotype frequency dynamics depending on the ethnicity of the populations.     

The Structure of the Gene Pools of the Ethnic Populations of Altai–Sayan Region Based on of Mitochondrial DNA Polymorphism Data

Using the data on mitochondrial DNA (mtDNA) polymorphism, genetic structures of the four Turkic-speaking ethnic groups of Altai–Sayan highlands, Southern Altaians (Altai- Kizhi), Khakassians, Shorians, and Sojots, were described. Mitochondrial gene pools of the populations examined were characterized by different ratios between Mongoloid (M*, C, D, E, G, A, B, and F) and Caucasoid (H, U, T, J, and K) mtDNA lineages. All the populations studied had a strongly pronounced Mongoloid component, the frequency of which was 88.2% in Sojots, 75.9% in Khakassians, 67.4% in Altaians, and 64.3% in Shorians. Maximum frequency of the Caucasoid component (35.7%) was observed in Shorians. Phylogenetic and statistical analyses of the mtDNA group frequency distribution patterns in the gene pools of the ethnic populations of Altai–Sayan highlands and the adjacent territories showed that the populations of the region fell into three groups. The first group included Khakassians, Tuvinians and Altaians, the second group consisted of Sojots, Buryats, and Mongols, while the third group was composed of Uigurs, Kazakhs, and Kyrgyzes. The isolated position of Shorians among the populations examined can be explained by their different anthropological composition and their presumptive relatedness to Finno-Ugric populations of Siberia.     

Evaluation of the relative contribution of Caucasoid and Mongoloid components in the formation of ethnic groups of the Volga-Ural region according to data of DNA polymorphism]

For the first time, an attempt was made to quantitatively estimate the relative contributions of major racial components to populations of the Volga-Ural region based on the data on allelic polymorphisms of nine loci of the mitochondrial and nuclear genomes. Comparison of the proportions of Caucasoid and Mongoloid characteristics in the gene pools of Bashkirs, Tatars, Chuvashes, Maris, Mordovians, Udmurts, and Komi revealed a heterogeneous pattern. Data on the proportions of major racial components in the nuclear genome indicated that the Caucasoid component was maximum in Mordovians, Komis, and Udmurts. Mongoloid characters were most prevalent in Bashkirs, Maris, Tatars, and Chuvashes. Data on restriction-deletion polymorphism of mitochondrial DNA (mtDNA) also indicated an increased Caucasoid contribution to Mordovian, Udmurt, and Komi gene pools and an increased Mongoloid component in Chuvashes and Tatars. In general, the results obtained agree with ethnic anthropological data indicating the greatest Caucasoid contribution to the Mordovian and Komi gene pools and an increased Mongoloid component in Turkic populations of the Volga-Ural region (Bashkirs, Tatars, and Chuvashes).     

Investigation of Gene Insertion–Deletion Polymorphism of the Gene for Angiotensin-Converting Enzyme in Populations of the Volga–Ural Region

Insertion–deletion polymorphism at the angiotensin I-converting enzyme (ACE) gene in populations of the Volga–Ural region was examined by means of polymerase chain reaction. The populations studied belong to the Finno-Ugric (Komis, Maris, Mordovians, and Udmurts), Turkic (Chuvashes, Tatars, and Bashkirs), and Eastern-Slavic (Russians) ethnic groups. Distribution patterns of allele and genotype frequencies of this polymorphic system in the examined region were characterized. Comparison of the obtained results with the literature data on the ACE gene polymorphism in other Caucasoid and Mongoloid populations revealed some trends in the ACE genotype frequency dynamics depending on the ethnicity of the populations.     

Gene differentiation among ten endogamous groups of West Bengal, India

Ten endogamous populations of West Bengal, India have been surveyed for genetic variation in 12 systems. These populations encompass all social ranks in the caste hierarchy and cover almost the entire geographic area of the state. Gene diversity analysis suggests that these groups exhibit significant allele frequency variation at all but three loci. The overall genetic difference is not, however, in accord with the classification based on caste. Two low-ranking scheduled caste groups are, in fact, in close proximity with the high-caste ones, suggesting evidence of past generations of gene flow among them. Three different clusters of groups emerge from the present data, providing support for the anthropologic assertion that in Bengal Proto-Australoid, Caucasoid, and Mongoloid racial elements generally coexist. However, these three components are not uniformly present in all groups. Geographic separation of the groups is a strong determinant of the gene differentiation that exists among these populations.     

