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Forensic Science International. Genetics Mar 2023Several studies have demonstrated that DNA can be indirectly transferred from an individual onto a surface. Therefore, the presence of DNA that is compatible with a...
Several studies have demonstrated that DNA can be indirectly transferred from an individual onto a surface. Therefore, the presence of DNA that is compatible with a given person does not necessarily mean that this person has touched the surface on which the DNA was recovered. The present work simulates cases, where DNA is recovered on a door handle and compared to several reference DNA profiles. The DNA profile of the trace shares DNA components with a person of interest (POI). When asked about the DNA results, the POI says he has nothing to do with the incident and has never been at the scene. However, a possibility would be that the DNA came from his recently stolen gloves. Someone else, the alternative offender (AO), could have opened the door wearing his gloves (POI's gloves), and transferred his DNA (POI's DNA). Based on the above-mentioned scenario, 60 burglary simulations experiments were carried out to generate data to assess DNA results given these allegations. The quantity and quality of DNA profiles (NGM SElect) recovered when the POI opened/closed the door bare-handed or when someone else performed the same activity but using POI's gloves, were compared. The gloves were regularly worn during at least three months by their owner during the winter. On the contrary, the AO wore them only for two minutes. Among the traces collected on the door handles, less than 50% of the traces led to interpretable DNA profiles. In 30% of the cases (3/10), when the door was opened/closed with bare hands, the DNA found on the door handle led to a mixed DNA profile with the POI's DNA aligning with the major contributor. For the experiments where the AO opened/closed the door with the POI's gloves, the POI's DNA was compatible with 22% (11/50) of the mixed DNA profile, aligning with the major in 8% of the cases (4/50). The DNA profiles of the offices' occupants were observed on the door handles, but not the AO's. In addition to the results of the experiments, we show two examples of how one can assess results observed in casework. Given the possibility of indirect transfer of minute DNA quantities, this research emphasizes the need to evaluate DNA results given the activities when the POI has a legitimate reason that can explain the presence of their DNA.
Topics: Humans; Male; DNA Fingerprinting; Touch; DNA; Hand; Criminals
PubMed: 36563530
DOI: 10.1016/j.fsigen.2022.102823 -
Electrophoresis Nov 2018Epigenetics is an emerging area of interest in forensic science. DNA methylation, a type of epigenetic modification, can be applied to chronological age estimation,... (Review)
Review
Epigenetics is an emerging area of interest in forensic science. DNA methylation, a type of epigenetic modification, can be applied to chronological age estimation, identical twin differentiation and body fluid identification. However, there is not yet an agreed, established methodology for targeted detection and analysis of DNA methylation markers in forensic research. Recently, a massively parallel sequencing-based approach has been suggested. The use of massively parallel sequencing is well established in clinical epigenetics and is emerging as a new technology in the forensic field. This review investigates the potential benefits, limitations, and considerations of this technique for the analysis of DNA methylation in a forensic context. The importance of a robust protocol, regardless of the methodology used, which minimizes potential sources of bias is highlighted.
Topics: DNA; DNA Fingerprinting; DNA Methylation; Epigenesis, Genetic; Forensic Genetics; High-Throughput Nucleotide Sequencing; Humans
PubMed: 29750476
DOI: 10.1002/elps.201800086 -
Forensic Science International. Genetics Sep 2022In sexual assault cases, it can be challenging to identify the type of body fluids/ cell types present in a crime scene sample, especially the origin of epithelial...
In sexual assault cases, it can be challenging to identify the type of body fluids/ cell types present in a crime scene sample, especially the origin of epithelial cells. Therefore, more labs are applying mRNA body fluid analysis for saliva, skin and vaginal mucosa markers. To address activity level propositions, it is necessary to assign probabilities of transfer, persistence, prevalence and recovery of DNA and mRNA markers. In this study we analysed 158 samples (fingernail swabs, penile swabs and boxershorts) from 12 couples collected at different time points post intimate contact and after non-intimate contact in order to detect DNA from the person of interest (POI) and mRNA vaginal mucosa markers. Samples were DNA and RNA co-extracted and analysed with PowerPlex®Fusion 6C System and 19-plex mRNA primer mix respectively, using Endpoint PCR and the CE platform. Vaginal mucosa was detected up to 36 h post intimate contact, but also detected in one non-intimate contact sample. In 94% of intimate contact and 50 % of non-intimate contact samples the DNA results support the proposition that POI is the donor (LR ≥ 10,000). There was a strong association between the detection of vaginal mucosa and the average RFU value of the POI. The data were used to instantiate a comprehensive Bayesian network to evaluate the evidence at activity level, given alternate propositions conditioned upon indirect or direct transfer events. It is shown that the value of the evidence is mainly affected by the high DNA quantity (measured as mean RFU) that is recovered from the POI. The detection of vaginal mucosa had low impact upon the resultant likelihood ratio.
