Microsatellite diversity among the primitive tribes of India

The present study was undertaken to determine the extent of diversity at 12 microsatellite short tandem repeat (STR) loci in seven primitive tribal populations of India with diverse linguistic and geographic backgrounds. DNA samples of 160 unrelated individuals were analyzed for 12 STR loci by multiplex polymerase chain reaction (PCR). Gene diversity analysis suggested that the average heterozygosity was uniformly high ( >0.7) in these groups and varied from 0.705 to 0.794. The Hardy-Weinberg equilibrium analysis revealed that these populations were in genetic equilibrium at almost all the loci. The overall G(ST) value was high (G(ST) = 0.051; range between 0.026 and 0.098 among the loci), reflecting the degree of differentiation/heterogeneity of seven populations studied for these loci. The cluster analysis and multidimensional scaling of genetic distances reveal two broad clusters of populations, besides Moolu Kurumba maintaining their distinct genetic identity vis-à-vis other populations. The genetic affinity for the three tribes of the Indo-European family could be explained based on geography and Language but not for the four Dravidian tribes as reflected by the NJT and MDS plots. For the overall data, the insignificant MANTEL correlations between genetic, linguistic and geographic distances suggest that the genetic variation among these tribes is not patterned along geographic and/or linguistic lines.     

应用15个STRs揭示广西4个少数民族的遗传关系

为研究广西仫佬、毛南、苗和瑶族的15个短串联重复序列（STR）基因座的遗传多态性,探讨这4个民族群体的遗传差异和进化关系。通过PCR-STR及测序仪,检测了广西4个民族766例无关个体的15个STR位点基因频率的分布并比较各民族间的差异,计算遗传学参数、遗传距离和构建系统进化树。结果显示：仫佬、毛南、苗和瑶族的15个STR位点分别共检出135,134,148,145种等位基因和424,432,445,436种基因型;各民族的平均Ho〉0.7,累积DP,EPP和PIC均在0.99999以上;毛南族和苗族,瑶族和其他民族间在多数位点的基因频率分布上存在显著差异,而仫佬族和毛南族或苗族间在多数位点上不存在差异;4个民族在进化树上被分为两组,仫佬族和毛南族聚成一组,苗族和瑶族聚成另一组。说明广西仫佬、毛南、苗和瑶族的15个STR基因座具有高度的遗传多态性,实用价值较高,是一组可用于人类群体遗传学、法医学个体识别和亲子鉴定等研究的有力工具;4个民族STR的遗传差异性和遗传关系与他们的语言文化和民族历史基本一致。     

Genetic polymorphisms of 10 X-STR among four ethnic populations in northwest of China

In the present study, 10 short tandem repeats (STR) (HPRTB, DXS6789, DXS6799, DXS6804, DXS7130, DXS7132, DXS7133, DXS7423, DXS7424, and DXS8378) on X chromosome were investigated among four ethnic populations (431 individuals) in northwest of China, in order to learn about the genetic diversity, forensic suitability, and possible genetic affinities of the populations. The polymorphism information content (PIC) values for the ten loci range from 0.340 to 0.810, and the observed heterozygosity values for the ten loci range from 0.397 to 0.860, the results indicated that the ten loci have a moderate degree of variability in the four populations, and each population has its own characteristics of genetic structure. A Neighbor-joining (NJ) tree constructed on the basis of the generated data shows very low genetic distance between Han, Mongolian and Tibetan, Dongxiang and Tu as well as between Salar and Bonan populations. Our results based on genetic distance analysis are consistent with the results of earlier studies based on linguistics and the immigration history and origin of these populations. These STR loci on the X chromosome studied here are not only useful in showing significant genetic variation between the populations, but also are suitable for human identity testing among the four populations.     

