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Characterising stutter in forensic STR multiplexes
Authors:Clare BrookesJo-Anne Bright  SallyAnn HarbisonJohn Buckleton
Affiliation:a Department of Chemistry, University of Auckland, Private Bag 92019, Auckland 1142, New Zealand
b Institute of Environmental Science and Research Ltd, Private Bag 92021, Auckland 1142, New Zealand
Abstract:Stutter is an artefact seen when amplifying short tandem repeats and typically occurs at one repeat unit shorter in length than the parent allele. In forensic analysis, stutter complicates the analysis of DNA profiles from multiple contributors, known as mixed profiles, a common profile type. Consequently it is important to both understand and predict stutter behaviour in order to improve our understanding of the resolution and interpretation of these profiles. Whilst stutter is well recognised and documented, little information is available that identifies and quantifies what influences the formation of stutter. In this work we use a novel approach to examine this. We have used synthetic oligonucleotides comprising multiple repeat units to test; the influence of repeat number, the influence of repeat sequence and the impact of interruptions to the repeat sequence length. Using multiple replicates allows detailed statistical analysis. We have confirmed a linear relationship between stutter ratio and repeat number. We have shown that increased A-T content increases stutter ratio and that interruptions in repeating sequences decreased stutter ratios to levels similar to the longest uninterrupted repeat stretch. We also found that there was no relationship between stutter ratio and repeat number for a repeat unit with an A-T content of 1/4 and that half of the interrupted repeat sequences stuttered significantly less than their longest uninterrupted repeat stretches. We have applied the knowledge gained to examine specific features of the loci present in the AmpFlSTR® SGM Plus® multiplex kit used in our laboratory.
Keywords:Forensic DNA   STR   Stutter   Synthetic oligonucleotides
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