Development of a 39 MM‐InDel multiplex assay for the forensic application

• Published in: Electrophoresis Vol. 45; no. 5-6; pp. 505 - 516
• Main Authors: Yao, Yining, Ji, Qiqi, Li, Zhimin, Zhou, Zhihan, Qian, Jinglei, Ji, Lili, Sun, Kuan, Xie, Jianhui
• Format: Journal Article
• Language: English
• Published: Germany Wiley Subscription Services, Inc 01.03.2024
• Subjects: Asian People; Assaying; capillary electrophoresis; China; forensic genetics; Forensic Genetics - methods; Gene Frequency - genetics; Genetics, Population; Genomes; Humans; INDEL Mutation; multiplex amplification; Multiplexing; multi‐allelic InDel; multi‐InDel; Mutation; Polymorphism; Polymorphism, Genetic; Populations; China; multiplex amplification; multi-InDel; multi-allelic InDel; capillary electrophoresis; forensic genetics
• ISSN: 0173-0835; 1522-2683; 1522-2683
• DOI: 10.1002/elps.202300181

Insertion/deletion polymorphisms (InDels) are a category of highly prevalent markers in the human genome, characterized by their distinctive attributes, including short amplicon sizes and low mutation rates, which have shown great potential in forensic applications. Multi‐allelic InDel and multi‐InDel markers, collectively abbreviated as MM‐InDels, were developed to enhance polymorphism by the introduction of novel alleles. Nevertheless, the relatively low mutation rates of InDels, coupled with the founder effect, result in distinct allele frequency distributions among populations. The divergent characteristics of InDels in different populations also pose challenges to the establishment of universally efficient InDel multiplex assays. To enhance the system efficiency of the InDel assay and its applicability across diverse populations, 39 MM‐InDels with high polymorphism in five different ancestry superpopulations were selected from the 1000 Genomes Project dataset and combined with an amelogenin gender marker to construct a multiplex assay (named MMIDplex). The combined power of discrimination and the cumulative probability of exclusion of 39 MM‐InDels were 1 − 1.3 × 10−23 and 1 − 9.83 × 10−6 in the Chinese Han population, and larger than 1–10−19 and 1–10−4 in the reference populations, relatively. These results demonstrate that the MMIDplex assay has the potential to obtain sufficient power for individual identification and paternity test in global populations.