Paternal genetic structure of the Qiang ethnic group in China revealed by high-resolution Y-chromosome STRs and SNPs

The Qiang population mainly lived in Beichuan Qiang Autonomous County of Sichuan Province. It is one of the nomads in China, distributed along the Minjiang River. The Qiang population was assumed to have great affinity with the Han, the largest ethnic group in China, when it refers to the genetic origin. Whereas, it is deeply understudied, especially from the Y chromosome. Here in this study, we used validated high-resolution Y-chromosome single nucleotide polymorphisms (Y-SNPs) and short tandem repeats (Y-STRs) panels to study the Qiang ethnic group to unravel their paternal genetic, forensic and phylogenetic characteristics. A total of 422 male samples of the Qiang ethnic group were genotyped by 233 Y-SNPs and 29 Y-STRs. Haplogroup O-M175 (N = 312) was the most predominant haplogroup in the Qiang ethnic group, followed by D-M174 (N = 32) and C-M130 (N = 32), N-M231 (N = 27), and Q-M242 (N = 15). After further subdivision, O2a-M324 (N = 213) accounted for the majority of haplogroup O. Haplogroup C2b-Z1338 (N = 29), D1a-CTS11577 (N = 30). O2a2b1a1a1-F42 (N = 48), O2a1b1a1a1a-F11 (N = 35), and O2a2b1a1-M117 (N = 21) represented other large terminal haplogroups. The results unveiled that Qiang ethnic group was a population with a high percentage of haplogroup O2a2b1a1a1-F42 (48/422) and O2a1b1a1a1a-F11 (35/422), and O2a2b1a1-M117 (21/422), which has never been reported. Its haplogroup distribution pattern was different from any of the Han populations, implying that the Qiang ethnic group had its unique genetic pattern. Mismatch analysis indicated that the biggest mismatch number in haplogroup O2a2b1a1a1-F42 was 21, while that of haplogroup O2a1b1a1a1a-F11 was 20. The haplotype diversity of the Qiang ethnic group equaled 0.999788, with 392 haplotypes observed, of which 367 haplotypes were unique. The haplogroup diversity of the Qiang ethnic group reached 0.9767, and 53 terminal haplogroups were observed (The haplogroup diversity of the Qiang ethnic group was the highest among Qiang and all Han subgroups, indicating the larger genetic diversity of the Qiang ethnic group.). Haplogroup O2a2b1a1a1-F42 was the most predominant haplogroup, including 11.37 % of the Qiang individuals. Median-joining trees showed gene flow between the Qiang and Han individuals. Our results indicated that 1) the highest genetic diversity was observed in the Qiang ethnic group compared to any of the former studied Chinese population, suggesting that the Qiang might be an older paternal branch; 2) the haplogroup D-M174 individuals of Qiang, Tibetans and Japanese distributed in three different subclades, which was unable to identify through low-resolution Y-SNP panel; and 3) the Qiang had lower proportion of haplogroup D compared to Yi and Tibetan ethnic groups, showing that the Qiang had less genetic communication with them than with Han Chinese.     

Population genetics for Y-chromosomal STRs haplotypes of Chinese Xibe ethnic group

Allele and haplotype frequencies of 11 Y-chromosomal short tandem repeats (STRs) included in the PowerPlex^® Y Systems (Promega) were determined in a sample of 280 unrelated healthy autochthonous male individuals of the Chinese Xibe ethnic minority group living in Liaoning (northeast of China). The gene diversity values of the Y-STRs loci ranged from 0.3618 (DYS391) to 0.9686 (DYS385a/b). A total of 237 haplotypes were identified in the Y-STR loci, among which 207 were unique, 22 was found in 2 individuals, 4 were shared in 3 individuals, 3 were shared in 4 individuals, and 1 was shared in 5 individuals. The observed haplotype diversity value and discrimination capacity were 0.9984 and 0.8464, respectively. AMOVA tests demonstrated significant genetic heterogeneity between the Xibes and 16 reference populations from China and other Asian populations, justifying the establishment of local databases in the Chinese Xibe ethnic group for forensic application.     