Topics: Bayes Theorem; DNA; DNA Fingerprinting; Female; Humans; Mucous Membrane; RNA, Messenger
PubMed: 35914368
DOI: 10.1016/j.fsigen.2022.102750 -
Scientific Reports Jul 2021We address computational and statistical aspects of DNA-based identification of victims in the aftermath of disasters. Current methods and software for such...
We address computational and statistical aspects of DNA-based identification of victims in the aftermath of disasters. Current methods and software for such identification typically consider each victim individually, leading to suboptimal power of identification and potential inconsistencies in the statistical summary of the evidence. We resolve these problems by performing joint identification of all victims, using the complete genetic data set. Individual identification probabilities, conditional on all available information, are derived from the joint solution in the form of posterior pairing probabilities. A closed formula is obtained for the a priori number of possible joint solutions to a given DVI problem. This number increases quickly with the number of victims and missing persons, posing computational challenges for brute force approaches. We address this complexity with a preparatory sequential step aiming to reduce the search space. The examples show that realistic cases are handled efficiently. User-friendly implementations of all methods are provided in the R package dvir, freely available on all platforms.
Topics: DNA Fingerprinting; Disaster Victims; Female; Humans; Male; Pedigree; Probability; Software
PubMed: 34211052
DOI: 10.1038/s41598-021-93071-5 -
Forensic Science, Medicine, and... Jun 2023We report on a process to record the presence and the location of osteocyte nuclei using two nucleic staining dyes, Diamond™ Nucleic Acids Dye (DD) and DAPI...
We report on a process to record the presence and the location of osteocyte nuclei using two nucleic staining dyes, Diamond™ Nucleic Acids Dye (DD) and DAPI (4',6-diamidino-2-phenylindole). Knowledge of the presence and number of osteocytes is key to any success in subsequent DNA profiling. Osteocytes are most numerous cells and thus the main source of DNA in bone samples, which can be preserved for histological analyses. Archived samples are either fixed in formalin or preserved in ethanol prior to embedding in resin. These resin-embedded samples are potentially used as ante mortem reference samples. Cases of a missing person investigation are one example where this type of preserved reference material may be of value. When resin is required for sample preservation it represents a problem for subsequent DNA profiling, if needed as a reference sample in human identification. It is essential therefore to remove the resin prior to DNA analyses as resin is a known inhibitor of DNA profiling. Current methods of resin removal are lengthy and require toxic chemicals. This report describes a simplified process to remove resin and visualise the location of nucleated osteocytes. Eight sections of bone samples at 5-µm thickness were stained with DD and DAPI. A further three samples were processed using a formalin-fixed method and three additional samples treated following an ethanol-preserved method (11 samples for both the formalin-fixed and 11 for the ethanol-preserved with eight in common). The location and number of nuclei could be recorded clearly due to the fluorescence created by the dye binding to DNA. The number of stained nuclei correlated with the mass of DNA isolated from the sections (r = 0.873, p = 1.21 × 10). A significant difference between the degradation indices of two groups (p = 8.505 × 10) showed that ethanol preservation is a preferred method to yield DNA of the quality needed for subsequent short tandem repeats (STR) profiling. Ten of the 11 samples isolated using the ethanol-preserved process recorded a complete STR profile (30/30 alleles), whereas eight of the formalin-fixed samples generated full profiles, and only one of the 11 samples amplified less than 23 alleles. Both the ethanol-preserved and formalin-fixed methods are an improvement on current methods by removing the need for strong solutes in resin removal, and the method leads to STR profiles from resin-embedded bone samples within 24 h.
Topics: Humans; Osteocytes; DNA; Formaldehyde; Bone and Bones; Coloring Agents; Ethanol; DNA Fingerprinting; Microsatellite Repeats
PubMed: 36401783
DOI: 10.1007/s12024-022-00559-1 -
Journal of Forensic Sciences Jul 2022The prevalence of sexual assault cases and increasingly sensitive DNA analysis methods have resulted in sexual assault kit backlogs in the United States. Although...
