Department of Forensic Medicine, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou 510089, PR China.
Forensic Sci Int Genet. 2014 Jan;8(1):73-9. doi: 10.1016/j.fsigen.2013.07.003. Epub 2013 Sep 7.
Sex determination tests based on Amelogenin gene as part of commercial PCR multiplex reaction kits have been widely applied in forensic DNA analysis. Mutations that cause dropout of Y chromosomal Amelogenin gene (AMELY) could lead to errors in gender determination and mixture interpretation. To infer the mechanism and estimate the dropout frequency of AMELY and adjacent Y-STRs, we studied 3 samples with AMELY dropout combined with DYS458 and/or DYS456 and 37 samples with DYS456 dropout. DYS456, DYS458 and AMELY are located in the Yp11.2 region. The singleplex amplification system showed the null alleles could be caused by fragment deletion in Yp11.2 rather than a point mutation in the primer binding region. After detection of the 17 Y-STR and 77 STS markers, the deletion map showed different patterns. The DYS456-AMELY-DYS458 deletion pattern was the largest, breaking from 3.60 Mb to 8.29 Mb in the Y chromosome, and the overall frequency was 0.0077%. The AMELY-DYS458 deletion pattern was broke from 6.74 Mb to 9.17 Mb, with a 0.0155% frequency. The DYS456 negative pattern was concentrated in two main deletion regions, with a 0.8220% frequency. The frequency of all negative pattern was 0.0155%. All the AMELY-DYS458 and DYS456-AMELY-DYS458, and 92% of the DYS456 deletion patterns belonged to Hg O3, the rest belonged to Hg Q. The DYS456 deletion pattern was first reported in Chinese population. The current and previous findings suggest additional gender test for ambiguous sex determination may be required.
基于 Amelogenin 基因的性别鉴定测试已作为商业 PCR 多重反应试剂盒的一部分广泛应用于法医 DNA 分析。导致 Y 染色体 Amelogenin 基因(AMELY)缺失的突变可能导致性别鉴定和混合解释错误。为了推断机制并估计 AMELY 和相邻 Y-STR 的缺失频率,我们研究了 3 个 AMELY 缺失并伴有 DYS458 和/或 DYS456 的样本,以及 37 个 DYS456 缺失的样本。DYS456、DYS458 和 AMELY 位于 Yp11.2 区域。单重扩增系统显示,无效等位基因可能是由于 Yp11.2 中的片段缺失而不是引物结合区域的点突变引起的。在检测了 17 个 Y-STR 和 77 个 STS 标记后,缺失图谱显示出不同的模式。DYS456-AMELY-DYS458 缺失模式最大,从 Y 染色体上的 3.60 Mb 断裂到 8.29 Mb,总体频率为 0.0077%。AMELY-DYS458 缺失模式从 6.74 Mb 断裂到 9.17 Mb,频率为 0.0155%。DYS456 阴性模式集中在两个主要缺失区域,频率为 0.8220%。所有阴性模式的频率为 0.0155%。所有 AMELY-DYS458 和 DYS456-AMELY-DYS458,以及 92%的 DYS456 缺失模式属于 Hg O3,其余属于 Hg Q。DYS456 缺失模式首次在中国人群中报道。目前和以前的研究结果表明,可能需要对性别不确定的个体进行额外的性别测试。
