Estimation of age at death based on quantitation of the 4977-bp deletion of human mitochondrial DNA in skeletal muscle

The 4977-bp deletion in human mitochondrial DNA (mtDNA) is known to accumulate in various tissues with age. Since this deletion in mtDNA correlates closest with age in muscle tissue, iliopsoas muscle tissue was taken at autopsy from 50 persons aged 24-97 years to determine whether age at death can be estimated based on the amount of the 4977-bp deletion in skeletal muscle. Total DNA (nuclear and mtDNA) was extracted from 100 mg tissue and the 4977-bp deletion quantified using a kinetic polymerase chain reaction (PCR) followed by visualization of the products on silver stained polyacrylamide gels. The amount of the 4977-bp deletion of mtDNA ranged from 0.00049% to 0.14% depending on age, with a correlation coefficient of r = 0.83 (P = 0.0001). In forensic practice this method can aid in the estimation of age at death with a relatively wide confidence interval, thus enabling a discrimination between young and elderly persons in the identification of human remains based solely on skeletal muscle.     

Quantification of mitochondrial DNA in human blood cells using an automated detection system

The 4977 bp deletion of mitochondrial DNA (mtDNA) accumulates in postmitotic tissues with advancing age. The purpose of our study was to detect and quantify these deletion even in blood cells with a high turnover activity. Whole venous blood, isolated human platelets and peripheral blood mononuclear cells (PBMCs) were collected from 10 unrelated donors aged 20-71 years and total DNA was extracted. PCR was performed for total and mutated mtDNA using two different primer pairs and two fluorogenic probes labeled with the fluorescent dyes FAM and VIC. Specific PCR products were generated, detected and quantified in a real-time PCR. The amplification products of total and deleted mtDNA could be detected in each sample and did not exhibit any differences in the amount of the deleted mtDNA in whole blood, human platelets or PBMCs. Our data did not show any accumulation of the 4977 bp deletion with increasing age as it was observed for several other tissues.     

Real-time PCR designs to estimate nuclear and mitochondrial DNA copy number in forensic and ancient DNA studies

We explore different designs to estimate both nuclear and mitochondrial human DNA (mtDNA) content based on the detection of the 5' nuclease activity of the Taq DNA polymerase using fluorogenic probes and a real-time quantitative PCR detection system. Human mtDNA quantification was accomplished by monitoring the real-time progress of the PCR-amplification of two different fragment sizes (113 and 287 bp) within the hypervariable region I (HV1) of the mtDNA control region, using two fluorogenic probes to specifically determine the mtDNA copy of each fragment size category. This mtDNA real-time PCR design has been used to assess the mtDNA preservation (copy number and degradation state) of DNA samples retrieved from 500 to 1500 years old human remains that showed low copy number and highly degraded mtDNA. The quantification of nuclear DNA was achieved by real-time PCR of a segment of the X-Y homologous amelogenin (AMG) gene that allowed the simultaneous estimation of a Y-specific fragment (AMGY: 112 bp) and a X-specific fragment (AMGX: 106 bp) making possible not only haploid or diploid DNA quantitation but also sex determination. The AMG real-time PCR design has been used to quantify a set of 57 DNA samples from 4-5 years old forensic bone remains with improved sensitivity compared with the slot-blot hybridization method. The potential utility of this technology to improve the quality of some PCR-based forensic and ancient DNA studies (microsatellite typing and mtDNA sequencing) is discussed.     

mtDNA—HVⅠ和细胞色素b片段的复合扩增及其法医学应用

目的探讨复合扩增mtDNA D环HV I和细胞色素b片段进行种属鉴定和个体识别的方法及mtDNA-HV I多态性。方法用两对引物同步扩增HV I片段与细胞色素b片段,银染显带检测扩增产物,ABI377测序仪及荧光测序技术分析扩增产物序列多态性。结果人类有279bp,358bp两条带,动物只有358bp一条带。通过对131例随机广东汉族人群个体进行mtDNA控制区(15997～16236))序列测定统计,得出此区域的序列多态性。共发现69个位点变异,平均每个个体存在2.679个碱基突变,检出67个单倍型,基因多样性为97.92％。结论mtDNA控制区(15997—16236)具有较高的序列多态性。为良好的个体识别标记。复合扩增mtDNA D环HV I与细胞色素b片段进行测序分析可以同步进行种属鉴定和个体识别。     