The prevalence of sexual assault cases and increasingly sensitive DNA analysis methods have resulted in sexual assault kit backlogs in the United States. Although traditional DNA extraction and purification utilizing detergents, proteinase K, and DTT have been the primary technique for lysing sperm cell fractions from these samples, it is labor-intensive and inefficient regarding time and sperm DNA recovery - hindering the ability of forensic analysts to keep pace with evidence submissions. Thus, this study examined seven alternative sperm cell lysis techniques to develop a method that could efficiently lyse sperm and consistently generate high-quality profiles while also reducing time, labor, and cost requirements. Microscopic examination of lysates indicated only Casework Direct and alkaline techniques could lyse all spermatozoa within samples, while quantification results demonstrated all methods performed comparably to the control method of forensicGEM™ Sperm (p > 0.06). Amplification with 0.25 ng DNA revealed that unpurified lysates from Casework Direct, alkaline, and NP-40 techniques produced DNA profiles with acceptable mean STR peak heights and interlocus balance, both of which were similar to or better than the control. Overall, this study demonstrated the ability of Casework Direct, alkaline, and NP-40 methods to efficiently lyse spermatozoa and provide high-quality STR profiles despite the absence of a purification step. Ultimately, based on the data reported herein, alkaline lysis is the recommended alternative sperm lysis approach given its ability to generate high-quality profiles, save time, and decrease the cost per reaction when compared to traditional sperm cell lysis methods.
Topics: DNA; DNA Fingerprinting; Humans; Male; Microsatellite Repeats; Semen; Sex Offenses; Specimen Handling; Spermatozoa
PubMed: 35285573
DOI: 10.1111/1556-4029.15027 -
Forensic Science International. Genetics Sep 2015The introduction of Short Tandem Repeat (STR) DNA was a revolution within a revolution that transformed forensic DNA profiling into a tool that could be used, for the... (Review)
Review
The introduction of Short Tandem Repeat (STR) DNA was a revolution within a revolution that transformed forensic DNA profiling into a tool that could be used, for the first time, to create National DNA databases. This transformation would not have been possible without the concurrent development of fluorescent automated sequencers, combined with the ability to multiplex several loci together. Use of the polymerase chain reaction (PCR) increased the sensitivity of the method to enable the analysis of a handful of cells. The first multiplexes were simple: 'the quad', introduced by the defunct UK Forensic Science Service (FSS) in 1994, rapidly followed by a more discriminating 'six-plex' (Second Generation Multiplex) in 1995 that was used to create the world's first national DNA database. The success of the database rapidly outgrew the functionality of the original system - by the year 2000 a new multiplex of ten-loci was introduced to reduce the chance of adventitious matches. The technology was adopted world-wide, albeit with different loci. The political requirement to introduce pan-European databases encouraged standardisation - the development of European Standard Set (ESS) of markers comprising twelve-loci is the latest iteration. Although development has been impressive, the methods used to interpret evidence have lagged behind. For example, the theory to interpret complex DNA profiles (low-level mixtures), had been developed fifteen years ago, but only in the past year or so, are the concepts starting to be widely adopted. A plethora of different models (some commercial and others non-commercial) have appeared. This has led to a confusing 'debate' about the 'best' to use. The different models available are described along with their advantages and disadvantages. A section discusses the development of national DNA databases, along with details of an associated controversy to estimate the strength of evidence of matches. Current methodology is limited to searches of complete profiles - another example where the interpretation of matches has not kept pace with development of theory. STRs have also transformed the area of Disaster Victim Identification (DVI) which frequently requires kinship analysis. However, genotyping efficiency is complicated by complex, degraded DNA profiles. Finally, there is now a detailed understanding of the causes of stochastic effects that cause DNA profiles to exhibit the phenomena of drop-out and drop-in, along with artefacts such as stutters. The phenomena discussed include: heterozygote balance; stutter; degradation; the effect of decreasing quantities of DNA; the dilution effect.
Topics: DNA; DNA Fingerprinting; Databases, Nucleic Acid; Forensic Genetics; Genetics, Population; Genotyping Techniques; Humans; Microsatellite Repeats; Multiplex Polymerase Chain Reaction; White People
PubMed: 25866376
DOI: 10.1016/j.fsigen.2015.03.014 -
Scientific Reports Jul 2019Variability in efficacy and safety is a worldwide concern with commercial probiotics for their growing and inevitable use in food and health sectors. Here, we introduce...
