STR genotyping by real-time PCR using QueSTR probes

Abstract

QueSTR probes provide a feasible alternative for implementing forensic Short Tandem Repeat (STR) genotyping on lab-on-a-chip (LoC) devices. Unlike capillary electrophoresis (CE), which poses challenges for LoC implementation, QueSTR probes have been demonstrated to accurately genotype STRs in a hybridization curve assay after PCR amplification. In this study, we modified the QueSTR probe assay for use as a hydrolysis probe assay during qPCR. An asymmetric real-time PCR was performed with QueSTR probes and RNase H2 in the master mix, during which the fluorescence was recorded. Designed to hybridize with specific STR alleles, QueSTR probes contain a fluorescent dye and quencher molecule, enabling detection of probe hybridization through RNase H2-mediated cleavage of the RNA:DNA duplex, which releases the quencher. Matching probes yielded lower threshold cycle values and steeper incline of fluorescence curves compared to non-matching probes, indicating accurate genotype. The QueSTR qPCR assay was used to successfully genotype four CODIS core loci (D16S539, D7S820, TPOX, and TH01) in 12 samples, with one exception. The integration of amplification and detection in a single reaction supports the use of QueSTR probes for miniaturizing STR genotyping, thereby complementing CE-based analyses in centralized labs.