Swabbing firearms for handler's DNA

Obtaining quality DNA profiles from firearms can be instrumental in assisting criminal investigations. Typically, swabbings of firearms for handler's DNA are conducted on specific regions of the firearm prior to submission to the laboratory for analysis. This review examines and compares 32 cases whose gun swabbings were either analyzed individually according to the specific region which was swabbed, or analyzed collectively by combining the swabbings from all the individual areas. Those firearms whose swabs were analyzed separately exhibited lower DNA yields and consequently fewer loci exhibiting genotypes. Those cases whose swabs were analyzed collectively exhibited higher DNA yields and consequently greater numbers of loci exhibiting genotypes. These findings demonstrate that collective swabbings result in more complete profiles and lead to the recommendation that a firearm be swabbed in its entirety using no more than two swabs.     

FaSTR DNA: A new expert system for forensic DNA analysis

The automation of DNA profile analysis of reference and crime samples continues to gain pace driven in part by a realisation by the criminal justice system of the positive impact DNA technology can have in aiding in the solution of crime and the apprehension of suspects. Expert systems to automate the profile analysis component of the process are beginning to be developed. In this paper, we report the validation of a new expert system FaSTR DNA, an expert system suitable for the analysis of DNA profiles from single source reference samples and from crime samples. We compare the performance of FaSTR DNA with that of other equivalent systems, GeneMapper™ ID v3.2 (Applied Biosystems, Foster City, CA) and FSS-i³ v4 (The Forensic Science Service^® DNA expert System Suite FSS-i³, Forensic Science Service, Birmingham, UK) with GeneScan^® Analysis v3.7/Genotyper^® v3.7 software (Applied Biosystems, Foster City, CA, USA) with manual review. We have shown that FaSTR DNA provides an alternative solution to automating DNA profile analysis and is appropriate for implementation into forensic laboratories. The FaSTR DNA system was demonstrated to be comparable in performance to that of GeneMapper™ ID v3.2 and superior to that of FSS-i³ v4 for the analysis of DNA profiles from crime samples.     

国产磁珠Wawasye试剂盒在法医DNA中应用

目的探讨国产磁珠Wawasye试剂盒在法医DNA检案中的应用效果。方法利用475份各类常见生物检材测试其效果,并与M48磁珠试剂盒作比较。结果国产磁珠Wawasye试剂盒与M48磁珠试剂盒在检验各类常见生物检材的结果无显著性差异。结论国产磁珠Wawasye试剂盒适用于公安机关DNA实验室。     

Evaluation of five DNA extraction systems for recovery of DNA from bone

Five DNA extraction systems were assessed for their DNA extraction efficiency on samples of fresh pig bone. Four commercially available silica-based extraction kits (ChargeSwitch^® gDNA Plant Kit (Life Technologies), DNA IQ^TM System Kit (Promega), DNeasy^® Blood & Tissue Kit (Qiagen) and PrepFiler^® BTA Forensic DNA Extraction Kit (Life Technologies)) and a conventional phenol-chloroform method were tested in this study. Extracted DNA samples were quantitated with GoTaq^® qPCR Master Mix (Promega) using an Applied Biosystems^® 7500 Real-Time PCR System and the extracts were amplified using an in-house multiplex system. The phenol-chloroform extraction produced higher yields of DNA than the silica-based extraction methods. Among the silica-based extractions ChargeSwitch^® gDNA Plant Kit recovered the highest amounts of DNA. However, all methods produced DNA that could be amplified and none of the extracts contained any detectable inhibition.     

