CRISPR/Cas12a-based MUSCA-PEC strategy for HSV-1 assay

In the photoelectrochemical sensing, constant potential excitation to get the photoelectrochemical signal is the main excitation signal mode. Novel method for photoelectrochemical signal obtaining is needed. Inspired by this ideal, a photoelectrochemical strategy for Herpes simplex virus (HSV-1) detection with multiple potential step chronoamperometry (MUSCA) pattern was fabricated using CRISPR/Cas12a cleavage coupled with entropydriven target recycling. In the presence of target, HSV-1, the Cas12a was activated by the H1-H2 complex obtained by entropy-driven, then digesting the circular fragment of csRNA to expose single-stranded crRNA2 and alkaline phosphatase (ALP). The inactive Cas12a was self-assembled with crRNA2 and activated again with the help of assistant dsDNA. After multiple rounds of CRISPR/Cas12a cleavage and magnetic separation, MUSCA, as a signal amplifier, collected the enhanced photocurrent responses generated by catalyzed p-Aminophenol (p-AP). Different from the reported signal enhancement strategies based on photoactive nanomaterials and sensing mechanisms, MUSCA technique endowed the strategy with unique advantages of direct, fast and ultrasensitive. A superior detection limit of 3 aM toward HSV-1 was achieved. This strategy was successfully applied for HSV-1 detection in Human serum samples. The combination of MUSCA technique and CRISPR/Cas12a assay brings broader potential prospect for the detection of nucleic acids.