Rapid, Visual, and Sequence-Specific Detection of Salmonella in Egg Liquid with vis-NEAA, a CRISPR/Cas12 Empowered New Strategy.

Abstract

Salmonella is one of the main pathogenic factors that cause foodborne diseases. Rapid and accurate detection of Salmonella in food is of great importance to ensure food safety. Nicking enzyme-assisted amplification (NEAA) is one of the promising isothermal amplification methods finishing the in vitro amplification in ∼10 min; however, it suffers from nonspecific amplification a lot (∼70% products are noises). In this paper, we introduced CRISPR/Cas12a to specifically recognize the NEAA amplicons and transduce the signals into turned-on fluorescent visual readouts (vis-NEAA). Impressively, with this method, the high efficiency of NEAA has been taken great advantage and the nonspecific products were successfully bypassed at the same time. In comparison to NEAA-gel electrophoresis, vis-NEAA showed complete fidelity toward the presence of specific products, while for real-time PCR, it possesses equivalent sensitivity and specificity but saves ∼80% of the time. A level of 80 CFU/mL Salmonella in spiked eggs can be detected on-site in ∼20 min.