克隆牛的DNA鉴定

目的建立26个多态性STR标记,进行克隆牛的鉴定。方法采用荧光标记PCR引物,进行PCR扩增,应用GeneScan技术分析26个牛的微卫星基因座遗传多态性。结果26对荧光标记引物均能对上述样品很好地扩增出DNA产物,并得到清晰的条带。根据实验观察到的数据计算,体细胞克隆牛供体奶牛与克隆小奶牛的偶合率为3.31×10-15,认定它们为相同来源;在所检测的26个微卫星标记中,体细胞克隆牛供体奶牛、克隆小奶牛与克隆小奶牛代孕荷斯坦母亲的基因型在21个标记上不符合母子遗传关系,可以排除其亲子关系。结论有助于今后开展对珍稀动物或家畜被盗的案件鉴定工作。     

从聚丙烯酰胺凝胶中回收DNA片段直接PCR的简易方法

将聚丙烯酸胺凝胶中ＤＮＡ片段于ＰＣＲ缓冲液中电洗脱，加入ＰＣＲ反应试剂，直接扩增目的ＤＮＡ作进一步分析，ＤＮＡ片段回收效率为０．８９±０．０５，本方法简便、快速。     

国产法医DNA检验试剂耗材检测DNA标准品的准确性研究

目的利用法医DNA标准品对自主研发的法医DNA检验试剂耗材进行电泳检测准确性的实验考查。方法实验平台分为2个：平台1全部由美国AppliedBiosystems公司进口的3130xl遗传分析仪、16道电泳毛细管与甲酰胺、电泳缓冲液、凝胶构成;平台2由AppliedBiosystems公司进口的3130xl遗传分析仪、16道电泳毛细管与本实验室研发的甲酰胺、电泳缓冲液、凝胶构成。在实验平台上对allelicladder、内标等标准品以及阳性对照9947a的STR复合扩增产物进行电泳检测,利用GeneMapper软件对电泳结果进行分析。结果自主研发的法医DNA检验试剂耗材可与国外进口的3130xl遗传分析仪配套使用,构建的实验平台对法医DNA标准品的检测结果准确无误。结论自主研发的甲酰胺、电泳缓冲液、凝胶等法医DNA检验试剂耗材检测准确性达到了国外同类产品水平。     

"Sexing" deoxyribonucleic acid (DNA) on DNA fingerprint gel: an internal control for DNA fingerprint evidence

Deoxyribonucleic acid (DNA) isolated from male and female fresh blood samples was processed exactly as for routine DNA fingerprint analysis; that is, the DNA was digested with particular restriction endonucleases and fractionated by agarose gel electrophoresis. Ultraviolet (UV) visualization of ethidium-bromide (EtBr)-stained gels revealed a sex-specific banding pattern, which depended only on the restriction enzyme used. By means of this test, which is based on direct detection of particular sex-specific restriction fragments in human DNA digests, the authors succeeded in determining the sex of DNA obtained from biological specimens recovered as criminal evidence in rape cases. The data obtained demonstrate that direct sexing of DNA on DNA fingerprint gel appears to be useful as an intermediate control step in DNA fingerprinting analysis used for the purpose of assailant identification.     

DNA Purification Cell Lysis and Wash Step Modifications for Low-Template DNA Sample Processing,

As DNA technology becomes increasingly sensitive, forensic laboratories are receiving more low-template DNA samples. These samples, already low in DNA content, become even more challenging to process as the available DNA becomes further reduced during the extraction step. In this study, two extraction modifications were tested to determine if the cause of DNA loss could be identified and mitigated. A double lysis technique was used to test for DNA loss in the sample collection substrate, and lysate eluates were re-extracted to determine DNA loss from inefficient binding to the silica column. Both modifications showed DNA was lost at these steps. However, resulting STR profiles from these samples had fewer peaks and lower peak heights when compared to samples processed with no extraction modifications. Overall, the potential benefits of adding these extraction modifications for low-template DNA sample processing are not enough to justify the risk associated with additional manipulation.     

