Development of a one-tube extraction and amplification method for DNA analysis of sperm and epithelial cells recovered from forensic samples by laser microdissection

Laser microdissection can be used in forensic casework to isolate specific cell types from mixtures of biological samples. Extraction of DNA from selected cells is still required prior to STR amplification. Because of the relatively pristine nature of the recovered cells, laser microdissection is more sensitive than more traditional methods of DNA analysis, theoretically resulting in DNA profiles from less cellular material. A one-tube extraction and amplification method minimises loss of DNA through liquid transfers and reduces the potential for contamination events occurring. In this paper, the development of a one-tube method for the effective extraction of DNA from laser microdissected sperm and epithelial cells is described. The performance of the in-house method was compared to that of a commercial DNA extraction kit for extraction of DNA from sperm and the downstream compatibility with STR amplification was determined for both sperm and epithelial samples. Full Identifiler™ profiles after 28 amplification cycles were obtained from as few as 15 epithelial cells and 30 sperm.     

The Use of Laser Microdissection in Forensic Sexual Assault Casework: Pros and Cons Compared to Standard Methods

Sexual assault samples are among the most frequently analyzed in a forensic laboratory. These account for almost half of all samples processed routinely, and a large portion of these cases remain unsolved. These samples often pose problems to traditional analytic methods of identification because they consist most frequently of cell mixtures from at least two contributors: the victim (usually female) and the perpetrator (usually male). In this study, we propose the use of current preliminary testing for sperm detection in order to determine the chances of success when faced with samples which can be good candidates to undergo analysis with the laser microdissection technology. Also, we used laser microdissection technology to capture fluorescently stained cells of interest differentiated by gender. Collected materials were then used for DNA genotyping with commercially available amplification kits such as Minifiler, Identifiler Plus, NGM, and Y‐Filer. Both the methodology and the quality of the results were evaluated to assess the pros and cons of laser microdissection compared with standard methods. Overall, the combination of fluorescent staining combined with the Minifiler amplification kit provided the best results for autosomal markers, whereas the Y‐Filer kit returned the expected results regardless of the used method.     

Laser microdissection separation of pure spermatozoa from epithelial cells for short tandem repeat analysis

Short tandem repeat (STR) analysis is a valuable tool in identifying the source of biological stains, particularly from the investigation of sexual assault crimes. Difficulties in analysis arise primarily in the interpretation of mixed genotypes when cell separation of the sexual assailant's sperm from the victim's cells is incomplete. The forensic community continues to seek improvements in cell separation methods from mixtures for DNA typing. The feasibility of applying laser microdissection (LMD) technology to precisely separate sexual assault cell mixtures by visual inspection coupled with laser dissection was assessed through three experiments. First, various histological stains were evaluated for use with LMD and DNA analysis. Second, different DNA isolation methods were evaluated on LMD-collected cells. Finally, STR analysis was performed on LMD-separated sperm cells from mixtures of semen and female buccal epithelial cells. The results indicated (a) hematoxylin/eosin staining performed best in its ability to differentiate sperm and epithelial cells while exhibiting the least negative effect on further downstream analysis; (b) both QIAamp and Lyse-N-Go methods were useful for recovery of DNA from LMD-collected sperm cells; and (c) LMD separation provided clear STR profiles of the male donor with the absence of any additional alleles from the female donor. This report describes an efficient, low-manipulation LMD method for the efficient separation of spermatozoa from two-donor sperm/epithelial cell mixtures.     

激光捕获显微分离技术及其法医学研究进展

激光捕获显微分离技术(laser capture m icrod issection,LCM)是一项显微捕获分离单个细胞和多个细胞的自动化新技术,本文综述了其在法医学领域的研究新进展。经过研究和实践,它将在法医学实践中解决混合和微量物证的DNA检验难题中发挥重要作用。     

Demonstration of a gastric bioptic specimen mix-up by laser capture microdissection (LCM) and DNA fingerprinting

We demonstrate here the successful use of laser capture microdissection (LCM) and DNA fingerprinting in the identification of a case of gastric bioptic specimen mix-up. A 70-year-old man, suffering from chronic atrophic gastritis, underwent to a gastric biopsy and received a diagnosis of gastric cancer. In the absence of any clinical evidence of gastric cancer, a specimen mix-up was suspected. LCM was used to retrieve gastric cells from the histologic slide, classified as gastric carcinoma, and suspected to be mislabelled. DNA was extracted from microdissected cells, and a total of 16 different genetic loci were analyzed, using an identity test. Comparison of the results with those obtained using DNA extracted from a control slide, and from patient's saliva, demonstrated a distinct DNA fingerprint pattern in all genetic markers examined, clearly indicating the occurrence of a specimen mix-up. The combined use of LCM and DNA fingerprinting represents the most accurate and sophisticated method available for the identification of specimen mix-up, especially when only the tissue on the suspected slide is available.     

