Research Article

Structure and polymorphism of 16 novel Y-STRs in Chinese Han Population

Published: December 19, 2012
Genet. Mol. Res. 11 (4) : 4487-4500 DOI: https://doi.org/10.4238/2012.October.11.1
Cite this Article:
G.Q. Zhang, S.Y. Yang, L.L. Niu, D.W. Guo (2012). Structure and polymorphism of 16 novel Y-STRs in Chinese Han Population. Genet. Mol. Res. 11(4): 4487-4500. https://doi.org/10.4238/2012.October.11.1
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Abstract

Y-chromosome short tandem repeats (Y-STRs) are useful tools for identifying paternity origin and male-female mixed samples because of their male-specificity, haploid inheritance and relatively simplicity. We focused on novel Y-STRs deposited in the human Genome database from DYS708 to DYS726. We typed 16 male-specific Y-STRs from males of a Chinese Han population residing in Shanxi Province (north China), including DYS708-719, DYS721-723, and DYS726, but failed in typing DYS720, DYS724 and DYS725. The 16 Y-STRs, with mean gene diversity (GD) of 0.79, included three trinucleotide Y-STRs (711, 718, 719), nine tetranucleotide STRs (708, 709, 710, 712, 713, 715, 722, 723, 726) and four pentanucleotide repeat STRs (714, 716, 717, 721). DYS712, consisting of eight alleles, was the most informative STR in our population, with a GD of 0.843. The STRs were classified as simple STRs and complex STRs, according to their structures based on sequencing. Genetic indexes, including allele frequencies, haplotype distribution and male-specificity were determined. The Y-STRs, especially those male-specific, tetra- and penta-nucleotide, with only one copy on Y-chromosome, and relative simple structures, such as DYS709, DYS714, DYS715, DYS716, DYS718, DYS719, and DYS726, were suggested for the future forensic DNA analysis, while DYS724 and DYS725 were not recommended for their multi-copy distribution. The population data provided putative Y-STRs for future genetic and forensic applications.

Y-chromosome short tandem repeats (Y-STRs) are useful tools for identifying paternity origin and male-female mixed samples because of their male-specificity, haploid inheritance and relatively simplicity. We focused on novel Y-STRs deposited in the human Genome database from DYS708 to DYS726. We typed 16 male-specific Y-STRs from males of a Chinese Han population residing in Shanxi Province (north China), including DYS708-719, DYS721-723, and DYS726, but failed in typing DYS720, DYS724 and DYS725. The 16 Y-STRs, with mean gene diversity (GD) of 0.79, included three trinucleotide Y-STRs (711, 718, 719), nine tetranucleotide STRs (708, 709, 710, 712, 713, 715, 722, 723, 726) and four pentanucleotide repeat STRs (714, 716, 717, 721). DYS712, consisting of eight alleles, was the most informative STR in our population, with a GD of 0.843. The STRs were classified as simple STRs and complex STRs, according to their structures based on sequencing. Genetic indexes, including allele frequencies, haplotype distribution and male-specificity were determined. The Y-STRs, especially those male-specific, tetra- and penta-nucleotide, with only one copy on Y-chromosome, and relative simple structures, such as DYS709, DYS714, DYS715, DYS716, DYS718, DYS719, and DYS726, were suggested for the future forensic DNA analysis, while DYS724 and DYS725 were not recommended for their multi-copy distribution. The population data provided putative Y-STRs for future genetic and forensic applications.