Distribution and population variation of total number of palmar triradii among 20 Dhangar castes of Maharashtra,India

The paper deals with the bilateral palmar prints of 3000 males belonging to 20 Dhangar castes of Maharashtra which were analysed (1) to compare the pattern of variation of palmar triradii with respect to other traits, (2) to examine the degree of similarity between clusters based on dermatoglyphics anthropometry and genetic markers and (3) relating these similarities with their ethnographic and geographic proximities. The results of this study confirm the general presumptions, (a) that dermal traits, in general, and palmar characters, in particular, do help in understanding the biologic/ethnic affinities among different groups both at macro and micro levels and (b) the different types of traits, which are likely to be influenced by different genetic and/or environmental factors give rise to different clustering patterns.     

Genetic diversity and relationships of populations of northern Eurasia by polymorphic Alu insertions

Autosomal gene pools of 27 populations representing 12 ethnic groups of Siberia, Central Asia, and the Far East have been characterized for the first time using a set of eight polymorphic Alu insertions. The results of our analysis indicate a significant level of genetic diversity in populations of northern Eurasian and the considerable differentiation of their gene pool. It was shown that the frequency of the Alu (?) allele at the CD4 locus was inversely related to the magnitude of the Mongoloid component of the gene pool: the lowest and highest frequencies of the CD4 Alu deletion were recorded in Eskimos (0.012) and in Russians and Ukrainians (0.35), respectively. A gene flow analysis showed that Caucasoid populations (Russians, Tajiks, and Uzbeks), as well as Turkic ethnic groups of southern Siberia (Altaians and Tuvans), Khanty, and Mansi populations, in contrast to ethnic groups of eastern Siberia and the Far East, have been recipients of a considerable gene flow. A correlation analysis showed that genetic distances determined using polymorphic Alu insertions were correlated with the anthropological characteristics of the populations studied.     

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.     

Investigations on the ethnic variability of the ABO blood group polymorphism in Iran

112 Iranian population samples with a total of 600954 individuals are analyzed concerning the ethnic variability of ABO allele frequencies. The genetic heterogeneity within and between these population samples is considerable. This heterogeneity is discussed with regard to the ethnohistory of Iran. The most striking ABO allele frequencies are observed in Assyrians, Armenians and Zoroastrians, which differ extremely from that of all the other hitherto studied ethnic groups of Iran. Obviously varying ABO allele frequencies are seen also in Yazdis as well as in Turkomans and Arabs living in Iran. And finally the Iranian Jews reveal clear frequency differences in comparison with all the other Iranian population groups. It can be assumed that the specific ABO allele frequencies found in the above mentioned ethnic groups are connected with their different geographical origin as well as with their marked endogamy.     

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).     

Polymorphism of CYP1A1 and CYP2D6 genes in tundra nentses and European populations of western Siberia

Data on the first examination of the CYP1A1 and CYP2D6 genes' polymorphism in the populations of Tundra Nentsis (Yamalo-Nenetskii Autonomous District) and migrant population of Western Siberia (Novosibirsk oblast and Altaiskii krai) are presented. The frequency of the 2D6*4 mutant allele in Tundra Nentsis, characterized by a two-component Caucasoid and Mongoloid origin, was shown to be intermediate in Caucasoid and Mongoloid populations. The frequencies of the 2D6*4 and 1A1Val* mutant alleles across migrant inhabitants of Western Siberia (Caucasoid populations) were similar to that reported for the Caucasoid populations overall. Distribution of the CYP1A1 genotypes (Ile/Ile, Ile/Val*, and Val*/Val*) in Tundra Nentsis was similar to that found in Mongoloid groups. However, the frequency of the 1A1Val* allele in Tundra Nentsis was 1.5 times higher than that in the Southern Mongoloid populations (Chinese, Koreans, and Japanese).     

Hemoglobin E distribution in ten endogamous population groups of Assam, India

Previous studies have reported a high incidence of hemoglobin E (HbE) in Northeast Indian populations. In the present study 10 endogamous populations of Assam belonging to two racial groups, Caucasoid and Mongoloid, were examined. The frequency of HbE gene (Hb beta E) in the Caucasoid caste populations is around 0.1, whereas the gene is highly prevalent in the Mongoloid populations, frequencies ranging between 0.2 and 0.6. Predominance of Hb beta E in the Tibeto-Burman speakers is contrary to observations made in Southeast Asia, where an association between Austro-Asiatic speakers and high prevalence of HbE exist. The highest occurrence of the gene in this area, which is on the far end of the proposed centre of distribution in Northern Kampuchea and Northeast Thailand, is also a deviation from the expected pattern of gene distribution. It is speculated that Hb beta E in the Tibeto-Burman populations of Assam arose by an independent mutation which contributed to the high frequencies of Hb beta E in the Northeast Indian populations.