血细胞线粒体DNA4977缺失与年龄的相关性

目的检测不同年龄组人活体血细胞线粒体DNA4977碱基缺失情况及其与年龄的相关性。方法根据Anderson标准序列设计mtDNA恒定区和mtDNA4977特异缺失区引物,采用实时荧光定量PCR技术,对110份不同年龄组人活体血细胞mtDNA4977缺失水平进行检测。结果在23岁以下个体中未检出mtDNA4977缺失,在大于23岁的被检个体中检测到mtDNA4977缺失,年龄越大,越容易检测到缺失。结论人mtDNA4977缺失与年龄有一定的相关性。     

Detection and quantification of the age-related point mutation A189G in the human mitochondrial DNA

Mutation analysis in the mitochondrial DNA (mtDNA) control region is widely used in population genetic studies as well as in forensic medicine. Among the difficulties linked to the mtDNA analysis, one can find the detection of heteroplasmy, which can be inherited or somatic. Recently, age-related point mutation A189G was described in mtDNA and shown to accumulate with age in muscles. We carried out the detection of this 189 heteroplasmic point mutation using three technologies: automated DNA sequencing, Southern blot hybridization using a digoxigenin-labeled oligonucleotide probe, and peptide nucleic acid (PNA)/real-time PCR combined method on different biological samples. Our results give additional information on the increase in mutation frequency with age in muscle tissue and revealed that the PNA/real-time PCR is a largely more sensitive method than DNA sequencing for heteroplasmy detection. These investigations could be of interest in the detection and interpretation of mtDNA heteroplasmy in anthropological and forensic studies.     

武汉地区汉族人群线粒体DNA Region V区9bp片段缺失多态性

目的 研究武汉地区汉族群体线粒体DNA RegionV区9bp片段缺失多态性.方法 PCR扩增后采用银染技术分离片段,检测武汉地区汉族群体线粒体DNA RegionV区9bp片段缺失的频率.结果 在武汉地区汉族239个无关个体中发现标准型、缺失型两种多态类型,9bp片段缺失频率为17.15％.结论 武汉地区汉族群体在DNA RegionV区9bp片段存在缺失多态性.     

线粒体DNA和端粒与年龄相关性的研究进展

用DNA技术从分子水平上推断年龄,已成为法医学和人类学研究领域的新热点。目前用于年龄推断研究的DNA标记主要是线粒体和端粒。本文从线粒体DNA和端粒的概念、线粒体DNA的缺失和突变、端粒长度变化与年龄的相关性等方面对该领域的研究进展进行了综述。旨在为法医实践及进一步的研究提供新的方法和思路。     

实时DNA定量技术的应用研究

通过应用TaqMan探针法和SYBR Green荧光染料法对常见的法医生物学检材进行DNA定量,对实时荧光定量PCR技术用于法庭科学样品定量检测的适用性进行研究。实验结果表明,该技术在DNA定量及抑制因素评估等方面具有重要的法医学应用价值。     

人骨骼肌线粒体DNA4977片段缺失与年龄的相关性调查

目的 探讨人骨骼肌组织中线粒体DNA 4977bp片段的缺失情况及其与年龄的相关性.方法 收集105例不同年龄死者的骨骼肌组织,抽提MDT,通过CPR、琼脂糖紫外凝胶成像等技术,测定不同年龄组线粒体DNA 4977bp片段的缺失情况.结果 在105例样品中,不同年龄组(0～9、10～19、20～29、30～39、40～49、50～59、60～69、70～79、80～89、90～99岁)mtDNA4977片段缺失的频率分别为:0、0、0.003%、0.011%、0.015%、0.033%、0.038%、0.062%、0.069%、0.091%.结论 人骨骼肌线粒体DNA 4977bp片段的缺失频率随着年龄的增长而增高,各年龄组之间具有显著差异(P《0.01).该缺失片段的检测对于软组织年龄推测具有一定指导意义.     

原发性心肌病猝死心肌mtDNA~(4977)缺失变化

目的探讨原发性心肌病(PCM)猝死者心肌线粒体DNA(m tDNA4977)缺失情况及其与猝死的关系。方法对18例PCM猝死和28例对照组病例心肌组织蜡块,用常规方法提取心肌m tDNA,以PCR、琼脂糖紫外凝胶成像技术确定扩增产物激光密度,初步定量检测m tDNA4977缺失率。结果PCM猝死18例中,检见13例m tDNA4977缺失,占72.44%。对照组28例中,检见3例m tDNA4977缺失,占10.71%;两组病例m tDNA4977缺失率均值分别为0.5795和0.0744,差异有非常显著性意义。结论多数PCM,特别是扩张型心肌病猝死者心肌可检见m tDNA4977缺失;提示其心肌m tDNA4977缺失变化与PCM猝死的发生可能有一定关系。     

