The FORCE Panel: An All-in-One SNP Marker Set for Confirming Investigative Genetic Genealogy Leads and for General Forensic Applications

The FORensic Capture Enrichment (FORCE) panel is an all-in-one SNP panel for forensic applications. This panel of 5422 markers encompasses common, forensically relevant SNPs (identity, ancestry, phenotype, X- and Y-chromosomal SNPs), a novel set of 3931 autosomal SNPs for extended kinship analysis, and no clinically relevant/disease markers. The FORCE panel was developed as a custom hybridization capture assay utilizing ~20,000 baits to target the selected SNPs. Five non-probative, previously identified World War II (WWII) cases were used to assess the kinship panel. Each case included one bone sample and associated family reference DNA samples. Additionally, seven reference quality samples, two 200-year-old bone samples, and four control DNAs were processed for kit performance and concordance assessments. SNP recovery after capture resulted in a mean of ~99% SNPs exceeding 10X coverage for reference and control samples, and 44.4% SNPs for bone samples. The WWII case results showed that the FORCE panel could predict first to fifth degree relationships with strong statistical support (likelihood ratios over 10,000 and posterior probabilities over 99.99%). To conclude, SNPs will be important for further advances in forensic DNA analysis. The FORCE panel shows promising results and demonstrates the utility of a 5000 SNP panel for forensic applications.

The FORCE panel: An all-in-one SNP marker set for confirming investigative genetic genealogy leads and for general forensic applications

The FORensic Capture Enrichment (FORCE) panel is an all-in-one SNP panel for forensic applications. This panel of 5,422 markers encompasses common, forensically relevant SNPs (identity, ancestry, phenotype, X- and Y-chromosomal SNPs), a novel set of 3,931 autosomal SNPs for extended kinship analysis, and no clinically rele-vant/disease markers. The FORCE panel was developed as a custom hybridization capture assay utilizing ~20,000 baits to target the selected SNPs. Five non-probative, previously identified World War II (WWII) cases were used to assess the kinship panel. Each case included one bone sample and associated family reference DNA samples. Additionally, seven reference quality samples, two 200-year-old bone samples, and four control DNAs were processed for kit performance and concordance assessments. SNP recovery after capture resulted in a mean of ~99% SNPs exceeding 10X coverage for reference and control samples, and 44.4% SNPs for bone samples. The WWII case results showed that the FORCE panel could predict 1st to 5th degree relationships with strong statisti-cal support (likelihood ratios over 10,000 and posterior probabilities over 99.99%). To conclude, SNPs will be important for further advances in forensic DNA analysis. The FORCE panel shows promising results and demonstrates the utility of a 5,000 SNP panel for forensic applications.

Comparison of Time Course Detection of Human Male DNA from Blood Stains on Various Objects on Surface in a Natural Environment and in a Laboratory Using Loop-Mediated Isothermal Amplification (LAMP)

In forensic study, the biological evidence can easily degrade, especially DNA. Degraded and environmentally challenged samples can produce numerous problems in forensic DNA analysis including loss of band product. Loop-mediated isothermal amplification or LAMP is one of the DNA analysis techniques used in forensic study. This study explores the limitations of the efficiency of the LAMP technique on abandoned DNA. For the DNA template, 8 male and 2 female blood-stained samples were taken from the surfaces, namely, brick, cloth, and tile from inside, and buried outside the laboratory. The LAMP reaction was used to amplify the SRY gene for detecting male DNA. All the blood-stained samples were stored for 1, 7, 15, 30, and 45 day (s). The LAMP product from the blood-stained samples on all the surfaces that were kept in a laboratory was detected using the gel electrophoresis technique from day 1 until day 45. However, the LAMP product on day 30 and 45 was smear and dim. The LAMP product from the blood-stained samples buried outside the laboratory was observed using the gel electrophoresis technique within day 30 (smear and dim). To increase the efficiency of detection, the qLAMP technique detected product on all the male samples from all the surfaces buried outside the laboratory for 45 days. The results indicate that this LAMP condition was possible detecting male DNA and the environmental factors are the main influence on the sensitivity of the LAMP technique. In addition, the qLAMP technique can increase the capacity and sensitivity of the detection.

The Y chromosome and its use in forensic DNA analysis

Originally relatively ignored in forensic investigations because its genetic analysis lacks inference of individual identification, the value of Y chromosome analysis has been proven in cases of sexual assault, particularly where the amount of material left by a male assailant is limited in comparison with female DNA. All routine analysis of autosomal DNA, however, targets a gene (AMELY) on the Y chromosome in order to identify the sex of the DNA source and this is discussed in the context of the genetic structure of this male-specific chromosome. Short-tandem repeat markers on the chromosome are tested in dedicated multiplexes that have developed over time and these are described alongside international guidance as to their use in a forensic setting. As a marker of lineage, the Y chromosome provides additional tools to assist in the inference of ancestry, both geographical and familial and the value of Y chromosome testing is illustrated through descriptions of cases of criminal and historical interest. A decision to analyse the Y chromosome has to be considered in the context, not only of the circumstances of the case, but also with regard to the ethical questions it might raise, and these are discussed in relation to the cases that have been described in more detail in the accompanying online supplementary material.