低拷贝模板DNA分析技术研究进展

近年来,低拷贝（LCN）模板类生物物证在法医DNA分析中占有了越来越重要的地位。用于低拷贝模板DNA的检测方法也得到飞速发展。本文通过对各种LCN-DNA分析技术如增加扩增循环数、纯化扩增产物、全基因组扩增、激光捕获显微切割等检测方法的综述,以及对LCN—DNA检测结果的分析评价,全面介绍LCN分析技术在法庭科学应用的最新进展及存在问题。最大限度地拓展低拷贝模板类生物物证在刑事司法领域的应用。     

Typing of mitochondrial DNA from isolated cells of the human buccal epithelium

The authors have developed a method for molecular-genetic analysis of DNA from isolated cells for the purpose of forensic medical diagnostics. The method is based on the use of the laser capture microdissection (LCM) technology in combination with typing of mitochondrial DNA. Optimization of the conditions for amplification of polymorphic mtDNA loci in preparations containing minimal amounts of the genetic material was accomplished at the initial stage of the work. To this effect, the two-round polymerase chain reaction was employed that allowed the amplified material to be accumulated in the amount sufficient for sequenation. At the next stages, the system thus obtained was tested on the cell model (using isolated cells of human buccal epithelium). It was shown that the proposed method is suitable for the analysis of specific mtDNA characteristics in a single human cell.     

激光捕获显微分离技术在DNA检验中的应用研究

目的建立一套显微细胞捕获技术用于法医学生物检材DNA检验方法。方法使用VeritasTM LCM激光捕获仪,采用紫外加红外的捕获方式,对框架覆膜玻片上经苏木素染色口腔上皮细胞进行捕获,采用改良硅珠法提取细胞DNA,使用Identifiler TM试剂盒在5μL体系中进行PCR扩增。结果成功获得20个口腔上皮细胞的13个以上完整STR基因座分型谱带。结论本研究建立的方法适合法医学生物检材制成的染色涂片上细胞的DNA检验。     

A novel histological technique for distinguishing between epithelial cells in forensic casework

There are a number of forensic cases in which the identification of the epithelial cell type from which DNA originated would provide important probative evidence. This study aimed to develop a technique using histological staining of fixed cells to distinguish between skin, buccal and vaginal epithelium. First, 11 different stains were screened on formalin-fixed, wax-embedded cells from five women. Samples were analysed qualitatively by examining staining patterns (colour) and morphology (absence or presence of nuclei). Three of the staining methods – Dane's, Csaba's and Ayoub-Shklar – were successful in distinguishing skin epithelial cells from buccal and vaginal. Second, cells were smeared directly onto slides, fixed with one of five fixatives and stained with one of the three stains mentioned above. Methanol fixation, coupled with the Dane's staining method, specific to keratin, was the only technique that distinguished between all three cell types. Skin cells stained magenta, red and orange and lacked nuclei; buccal cells stained predominantly orange–pink with red nuclei; while vaginal cells stained bright orange with orange nuclei and a blue extracellular hue. This staining pattern in vaginal cells was consistent in samples collected from 50 women aged between 18 and 67. Identification of cell type from unlabelled micrographs by 10 trained observers showed a mean success rate of 95%. The results of this study demonstrate that histological staining may provide forensic scientists with a technique for distinguishing between skin, buccal and vaginal epithelial cells and thus would enable more conclusive analyses when investigating sexual assault cases.     

The probability of achieving full allelic representation for LCN-STR profiling of haploid cells

Modern forensic techniques allow DNA to be extracted from ever decreasing amounts of cellular material. Low copy number (LCN) profiling enables the production of STR profiles from small numbers of cells. Moreover, methods such as laser micro-dissection enables forensic scientists to potentially isolate individual cells for PCR. The DNA derived from haploid cells (semen) is a common source of forensic evidence in sexual assault cases. Haploid cells contain only half the DNA complement of diploid cells (3 pg compared to 6 pg). The smaller the number of cells sampled, the smaller the probability that there is a full representation of the alleles comprising the donor profile. This paper investigates the relationship between the number of cells sampled and the probability of full representation of all alleles in the donor sample. It also considers the effect of typing several loci as opposed to just a single locus.     

