Xiaohua Ling, Shuang Han, Xinyi Lin, Zhaochen Bai, Nan Zhang, Jiayue Li, Huan Wang, Xueling Ou
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引用次数: 0
摘要
在严重犯罪案件中,犯罪者的 DNA 样本具有挑战性(例如,混合物中的次要贡献者),因此有理由将不同的混合物图谱结合起来。在之前的研究中,我们开发了一种基于大规模平行测序(MPS)的检测方法,目标是 140 个微单体型标记。在本研究中,我们将微单体型面板的使用扩展到了常见的情况,如在没有参考源的情况下确定是否存在共同的贡献者或不同混合物特征之间的亲缘关系。数据解释使用 R 软件包 KinMix 进行。我们的研究结果表明,在相对平衡的混合物之间,共同贡献者和亲缘关系的分配是正确的。然而,当等位基因不平衡时,包容性分配与嫌疑人的混合物比例显著相关。此外,我们的分析表明在所研究的情况下假阳性率为零。这些结果表明,微单体型数据可以可靠地用于识别不同混合物中的共同捐献者或相关捐献者。基于更大样本量的进一步研究可能会得出更可靠的结果,这将有助于解决涉及多种混合特征的复杂情况的相关问题。
Applications of Probabilistic Genotyping Method for Combining Evidence Across Microhaplotype DNA Mixture Profiles.
In cases of serious crimes that involve challenging DNA samples from the perpetrator (e.g., a minor contributor to a mixture), there is justification to combine different mixture profiles. In our previous study, we developed a massively parallel sequencing (MPS)-based assay targeting 140 microhaplotype markers. In this study, we extended the use of the microhaplotype panel to common scenarios, such as determining the presence of a common contributor or relatedness between different mixture profiles when no reference source is available. Data interpretation was performed using the R package KinMix. Our findings revealed that correct assignments of a common contributor and relatedness were made between relatively balanced mixtures. However, when profiles suffered from allele imbalance, inclusive assignments were significantly associated with the suspect's mixture proportion. Additionally, our analysis showed zero false-positive rates in the studied scenarios. These results indicate that microhaplotype data can be reliably interpreted for identifying a common donor or related donors among different mixtures. Further research based on larger sample sizes may yield more reliable results, which could assist in solving issues related to complex scenarios where multiple mixed profiles were involved.
期刊介绍:
ELECTROPHORESIS is an international journal that publishes original manuscripts on all aspects of electrophoresis, and liquid phase separations (e.g., HPLC, micro- and nano-LC, UHPLC, micro- and nano-fluidics, liquid-phase micro-extractions, etc.).
Topics include new or improved analytical and preparative methods, sample preparation, development of theory, and innovative applications of electrophoretic and liquid phase separations methods in the study of nucleic acids, proteins, carbohydrates natural products, pharmaceuticals, food analysis, environmental species and other compounds of importance to the life sciences.
Papers in the areas of microfluidics and proteomics, which are not limited to electrophoresis-based methods, will also be accepted for publication. Contributions focused on hyphenated and omics techniques are also of interest. Proteomics is within the scope, if related to its fundamentals and new technical approaches. Proteomics applications are only considered in particular cases.
Papers describing the application of standard electrophoretic methods will not be considered.
Papers on nanoanalysis intended for publication in ELECTROPHORESIS should focus on one or more of the following topics:
• Nanoscale electrokinetics and phenomena related to electric double layer and/or confinement in nano-sized geometry
• Single cell and subcellular analysis
• Nanosensors and ultrasensitive detection aspects (e.g., involving quantum dots, "nanoelectrodes" or nanospray MS)
• Nanoscale/nanopore DNA sequencing (next generation sequencing)
• Micro- and nanoscale sample preparation
• Nanoparticles and cells analyses by dielectrophoresis
• Separation-based analysis using nanoparticles, nanotubes and nanowires.
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