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.

     

Genetic diversity and phylogenetic analysis of 29 Y-STR loci in the Tibetan population from Sichuan Province,Southwest China

Y-Chromosomal short tandem repeat polymorphisms (Y-STRs) are widely applied in human forensic cases and population genetic studies. There is a lack of information about the Sichuan Tibetan population in the Y-STR Haplotype Reference Database (YHRD, https://yhrd.org, release 59). In this study, 502 unrelated male individuals residing in the Sichuan Province were recruited and genotyped at 29 Y-STR loci. A total of 479 haplotypes were observed, 460 (96.03%) of which were unique. The haplotype diversity (HD) and discrimination capacity (DC) for the Sichuan Tibetan population were 0.9998 and 0.9542, respectively. To reveal the genetic diversities and relationships between the Chinese Sichuan Tibetan and 29 other previously reported populations, forensic parameter analysis, multi-dimensional scaling, and phylogenetic reconstruction were performed. The results showed that the Sichuan Tibetan population was relatively isolated from other populations, suggesting that genetic proximity is in line with geographical boundaries.     

Forensic characteristics and phylogenetic analysis of Hubei Han population in central China using 17 Y-STR loci

Currently, the largest national database within the Y chromosome haplotype reference database (YHRD, https://yhrd.org, release 53) is China, which has approximately 38000 Y chromosomal 17-marker (Yfiler) haplotypes. These haplotype profiles derived from the vast majority of Chinese administrative divisions, but no haplotype data was available for Hubei province, which is located in the Central China region. Herein, 429 unrelated male Chinese Han individuals residing in Hubei province were recruited and genotyped with 17 Y-STR loci. 115 alleles were identified with corresponding allele frequencies spanned from 0.0023 to 07506. The gene diversity (GD) values ranged from 0.3988 at DYS438 to 0.9573 at DYS385a/b. A total of 410 distinct haplotypes were obtained with the overall haplotype diversity (HD) and discrimination capacity (DC) was 0.9995 and 0.9557, respectively. Additionally, genetic relationships along administrative (Han Chinese from different provinces) and ethnic divisions (minority ethnic groups) were analyzed using analysis of molecular variance (AMOVA) tests and visualized by multidimensional scaling plots (MDS). The Han ethnicity including the Hubei Han shows a high genetic homogeneity all across China and significant genetic differences existed between the Hubei Han and some ethnic groups, most prominently for the Kazakhs and the Tibetans.     

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.     

The impact of additional Y-STR loci on resolving common haplotypes and closely related individuals

Commercial Y-STR kits have permitted laboratories to go beyond the original nine minimal haplotype loci (MHL) and to discover the advantage of additional Y-STR loci in resolving common haplotypes. In an effort to examine the impact of Y-STR markers beyond the 17 loci now available in commercial kit form, new Y-STR loci are being investigated on a common set of samples representative of the major U.S. population groups. Additional Y-STRs can also increase the power of discrimination between closely related male individuals, which is important not only in forensics but also in the paternity and genetic genealogy communities.     

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.     

Genetic polymorphism of 24 Y-STR loci in Altay Hui and Kazakh populations from northwest China

24 Y-STR loci were analyzed in 223 Altay Hui individuals and 209 Altay Kazakh individuals. Haplotype diversity (HD) and discrimination capacity (DC) values were calculated. Population pairwise genetic distances (Rst) were evaluated in AMOVA analysis and compared between two studied populations and other populations. The relationships between populations were visualized through multidimensional scaling (MDS) and neighbor-joining (NJ) tree. The results indicated higher discrimination power in the Altay Kazakh and Hui populations. The Altay Kazakh was the most distantly related to Xishuangbanna Dai, while Altay Kazakh was the most closely related to Gansu Kazakh. The results may provide useful information for paternal lineages and increase our understanding of genetic relationships between two studied populations and other populations.     