Variability in efficacy and safety is a worldwide concern with commercial probiotics for their growing and inevitable use in food and health sectors. Here, we introduce a probiotic thermophysical fingerprinting methodology using a coupling thermogravimetry and differential scanning calorimetry. Qualitative and quantitative information on the material decomposition and transition phases is provided under heating conditions. By monitoring the changes in both mass and internal energy over temperature and time, a couple of thermal data at the maximum decomposition steps allow the creation of a unique and global product identity, depending on both strain and excipient components. We demonstrate that each powder formulation of monostrain and multistrain from different lots and origins have a unique thermophysical profile. Our approach also provides information on the formulation thermostability and additive/excipient composition. An original fingerprint form is proposed by converting the generated thermal data sequence into a star-like pattern for a perspective library construction.
Topics: Biometric Identification; Calorimetry, Differential Scanning; DNA Fingerprinting; Excipients; Phenotype; Powders; Probiotics; Thermodynamics; Thermogravimetry
PubMed: 31292519
DOI: 10.1038/s41598-019-46469-1 -
Electrophoresis Nov 2018DNA sequencing, starting with Sanger's chain termination method in 1977 and evolving into the next generation sequencing (NGS) techniques of today that employ massively... (Review)
Review
DNA sequencing, starting with Sanger's chain termination method in 1977 and evolving into the next generation sequencing (NGS) techniques of today that employ massively parallel sequencing (MPS), has become essential in application areas such as biotechnology, virology, and medical diagnostics. Reflected by the growing number of articles published over the last 2-3 years, these techniques have also gained attention in the forensic field. This review contains a brief description of first, second, and third generation sequencing techniques, and focuses on the recent developments in human DNA analysis applicable in the forensic field. Relevance to the forensic analysis is that besides generation of standard STR-profiles, DNA repeats can also be sequenced to look for polymorphisms. Furthermore, additional SNPs can be sequenced to acquire information on ancestry, paternity or phenotype. The current MPS systems are also very helpful in cases where only a limited amount of DNA or highly degraded DNA has been secured from a crime scene. If enough autosomal DNA is not present, mitochondrial DNA can be sequenced for maternal lineage analysis. These developments clearly demonstrate that the use of NGS will grow into an indispensable tool for forensic science.
Topics: DNA; DNA Fingerprinting; Forensic Genetics; High-Throughput Nucleotide Sequencing; Humans; Microsatellite Repeats; Polymorphism, Single Nucleotide
PubMed: 30101986
DOI: 10.1002/elps.201800082 -
Forensic Science International. Genetics May 2022In 2014, the UK Forensic Science Regulator (FSR) commissioned a collaborative trial to assess the methods used by forensic service providers (FSPs) in the UK and Ireland...
In 2014, the UK Forensic Science Regulator (FSR) commissioned a collaborative trial to assess the methods used by forensic service providers (FSPs) in the UK and Ireland for analysis, interpretation and reporting of mixed DNA profiles. Five different mixed samples of varying complexity with supporting mock case circumstances were tested using SGMPlus™ and the newly introduced DNA-17(+) multiplexes and reported by participating laboratories. The results demonstrated a high degree of consistency in analytical methods and allele designations, but some variation in the statistical evaluation and reporting of results. Some of the differences noted were attributable to the major technology change to 17(+)-STR systems which had recently been implemented across the UK at that time. The FSR made recommendations based on the trial outcomes which were intended to produce a more consistent approach to mixtures analysis, interpretation and reporting. Four years later, the Association of Forensic Science Providers (AFSP) repeated the trial, with all major UK and Ireland FSPs (both public sector and private companies) again participating. This second trial used the same mixture set as the 2014 trial but was focussed on the methods for interpretation and evaluation. Since 2014, all UK and Ireland FSPs have implemented probabilistic statistical software using continuous models enabling statistical evaluation of more complex mixtures than was possible in 2014. The trial was therefore aimed at investigating the value of these improved capabilities and also to investigate if there appeared to be marked differences between the different software tools in use in the UK. The results demonstrate a high degree of concordance within and between FSPs and across different evaluation models, and will provide important support for the use of such models in evaluation of mixed DNA profiles.
Topics: DNA; DNA Fingerprinting; Humans; Ireland; Laboratories; Microsatellite Repeats; United Kingdom
PubMed: 35180458
DOI: 10.1016/j.fsigen.2022.102674