PAM-Independent Cas12a Detection of Specific LAMP Products by Targeting Amplicon Loops.

A straightforward approach is suggested to selectively recognize specific products of loop-mediated isothermal amplification (LAMP) with the Cas12a nuclease without a need for a protospacer adjacent motif (PAM) in the sequence of LAMP amplicons (LAMPlicons). This strategy is based on the presence of single-stranded DNA loops in LAMPlicons and the ability of Cas12a to be -activated via the binding of guide RNA (gRNA) to single-stranded DNA in the absence of PAM. The approach feasibility is demonstrated on species-multiple bacterial plant pathogens that cause harmful diseases in agriculturally important plants. For species, the detection sensitivity of the developed PAM-independent LAMP/Cas12a system was determined by that of LAMP. The overall detection selectivity was enhanced by the Cas12a analysis of LAMPlicons. It was shown that the LAMP/Cas12a detection system can be fine-tuned by carefully designing gRNA to selectively distinguish from other species based on single nucleotide substitutions in the targeted LAMPlicon loop. The suggested loop-based Cas12a analysis of LAMPlicons was compatible with the format of a single test tube assay with the option of naked-eye detection. The findings broaden the palette of approaches to designing PAM-independent LAMP/Cas12a detection systems with potential for on-site testing.