Population data for 17 Y-chromosome STRs in a sample from Apulia (Southern Italy)

The 17 Y-STR loci included in the AmpFLSTR Yfiler PCR Amplification Kit were analyzed in 98 unrelated healthy males from Apulia (Southern Italy). A total of 97 different haplotypes were identified, of which 96 haplotypes were unique and 1 occurred twice. Allele frequencies for each Y-STR locus in pooled sample and estimated value of gene diversity (GD) were evaluated. The lowest value of GD was observed for DYS392 (0.126) and the highest one (0.936) for DYS385. The HD (haplotype diversity) for the studied Y-STR set showed a value of 0.9994, with an HMP (haplotype match probability) value of 0.0006, while the overall DC was 98.98%. Microvariant alleles were found for the DYS458 and DYS385 markers and sequenced.Furthermore, Φ_st-based genetic distance computation and pair-wise analysis of molecular variance (AMOVA) test were carried out. When comparing our population with the Apulia sample previously investigated, the AMOVA analysis detected no evidence for significant differentiation. The comparison with all Italian populations submitted to the YHRD website showed no relevant differences with all Southern Italian populations (San Giorgio La Molara, Belvedere, Trapani and Catania) and significant genetic deviation with all Northern Italian populations (Udine, Biella, La Spezia, Modena, Ravenna, Marche and North Sardinia). Moreover, the other populations and meta-populations belonging to the whole Mediterranean area (Croatia, Macedonia, Albania, Greece, Turkey, Israel, Libya, Tunisia, Algeria, Morocco and Spain) were different from our Apulia sample. The data were submitted to YHRD.     

Fourteen short tandem repeat loci Y chromosome haplotypes: Genetic analysis in populations from northern Brazil

Fourteen Y-STR loci (DYS458, DYS439, Y-GATA H4, DYS576, DYS447, DYS460, DYS456, YGATA A10, DYS437, DYS449, DYS570, DYS635 or Y-GATA C4, DYS448 and DYS438) were analysed in 873 males from eight northern Brazil populations: Belém (N=400), Santarém (N=69), Manaus (N=75), Macapá (N=65), Palmas (N=30), Rio Branco (N=32), Porto Velho (N=135) and Boa Vista (N=67). A total of 871 different haplotypes were identified, of which 869 were unique. The panel's estimated total haplotype diversity (HD) is 0.9988, and its discrimination capacity (DC) is 0.9980. The lowest estimates of genetic diversity correspond to markers Y-GATA H4 (0.550) and DYS460 (0.581), and the greatest (above 0.700) to markers DYS458, DYS576, DYS447, YS449, DYS570 and DYS635. The genetic parameters obtained were higher for the 14-Y-STR panel than that for the minimum haplotype set (HD=0.9969; DC=0.76) and the parameters were similar to those obtained with the panel of 17 YSTR of YHRD (HD=0.9987; DC=0. 9870). The analysis of molecular variance (AMOVA) indicated that most of the genetic variance is found within populations and a smaller, but significant part, is found among populations (R(ST)=0.027, p value=0.009). The data when compared with those from African, Amerindian and European populations have shown no significant genetic distance between northern Brazil populations and Europeans, but there is a significant genetic distance when compared to Africans and Amerindians. The discrimination capacity of the markers shows a high potential for forensic analysis.     

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.     

Analysis of seventeen Y-chromosome STR loci in the Cape Muslim population of South Africa

Two Y-STR genotyping systems were evaluated for usefulness in forensic casework in the Cape Muslim population of South Africa. Samples were collected from 105 males, and genotyped for 17 loci amplified in two multiplexes. Allele and haplotype frequencies were determined for nine Y-STR loci used to define the minimal haplotype (DYS19, DYS389-I, DYS389-II, DYS390, DYS391, DYS392, DYS393, and the duplicated locus DYS385) amplified in one multiplex, as well as for eight widely used loci amplified in a second multiplex and consisting of DYS449, DYS481, DYS518, DYS557, DYS570, DYS607, DYS612 and DYS614. When analysing the samples for all the loci, 104 unique haplotypes were obtained, and the discrimination capacity was 0.990. When considering only the nine Y-STRs included in the minimal haplotype, 91 unique haplotypes were obtained, and the discrimination capacity was 0.866. In the case of the remaining eight Y-STR loci, values of 97 and 0.924 were obtained, respectively.     