Genetic polymorphism of both 29 Y-STRs and 213 Y-SNPs in Han populations from Shandong Province,China

Genetic markers on the Y chromosome, including short tandem repeats (Y-STRs) and single nucleotide polymorphisms (Y-SNPs), are used widely in forensic genetics. Both Y-STR-based haplotypes and Y-SNP-based haplogroups provide information on a population’s genetic structure, which is useful for the identification of individuals. However, there are few studies on these two types of genetic markers in the various Chinese populations. In this study, 284 Han individuals from four prefecture-level cities in Shandong Province (Binzhou, Dezhou, Heze, and Weihai) were genotyped by 29 Y-STRs (from our previous study) and 213 Y-SNPs (self-designed for the Haplogroup O2 Y-SNP panel). Haplogroup O was the most predominant among the four cities. The highest haplogroup diversity (0.9745) was observed in the Heze population, with a discrimination capacity (DC) value of 0.5625. The haplotype diversity and DC values of the Binzhou and Heze populations were 1.0000. Furthermore, genetic differences were observed between the coastal and inland cities; the results of their statistical analysis are presented herein.     

Allele frequencies of mitochondrial D-loop (CA)n repeat polymorphism in six Chinese ethnic groups

Allele frequencies of mitochondrial D-loop (CA)(n) repeat was carried out in six Chinese ethnic groups: Han ethnic group in Beijing, Uygur ethnic group in Kashi of Xinjiang province, Li ethnic group in Hainan province, Yao ethnic group in Junan of Guangxi province, Tibet ethnic group in Lasa of Xizang province and Yi ethnic group in Honghe of Yunnan province. A total of 542 individuals were typed. Comparative analyses between our population data and other populations gathered from the literature were performed.     

Y-chromosome diversity of the three major ethno-linguistic groups in the Republic of North Macedonia

A total of 314 individuals representing the three major ethno-linguistic groups (ethnic Macedonians, Albanians and Turks) in the Republic of North Macedonia were analyzed for Y-SNPs and Y-STRs using minisequencing and fragment analysis. The haplogroup composition differed remarkably between the three groups with dominance of haplogroup I2 in ethnic Macedonians (28.1%), E1b in Albanians (35.3%) and J2a (34.9%) in Turks, respectively. The haplotype analysis using the YFilerPlus kit disclosed a significant reduction in diversity values (DC, GD) for the Turkish subgroup compared to the Macedonian and Albanian speaking populations. The Y-STR based population analysis revealed a similarity of ethnic Macedonians with neighboring Serbians and Bulgarians. The same holds true for the Albanian speakers from Macedonia and Albania, whereas the Turkish minority in North Macedonia stands apart from the population in Turkey.     

Genetic substructure and forensic characteristics of Chinese Hui populations using 157 Y-SNPs and 27 Y-STRs

The Hui group is the second largest ethnic minority and one of the most widespread ethnic groups in China. However, the genetic architecture of the Hui population remains largely unexplored, particularly with respect to the male-specific region of the Y chromosome. Here, we studied nine Hui populations (Xinjiang, Qinghai, Gansu, Ningxia, Shaanxi, Henan, Shandong, Sichuan, Yunnan) using 157 Y-chromosome single nucleotide polymorphisms (Y-SNPs) and 27 short tandem repeats (Y-STRs) to unravel their genetic substructure and forensic characteristics. A total of 650 unrelated male samples from the Hui populations were genotyped by SNaPshot^®, a single base extension (SBE) assay. Finally, 95 terminal haplogroups and high haplotype diversity (0.9999) were observed in Hui populations. Frequency heat map matrices, genetic distance (F_ST) and network analysis within Hui populations indicated that these nine Hui populations can be divided into three groups: Hui populations from the northwest (NWH), Hui populations from Sichuan and Shandong (SSH), and Hui populations from Yunnan (YNH). Our results suggested that we should use different databases for different Hui samples in forensic cases. Comparison with other populations that used different population genetic analysis revealed that the Hui populations had close relationships with East Asian populations, especially Chinese Han population. Overall, the high-resolution panel with Y-SNPs and Y-STRs gives new and complete insight into Hui populations, which can be used to interpret the genetic substructure of Hui populations and affect the utility of forensic databases.     

