Shedder status: Exploring means of determination.

"Shedder status" or "shedder type" are commonly used terms that categorise an individual based on their ability to deposit "touch" DNA via direct contact with a surface. However, it is not yet clear how best to categorise an individual into a shedder class, or how to allocate a shedder score on a sliding scale. This study considers categorisation of participants into discrete shedder categories based on DNA quantity and profile quality data, the maintenance of their shedder status over an extended period, and explores whether different methods of deposition or collection directly from hands or other body areas are interchangeable and/or more appropriate means of determining an individual's shedder status. The shedder categorisation of participants was possible from their handprints and remained unchanged over three years. Washing hands had limited impact and shedder categorisation was not readily possible from samples collected directly from hands, other body areas or gloves after wearing gloves for a set duration. Use of consecutive deposits may assist in establishing a participant's shedder status. As shedder categorisation may be of relevance during activity level assessments further efforts towards the ability to do so are necessary.

Prevalence of DNA of regular occupants in vehicles.

People will deposit, redistribute and remove biological traces when they interact with their environment. Understanding the dynamics of trace DNA is crucial to assess both the optimal sampling strategy to recover traces and the relevance of DNA evidence in the context of a case. This paper addresses the prevalence of DNA of drivers, passengers, and unknown individuals in vehicles. Five vehicles with a regular driver only, and five vehicles with a regular driver and regular passenger have each been sampled at twenty locations. Based on the findings, we propose a sampling strategy for investigative purposes as well as for evaluative purposes when evaluating the findings given scenarios that propose the person-of-interest as either the driver or passenger in a vehicle.

Shedder status-An analysis of self and non-self DNA in multiple handprints deposited by the same individuals over time.

There are several studies that suggest that different people deposit different quantities of their own DNA on items they touch, i.e. some are good shedders and others are bad shedders. It is of interest to determine if individuals deposit consistent quantities of their own DNA, no matter the occasion, as well as the degree of variability among individuals. To investigate this, participants were tested for their ability to deposit DNA by placing right and left handprints on separate DNA-free glass plates at three set times during the day (morning, midday and afternoon) on four different days spaced over several weeks. Information regarding recent activities performed by the individual was recorded, along with information on gender, hand dominance and hand size. A total of 240 handprint deposits were collected from 10 individuals and analyzed for differences in DNA quantity and the type of the DNA profile obtained at different times of the day, on different days, between the two hands of the same individual, and between different individuals. Furthermore, the correlation between the deposit quantity and the ratio of self to non-self DNA in the mixed deposits was analyzed to determine if the amount of non-self DNA has an effect on overall DNA quantities obtained. In general, this study has shown that while there is substantial variation in the quantities deposited by individuals on different occasions, some clear trends were evident with some individuals consistently depositing significantly more or less DNA than others. Non-self DNA was usually deposited along with self DNA and, in most instances, was the minor component. Incidents where the non-self portion was the major component were very rare and, when observed, were associated with a poor depositor/shedder. Forensic DNA scientists need to consider the range and variability of DNA a person deposits when touching an object, the likelihood of non-self DNA being co-deposited onto the handled object of interest and the factors that may affect the relative quantity of this component within the deposit.

A SNaPshot of next generation sequencing for forensic SNP analysis.

Forensic phenotyping can provide useful intelligence regarding the biogeographical ancestry (BGA) and externally visible characteristics (EVCs) of the donor of an evidentiary sample. Currently, single nucleotide polymorphism (SNP) based inference of BGA and EVCs is performed most commonly using SNaPshot(®), a single base extension (SBE) assay. However, a single SNaPshot multiplex PCR is limited to 30-40 SNPs. Next generation sequencing (NGS) offers the potential to genotype hundreds to thousands of SNPs from multiple samples in a single experimental run. The PCR multiplexes from five SNaPshot assays (SNPforID 52plex, SNPforID 34plex, Eurasiaplex, IrisPlex and an unpublished BGA assay) were applied to three different DNA template amounts (0.1, 0.2 and 0.3 ng) in three samples (9947A and 007 control DNAs and a male donor). The pooled PCR amplicons containing 136 unique SNPs were sequenced using Life Technologies' Ion Torrent™ PGM system. Approximately 72 Mb of sequence was generated from two 10 Mb Ion 314™ v1 chips. Accurate genotypes were readily obtained from all three template amounts. Of a total of 408 genotypes, 395 (97%) were fully concordant with SNaPshot across all three template amounts. Of those genotypes discordant with SNaPshot, six Ion Torrent sequences (1.5%) were fully concordant with Sanger sequencing across the three template amounts. Seven SNPs (1.7%) were either discordant between template amounts or discordant with Sanger sequencing. Sequence coverage observed in the negative control, and, allele coverage variation for heterozygous genotypes highlights the need to establish a threshold for background levels of sequence output and heterozygous balance. This preliminary study of the Ion Torrent PGM system has demonstrated considerable potential for use in forensic DNA analyses as a low to medium throughput NGS platform using established SNaPshot assays.

