Best of both: A simultaneous analysis of mRNA and miRNA markers for body fluid identification

The body fluid identification of traces found at crime scenes is crucial in relation of the circumstance of crime. For this reason, the body fluid identification (BFI) by molecular biological methods has been increasingly investigated in recent decades. Especially the use of messenger RNA (mRNA) has been established and validated by various studies. mRNAs can resist degradation for several decades under dry and dark environmental conditions, but degradation increases greatly e.g., in humid environments and UV radiation. In contrast, the shorter and protein-protected micro RNAs (miRNAs) are less susceptible to degradation, but not all potential markers are tissue-specific. The aim of this study was to develop a simultaneous mRNA/miRNA multiplex assay to take advantage of both types of RNA. The final assay was tested for various body fluids, dilutions, and mixtures. To demonstrate the advantage of a combined mRNA/miRNA assay, older and mostly degraded samples were examined and compared to an established mRNA assay. Initial results from degraded samples show that tissue-specific miRNAs expected could be detected for 93% of the degraded samples compared to mRNA markers with 25% of the mRNA assay. The result is a simultaneous mRNA/miRNA multiplex assay on capillary electrophoresis (CE) for the first time.