Haplotype analysis of the polymorphic 24 Y-STR markers in six ethnic populations from China

Twenty-four Y-STR loci were analysed in 1446 males from the following six Chinese ethnic populations: Guangxi Han (n=600), Gin (n=161), Maonan (n=135), Miao (n=186), Zhuang (n=226) and Yao (n=138) using the AGCU Y24 STR amplification kit. The lowest estimates of genetic diversity (below 0.5) correspond to markers DYS391 (0.4006), DYS438 (0.4300), and DS388 (0.4907), and the greatest diversity corresponds to markers DYS385a/b (0.9636) and DYS527a/b (0.9439). Moreover, there were 1331 different haplotypes identified from the 1446 total samples, of which 1233 were unique. Notably, we observed shared haplotypes between the four ethnic populations (Maonan, Miao, Zhuang, Yao ethnic population), except between the Guangxi Han and Gin population. The estimated overall haplotype diversity (HD) was 0.9997. A multidimensional scaling (MDS) plot based on the genetic distances between populations demonstrates the genetic similarity of the Maonan, Miao and Zhuang populations with genetic distance below 3.0. No substructure correction is required to estimate the rarity of a haplotype comprising 24 markers. In summary, the results of our study indicate that the 24 Y-STRs have a high level of polymorphism in these six Chinese ethnic populations and could therefore be a powerful tool for forensic applications and population genetic studies.     

Forensic characteristics and genetic analysis of both 27 Y-STRs and 143 Y-SNPs in Eastern Han Chinese population

Y-chromosome short tandem repeat (Y-STR) and Y-chromosome single nucleotide polymorphism (Y-SNP) frequency distributions provide resources for assessment of male population stratification among world-wide populations. Currently, the Y-STR Haplotype Reference Database (YHRD) contains numerous Y-chromosome haplotype profiles from various populations and countries around the world. However, for many of the recently discovered and already phylogenetically mapped Y-SNPs, the population data are scarce. Herein, the typing of 27 Y-STRs (Yfiler Plus) and 143 Y-SNPs (self-designed Y-SNP panel) was performed on 1269 unrelated males from 11 Han Chinese populations. Haplogroup O-M175 was the most predominant haplogroup in our Han Chinese data, ranging from 67.34% (Henan Han) to 93.16% (Guangdong Han). The highest haplogroup diversity (0.967056) was observed in Heilongjiang Han, with a discrimination capacity (DC) value of 0.3723. The number of alleles at single-copy loci varied from 2 for DYS391 (Guangdong Han) to 16 for DYS518 (Henan Han). For the majority of the populations (8/11), both the haplotype diversity and DC values are 1.0000. Furthermore, genetic differentiations were observed between Northern and Southern Han Chinese. These genetic differences were mainly reflected in haplogroup distribution and frequency, and they were confirmed by statistical analysis.     

Genetic analysis of 39 Y-STR loci in a Han population from Henan province,central China