Evaluating probabilistic genotyping for low-pass DNA sequencing

Most genomic methods consider the sample genotype. Data are evaluated at some location, and if the signal strength is sufficient, a genotype call is made. Conversely, sites that lack sufficient signal are treated as missing data. Such methods for genotype calling are binary, and this dichotomy limits genomic analyses to relatively high-coverage (and high-cost) massively parallel sequencing (MPS) data. It follows that bioinformatic methods that rely on genotypes may not be ideal for trace DNA samples, such as those sometimes encountered in forensic investigations, but even when applicable such analyses can be expensive. However, there are some genomic analyses where having many uncertain genotypes (with measured uncertainty) assayed over the entirety of the genome may be more powerful than current multi-locus approaches that consider a limited number of well-characterized markers. Methods for such problems may rely on genotype likelihood, which expresses the likelihood of alternative genotype calls in addition to the most likely call. One application that can benefit from genotype likelihoods is kinship analysis. NgsRelate is a bioinformatic tool that infers pairwise relatedness using a probabilistic genotyping framework, which accommodates the uncertainty associated with genotype calls for low-pass MPS data. Here, NgsRelate was used to infer kinship coefficients from low-pass whole genome sequencing data from a known pedigree. Multiple samples in a titration series (ranging from 50 ng to 0.5 ng) on a single MPS S4 flow cell were assessed. A reproducible scientific bioinformatic workflow was developed to evaluate kinship coefficients considering up to 3rd degree relatives. NgsRelate was found to provide robust assessments of kinship. Further, the use of low-pass MPS data provides a more cost-effective way to conduct forensic investigations.     

混合斑的DNA分型解析

综述了常染色体STR、Amelogenin、Y染色体STR、线粒体DNA和单核苷酸多态性等DNA检测方法在解释混合斑检验结果应用中的进展。对混合斑的统计学方法也作了总结。     

Quadruplex real-time PCR for forensic DNA quantitation

Forensic DNA quantitation is an important initial step preceding PCR amplification of the STR loci even though information concerning the quality of the DNA is not revealed. A quadruplex real-time PCR (qPCR) assay was developed to quantify four DNA targets: (1) the human RB1 gene in nuclear DNA, (2) the DAZ gene present on the human Y chromosome, (3) the ATPase8 gene present in human mitochondrial DNA and (4) an artificial internal positive control to reveal possible PCR inhibition. Primers labeled with four different fluorophores are used together with a single quencher using the antiprimer quenching-based qPCR method in one reaction, in which the resultant amplicons are less than 127 bp in size. Sensitivity was shown to be less than ten copies for all four targets in the absence of amplification inhibition. The amplification remained sensitive in the presence of an excess of non-human DNA.     

Y染色体法医DNA检验策略

法医DNA检验在实际工作中发挥了重要作用,其中针对Y染色体进行的DNA检验,可以开展家系排查和辅助父系亲缘鉴定,为案件侦查提供重要线索。本文针对Y染色体DNA检验,讨论完整利用染色体具有的信息,制定整体检验策略,以期为相关研究和试剂盒开发研制提供参考。     

A DNA microarray system for forensic SNP analysis

Forensic DNA analysis is routinely performed using polymorphic short tandem repeat (STR) markers. However, for degraded or minute DNA samples, analysis of autosomal single nucleotide polymorphisms (SNPs) in short fragments might be more successful. Furthermore, sequencing of mitochondrial DNA (mtDNA) is often performed on highly degraded or scarce samples due to the high copy number of mtDNA in each cell. Due to the increasing number of complete mtDNA genome sequences available, the limited discrimination power of an mtDNA analysis, may be increased by analysis of coding region polymorphisms in addition to the non-coding variation. Since sequence analysis of the coding region would require more material than generally present in forensic samples, an alternative SNP analysis approach is required. We have developed a one-colour microarray-based SNP detection system for limited forensic materials. The method is based on minisequencing in solution prior to hybridisation to universal tag-arrays. In a first outline of a forensic chip, a combination of 12 nuclear and 21 mitochondrial SNP markers are analysed simultaneously. The mitochondrial markers on the chip are polymorphisms within the hypervariable region as well as in the coding region. Even though the number of markers in the current system is limited, it can easily be extended to yield a greater power of discrimination. When fully developed, microarray analysis provides a promising system for efficient sensitive SNP analysis of forensic samples in the future.