National Research Institute of Police Science, Kashiwa, Chiba, Japan.
mSystems. 2024 Nov 19;9(11):e0103824. doi: 10.1128/msystems.01038-24. Epub 2024 Oct 29.
The high specificity of the human skin microbiome is expected to provide a new marker for personal identification. Metagenomic sequencing of clustered regularly interspaced short palindromic repeats (CRISPRs), which we call metaCRISPR typing, was shown to achieve personal identification accurately. However, the intra-individual variability observed in previous studies, which may be due to poor DNA yields from skin samples, has resulted in non-reproducible results. Furthermore, whether metaCRISPR typing can assist in the forensic human DNA analysis of low-biomass samples, from which the information obtained is insufficient, is unknown. In the present study, we sequenced serially diluted control streptococcal CRISPRs cloned into plasmids to determine the minimum copy number required to obtain reproducible results from metaCRISPR typing. We found that at least 10 copies of CRISPRs are necessary to obtain reproducible results. We then analyzed the skin swab samples using both metaCRISPR typing and human DNA typing. When the DNA extracted from the skin swabs was diluted, no information was obtained from six out of eight samples by human DNA typing. On the other hand, beta diversity indices of spacer sequences compared with reference samples were below 0.8 for three out of six samples, for which no information was obtained from human DNA analysis, indicating that the spacers observed in these samples were similar to those in the references. These results indicate that metaCRISPR typing may contribute to the identification of individuals from whom the samples were obtained, even in cases where human DNA yields are insufficient to perform human DNA analysis.IMPORTANCEPrevious studies have developed new personal identification methods utilizing personal differences in the skin microbiome. However, intra-individual diversity of skin microbiome may preclude the application of microbiome-based personal identification. Moreover, no study has compared microbiome-based personal identification and practical human DNA analysis. Here, we revealed that the results of metaCRISPR typing, a previously developed microbiome-based personal identification method, are stable if the copy number of the marker gene is sufficient. We then analyzed the skin swab samples using both metaCRISPR typing and human DNA analysis. Our results indicate that metaCRISPR typing may provide additional information for personal identification using low-biomass samples that cannot be used for conventional human DNA analysis.
人类皮肤微生物组的高度特异性有望提供新的个体识别标记。通过对簇状规律间隔短回文重复序列(CRISPRs)进行宏基因组测序,我们称之为元 CRISPR 分型,已被证明可以准确实现个体识别。然而,之前的研究观察到个体内的变异性,这可能是由于从皮肤样本中提取的 DNA 产量不足所致,导致结果不可重复。此外,元 CRISPR 分型是否可以辅助低生物量样本的法医人类 DNA 分析,目前尚不清楚。在本研究中,我们对克隆到质粒中的连续稀释的对照链球菌 CRISPR 进行测序,以确定从元 CRISPR 分型中获得可重复结果所需的最小拷贝数。我们发现至少需要 10 个 CRISPR 拷贝才能获得可重复的结果。然后,我们使用元 CRISPR 分型和人类 DNA 分型分析皮肤拭子样本。当从皮肤拭子中提取的 DNA 稀释时,人类 DNA 分型无法从八个样本中的六个样本中获得信息。另一方面,与参考样本相比,六个样本中有三个样本的间隔序列的 beta 多样性指数低于 0.8,对于这些样本,人类 DNA 分析未获得信息,表明在这些样本中观察到的间隔与参考样本中的间隔相似。这些结果表明,即使在 DNA 产量不足以进行人类 DNA 分析的情况下,元 CRISPR 分型也可能有助于识别样本来源的个体。