Deciphering diversity in populations of various linguistic and ethnic affiliations of different geographical regions of India: Analysis based on 15 microsatellite markers

The extent of genetic polymorphism at fifteen autosomal microsatellite markers in 54 ethnically, linguistically and geographically diverse human populations of India was studied to decipher intrapopulation diversity. The parameters used to quantify intrapopulation diversity were average allele diversity, average heterozygosity, allele range (base pairs), and number of alleles. Multilocus genotype frequencies calculated for selected populations were utilized for testing conformity with the assumption of Hardy-Weinberg equilibrium. The exact test values, after Bonferroni correction, showed significant deviation amongst Gowda (vWA, Penta E); Dhangar, Satnami and Gounder (D8S1179); Hmar (FGA); Kuki and Balti (vWA) groups. Relatively low number of alleles and allelic diversity (base-pairs size) had been observed in populations of central India as compared with southern and northern regions of the country. The communities of Indo-Caucasoid ethnic origin and Indo-European linguistic family (Kshatriya of Uttar Pradesh) showed highest allelic diversity, as well as rare alleles, not reported in any other Indian populations. Analysis based on average heterozygosity was also found to be lowest among the populations of central India (0.729) and highest among the populations from north (0.777) and west (0.784) regions of the country, having Indo-Caucasoid ethnic origin and Austro-Asiatic linguistic affiliation. The maximum power of discrimination (85%-89%) had been observed at loci FGA, Penta E, D18S51 and D21S11, suggested high intrapopulation diversity in India. Genetic diversity revealed by STR markers was consistent with the known demographic histories of populations. Thus, the present study clearly demonstrated that the intrapopulation diversity is not only present at the national level, but also within smaller geographical regions of the country. This is the first attempt to understand the extent of diversity within populations of India at such a large scale at genomic level.     

Genetic polymorphisms of nine X-STR loci in four population groups from Inner Mongolia, China

Nine short tandem repeat （STR） markers on the X chromosome （DXS101, DXS6789, DXS6799, DXS6804, DXST132, DXST133, DXS7423, DXS8378, and HPRTB） were analyzed in four population groups （Mongol, Ewenki, Oroqen, and Daur） from Inner Mongolia, China, in order to learn about the genetic diversity, forensic suitability, and possible genetic affinities of the populations. Frequency estimates, Hardy-Weinberg equilibrium, and other parameters of forensic interest were computed. The results revealed that the nine markers have a moderate degree of variability in the population groups. Most heterozygosity values for the nine loci range from 0.480 to 0.891, and there are evident differences of genetic variability among the populations. A UPGMA tree constructed on the basis of the generated data shows very low genetic distance betweent Mongol and Han （Xi＇an） populations. Our results based on genetic distance analysis are consistent with the results of earlier studies based on linguistics and the immigration history and origin of these populations. The minisatellite loci on the X chromosome studied here are not only useful in showing significant genetic variation between the populations, but also are suitable for human identity testing among Inner Mongolian populations.     

Genomic diversity at thirteen short tandem repeat loci in a substructured caste population, Golla, of southern Andhra Pradesh, India.

Genomic diversity based on 13 short tandem repeat (STR) loci was studied in seven population groups of a substructured Golla caste from Chittoor district in southern Andhra Pradesh, India. These groups are traditionally pastoral, culturally homogeneous, and strictly endogamous. Blood samples were drawn from 317 individuals from 30 Golla villages. The 13 STR loci analyzed in five standard multiplex polymerase chain reactions were: (1) CSF1R, TH01, and PLA2A; (2) F13A1, CYP19, and LPL; (3) D21S1446 and D21S1435; (4) D20S481, D20S473, and D20S604; and (5) D5S1453 and D6S1006. The average heterozygosity was found to be low among the Golla subgroups (0.64-0.70) in comparison to that of groups at the upper levels of the hierarchy. The coefficient of gene differentiation was found to be moderate (average GST = 0.031; range between 0.018 and 0.049 among the loci) when compared to that observed for a similar class of markers among populations with relatively higher levels of hierarchy, for example, among castes. It is, however, much higher when compared to the average observed for Indian caste and tribal populations, based on classical markers. Genetic distance measures revealed clusters of populations that are consistent with the known ethnohistorical and geographical backgrounds of the groups. We claim that these hypervariable markers are quite useful in understanding the process of substructuring within the Indian castes, leading to the formation of smaller breeding isolates, the basic Mendelian units within which microevolutionary forces operate.     

