Monozygotic (MZ) twins are considered to be genetically identical in that they have the same genomic DNA sequences in theory, and thus cannot be differentiated using forensic standard STR-based DNA profiling. However, a recent study employed deep sequencing to explore extremely rare mutations in the nuclear genome and reported that the mutation analysis could be applied to differentiate between MZ twins. Compared with the nuclear genome, the mitochondrial DNA (mtDNA) exhibits higher mutation rates due to fewer DNA repair mechanisms in the mitochondrial genome (mtGenome) and the lack of proofreading capability of the mtDNA polymerase. In a previous study, we used Illumina ultra-deep sequencing to describe point heteroplasmy (PHP) and nucleotide variant of the mtGenomes in venous blood samples of MZ twins. In the present study, we characterized minor differences of the mtGenomes in three tissue samples from seven sets of MZ twins using Ion Torrent semiconductor sequencing (Thermo Fisher Ion S5 XL system) and commercialized mtGenome sequencing kit (Precision ID mtDNA Whole Genome Panel). PHP was observed in blood samples from one set of MZ twins and in saliva samples from two sets of twins, but it presented in hair shaft samples from all seven sets of MZ twins. Overall, the coding region of the mtGenome exhibits more PHPs than the control region. The results of this study have further attested the competence of mtGenome sequencing in differentiating between MZ twins, and that among the three kinds of samples tested, hair shaft is more likely to accumulate minor differences in the mtGenomes of MZ twins.
Keywords: Forensic genetics; Massively parallel sequencing; Mitogenome; Monozygotic twins; Point heteroplasmy.
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