A total of 39 Y-chromosomal short tandem repeat (Y-STR) loci included in the advanced commercial six-dye multiplex system (AGCU Database Y30 kit) and a custom-designed four-dye multiplex system were investigated in 259 unrelated healthy Chinese males residing in Henan Province, central China. The haplotype diversity (HD) values were 0.99997 and 1.0000 for the six and four fluorescent-multiplex amplification systems, respectively. The discrimination capacity (DC) values were 0.9961 and 1.0000, respectively. When the 39 Y-STR loci were considered, 259 unique haplotypes were obtained in Henan Han individuals with both the haplotype diversity and discrimination capacity being 1.000. The gene diversity (GD) of 39 Y-STR loci in the studied group ranged from 0.3956 (DYS588) to 0.9990 (DYF403S1). Population comparisons between the Henan Han and 24 reference groups were performed. Both multidimensional scaling plots and phylogenetic analysis demonstrated that significant genetic differences existed between Henan Han and reference ethnic minorities of China, particularly the Tibetan, Uighur, and Mongolian populations. Moreover, the results indicated that 39 Y-STRs included in the two fluorescent-multiplex amplification systems are highly polymorphic and informative in the studied populations and can be employed as complementary tools for forensic application and human genetics research.

     

Y-SNP and Y-STR analysis in a Japanese population

In this study, four Y-SNPs (M122, P31, M174 and M216) were analyzed in 207 Japanese males (Gunma, Fukui, Kagoshima and Tokushima Prefecture). Eleven Y-STRs, including DYS19, DYS389I/II, DYS390, DYS391, DYS392, DYS393, DYS437, DYS438, DYS389, DYS385 and YCAII were also investigated in each prefecture. As a new technique, we used Cycleave PCR method with real-time PCR, which allows detection of Y-SNPs by an easier and faster method. Regarding Y-SNPs, each region in Japan could be almost classified based on two types, the D and O type. We found that the O type was remarkably higher in Kagoshima Prefecture than in other areas. Moreover, the D type was more prevalent than the O type in Gunma Prefecture, which is geographically located at the center of Japan. These findings of geographical differences may be related to the historical background and population movements of Japanese. Y-STRs were analyzed and data from Tokushima Prefecture that we previously reported was included in the analyses. As a result, DYS385 showed the highest gene diversity (GD) value (GD = 0.953), while DYS391 showed the lowest GD value (GD = 0.288). Haplotype diversity (HD) value of only Y-STRs (Extended haplotype) was estimated at 0.99981, whereas the HD value of Y-SNPs/Y-STRs was 0.9988.     

Seventeen Y-chromosomal short tandem repeat haplotypes in seven groups of population living in Taiwan

The analysis of Y-chromosome short tandem repeat (Y-STR) loci is a powerful tool in forensic casework. The aim of this study was to present the 17 Y-STR loci haplotype distributions of groups of population living in Taiwan and to demonstrate genetic distances between the groups as well as multidimensional scaling plot based on Y-STR genotype data. Five hundred and fifteen DNA samples from unrelated males of seven groups of population, including Taiwanese Han, two groups of indigenous Taiwanese of Taiwan Island, Tao, mainland Chinese, Filipinos, and a group of people with European, Near Eastern, or South Asian ancestry, were analyzed using a commercial kit that co-amplifies 17 Y-STRs. A total of 471 different haplotypes with 440 unique haplotypes were identified. The overall haplotype diversity was 0.9995 ± 0.0002. High haplotype diversity was observed in six groups of population, except the Tao. These Y-STRs revealed a low discrimination capacity in the Tao population (36.84%), which should be considered in forensic practice. The multidimensional scaling plot of these seven groups of population constructed based on the genetic distances according to 17 Y-STR loci presented a clear patrilineal genetic substructure in the area. Partial Y-STRs profiling reduced the discrimination capacity in most groups of population and distorted the multidimensional scaling plot.     

Population genetics for Y-chromosomal STRs haplotypes of Chinese Tujia ethnic group

Allele and haplotype frequencies of 11 Y-chromosomal short tandem repeats (STRs) included in the PowerPlex^® Y Systems (Promega) were determined in a sample of 215 unrelated healthy male individuals of Chinese Tujia ethnic group living in Chongqing (Southwest of China). The gene diversity values of the Y-STRs loci ranged from 0.3757(DYS391) to 0.9170 (DYS385a/b). A total of 195 haplotypes were identified in the Y-STR loci, among which 180 were unique, 11 were found in two individuals, 3 were shared in three individuals and 1 was shared in four individuals. The observed haplotype diversity value and discrimination capacity were 0.9942 and 0.9070, respectively.     

