Institute of Forensic Medicine, West China School of Basic Medical Sciences & Forensic Medicine, Sichuan University, Chengdu 610041, China.
School of Forensic Medicine, Southern Medical University, Guangzhou 510515, China.
Forensic Sci Int Genet. 2022 Nov;61:102786. doi: 10.1016/j.fsigen.2022.102786. Epub 2022 Oct 8.
Y-chromosomal haplogroups determined by Y-chromosomal single nucleotide polymorphisms (Y-SNPs) allow paternal lineage identification and paternal biogeographic ancestry inference, which has attracted a lot of interest in the forensic community. Recently, a comprehensive Y-SNP tool with dominant markers targeting haplogroups in R, E and I branches has been reported, which allows the inference of 640 Y haplogroups. It had a very good performance and could provide a high level of Y haplogroup resolution in most populations. However, the predominant haplogroups in the Chinese populations are O, C and N, suggesting that more Y-SNPs under these clades are needed to achieve the population-specific high resolution. Herein, aiming at the Chinese population, we presented a largely improved custom Y-SNP MPS panel that contains 256 carefully ascertained Y-SNPs based on our previous studies, and evaluated this panel via a series of tests, including the tests for concordance, repeatability, sensitivity, specificity, and stability, as well as the mixture, degraded and case-type sample analysis. The preliminary developmental validation demonstrated that this panel was highly reliable, sensitive, specific, and robust. In the sensitivity test, even when the DNA input was reduced to as low as 0.5 ng, the sample could still be assigned to the correct Y haplogroup. For mixture analysis, even the 1:99 (Male: Female) mixtures had no effects on the assignation of the Y haplogroup of the male contributor. In summary, this assay has provided a high-resolution Y-chromosomal haplogrouping workflow to determine a male's paternal lineage and/or paternal biogeographic ancestry and could be widely used for Chinese Y-chromosomal haplogroups dissection.
Y 染色体单核苷酸多态性(Y-SNPs)确定的 Y 染色体单倍型可用于父系血统鉴定和父系生物地理祖先推断,这在法医学领域引起了广泛关注。最近,报道了一种具有主导标记的综合 Y-SNP 工具,该工具针对 R、E 和 I 分支中的单倍型,可推断出 640 个 Y 单倍型。它具有非常好的性能,可以为大多数人群提供高水平的 Y 单倍型分辨率。然而,中国人群中主要的单倍型是 O、C 和 N,这表明需要更多这些分支下的 Y-SNPs 来实现特定人群的高分辨率。在此,针对中国人群,我们提出了一个经过大量改进的定制 Y-SNP MPS 面板,该面板包含 256 个根据我们之前的研究精心确定的 Y-SNPs,并通过一系列测试对其进行了评估,包括一致性、可重复性、灵敏度、特异性和稳定性测试,以及混合、降解和案例类型样本分析。初步的开发验证表明,该面板非常可靠、敏感、特异和稳健。在灵敏度测试中,即使 DNA 输入降低到低至 0.5ng,仍能将样本正确分配到正确的 Y 单倍型。对于混合分析,即使是 1:99(男性:女性)的混合样本也不会影响男性供体 Y 单倍型的分配。总之,该检测法提供了一种高分辨率的 Y 染色体单倍型分析工作流程,用于确定男性的父系血统和/或父系生物地理祖先,可广泛用于中国 Y 染色体单倍型分析。
