A fluorescent microscopy-screening test for efficient STR-typing of telogen hair roots.

Nuclear DNA-profiling from human hairs is a well-known technique in forensic investigations, but its success rate is quite low with some hair types. As nuclear DNA (nuDNA) extracted from telogen hair roots is in short supply and is often degraded, a simple and effective method of estimating the number of nuclear DNAs in telogen roots has been developed. DAPI, a fluorescent, non-destructive DNA stain, allows the visualization of "nuclei" (DAPI-positive spots the shape and size of the human follicular cell nuclei) and does not interfere with subsequent PCR analyses. We stained 3242 telogen roots from 27 donors. Surprisingly, of the 2572 club roots without any soft tissue remnants 11% contained visible "nuclei" and 3.3% even contained many. At the same time 57% of the 670 telogen roots with soft tissue remnants did not show any fluorescent "nuclei". We analysed the STR-profile of some of the roots selected by the DAPI screening, i.e. 132 telogen roots without soft tissue remnants, with a success rate of 79%. Our proposed screening method allows the DNA laboratory to analyse nuclear DNA only in the most promising hair roots.

Influence of the electrophoresis-resequencing method on the forensic mtDNA profiling quality.

The validation of an upgraded mtDNA profiling procedure served as a study on the electrophoresis-resequencing methods ABI377-LR5%-Sequence Navigator, ABI3100-POP4-SeqScape and ABI3100-POP6-SeqScape. The upgraded protocol was considered to be suitable for mitochondrial DNA sequencing of HV1 and HV2, with all three electrophoresis types tested. Nevertheless, the sequencing protocol had to be extended with additional primers to obtain a full double-stranded profile of samples with specific sequencing problems in the C-stretch of HV1 or HV2. The major differences between the tested electrophoresis types were observed in the detection limit and the automatic mixed base detection. But also the primer to sequencing start-distance depends on the method.

STR analysis of artificially degraded DNA-results of a collaborative European exercise.

Degradation of human DNA extracted from forensic stains is, in most cases, the result of a natural process due to the exposure of the stain samples to the environment. Experiences with degraded DNA from casework samples show that every sample may exhibit different properties in this respect, and that it is difficult to systematically assess the performance of routinely used typing systems for the analysis of degraded DNA samples. Using a batch of artificially degraded DNA with an average fragment size of approx. 200 bp a collaborative exercise was carried out among 38 forensic laboratories from 17 European countries. The results were assessed according to correct allele detection, peak height and balance as well as the occurrence of artefacts. A number of common problems were identified based on these results such as strong peak imbalance in heterozygous genotypes for the larger short tandem repeat (STR) fragments after increased PCR cycle numbers, artefact signals and allelic drop-out. Based on the observations, strategies are discussed to overcome these problems. The strategies include careful balancing of the amount of template DNA and the PCR cycle numbers, the reaction volume and the amount of Taq polymerase. Furthermore, a careful evaluation of the results of the fragment analysis and of automated allele calling is necessary to identify the correct alleles and avoid artefacts.