Population genetic data of 4 multicopy Y-STR markers in Chinese

Novel Y chromosomal STR (Y-STR) markers have been continuously discovered during the past decades, promoting the widely application of Y-STRs in the area of forensic science. Here, four multicopy Y-STR markers were focused, including DYF383S1, DYF409S1, DYF411S1 and DYF371, which are rarely reported in China and differ in the number of copies on Y chromosome. Characterization of the markers was performed in population of Hunan province, China, based on sequence analysis. Allele nomenclature and allelic ladder were then developed to avoid the disunity of typing standard. To evaluate their forensic performance, gene diversity of the four loci was investigated in 548 unrelated male individuals from Hunan population. The number of haplotype was analyzed by both conservative (C-type) and expanded approach (E-type) for markers containing more than 2 copies. As detected, there were 7, 9, 13 alleles and 15, 22, 23 haplotypes for DYF383S1, DYF409S1 and DYF411S1, respectively. Thirty-two C-types and 56 E-types were found in DYF371, indicating the highest haplotype diversity (HD) among all tested loci (0.871 and 0.888 for C-type and E-type, respectively). Two other Y-STRs (DYF409S1, DYF411S1) also showed high haplotype diversity (>0.8) in the population. Combining the four loci, discrimination capacity reached 0.505 (C-type) or 0.533 (E-type), and the total HD values exceeded 0.991. The results inferred great potential of the multicopy markers to improve the resolution of paternal identification in China population.     

Sequence polymorphisms of forensic Y-STRs revealed by a 68-plex in-house massively parallel sequencing panel

Sequence polymorphisms of Y chromosome short tandem repeat (Y-STR) markers can be unveiled using next generation sequencing (NGS). Compared to capillary electrophoresis, NGS has the advantage of distinguishing between some alleles of the same length. Here, a 68-plex in-house panel covering 67 Y-STR loci and the sex determinant Amelogenin locus, was developed. The accuracy of this panel was 100% concordant with three standard reference samples. The sensitive was as low as 250 pg. A total of 466 length-based alleles, 806 sequence-based alleles, and 149 haplotypes were observed across 149 Chinese Han individuals. The total haplotype diversity and discrimination capacity was 1.0000 in detected samples. The DYS710 locus possessed the highest diversity by sequence among these Y-STRs, with 109 sequence-based alleles observed. Micro-variant alleles with the same length were observed in 39 Y-STR loci, with their sequence variations mainly attributable to repeat pattern variations. While the number of sequence-based alleles identified for DYS447, DYS449, DYS710, DYS720 and DYF387S1a/b was approximately three times that of their length-based alleles, flanking sequence variations were observed in 18 alleles. In addition, 201 sequence-based alleles in 42 loci were newly discovered. This significantly expanded the knowledge of human Y-STR sequence polymorphisms. Collectively, the 68-plex panel provided reliable Y-STR results as well as higher resolution for paternal lineage analysis.     

Y-chromosomal microsatellite diversity in three culturally defined regions of historical Tibet

In the present study, we analyzed 17 Y-STR loci in 350 Tibetan males from three culturally defined regions of historical Tibet: Amdo (88), Kham (109) and U-Tsang (153). A total of 299 haplotypes were observed, 272 (90.9%) of which were unique. Only one Y-STR profile is shared across the three Tibetan groups and, incidentally, is also the most frequent haplotype (4.0%), represented by two, five and seven individuals from U-Tsang, Kham and Amdo, respectively. The overall haplotype diversity for the three Tibetan populations at 17 Y-STR loci was 0.9978 and the corresponding values for the extended (11-loci) and minimal (9-loci) haplotypes were 0.9935 and 0.9909, respectively. Both neighbor-joining and Rst pairwise analyses suggest a close genetic relationship between the Amdo and Kham populations, while U-Tsang is genetically distinct from the aforementioned groups. The results demonstrate that the 17 Y-STR loci analyzed are highly polymorphic in all three Tibetan populations examined and hence useful for forensic cases, paternity testing and population genetic studies.     

27 Y-chromosomal STR haplotypic structure for the Chinese Han population from Changchun,Northeastern China

Y- Changchun is the capital and largest city of Jilin Province in the northeast China. In this study, we genotyped and investigated haplotypes of 27 Y-STR loci in 1037 Changchun Han male individuals using commercially available AmpFlSTR Yfiler® Plus kit. We calculated the Gene diversity (GD) values and haplotype diversity (HD) as important forensic parameters. Furthermore, we observed genetic affinities between Changchun Han with other Northern Han Chinese populations and also Korans in Yanbian in the Multidimensional scaling and phylogenetic tree analysis.     