The golden gene (SLC24A5) differentiates US sub-populations within the ethnically admixed Y-SNP haplogroups

Y-SNPs are currently being investigated for their potential to predict the ethnogeographic origin of the donor of a crime scene sample. Unfortunately, due to the presence of genetically admixed individuals within ethnic sub-populations within a particular haplogroup (hg), it is sometimes difficult to predict the ethnogeographic ancestry of an individual using only Y-SNPs. In the present work we determine the feasibility of using a combination of the golden pigmentation gene (SLC24A5) SNP and recently described high resolution Y-SNP markers to distinguish some of the different ethnic groups within particular Y-SNP hgs. Four hundred twenty-four individuals (128 African, 206 European, 50 Hispanic/Latin, 20 Pakistan, 20 E.Asian/Indian) were typed for a SNP within the golden gene. The Y-SNP hg was determined for all males and it was found that many of the European derived hg possessed a significant amount of ethnic admixture, with R1b3 having the most. We show the use of the golden gene, in combination with more informative Y-SNPs (U152, U106, and M222) and those that define the major hg, can differentiate between most of the African vs. European and African vs. E. Asian members of these heterogeneous populations.     

Genetic analysis of 17 Y-chromosomal STR loci of Chinese Tujia ethnic group residing in Youyang Region of Southern China

Y-STR haplotype data were obtained in a population sample of 197 unrelated healthy male individuals of Chinese Tujia ethnic minority group residing in an autonomous county of Southern China using 17 Y-chromosome STR markers. A total of 197 haplotypes were identified in the set of Y-STR loci. The overall haplotype diversity for the Tujia population at 17 Y-STR loci was 1.0000 ± 0.0005. Genetic distance was estimated between this population and other 14 Chinese populations including Paiwan and Atayal populations of Taiwan, and Southern Han, Dong, Jing, Miao, Yao, Zhuang, Yi, Maonan, She, Hui, Sala, and Tibetan ethnic groups. The results demonstrated that the 17 Y-STR loci analyzed were highly polymorphic in Tujia ethnic group examined and hence useful for forensic cases, paternity testing, and population genetic studies.     

Genetic analysis of 17 Y-chromosomal STRs haplotypes of Chinese Tibetan ethnic minority group

We have co-amplified and analyzed 17 Y-chromosomal STRs loci (DYS19, DYS389I/II, DYS390, DYS391, DYS392, DYS393, DYS438, DYS439, DYS437, DYS448, DYS456, DYS458, DYS635, YGATA-H4 and DYS385a/b) in 132 healthy unrelated autochthonous male individuals of Chinese Tibetan ethnic group residing in Lassa area of China. The gene diversity values for the Y-STRs loci ranged from a minimum 0.206 for DYS391 locus to a maximum of 0.912 for DYS385a/b locus in the populations. A total of 123 haplotypes were identified, among which 115 were unique and 8 occurred more than once. The overall haplotype diversity for 17 Y-STRs loci was 0.998. Research results will be valuable for forensic use in the regions and for Chinese population genetic study.     

Male lineage strata of Brazilian population disclosed by the simultaneous analysis of STRs and SNPs

Brazil has a large territory divided in five geographical regions harboring highly diverse populations that resulted from different degrees and modes of admixture between Native Americans, Europeans and Africans. In this study, a sample of 605 unrelated males was genotyped for 17 Y-STRs and 46 Y-SNPs aiming a deep characterization of the male gene pool of Rio de Janeiro and its comparison with other Brazilian populations. High values of Y-STR haplotype diversity (0.9999 ± 0.0001) and Y-SNP haplogroup diversity (0.7589 ± 0.0171) were observed. Population comparisons at both haplotype and haplogroup levels showed significant differences between Brazilian South Eastern and Northern populations that can be explained by differences in the proportion of African and Native American Y chromosomes. Statistical significant differences between admixed urban samples from the five regions of Brazil were not previously detected at haplotype level based on smaller size samples from South East, which emphasizes the importance of sample size to detected population stratification for an accurate interpretation of profile matches in kinship and forensic casework. Although not having an intra-population discrimination power as high as the Y-STRs, the Y-SNPs are more powerful to disclose differences in admixed populations. In this study, the combined analysis of these two types of markers proved to be a good strategy to predict population sub-structure, which should be taken into account when delineating forensic database strategies for Y chromosome haplotypes.     

