Population data and phylogenetic analysis of 37 Y-STR loci in the Hui population from Yunnan Province, Southwest China

Dissecting the genetic admixture and forensic signatures of ethnolinguistically diverse Chinese populations via a 114-plex NGS InDel panel

Comprehensive characterizations of genetic diversity and demographic models of ethnolinguistically diverse Chinese populations are essential for elucidating their forensic characteristics and evolutionary past. We developed a 114-plex NGS InDel panel to genotype 114 genome-wide markers and investigated the genetic structures of Zhuang, Hui, Miao, Li, Tibetan, Yi, and Mongolian populations, encompassing five language families. This panel demonstrated robust performance, with exceptional potential for forensic individual identification and paternity testing, evidenced by the combined power of discrimination for 77 autosomal InDels (ranged from 1-3.6400 × 10-30 to 1-3.5713 × 10-32) and the combined power of exclusion (ranged from 1-2.1863 × 10-6 to 1-2.1261 × 10-7). The cumulative mean exclusion chance for 32 X-chromosomal InDels varied between 0.99996 and 0.99999 for trios and 0.99760 to 0.99898 for duos. We also analyzed genetic similarities and differences between these populations and 27 global populations, revealing distinct clusters among African, South Asian, East Asian, and European groups, with a close genetic affinity to East Asians. Notably, we identified geography-related genetic substructures: Inner Mongolia Mongolians and Gansu Huis formed a northern branch, Tibetans and Yis from Sichuan constituted a highland branch, and Guangxi Zhuangs exhibited close ties with Hainan Lis and Guangxi Miaos in the southern branch. Additionally, many InDels proved to be ancestry-informative markers for biogeographic ancestry inference. Collectively, these findings underscore the utility of the 114-plex NGS InDel panel as a complementary tool for forensic investigations and as a source of insights into the genetic architecture of ethnolinguistically distinct Chinese populations.

Forensic parameters and population analysis of 21 autosomal STR loci in the Wuhu Han population from Anhui Province, East China

BACKGROUND

At present, there are no available genetic data on the AGCU EX22 Kit from the Wuhu Han population.

AIM

This study investigates the applicability of the AGCU EX22 kit, designed for the Chinese population for forensic analysis and population genetics of the Wuhu Han population.

SUBJECTS AND METHODS

Bloodstains from 1565 unrelated healthy individuals in Wuhu city, Anhui Province, were collected for analysis. The AGCU EX22 kit was used for amplification, and capillary electrophoresis was used to separate the amplification products. Allele frequencies and forensic parameters were determined. The Wuhu Han population was compared to 10 reference populations through genetic distance, a phylogenetic neighbor-joining tree and principal component analysis.

RESULTS

In total, 281 alleles and 1187 genotypes were observed. No significant deviations from Hardy-Weinberg equilibrium at any locus were found after Bonferroni's correction. The 21 autosomal short tandem repeat (STR) genetic markers exhibited high informativeness and polymorphism. The cumulative power of discrimination and power of exclusion were 0.999999999999999999999999913380 and 0.999999996752339, respectively. Population comparisons revealed a genetic affinity between Wuhu Han and southern Han populations, except for the Guangdong Han population, which aligned with the traditional geographical division in China.

CONCLUSION

The AGCU EX22 Kit, containing 21 STR loci, is suitable for forensic application and population genetics studies in the Wuhu Han population.