Y-STR markers from Ladakh in the Himalayas

A total of 223 samples from the general population of Ladakh in Northwestern India were amplified at 17 Y-STR loci using the AmpFlSTR® Yfiler™ system. The DNA profiles generated were employed to generate allelic frequencies, gene diversity, haplotype diversity and discrimination capacity values as well as number of different haplotypes, fraction of unique haplotypes and Rst pair wise genetic distances. Multidimensional Scaling (MDS) and Correspondence Analysis (CA) were performed with the Rst values and allelic frequencies, respectively. The 17-loci discrimination capacity of Ladakh was found to be 0.8093. Eleven out of the 16 loci have diversity values greater than 0.6, and 13 loci possess values greater than 0.5. Ladakh exhibits no significant genetic difference to seven of the 15 reference forensic databases after Bonferroni correction, three of which are located in South Central Asian and four are from the Himalayan region. Rst genetic distance values before and after Bonferroni corrections illustrate the capacity of the Yfiler system to discriminate among Himalayan populations. The intermediate position of the Ladakh population in the MDS and CA plots likely reflects genetic flow and admixture with neighboring populations. In addition, the longitudinal partition of populations in the MDS and CA plots likely reflect human dispersals such as the silk road migrations.     

Haplotype diversity and phylogenetic relationship analysis of Chinese Yulin Han population using 59 Y-STR loci of two novel Y-STR typing systems

To investigate the genetic polymorphisms of 59 Y-chromosomal short tandem repeat (Y-STR) loci in the Yulin Han population, 229 unrelated healthy male individuals were analyzed using AGCU Y37 kit and AGCU Y-SUPP Plus kit. A total of 227 different haplotypes were obtained at the 59 Y-STR loci. Among them, 225 haplotypes were unique and 2 haplotypes occurred twice. The overall haplotypic diversity and discrimination capacity were 0.9999 and 0.9913, respectively. The phylogenetic relationships between the studied Yulin Han population and 17 previously reported reference populations were evaluated via multidimensional scaling and Neighbor-Joining analyses based on the haplotypic frequencies of ‘YHRD Maximal Loci’. Phylogenetic analysis revealed that Yulin Han population was closely related to Chinese Han and Hunan Yao populations. These results demonstrated that the 59 Y-STR loci were useful for forensic applications and population genetic studies.     

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.     

Y-Chromosome multiplexes and their potential for the DNA profiling of Koreans

We have developed four multiplex genotyping systems (GeneKin Y-STR multiplexes) using silver staining with allelic ladders for ten Y-chromosome STR markers (DYS19, DYS385, DYS388, DYS389I/II, DYS390, DYS391, DYS392, DYS393 and DXYS156Y), with a view towards the application of rapid and simple genotyping assay methods for DNA profiling. The GeneKin Y-STR multiplexes developed have followed the published nomenclature and ISFG guidelines for STR analysis. Allele and haplotype frequencies at these Y-STRs loci were analysed by PCR amplification using the GeneKin Y-STR multiplexes, followed by denaturing polyacrylamide gel electrophoresis in 316 unrelated males in the Korean population. A total of 295 different haplotypes were found, 279 of them being unique. Gene diversity ranged from 0.4026 at DYS391 to 0.9606 at DYS385. The haplotype diversity value (which is the same as the discrimination index) calculated from all ten loci combined was 0.9995, which is informative. Our results revealed that a set of ten Y-STRs can discriminate between most of the male individuals in the Korean population (discrimination capacity: 93.35%). The Y-STR multiplexes thus provide useful information for forensic analysis and paternity tests and can also be of great benefit for providing information not normally available from autosomal DNA systems. Received: 12 March 2001 / Accepted: 26 June 2001     

Y-STR loci diversity in native Alaskan populations

Y chromosome short tandem repeat (Y-STR) loci are important genetic markers for forensic biological evidence analyses. However, paternal inheritance, reduced effective population size, and lack of independence between loci can reduce Y-STR diversity and may yield greater population substructure effects on a locus-by-locus basis compared with the autosomal STR loci. Population studies are necessary to assess the genetic variation of forensically relevant markers so that proper inferences can be made about the rarity of DNA profiles. This study examined 16 Y-STRs in three sampled populations of Native Americans from Alaska: Inupiat, Yupik, and Athabaskan. Population genetic and statistical issues addressed were: (1) the degree of diversity at locus and haplotype levels, (2) determination of the loci that contribute more so to haplotype diversity, and (3) the effects of population substructure on forensic statistical calculations of the rarity of a Y-STR profile. All three population samples were highly polymorphic at the haplotype level for the 16 Y-STR markers; however, the Native Americans demonstrated reduced genetic diversity compared with major US populations. The degree of substructure indicated that the three populations were related and admixed in terms of paternal lineage. The examination of more polymorphic loci may be needed to increase the power of discrimination of Y-STR systems in these populations.