Genetic polymorphisms of 17 Y-STRs haplotypes in Tibetan ethnic minority group of China

Haplotypes and allele frequencies for the 17 Y-chromosomal STRs loci, namely DYS456, DYS389I, DYS390, DYS389II, DYS458, DYS19, DYS385a,b, DYS393, DYS391, DYS439, DYS635, DYS392, Y GATA H4, DYS437, DYS438, DYS448 were determined in a population sample of 112 healthy unrelated autochthonous Tibetan ethnic male individuals from Tibet of China. No shared haplotypes were observed. The gene diversity values for the Y-STRs loci ranged from 0.2052(DYS391) to 0.9301(DYS385a,b). The results demonstrate that these loci will be very useful for human identification in forensic cases and paternity tests in Tibetan population of China.     

Population genetic polymorphisms for 17 Y-chromosomal STRs haplotypes of Chinese Salar ethnic minority group

We studied and established a DNA database of 17 Y-STRs in a population sample of 133 unrelated individuals of Salar ethnic minority group, in order to investigate haplotype frequencies of Salar population, evaluate their usefulness in forensic applications, and enrich Chinese population genetic informational resources. Out of a total of 133 individuals 123 showed different haplotypes, while six haplotypes occurred more than once. The overall haplotype diversity for the Y-STRs loci was 0.9983, and the discrimination capacity was 0.9248.     

Analysis of 24 Y chromosomal STR haplotypes in a Chinese Han population sample from Henan Province,Central China

We analyzed haplotypes for 24 Y chromosomal STRs (Y-STRs), including 17 Yfiler loci (DYS19, DYS385a/b, DYS389I/II, DYS390, DYS391, DYS392, DYS393, DYS437, DY438, DYS439, DYS448, DYS456, DYS458, DYS635 and Y-GATA-H4) and 7 additional STRs (DYS388, DYS444, DYS447, DYS449, DYS522 and DYS527a/b) in 1100 unrelated Chinese Han individuals from Henan Province using AGCU Y24 STR kit systems. The calculated average gene diversity (GD) values ranged from 0.4105 to 0.9647 for the DYS388 and DYS385a/b loci, respectively. The discriminatory capacity (DC) was 72.91% with 802 observed haplotypes using 17 Yfiler loci, by the addition of 7 Y-STRs to the Yfiler system, the DC was increased to 79.09% while showing 870 observed haplotypes. Among the additional 7 Y-STRs, DYS449, DYS527a/b, DYS444 and DYS522 were major contributors to enhancing discrimination. In the analysis of molecular variance, the Henan Han population clustered with Han origin populations and showed significant differences from other Non-Han populations. In the present study, we report 24 Y-STR population data in Henan Han population, and we emphasize the need for adding additional markers to the commonly used 17 Yfiler loci to achieve more improved discriminatory capacity in a population with low genetic diversity.     

Frequency data for 17 Y-chromosomal STRs and 19 Y-chromosomal SNPs in the Tyrolean district of Reutte, Austria

We established a data set of 17 Y-STRs of 261 males from the Tyrolean district of Reutte. In total we observed 228 different haplotypes, 203 of which were unique and 25 occurred between two and four times. The haplotype diversity was 0.9987 and the discrimination capacity was 0.8736. Further, samples were typed with a selection of 19 Y-SNPs to establish the haplogroup background. Data are available in the Y chromosome haplotype reference database under accession number YA003715.