Minimal sharing of Y-chromosome STR haplotypes among five endogamous population groups from western and southwestern India

We attempt to address the issue of genetic variation and the pattern of male gene flow among and between five Indian population groups of two different geographic and linguistic affiliations using Y-chromosome markers. We studied 221 males at three Y-chromosome biallelic loci and 184 males for the five Y-chromosome STRs. We observed 111 Y-chromosome STR haplotypes. An analysis of molecular variance (AMOVA) based on Y-chromosome STRs showed that the variation observed between the population groups belonging to two major regions (western and southwestern India) was 0.17%, which was significantly lower than the level of genetic variance among the five populations (0.59%) considered as a single group. Combined haplotype analysis of the five STRs and the biallelic locus 92R7 revealed minimal sharing of haplotypes among these five ethnic groups, irrespective of the similar origin of the linguistic and geographic affiliations; this minimal sharing indicates restricted male gene flow. As a consequence, most of the haplotypes were population specific. Network analysis showed that the haplotypes, which were shared between the populations, seem to have originated from different mutational pathways at different loci. Biallelic markers showed that all five ethnic groups have a similar ancestral origin despite their geographic and linguistic diversity.     

中国东乡族9个STR基因座遗传多态性研究

选择9个STR基因座,采用四色荧光标记STR基因扫描技术,对中国甘肃省特有民族——东乡族的群体遗传多态性进行研究。同时检测94个无关个体血液样本,共检出72种等位基因,基因频率的分布在0.0053~0.5825之间;检出182种基因型,基因型频率分布在0.0106~0.2660之间;9个STR位点基因型分布均符合Hardy-Weinberg平衡定律（P＞0.05）。9个STR位点多态信息量（polymorphism information content,PIC）均大于0.6378,杂合度(heterozygosity,H) 均大于0.6500,个体识别力(discrimination power,DP)均大于0.8216,非父排除率(probabilities of paternity exclusion,PPE) 均大于 0.4903。种族比较结果显示,甘肃东乡族与白种人及黑种人在绝大多数位点存在显著差异（P＜0.05）,而9个STR位点与汉族群体的遗传差异均不显著（P＞0.05）。研究结果丰富了中华民族基因数据库,在人类群体遗传学及法医学研究领域有重要应用价值。 Abstract:Genetic distribution for nine STR loci was determined in a Chinese Dongxing ethnic group based on STR genescan marked by fluorescence.Seventy-Two alleles and 182 genotypes were observed in 94 unrelated Chinese Dongxiang individuals,with the corresponding gene frequency and genotype frequency being 0.0053~0.5825 and 0.0106~0.2660 respectively.The genotypes of nine STR loci were in accordance with the Hardy-Weinberg equilibrium (P＞0.05).The statistical analysis of nine STR loci showed PIC( polymorphism information content,PIC)≥0.6378,H(heterozygosity,H) ≥0.6500,DP (discrimination power,DP) ≥0.8216,PPE(probabilities of paternity exculation,PPE) ≥0.4903.The result indicated that there was a significant difference between Dongxiang ethnic group and the white and the black.There was no significant difference in Han nationality.These result filled the Dongxiang ethnic group-a specific group of Chinese into the genetic database and played an important role in Chinese population genetic study and forensic medicine application.     