THE REASONS FOR THE OCCURRENCE OF CONTAMINATION OF BIOLOGICAL TRACES AT THE BEFORE EXPERT STAGE AND POSSIBLE WAYS TO PREVENT IT

Современное развитие науки в целом и криминалистического ДНК-анализа в частности позволяет исследовать микроколичества веществ, обнаруживаемых на предметах, изъятых с места происшествия. В связи с этим возрастает важность исключения загрязнения места происшествия сторонними материалами и веществами, привнесенными участниками осмотра. В статье рассмотрены причины возникновения контаминации и возможные пути ее предотвращения. The modern development of science in general and forensic DNA analysis in particular allows us to investigate the micro amounts of substances detected on objects seized from the scene. In this regard, the importance of avoiding contamination of the accident site by third-party materials and substances introduced by the participants of the inspection increases. This article is devoted to the consideration of the causes of contamination and possible ways to prevent it.

Validation Study of 6 Dye-Based SF25TM PCR Amplification Kit

Ever since the inception of STR-based forensic DNA analysis for human Identification and DNA profiling, the approach developed continuously. Most of these developments are pertaining to achieve the best polymorphic loci set for analysis, high inhibitor tolerance capability, increase in sensitivity, reduction in turnaround time, and cost-effectiveness. On the similar line, the SF25TM PCR amplification kit, a 6 fluorescent dye-chemistry based autosomal STR kit was developed, which analyses 25 STR loci viz., FAM fluorescent dye-labelled D3S1358, D13S317, D7S820, D16S539, D1S1656, and Penta E; HEX fluorescent dye-labelled TPOX, TH01, D2S1338, CSF1PO, and Penta D; SUM fluorescent dye-labeled D19S433, vWA, D21S11, D18S51, and D6S1043; LYN fluorescent dye-labelled Amelogenin, D8S1179, D5S818, D12S391, and FGA; PUR fluorescent dye-labelled D22S1045, Y indel; D2S441 and D10S1248, The developmental validation of the SF25 PCR Amplification reagents were carried out in this study to analyze its specificity, sensitivity, and concordance. This multiplex kit showed higher sensitivity with 125pg of DNA template generating a complete profile (with 100% allele call). Out of 83 samples, 10 samples showed aberrant triallelic pattern/aberrant heterozygous pattern at D16S539 locus. The possible discrepant homozygous condition at locus D1S1656 might be due to the invasion of alleles at D1S1656 locus present adjacent to D16S539 locus. Such invasion resulted due to the shortening of the allelic bin at the D1S1656 locus. The allelic ladder of the SF25TM PCR amplification kit reveals the allelic range of D1S1656 from 11 to 19.3 which can be interpreted according to the casework as deemed by the end-users for their samples.

The Use of DNA Profiling in Identifying Murderers and Sexual Abusers: A Case Report

A first information report was registered at Police Station of Faisalabad District, Pakistan. A boy (7-8 years old) went to a nearby shop and went missing. He was last seen with the accused suspect on a motorcycle as reported by eye witnesses. His naked dead body was found from nearby sugarcane fields tied with his clothing. Autopsy revealed three incised wounds on the neck. The post-mortem was done and anal swabs were used for DNA profiling. Post mortem medico legal examination indicated sexual abuse of the boy prior to being murdered. Forensic DNA analysis confirmed that the seminal material found on anal swabs of the victim belonged to the suspect. The same DNA profile was also found from the samples of nail scratch swab samples of the victim. The suspect was confirmed to be the perpetrator.

Forensic Molecular-Genetic Analysis of Objects of Biological Origin – a New Direction of Forensic Activity of the Russian Ministry of Justice

The article addresses the importance and basic preconditions for the forming a new direction of forensic activity in the system of forensic institutions of the Russian Ministry of Justice a new direction of forensic activity - molecular-genetic analysis of the objects of biological origin. The authors present the advantages of DNA analysis - one of the most modern and efficient methods in investigating criminal cases. The article also demonstrates the potential of different methods of DNA-analysis for forensic investigations. The history of forensic DNA-analysis development in Russia and its features when examining the human, animal, and plant biomaterials are briefly discussed. The authors propose the definitions for the molecular-genetic examinations’ object and subject, formulate the model tasks, and suggest a list of sample questions for this study.