These results lend support in principle to the proposal of [9] F

These results lend support in principle to the proposal of [9]. Fig. 2 shows that, for two-person mixtures, the analysis assuming one-contributor-plus-dropin gave a very good approximation for the lab-based replicates (left panels), and a reasonably good approximation for the simulation replicates, but with more variable ltLR values, as indicated by the wider range. We generated three-contributor CSPs in order to compare different LTDNA profiling techniques.

We chose the most challenging condition in which all three contribute the same DNA template, making it impossible to deconvolve the mixture into the genotypes of individual contributors. We found that PCR performed with 28 cycles (regardless of enhancement) is preferable to 30 cycle PCR beyond one replicate (Fig. 3). More PCR cycles introduces more stochasticity in the results, LDN-193189 mw as stated in the AmpFℓSTR® SGM Plus® PCR Amplification Kit user guide. We found that enhancement of the post-PCR sample is advantageous, with Phase 2 enhancement providing a small further

improvement over Phase 1 (Fig. 3). These results support those of Forster et al. [16], who demonstrated that increasing PCR cycles increases the size of stutter peaks and the incidence of dropin; we observed no improvement in the WoE for 30 PCR cycles, possibly due to these PCI-32765 order stochastic effects. The results from the Telomerase real crime case (Fig. 3, right) suggest that if possible, a mixture of LTDNA replicates with differing sensitivities should be employed, as this allows better discrimination between the alleles of different contributors and hence a higher ltLR than the same number of replicates all using the same sensitivity. Splitting

the sample reduces the quality of results expected in each replicate compared with that which would be obtained from a single profiling run using all available DNA. Grisedale and van Daal [17] favour use of a single run, but their comparison was with a consensus sequence obtained from multiple replicates, rather than the more efficient statistical analysis available through analysing individual replicates. Our results show increasing information obtained from additional replicates, which may tilt the argument towards use of multiple replicates but we have not done a comparison directly addressing this question. To fully test the performance of likeLTD in relation to mixLR and IMP we have used up to eight replicates. Taberlet et al. [18] suggest seven replicates to generate a quality profile when the amount of DNA is low, but this many replicates is rarely available for low-template crime samples [15]. CDS is funded by a PhD studentship from the UK Biotechnology and Biological Sciences Research Council and Cellmark Forensic Services.

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