Short-tandem repeat analysis in seven Chinese regional populations

In the present study, we investigated the application of 13 short tandem repeat (STR) loci (D13S317, D7S820, TH01, D16S539, CSFIPO, VWA, D8S1179, TPOX, FGA, D3S1358, D21S11, D18S51 and D5S818) routinely used in forensic analysis, for delineating population relationships among seven human populations representing the two major geographic groups, namely the southern and northern Chinese. The resulting single topology revealed pronounced geographic and population partitioning, consistent with the differences in geographic location, languages and eating habits. These findings suggest that forensic STR loci might be particularly powerful tools in providing the necessary fine resolution for reconstructing recent human evolutionary history.     

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.     

Genetic analysis of the Utah population: a comparison of STR and VNTR loci

Genetic data are reported for nine short tandem repeat (STR) loci (D3S1358, vWA, FGA, D8S1179, D21S11, D18S51, D5S818, D13S317, and D7S820) and six variable number of tandem repeat (VNTR) loci (D2S44, D10S28, D4S139, D1S7, D5S110, and D17S79) in samples of Utah African Americans, European Americans, and Hispanics. Little evidence of departures from Hardy-Weinberg equilibrium or gametic equilibrium was found in these populations. Because of their relatively higher mutation rates, the VNTR loci exhibited higher average heterozygosity and lower FST levels than did the STR loci. Genetic distance analysis showed congruence between the two types of systems, and a genetic distance analysis of the STR data showed that the three Utah populations are genetically similar to the same ethnic groups in other parts of the United States. In addition, this analysis showed that the African American population is the most genetically divergent, with greater similarity between the Hispanic and European American populations. This analysis demonstrates a high degree of consistency for population designations commonly used in forensic analysis.     

广西仫佬族9个STR的遗传多态性研究

本文采用PCR-STR及基因分型技术,研究广西仫佬族183例无关个体9个STR位点的遗传多态性分布,建立仫佬族群体的遗传学数据库。经统计分析,在9个STR位点共检出70种等位基因,其频率分布在0·0027~0·5301之间;207种基因型,其频率分布在0·0055~0·3388之间;平均杂合度为0·7298,平均多态信息总量为0·7016,累积个体识别力达0·999999999,累积非父排除率达0·999098。与不同民族比较结果显示:广西仫佬族与广西苗、回族及云南、北方各民族之间绝大多数基因座存在显著差异,而与广西壮族和湖南汉族之间绝大多数基因座均无差异。以上数据可为群体遗传学、法医学及人类学等研究提供重要的资料。     

北京汉族群体39个短串联重复序列基因座多态性及其遗传关系

本文首次对北京地区汉族人群的13个CODIS(Combined DNA index system)和26个非CODIS系统STR基因座的遗传多态性进行了研究,建立了北京地区汉族人群39个STR基因座的群体遗传多态性数据库并对其法医学应用价值进行了评价。39个STR基因座的基因型分布均符合Hardy-Weinberg平衡且各基因座之间均不存在连锁现象,个体鉴别力(Power of discrimination, DP)在0.7740~0.9818之间,期望杂合度(Expected heterozygosity, He)在0.6000~0.9350之间,多态性信息含量(Polymorphism information content, PIC)在0.5317~0.9047之间,非父排除率(Power of exclusion, PE)在0.2909~0.8673之间,累积个体鉴别力(Cumulative probability of discrimination, CDP)为0.999999999999999999999999999999999999999964971,累积非父排除率(Cumulative probability of exclusion, CPE)为0.999999999973878。另外,结合已公开报道的国内其他11个群体相应基因座的遗传资料,根据等位基因频率计算遗传距离,构建了系统发生树。本研究可为中国法医DNA数据库和群体遗传学数据库提供重要的基础数据,对北京地区汉族人群开展法医学个体识别、亲权鉴定和遗传学研究具有重要的意义。     

