Rapid LAMP-driven strand displacement for PAM-free CRISPR-based pathogen diagnostics

Accurate and rapid nucleic acid testing for pathogen diagnostics is central to controlling the spread of infectious diseases. Here, we report an assay for rapid bacterial DNA detection via PAM (protospacer adjacent motif)-free Cas12f biosensor. The assay, which is named LSD12f (LAMP-driven strand displacement for Cas12f detection), involved multiplexed loop-mediated isothermal amplification (LAMP) followed by isothermal strand displacement reaction and Cas12f-mediated cleavage of a quenched fluorophore. The core of LSD12f was engineered with forward/reverse inner primers, which made LAMP products recognized and cut by enzyme digestion, triggering single-stranded DNA (ssDNA) production. Moreover, CRISPR-Cas12f could especially recognize target ssDNA region without PAM sites to reduce false-positive amplification. LSD12f could detect Streptococcus pyogenes in blood and flesh samples within 60 min with 100 % specificity and 100 % accuracy when validated by quantitative PCR (qPCR). LSD12f showed impressive specificity and sensitivity as a rapid and adaptive toolkit to broaden the use of molecular diagnostics. •LAMP-driven strand displacement integrated CRISPR-Cas12f (LSD12f) for pathogen DNA detection without PAM site restriction.•LSD12f detection could be achieved at constant temperature within an hour.•LAMP-mediated ssDNA production for CRISPR-Cas12f detection could perform in one single tube.•LSD12f accurate detection for flesh and whole blood samples demonstrated prospective POCT applications.