RNA/DNA co-analysis from human menstrual blood and vaginal secretion stains: results of a fourth and fifth collaborative EDNAP exercise.

The European DNA Profiling Group (EDNAP) organized a fourth and fifth collaborative exercise on RNA/DNA co-analysis for body fluid identification and STR profiling. The task was to identify dried menstrual blood and vaginal secretion stains using specific RNA biomarkers, and additionally test 3 housekeeping genes for their suitability as reference genes. Six menstrual blood and six vaginal secretion stains, two dilution series (1/4-1/64 pieces of a menstrual blood/vaginal swab) and, optionally, bona fide or mock casework samples of human or non-human origin were analyzed by 24 participating laboratories, using RNA extraction or RNA/DNA co-extraction methods. Two novel menstrual blood mRNA multiplexes were used: MMP triplex (MMP7, MMP10, MMP11) and MB triplex (MSX1, LEFTY2, SFRP4) in conjunction with a housekeeping gene triplex (B2M, UBC, UCE). Two novel mRNA multiplexes and a HBD1 singleplex were used for the identification of vaginal secretion: Vag triplex (MYOZ1, CYP2B7P1 and MUC4) and a Lactobacillus-specific Lacto triplex (Ljen, Lcris, Lgas). The laboratories used different chemistries and instrumentation and all were able to successfully isolate and detect mRNA in dried stains. The simultaneous extraction of RNA and DNA allowed for positive identification of the tissue/fluid source of origin by mRNA profiling as well as a simultaneous identification of the body fluid donor by STR profiling, also from old and compromised casework samples. The results of this and the previous collaborative RNA exercises support RNA profiling as a reliable body fluid identification method that can easily be combined with current STR typing technology.

Locked nucleic acids in PCR primers increase sensitivity and performance.

The incorporation of locked nucleic acids (LNAs) into oligonucleotide primers has been shown to increase template binding strength and specificity for DNA amplification. Real-time PCR and DNA sequencing have been shown to be significantly enhanced by the use of LNAs. Theoretically, increasing primers' binding strength may also increase the sensitivity of conventional PCR, reducing minimum template requirements. We compared LNA-modified PCR primers with their standard DNA counterparts for amplification sensitivity with template amounts as low as 5 pg. Although the results are highly dependent on the design of the LNA primers, large increases in peak height can be achieved from as little as 75 pg, as well as clearer and more complete profiles. Increased amplification success with lower template amounts may also be seen. Additionally, the use of LNAs can enhance multiplexing. Thus, incorporating LNAs into PCR primers can increase amplification success, sensitivity, and performance under a wide range of conditions.

An investigation of sequence deletions of amelogenin (AMELY), a Y-chromosome locus commonly used for gender determination.

BACKGROUND: Accurate gender determination is crucial in many scientific disciplines, but especially so in prenatal diagnosis of X-linked diseases and forensic investigations. Today, molecular techniques, especially typing for a length variation in the X-Y homologous amelogenin gene (AMELX and AMELY), are used for gender assignation. This amelogenin test is an integral part of most PCR multiplex kits that are used for DNA profiling, but in 1998 there was a report of two normal males being typed as female with this test. Subsequently, a small number of amelogenin negative (or AMELY null) males have been reported in various populations but little data are available characterising these deletions. AIMS: The study aims to determine the size of the deletion in five AMELY null males by typing DNA samples for markers surrounding this gender-determining locus. The possible relationships among the AMELY null samples are examined through analysis of their deletion size and associated Y-chromosome microsatellite haplotypes. We also attempt to determine the frequency of AMELY negative males in Australia. SUBJECTS AND METHODS: DNA samples from five AMELY null males, from different geographical regions, were made available for this study. The samples were typed for eight sites, all located on the short arm of the Y chromosome, using PCR and gel electrophoresis. Eleven Y-chromosome specific microsatellites were also typed on each sample in order to generate haplotypes for phylogenetic analysis. A questionnaire was sent to all Australian forensic centres requesting information on the frequency of AMELY negative males observed in their laboratories. RESULTS: Two different sized deletions were seen in the five AMELY null samples. One deletion (in two samples) has a size of between 304 and 731 kbp, whereas the other (in three samples) ranges between 712 and 1001 kbp. Y-microsatellite haplotypes indicate that the smaller deletion is probably identical in the two samples, but this is not the case with the larger deletion. The frequency of AMELY negative is rare in Australia, with an overall frequency of 0.02%. CONCLUSION: Comparisons of both deletion size and haplotypes with published data suggest that most AMELY nulls are the result of independent evolutionary events, even in those populations where the frequency is relatively high. Although AMELY null males are extremely rare in most populations, typing an additional gender-determining locus should be considered in forensic investigations where the reference sample is of unknown gender.