Autosomal STR variation in five Austronesian populations

Human population characteristics at the genetic level are integral to both forensic biology and population genetics. This study evaluates biparental microsatellite markers in five Austronesian-speaking groups to characterize their intra- and interpopulation differences. Genetic diversity was analyzed using 15 short tandem repeat (STR) loci from 338 unrelated individuals from 5 Pacific islands populations, including the aboriginal Ami and Atayal groups from Taiwan, Bali and Java in Indonesia, and the Polynesian islands of Samoa. Allele frequencies from the STR profiles were determined and compared to other geographically targeted worldwide populations procured from recent literature. Hierarchical AMOVA analysis revealed a large number of loci that exhibit significant correspondence to linguistic partitioning among groups of populations. A pronounced divide exists between Samoa and the East (Formosa) and Southeast Asian (Bali and Java) islands. This is clearly illustrated in the topology of the neighbor-joining tree. Phylogenetic analyses also indicate clear distinctions between the Ami and Atayal and between Java and Bali, which belie the respective geographic proximities of the populations in each set. This differentiation is supported by the higher interpopulation variance components of the Austronesian populations compared to other Asian non-Austronesian groups. Our phylogenetic data indicate that, despite their linguistic commonalities, these five groups are genetically distinct. This degree of genetic differentiation justifies the creation of population-specific databases for human identification.     

中国五个民族STR位点遗传多态性（2）

通过对我国汉回蒙藏维５个民族的５０个家系和５００份样本的ＳＴＲ基因扫描、基因分型和遗传结构分析,获得了ＳＴＲ基因传递方式及遗传特征的大量科学数据。研究结果表明在９个ＳＴＲ位点上汉族有６０种ＳＴＲ等位基因,１４９种基因型;回族有６３种ＳＴＲ等位基因,１４４种基因型;蒙古族有６９种ＳＴＲ等位基因,１７３种基因型;藏族有７７种等位基因,１６８种基因型;维吾尔族有７０种ＳＴＲ等位基因,１４８种基因型。中国     

Phylogenetic relationship of the populations within and around Japan using 105 short tandem repeat polymorphic loci

We have analyzed 105 autosomal polymorphic short tandem repeat (STR) loci for nine East and South-eastern Asian populations (two Japanese, five Han Chinese, Thai, and Burmese populations) and a Caucasian population using a multiplex PCR typing system. All the STR loci are genomewide tetranucleotide repeat markers of which the total number of observed alleles and the observed heterozygosity were 756 and 0.743, respectively, for Japanese populations. Phylogenetic analysis for these allele frequency data suggested that the Japanese populations are more closely related with southern Chinese populations than central and/or northern ones. STRUCTURE program analysis revealed the almost clearly divided and accountable population structure at K=2–6, that the two Japanese populations always formed one group separated from the other populations and never belong to different groups at K≥3. Furthermore, our new allele frequency data for 91 loci were analyzed with those for 52 worldwide populations published by previous studies. Phylogenetic and multidimensional scaling (MDS) analyses indicated that Asian populations with large population size (six Han Chinese, three Japanese, two Southeast Asia) formed one distinct cluster and are closer to each other than other ethnic minorities in east and Southeast Asia. This pattern may be the caviar of comparing populations with greatly differing population sizes when STR loci were analyzed.     

广西环江县毛南族九个短串联重复序列基因座的遗传学分析

为了了解广西环江毛南族人群无关个体的九个短串联重复序列:vWA,D18S51,D5S818,FGA,D8S1179,D21S11,D7S820,D3S1358,D13S317基因座的遗传多态性分布情况;本文用枸橼酸钠抗凝法采集广西环江县毛南族200份无亲缘关系的健康个体的血样,Chelex-100方法提取DNA,应用AmpFlSTRIdentifilerTM荧光标记复合扩增技术对血样DNA的九个STR基因座进行扩增,用ABI 3100型遗传分析仪对扩增产物进行检测。结果显示九个STR位点的基因型分布均符合Hardy-Weinberg平衡定律,累积非父排除率达0.999996,累积个体识别能力达0.99999999996,多态信息总量为0.9999985。结论:广西环江县毛南族人群有自身的STR等位基因分布特征,所获数据可为法医学个体识别、亲子鉴定及群体的遗传学研究提供依据。     

Population substructure and patterns of quantitative variation among the Gollas of southern Andhra Pradesh, India.

