Abstract
X-STR analysis offers novel pathways for exploring both paternal and maternal lineages, which is particularly valuable in parenthood testing where standard methods fail. Despite being limited in availability, these markers show promise in improving forensic analyses, especially with emerging technology such as Massively Parallel Sequencing (MPS). This study introduces a new X-STRs multiplex system that could increase discrimination power in complex cases, expanding marker diversity and complementing traditional markers. We selected 12 X-STR loci (DXS61071, DXS97199, DXS12310, DXS14221, DXS33963, DXS39152, DXS44734, DXS54471, DXS68748, DXS70370, DXS13932, and DXS14986) for the assay. Genomic DNA was extracted from 100 unrelated males and 104 females, in a sample population from Rio de Janeiro, amplified with custom-designed primers and subjected to capillary gel electrophoresis and MPS. Forensic efficiency evaluation revealed high values of the combined power of discrimination in males (cPDM ≥ 0.999999997) and females (cPDF ≥ 0.999999999999995), as well as combined paternity exclusion (cPE ≥ 0.99999). Among these markers, two exhibit high polymorphism, with multiple isoalleles distinguishable by their sequences, using MPS technology. The incorporation of these new X-STR markers multiplex system in conjunction with MPS analysis could potentially increase the power of discrimination in forensic analysis for mixtures and complex cases.