{"title":"利用全转录组枪式测序从低模板血液样本中识别个体","authors":"Alberte Honoré Jepsen, Marie-Louise Kampmann, Stine Bøttcher Jacobsen, Claus Børsting, Jeppe Dyrberg Andersen","doi":"10.1016/j.fsigen.2024.103089","DOIUrl":null,"url":null,"abstract":"<div><p>Biological trace samples consisting of very few cells pose a challenge to conventional forensic genetic DNA analysis. RNA may be an alternative to DNA when handling low template samples. Whereas each cell only contains two copies of an autosomal DNA segment, the transcriptome retains much of the genomic variation replicated in abundant RNA fragments. In this study, we describe the development of a prototype RNA-based SNP selection set for forensic human identification from low template samples (50 pg gDNA). Whole blood from a subset of the Danish population (41 individuals) and blood stains subjected to degradation at room temperature for up to two weeks were analysed by whole transcriptome shotgun sequencing. Concordance was determined by DNA genotyping with the Infinium Omni5–4 SNP chip. In the 100 protein-coding genes with the most reads, 5214 bi-allelic SNPs with gnomAD minor allele frequencies > 0.1 in the African/African American, East Asian, and (non-Finnish) European populations were identified. Of these, 24 SNPs in 21 genes passed screening in whole blood and degraded blood stains, with a resulting mean match probability of 4.5 ∙ 10<sup>−9</sup>. Additionally, ancestry informative SNPs and SNPs in genes useful for body fluid identification were identified in the transcriptome. 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引用次数: 0
摘要
由极少数细胞组成的生物痕量样本对传统的法医 DNA 分析构成了挑战。在处理低模板样本时,RNA 可以替代 DNA。每个细胞只包含常染色体 DNA 片段的两个拷贝,而转录组保留了大量复制在丰富的 RNA 片段中的基因组变异。在本研究中,我们介绍了基于 RNA 的 SNP 选择集原型的开发情况,用于从低模板样本(50 pg gDNA)中进行法医人类鉴定。我们通过全转录组枪法测序分析了丹麦人口(41 人)的全血和在室温下降解长达两周的血迹。使用 Infinium Omni5-4 SNP 芯片进行 DNA 基因分型,确定一致性。在读数最多的 100 个蛋白质编码基因中,确定了 5214 个双等位 SNPs,这些 SNPs 在非洲/非裔美国人、东亚人和(非芬兰裔)欧洲人群中的 gnomAD 小等位基因频率为 > 0.1。其中,21 个基因中的 24 个 SNPs 通过了全血和降解血迹的筛选,得出的平均匹配概率为 4.5 ∙ 10-9。此外,在转录组中还发现了祖先信息 SNP 和用于体液鉴定的基因 SNP。因此,对低模板样本中的 RNA 进行散弹枪测序可用于大量法医遗传学目的,包括同时进行人体和体液鉴定,从而直接鉴定已鉴定体液中的捐献者。
Identification of individuals from low template blood samples using whole transcriptome shotgun sequencing
Biological trace samples consisting of very few cells pose a challenge to conventional forensic genetic DNA analysis. RNA may be an alternative to DNA when handling low template samples. Whereas each cell only contains two copies of an autosomal DNA segment, the transcriptome retains much of the genomic variation replicated in abundant RNA fragments. In this study, we describe the development of a prototype RNA-based SNP selection set for forensic human identification from low template samples (50 pg gDNA). Whole blood from a subset of the Danish population (41 individuals) and blood stains subjected to degradation at room temperature for up to two weeks were analysed by whole transcriptome shotgun sequencing. Concordance was determined by DNA genotyping with the Infinium Omni5–4 SNP chip. In the 100 protein-coding genes with the most reads, 5214 bi-allelic SNPs with gnomAD minor allele frequencies > 0.1 in the African/African American, East Asian, and (non-Finnish) European populations were identified. Of these, 24 SNPs in 21 genes passed screening in whole blood and degraded blood stains, with a resulting mean match probability of 4.5 ∙ 10−9. Additionally, ancestry informative SNPs and SNPs in genes useful for body fluid identification were identified in the transcriptome. Consequently, shotgun sequencing of RNA from low template samples may be used for a vast host of forensic genetics purposes, including simultaneous human and body fluid identification, leading to direct donor identification in the identified body fluid.
期刊介绍:
Forensic Science International: Genetics is the premier journal in the field of Forensic Genetics. This branch of Forensic Science can be defined as the application of genetics to human and non-human material (in the sense of a science with the purpose of studying inherited characteristics for the analysis of inter- and intra-specific variations in populations) for the resolution of legal conflicts.
The scope of the journal includes:
Forensic applications of human polymorphism.
Testing of paternity and other family relationships, immigration cases, typing of biological stains and tissues from criminal casework, identification of human remains by DNA testing methodologies.
Description of human polymorphisms of forensic interest, with special interest in DNA polymorphisms.
Autosomal DNA polymorphisms, mini- and microsatellites (or short tandem repeats, STRs), single nucleotide polymorphisms (SNPs), X and Y chromosome polymorphisms, mtDNA polymorphisms, and any other type of DNA variation with potential forensic applications.
Non-human DNA polymorphisms for crime scene investigation.
Population genetics of human polymorphisms of forensic interest.
Population data, especially from DNA polymorphisms of interest for the solution of forensic problems.
DNA typing methodologies and strategies.
Biostatistical methods in forensic genetics.
Evaluation of DNA evidence in forensic problems (such as paternity or immigration cases, criminal casework, identification), classical and new statistical approaches.
Standards in forensic genetics.
Recommendations of regulatory bodies concerning methods, markers, interpretation or strategies or proposals for procedural or technical standards.
Quality control.
Quality control and quality assurance strategies, proficiency testing for DNA typing methodologies.
Criminal DNA databases.
Technical, legal and statistical issues.
General ethical and legal issues related to forensic genetics.
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