Population substructure and biological differentiation was studied among the Golla, a pastoral caste living in the southern areas of Andhra Pradesh (AP) in India, using 11 anthropometric measurements and 20 quantitative dermatoglyphic variables. The data were collected from a sample of 334 adult males drawn from 30 villages distributed in the Chittoor district of AP, who belonged to 8 endogamous subunits of the same caste. Multiple discriminant analysis of the anthropometrics suggests a highly significant degree of discrimination that is consistent with the microgeographic variations of the groups. In contrast, in different sets of dermatoglyphs discrimination is low and generally inconsistent with both the geographic and ethnohistorical affiliations of the groups. These findings are reflected in the F(ST) value for anthropometry, which is more than double the value of dermatoglyphs. The patterns of gene flow as inferred through the regression of phenotypic variance on the distance of groups from the centroid is not generally consistent with the known backgrounds in the case of either dermatoglyphs or anthropometry. It is concluded that at the level of caste substructure representing the lowest level of population hierarchy, the quantitative variables examined here may not portray a complete picture of the historical process of subdivision. The results of this study are not in congruence with those based on another study of 13 short tandem repeat loci on the same set of populations (Reddy et al. 2001), which may provide better insights into the population structure and history of subdivision that are consistent with the known ethnohistorical backgrounds of the populations.     

STR Polymorphism in Indigenous Daghestan Populations

Genomic diversity of 21 STR loci has been studied in six ethnic populations of Daghestan (the Caucasus), namely, Avars, Dargins, Kubachians, Lezgins, Kumiks, and Nogais, and the results have been compared with these data for European, African, and East Asian ethnic groups. Daghestan is unique in its ethnic diversity, which is the greatest in the Caucasus: 26 out of approximately 50 autochthonous ethnic groups of the Caucasus live there. The genetic origin of this wide ethnic diversity of Daghestan and the Caucasus as a whole is still obscure. The genetic heterogeneity of Daghestan populations has been found to be lower than that of most other populations in the world. This is explained by a prolonged isolation and gene drift in their demographic history. Generalized genetic distances between ethnic groups calculated for the whole set of loci studied allow differentiating Asian populations from African ones, with European populations occupying intermediate positions. All Daghestan ethnic populations form a distinct common group together with some European populations (Finnish, Polish, and French). Nogais are genetically close to Southeast Asian populations. The genetic closeness and the apparently equal genetic diversity of Daghestan and European populations suggest that the ethnic differentiation of the ancestral populations of Daghestan and European ethnic groups occurred in the earliest populations of modern humans.     

STR polymorphism in populations of indigenous Daghestan ethnic groups

Genomic diversity of 21 STR loci has been studied in six ethnic populations of Daghestan (the Caucasus), namely, Avars, Dargins, Kubachians, Lezgins, and Nogais, and the results have been compared with these data for European, African, and East Asian ethnic groups. Daghestan is unique in its ethnic diversity, which is the greatest in the Caucasus: 26 out of approximately 50 autochthonous ethnic groups of the Caucasus live there. The genetic origin of this wide ethnic diversity of Daghestan and the Caucasus as a whole is still obscure. The genetic heterogeneity of Daghestan populations has been found to be lower than that of most other populations in the world. This is explained by a prolonged isolation and gene drift in their demographic history. Generalized genetic distances between ethnic groups calculated for the whole set of loci studied allow differentiating Asian populations from African ones, with European populations occupying intermediate positions. All Daghestan ethnic populations form a distinct common group together with some European populations (Finnish, Polish, and French). Nogais are genetically close to Southeast Asian populations. The genetic closeness and the apparently equal genetic diversity of Daghestan and European populations suggest that the ethnic differentiation of the ancestral populations of Daghestan and European ethnic groups occurred in the earliest populations of modern humans.