Discrimination between human and animal DNA: application of a duplex polymerase chain reaction to forensic identification

Identification of a report's species is one of the basic analyses in forensic laboratories. The authors report the case of 6 bone fragments recovered in a wooded area, which were not attributable to 1 animal species on the basis of morphologic examination. The aim of this study was to develop a duplex polymerase chain reaction (PCR) to discriminate human and animal origin of bone fragments. The method is based on the PCR amplification of cytochrome b and a 16S ribosomal mitochondrial DNA fragment, which has never been tested up to now. Our protocol combines a single-round PCR with direct visualization of amplicons in agarose gel, without sequencing analysis of the PCR products. The presence of a single band (359 bp) indicates a nonhuman origin of the sample, whereas 2 bands (157 and 359 bp) indicate a human biologic sample.This method revealed to be useful for forensic purposes because the 16S ribosomal mitochondrial DNA is a small human-specific fragment that is easily amplifiable even with degraded DNA from biologic materials such as old bones.     

Integration of the AmpFlSTR Identifiler PCR Amplification Kit with SRY-specific primers for gender identification

Dropout of the amelogenin Y-specific allele due to an interstitial deletion of the Yp involving the amelogenin Y locus (AMELY) can cause misidentification of sex genotype with potentially serious consequences in personal identification processes and criminal investigations. Inclusion of additional sex-defining markers in forensic DNA typing kits is therefore advisable. In this study, the co-amplification of the sex-determining region Y (SRY) gene and 16 STR loci included in the AmpFlSTR Identifiler PCR Amplification Kit was evaluated. Combination of SRY and Identifiler primers did not compromise the amplification outcome and generated a 90 bp male-specific SRY fragment, showing a reproducible peak height ratio in comparison with the AMELY peak. The SRY peak was detectable in presence of amounts of template DNA as low as 125 pg, and in mixed samples with a male/female DNA ratio of 1:100.     

Reliable and Robust Molecular Sexing of the Hen Harrier (Circus cyaneus) Using PCR‐RFLP Analysis of the CHD 1 Gene

The hen harrier (Circus cyaneus) is a bird of prey that is persecuted in the United Kingdom, and there is a need for a DNA‐based individual identification and sexing system for the use in forensic investigations. This study reports a new set of PCR primers for the chromo‐helicase‐DNA‐binding protein 1 gene, which allows sexing using PCR‐RFLP. Instead of exonic primers that amplify across a large intron, this set consists of a primer within the intron, enabling reduction in amplicon sizes from 356 to 212 bp and 565 to 219 bp in W and Z chromosomes. DNA degradation and dilution experiments demonstrate that this set is significantly more robust than one that amplifies across the intron, and sequencing of the intronic primer‐binding region across several individuals shows that it is highly conserved. While our objective is to incorporate this primer set into an STR‐based individualization kit, it may in the meantime prove useful in forensic or conservation studies.     

A molecular identification system for grasses: a novel technology for forensic botany

Our present inability to rapidly, accurately and cost-effectively identify trace botanical evidence remains the major impediment to the routine application of forensic botany. Grasses are amongst the most likely plant species encountered as forensic trace evidence and have the potential to provide links between crime scenes and individuals or other vital crime scene information. We are designing a molecular DNA-based identification system for grasses consisting of several PCR assays that, like a traditional morphological taxonomic key, provide criteria that progressively identify an unknown grass sample to a given taxonomic rank. In a prior study of DNA sequences across 20 phylogenetically representative grass species, we identified a series of potentially informative indels in the grass mitochondrial genome. In this study we designed and tested five PCR assays spanning these indels and assessed the feasibility of these assays to aid identification of unknown grass samples. We confirmed that for our control set of 20 samples, on which the design of the PCR assays was based, the five primer combinations produced the expected results. Using these PCR assays in a 'blind test', we were able to identify 25 unknown grass samples with some restrictions. Species belonging to genera represented in our control set were all correctly identified to genus with one exception. Similarly, genera belonging to tribes in the control set were correctly identified to the tribal level. Finally, for those samples for which neither the tribal or genus specific PCR assays were designed, we could confidently exclude these samples from belonging to certain tribes and genera. The results confirmed the utility of the PCR assays and the feasibility of developing a robust full-scale usable grass identification system for forensic purposes.     

