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).     

Dental morphology and odontometry of the Tibetan immigrants

Dental features such as size, shape, cusp number and groove pattern, deflecting wrinkle, protostylid, form and size of dental arch and occlusion pattern, as well as crown diameters of maxillary and mandibular dentition of the Tibetan immigrants in India are described. Sex differences in various measurements are also noted. Overall reduction in size, presence of hypodontia of the third molar, and absence of Carabelli's trait are a distinct progressive/evolutionary trend in the Tibetan dentition, while presence of a shovel-shaped lingual surface of central and lateral incisors is a retrogressive/primitive condition. In some of the dental features Tibetans resemble Caucasoid and modern populations, in certain others they resemble other Mongoloid populations, and in still other features they resemble aboriginal populations and fossil hominids.     

Deciduous dental morphology and the biological affinities of a late Chalcolithic skeletal series from western India

Morphological variations of the dental crown and roots provide valuable data for determining the genetic affinities and evolutionary adaptedness of prehistoric human skeletal populations. This paper documents morphological variations of a sample of deciduous teeth from the late Chalcolithic farming village of Inamgaon (1600-700 B.C.) in western India. Hanihara's (1963) grading system of deciduous dental traits was employed in assessing the degree of expression of shovel-shape of incisors, cusp number of upper and lower first molars, hypocone variation, Carabelli's trait, cusp number of lower second molars and the protostylid. Turner's (1970) classification was used to determine presence and size of accessory cusps: entoconulid (C-6) and metaconulid (C-7). Comparative evaluation of the Inamgaon deciduous dental data is hampered by the absence of data for dental features of living and prehistoric South Asian populations. Many of the traits observed in the Inamgaon series exhibit a frequency of occurrence intermediate between figures characteristic of the "Mongoloid" dental complex and the "Caucasoid" dental complex.     

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.     

The deflecting wrinkle on the teeth of Icelanders and the Mongoloid dental complex

Three local populations from Northeast Iceland are surveyed for the occurrence of the deflecting wrinkle of the metaconid on second deciduous and first permanent lower molars. The trait occurs more frequently on dm2 than on M1, and no sexual dimorphism is found, as expected. However, the frequencies are clearly within those predicted by the Mongoloid dental complex for Mongoloid populations. It is therefore suggested that the inclusion of the deflecting wrinkle in the Mongoloid dental complex be re-evaluated, and the racial diagnostic value of the trait taken with reservation.     

Genetic relationships between Indians and their neighboring populations

Using gene frequency data for 18 protein and blood group loci, we studied the genetic relationships of four Indian subcontinent populations (peoples from Punjab, Gujarati, Andhra Pradesh, and Bangladesh) with their neighboring populations (Iranians, Afghans, Sinhalese in Sri Lanka, Nepalese, Bhutanese, Malays, Bataks in northern Sumatra, and Chinese). The results obtained indicate that the four Indian subcontinent populations and the Sinhalese are genetically closer to Iranians and Afghans (Caucasoid) than to the other neighboring Mongoloid populations. Genetic distance analysis shows a clear-cut dichotomy between the Caucasoid and Mongoloid populations.     

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.     

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.     

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.     

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).     

Diversity in palmar pattern ridge counts among 12 Iranian populations

Bilateral palmar prints of 604 male individuals from 12 Iranian groups, six Mongoloid and six Caucasoid, have been analyzed for palmar pattern ridge counts (PPRC). Highly significant variation has been observed in the size of the palmar patterns in all the configurational areas among the Iranian groups. The distance analysis based on PPRCs differentiated the Iranian Mongoloid from the Iranian Caucasoid groups into distinct clusters. The pattern of differentiation based on PPRCs explained the ethnohistoric relationships between the Iranian groups as well as between the Iranian and the 20 Caucasoid groups from India much better than the palmar pattern frequencies. The results of this study demonstrate the existence of variation in the size of the palmar patterns across different populations within an ethnic group, as well as that among different ethnic groups, and seems to be a better indicator of interpopulational diversity than the palmar pattern frequencies.     

Study on some genetic traits of Tibetans at Chandragiri, District Ganjam, Orissa

The incidence of ABH secretion, dry cerumen, ear-lobe attachment, hand clasping, arm-folding, and digital hair, occipital hair whorl and relative length of first and second toes is reported for Tibetan refugees. In those traits for which comparative data are available, they resemble Mongoloid rather than Caucasoid populations.     

A quantitative investigation of irregular cuspules in human maxillary permanent molars

The frequency of occurrence of anomalous cusps or tubercles on human upper first molars was investigated in seven racial populations using moiré contourography, which permits the three-dimensional measurement of minute cusps. Tubercles on the mesial marginal ridge were more frequently found in Mongoloid populations (Japanese and Eskimo) than in others. The frequency of the protoconule was high in Eskimos and Negroids (Bantu and San). The lingual paracone tubercle (mesial cusp) showed a particularly high frequency in Australian aborigines. The metaconule was rare or absent in all of the populations. Caucasoid groups (Dutch White and Asiatic Indian) showed generally low frequencies of all these abnormal tubercles, especially the distal accessory cusp (C5). Racial differences in the frequencies of occurrence may offer a key to understanding the adaptive significance of these traits and human microevolution. Confusion in nomenclature for upper molar tubercles is also discussed.     

Three-dimensional measurement of the occlusal surfaces of lower first molars of Australian aboriginals

The occlusal surfaces of lower first molars of Australian Aboriginals were measured in three dimensions with the aid of Moiré contourography. Molar cuspal heights in this population were higher than in Japanese (Mongoloid) but lower than in Dutch (Caucasoid) populations. Intercuspal distances were considerably larger than those in the two other populations. Populational differences in occlusal features may influence both craniofacial structures and jaw movements in the three populations. Low correlations between the cuspal heights and the intercuspal distances in the other two populations were also found in this population, indicating that human molar cuspal height is independent of the transverse size of the crown. Mean values for the height of the three principal cusps in lower first molars were less than those in upper ones. However, the height of the hypoconid, which was the highest in the lower molar cusps, showed almost the same mean value as the height of the upper three principal cusps, indicating that the height of the main functional cusp, in both upper and lower first molars, was almost the same.     

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.     

Genetic variation of five blood group polymorphisms in ten populations of Assam,India

Six Mongoloid and four Caucasoid populations of Assam, India, were examined for A₁A₂BO, Rhesus, Duffy and Diego blood groups. The distribution of their phenotypes and allele frequencies are presented. In the perspective of the ethnographic background, the results have been discussed in terms of genetic variability among these populations and probable reasons for its existence. The major groups, namely Caucasoids and Mongoloids, appear to form two separate groups in terms of these blood groups, though evidence is there to suggest intermixture.     

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.     

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.     

The HLA system of the Uzbek population in the Ferghana Valley. HLA antigens, genes and haplotypes of the Uzbek population in relation to its ethnogenesis

Pecularities of distribution of 40 HLA antigens within the Uzbek population of the Ferghana Valley have been studied. The frequencies of these antigens are subdivided into three main groups having frequencies characteristic of the following populations: Caucasoid population (A9, B40, Bw22 etc.); Mongoloid population (B8, B7, B12); Middle Asian population (Aw31, B13, B16, Bw35), probably. The Uzbek population contains haplotypes both of Europeoid (Aw30, B13; A3, Bw35) and Mongoloid origin (A9, B40) and, probably, of the local origin (A1, B14; A1, Bw53; Aw32, B40). The data on the HLA genetics of the Uzbeks confirm the historical, linguistic and anthropological information concerning the role of inhabitants of the Central Asia in ethnogenesis and formation of the modern Uzbek population.     

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.