妇科肿瘤和乳腺癌组织常染色体和X染色体STR的突变分析

目的探讨妇科肿瘤组织和乳腺癌组织的法医学常用STR基因座突变类型和规律,以及显微切割技术在肿瘤组织法医学鉴定中的应用。方法应用Power Plex 21 System和Argus X-12试剂盒对62例乳腺癌患者,62例妇科恶性肿瘤患者,10例良性妇科肿瘤患者外周血、肿瘤组织和癌旁组织DNA样本进行复合扩增,获得STR分型,并选取存在突变的部分肿瘤组织进行显微切割。结果妇科恶性肿瘤患者外周血的STR分型与癌旁组织一致;46.77%的妇科恶性肿瘤组织中观察到4种STR突变类型,显著高于良性肿瘤的STR突变率(P0.01)和乳腺癌的STR突变率(P=0.009)。显微切割获得的间质细胞的STR分型与癌旁组织一致。结论本研究所检测的STR基因座在妇科恶性肿瘤组织中的稳定性较差,不适用于该系统肿瘤组织的法医学鉴定;显微切割技术可准确分离间质细胞,能够代表肿瘤来源个体的正常DNA分型,是解决此类案件法医学鉴定的一种有效方法。     

荧光原位杂交技术在法庭科学DNA检验中的应用

目的运用荧光原位杂交技术结合激光显微切割技术,分离法医物证男女混合样本中的男性细胞和女性细胞,并进行DNA分型。方法通过双色荧光原位杂交,Y染色体标记上绿色信号,X染色体标记上红色信号,在荧光显微镜下识别男性细胞和女性细胞,并通过激光显微切割技术分别获得男性细胞和女性细胞进行DNA分型。结果运用荧光原位杂交技术,能够分别标记法医物证男女混合样本中的男性细胞和女性细胞,并通过激光显微切割技术获得各自的DNA分型。结论荧光原位杂交技术结合激光显微切割技术,可应用于法医物证男女混合样本的检验,提高个体识别能力。     

Optimization and validation of a fully automated silica-coated magnetic beads purification technology in forensics

Automated procedures for forensic DNA analyses are essential not only for large-throughput sample preparation, but are also needed to avoid errors during routine sample preparation. The most critical stage in PCR-based forensic analysis is DNA isolation, which should yield as much highly purified DNA as possible. The extraction method used consists of pre-treatment of stains and samples, cell lysis using chaotropic reagents, binding of the DNA to silica-coated magnetic particles, followed by elution of the DNA. Our work focuses mainly on sample preparation, obtaining the maximum possible amount of biological material from forensic samples, and the following cell lysis, to create a simple standardized lysis protocol suitable for nearly all forensic material. After optimization and validation, the M-48 BioRobot((R)) workstation has been used for more than 20,000 routine lab samples. There has been no evidence of cross contamination. Resulting DNA from as small as three nuclear cells yield reliable complete STR amplification profiles. The DNA remains stable after 2 years of storage.     

激光捕获显微切割技术用于分离混合斑中精子细胞

目的 评估激光捕获显微切割(laser capture microdissection.LCM)技术在分离混合斑中少量精子细胞的应用价值.方法 配制不同比例的精液-阴道上皮细胞混合液.分别用差异裂解法和LCM法分离精子细胞,用磁珠法提取精子细胞DNA,并用IdentifilerTM试剂盒进行STR基因型检测.结果 LC...     

Use of laser microdissection greatly improves the recovery of DNA from sperm on microscope slides

Traditionally, sperms are isolated from vaginal cell mixtures by preferential extraction methods. Although these methods work well when there is a reasonable amount of DNA present, they are problematic when there are limited amounts (ca. 250 pg). In particular, the analysis of sperm from microscope slides has proven difficult. Here, we describe the use of laser capture microdissection (LM) for the isolation of spermatozoa from microscope slides containing sperms and vaginal cells. Such slides are frequently an important source of evidential material during the forensic investigation of rape and other sexual assaults. Low copy number (LCN) PCR was used to compare profiles of sperm DNA prepared using LM and preferential lysis. LM was found to outperform preferential lysis in 15 out of 16 samples. The application of LM to the processing of actual casework slides, and in particular the potential use of LM for the analysis of old cases, is discussed. Finally, 77 post-coital slides were processed in order to accurately assess the robustness of the technique. There was a significant association between the quality of the male profile recovered and time since intercourse that was independent of the number of sperms analysed, suggesting that the DNA was degraded even though the spermhead was intact.     