Common mitochondrial DNA deletion associated with sudden natural death in adults

One of the most frequent causes of death in developed countries is sudden natural death (SND), which is the most common indication for medico-legal autopsies. Cardiac diseases are frequently detected among SND. Mitochondrial DNA (mtDNA) is easily damaged by reactive oxygen species, and it may cause dysfunction in tissues, leading to early events in cardiovascular disease. A specific mtDNA deletion of 4977 bp is associated to aging, myocardial dysfunction, and bioenergetic deficit. The potential link between mtDNA damage and SND has not been investigated before. Our aim was to evaluate the accumulation of the common mtDNA4977-deletion in cardiac muscle samples from autopsies of SND in adults (n = 14) in comparison to control samples from unnatural deaths (n = 12). Serial dilution-polymerase chain reaction method was performed to estimate the proportion of the total mtDNA harboring the mtDNA4977-deletion. Coefficient variation intra-assay was 8%, and inter-assay was 12%. MtDNA4977-deletion percentage was higher in samples obtained from victims of SND than in those from subjects who died of unnatural causes (p < 0.05). No differences in mtDNA4977-deletion were found between SND victims 39-51 years old, and no correlation was found between these samples and age, r = 0.30, p = 0.29 while it was significant among control samples, r = 0.68, p < 0.05. The association between mtDNA4977 deletion with SND victims might offer a tool to provide additional information to clarify complex SND investigations.     

线粒体高变区多聚C-stretch序列长度多态性

目的研究线粒体高变区多聚C-stretch序列长度多态性,并探讨其在法医学个体识别中的价值。方法针对线粒体高变区nt16180及nt310两个位点采用文献报道引物,应用直接测序技术研究其等位基因分布及频率。结果两对引物扩增长度分别为807bp和962bp,nt16180位点检测到7种基因型,其中AAAACCCCCTCCCC基因型占87.72%,AAAACCCCCCCCCCCCC基因型在汉族人群中首次报道;nt310检测到7种基因型,其中CCCCCCCCTCCCCCC基因型占60.53%;联合两个位点共检测出15种单倍型,GD值为0.6309,其中AAAACCCCCTCCCC-CCCCCCCCTCCCCCC检测出66条,达到57.89%。结论为线粒体控制区DNA在法医学领域中的应用提供基础数据,证实了线粒体nt16180位点和nt310位点单倍型在线粒体DNA鉴定中有较好的应用价值。     

Improved MtDNA sequence analysis of forensic remains using a "mini-primer set" amplification strategy

Mitochondrial DNA (mtDNA) analysis of highly degraded skeletal remains is often used for forensic identification due largely to the high genome copy number per cell. Literature from the "ancient DNA" field has shown that highly degraded samples contain populations of intact DNA molecules that are severely restricted in size (1-4). Hand et al. have demonstrated the targeting and preferential amplification of authentic human DNA sequences with small amplicon products of 150 bp or less (1,2). Given this understanding of ancient DNA preservation and amplification, we report an improved approach to forensic mtDNA analysis of hypervariable regions 1 and 2 (HV1/HV2) in highly degraded specimens. This "mini-primer set" (MPS) amplification strategy consists of four overlapping products that span each of the HV regions and range from 126 to 170 bp, with an average size of 141 bp. For this study, 11 extracts representing a range of sample quality were prepared from nonprobative forensic specimens. We demonstrate a significant increase in MPS amplification success when compared to testing methods using approximately 250 bp amplicons. Further, 16 of 17 independent amplifications previously "unreported" due to mixed sequences provided potentially reportable sequence data from a single, authentic template with MPS testing.     

Nuclear and mitochondrial DNA quantification of various forensic materials

Due to the different types and quality of forensic evidence materials, their DNA content can vary substantially, and particularly low quantities can impact the results in an identification analysis. In this study, the quantity of mitochondrial and nuclear DNA was determined in a variety of materials using a previously described real-time PCR method. DNA quantification in the roots and distal sections of plucked and shed head hairs revealed large variations in DNA content particularly between the root and the shaft of plucked hairs. Also large intra- and inter-individual variations were found among hairs. In addition, DNA content was estimated in samples collected from fingerprints and accessories. The quantification of DNA on various items also displayed large variations, with some materials containing large amounts of nuclear DNA while no detectable nuclear DNA and only limited amounts of mitochondrial DNA were seen in others. Using this sensitive real-time PCR quantification assay, a better understanding was obtained regarding DNA content and variation in commonly analysed forensic evidence materials and this may guide the forensic scientist as to the best molecular biology approach for analysing various forensic evidence materials.     

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.