Towards the identification of body fluids using RT-LAMP isothermal amplification coupled with CRISPR-Cas12a

Abstract

While often necessary in sexual assault cases, confirmatory identification of body fluids can be a lengthy and/or costly process. In particular, the detection of vaginal fluid and menstrual fluid in forensic casework is limited to endpoint reverse-transcription PCR to detect fluid-specific messenger RNA (mRNA) markers as there are no robust chemical or enzymatic techniques available for these fluids. Similarly, testing for rectal mucosa is not possible with standard methods, the presence of which would provide probative value in cases of alleged anal penetration, although mRNA-based markers have recently been described. Reverse-transcription loop-mediated isothermal amplification (RT-LAMP) is an alternative technique that enables detection of mRNA at a single temperature (usually 60-65℃) for 10-30 minutes and has comparable sensitivity to PCR. We describe the coupling of RT-LAMP amplification (60℃ for 30 minutes) with CRISPR-mediated fluorescent detection of the body fluid specific mRNA markers MMP3 (menstrual fluid), CYP2B7P (vaginal material), TNP1 (spermatozoa), KLK2 (semen), and MUC12 (rectal mucosa). Following temperature optimization and final selection of RT-LAMP-CRISPR assays, their specificity across circulatory blood, buccal, menstrual fluid, vaginal material, semen, and rectal mucosa was assessed. Most assays were specific for their intended target body fluid, although MMP3 and CYP2B7P were detected in some rectal mucosa samples, the latter of which has been observed previously in the literature. A preliminary sensitivity assessment in target fluids was determined by a dilution series over six logs of RNA input. A range of assay approaches were investigated to develop a protocol suitable for use in a forensic screening laboratory. This included the determination of fluorescent assay results by eye, use of lyophilised reagents, and RT-LAMP and CRISPR reactions undertaken in one-tube in a lower resource setting.

Keywords: Body fluid identification; CRISPR; Forensic biology; MRNA profiling; Messenger RNA; RT-LAMP.