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STRSeqTyper122试剂盒和FASTASeq 300二代测序仪在亲缘关系鉴定中的应用效能评估

陈智1,2,冯耀森2,许惠2,孟庆振2,张驰2,康克莱2,童诗雨2,3,张哲2叶健1,2,王乐1,2   

  • 收稿日期:2025-12-13 修回日期:2026-02-14 出版日期:2026-03-20 发布日期:2026-03-20
  • 通讯作者:

    叶健,博士,主任法医师,研究方向:法医遗传学。E-mailyejian77@126.com    

    王乐,博士,警务技术正高级,研究方向:法医遗传学。E-mail: wangle_02@163.com
  • 基金资助:
    公安部技术研究计划项目(编号:2025JSYJC10)和中央级公益性科研院所基本科研业务费(编号:2024JB046[Supported by the Technical Research Program of the Ministry of Public Security of China (No. 2025JSYJC10)and the Institute of Forensic Science of the Ministry of Public Security of China ( No. 2024JB046)]

Application efficacy evaluation of the STRSeqTyper122 kit and the FASTASeq 300 second generation sequencer in kinship identification

Zhi Chen1,2Yaosen Feng2Hui Xu2Qingzhen Meng2Chi Zhang2Kelai Kang2Shiyu Tong2,3Zhe Zhang2Jian Ye1,2Le Wang1,2   

  1. 1. School of Forensic Medicine, Shanxi Medical University, Jinzhong 030600, China

    2. Key Laboratory of Forensic Genetics of Ministry of Public Security, Institute of Forensic Science,,Ministry of Public Security, Beijing 100038, China

    3. School of Forensic Medicine, Kunming Medical University, Kunming 650500, China

  • Received:2025-12-13 Revised:2026-02-14 Published:2026-03-20 Online:2026-03-20

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摘要:

法医DNA技术是亲缘关系鉴定的首选方法,然而已有标准方法可准确鉴定的亲缘关系范围仍存在一定局限,我国自主研发的二代测序技术装备有望提升法医DNA亲缘关系鉴定能力。本研究联合使用STRSeqTyper122二代测序STR分型试剂盒FASTASeq 300二代测序仪对107份真实亲缘关系样本的63个常染色体STR基因座、42Y-STR基因座和16X-STR基因座以及1个性别判断基因座Amel进行检测。这些样本共计包含了113对亲子、48对全同胞、76对叔侄、66对祖孙、4对半同胞等不同的亲缘关系,结合模拟数据,应用ITO法基于常染色体STR基因座的长度多态性与序列多态性分型,计算不同等级亲缘关系的累积亲缘指数,系统评估该体系在亲缘关系鉴定中的实际应用效能。结果显示,以log10CLR4-4为阈值,在真实亲子关系和全同胞关系鉴定中的系统效能为100%;在二级亲缘关系鉴定中,基于模拟数据长度多态性的系统效能为55.2%,序列多态性的系统效能达75.11%,基于真实样本长度多态性的系统效能为54.45%,序列多态性的系统效能达76.71%。本研究结果表明,STRSeqTyper122试剂盒在一级亲缘关系鉴定中具有重要价值,基于序列多态性可使二级亲缘关系鉴定效能提升至75%以上。

关键词: 法医遗传学, 常染色体STR, 亲缘关系鉴定, 二代测序

Abstract:

Forensic DNA technology is the method of choice for kinship identification. However, existing standard methods still have certain limitations in accurately determining the range of kinship relationships. China's independently developed second generation sequencing technology and equipment are expected to enhance the capability of forensic DNA kinship identification. In this study, we utilized the STRSeqTyper122 second generation sequencing STR typing kit and the FASTASeq 300 second generation sequencer to analyze 107 real kinship samples. The analysis included 63 autosomal STR loci, 42 Y-STR loci, 16 X-STR loci, and one gender-determining locus, Amel. The samples covered various kinship relationships, including 113 parent-child pairs, 48 full-sibling pairs, 76 uncle-nephew pairs, 66 grandparent-grandchild pairs, and 4 half-sibling pairs. Combined with simulated data, the ITO method was applied to calculate the cumulative likelihood ratio (CLR) for different levels of kinship based on the length polymorphism and sequence polymorphism of autosomal STR loci, systematically evaluating the practical application performance of this system in kinship identification. The results showed that, using log10CLR values of 4 and -4 as thresholds, the system achieved 100% efficiency in identifying real parent-child and full-sibling relationships. For second degree kinship identification, the system efficiency based on simulated length polymorphism data was 55.2%, while sequence polymorphism improved it to 75.11%. For real sample data, length polymorphism based efficiency was 54.45%, and sequence polymorphism based efficiency reached 76.71%. The findings indicate that the STRSeqTyper122 kit holds significant value in first degree kinship identification. Sequence polymorphism can improve second degree kinship identification efficiency to over 75%.

Key words: forensic geneticsautosomal STR, kinship identification, second generation sequencing

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