激光捕获显微切割技术在法医学中的应用

本文主要介绍了激光捕获显微切割技术及其在国内外法医学领域应用的研究进展,并对LCM技术解决法医学难题的应用前景进行探讨。     

Visualising latent DNA on tapes

This study reports a simple method for visualising and screening latent DNA on tapes using a Diamond™ dye (DD) staining process followed by visualisation using a portable fluorescence microscope. Ten types of tapes were tested, which include those used currently by forensic laboratories for tape-lifting. All ten types were tested for: 1) their auto-fluorescence, 2) properties when stained with DD using three different DD solutions, and 3) PCR inhibition through a direct STR amplification technique. No background fluorescence was noted viewing four types stained with 20 x DD diluted with 0.01% Triton-X. Clear tape (Sellotape®), DNA-free tape (Lovell Surgical Solutions) and brown packing tape (Packmate™) did not inhibit direct STR amplification, while the other six types showed the inhibition of the PCR. The three tapes were selected to assess their cellular material recovery efficiency by comparing the number of stained cells within an entire fingermark before and after tape-lifting. Tape-lifting was performed either once, twice or ten times. The DNA-free tape (Lovell) used in many forensic laboratories gave poor recovery compared to the clear tape (Sellotape®) and brown packing tape (Packmate™). This simple visualising technique allows the cell location to be recorded, and only the area of tape where cells are present to be removed for DNA typing. The process is a simple and effective triage procedure that reduces the processing of tape-lift samples where there are no cells present.     

Human hair histogenesis for the mitochondrial DNA forensic scientist.

Analysis of mitochondrial DNA (mtDNA) sequence from human hairs has proven to be a valuable complement to traditional hair comparison microscopy in forensic cases when nuclear DNA typing is not possible. However, while much is known about the specialties of hair biology and mtDNA sequence analysis, there has been little correlation of individual information. Hair microscopy and hair embryogenesis are subjects that are sometimes unfamiliar to the forensic DNA scientist. The continual growth and replacement of human hairs involves complex cellular transformation and regeneration events. In turn, the analysis of mtDNA sequence data can involve complex questions of interpretation (e.g., heteroplasmy and the sequence variation it may cause within an individual, or between related individuals. In this paper we review the details of hair developmental histology, including the migration of mitochondria in the growing hair, and the related interpretation issues regarding the analysis of mtDNA data in hair. Macroscopic and microscopic hair specimen classifications are provided as a possible guide to help forensic scientists better associate mtDNA sequence heteroplasmy data with the physical characteristics of a hair. These same hair specimen classifications may also be useful when evaluating the relative success in sequencing different types and/or forms of human hairs. The ultimate goal of this review is to bring the hair microscopist and forensic DNA scientist closer together, as the use of mtDNA sequence analysis continues to expand.     

激光显微捕获口腔上皮细胞的DNA分型

目的探索激光显微技术(lasercapturemicrodissectionsystem,LCM)捕获口腔上皮细胞,并进行STR-DNA分型检测的方法。方法用VERITAS显微切割仪红外低能激光显微捕获一定数量口腔上皮细胞,进行ProfilerPlus试剂盒STR复合扩增,检测DNA基因型。结果7～8个口腔上皮细胞能成功获得STR-DNA分型。3～4个口腔上皮细胞不能成功获得STR-DNA分型。结论激光显微捕获作为一种分离单个细胞的新技术,对于微量口腔上皮细胞的STR-DNA分型是可行的。     

利用AutoMate Express~(TM)自动化法医DNA提取系统提取骨骼及牙齿DNA

目的探讨建立骨骼及牙齿DNA自动化提取的新方法。方法将33份骨骼及15份牙齿样本分别用冷冻研磨和手工处理两种方法研磨成粉,采用AutoMate ExpressTM自动化法医DNA提取系统提取DNA并定量。结果 AutoMate ExpressTM自动化法医DNA提取系统能够在3h左右完成骨骼、牙齿DNA的提取,两种方法处理的骨骼样本所得DNA质量浓度差异无统计学意义。冷冻研磨处理的骨骼和牙齿样本均获得了较好的STR分型结果,且牙齿样本所得DNA质量浓度高于手工提取所得。结论应用AutoMate ExpressTM自动化法医DNA提取系统是自动化提取骨骼、牙齿DNA的一种新方法,可应用于法医实际案件检验。