Abstract

CRISPR/Cas12, a highly efficient and specific nucleic acid recognition system, has been broadly employed to detect amplified DNA products. However, most reported methods adopt a two-step detection mode that needs a liquid transfer step, thus complicating the detection procedure and posing a risk of aerosol contamination. A one-pot detection method can obviate these problems, but it suffers from poor detection efficiency due to the loss of amplification templates elicited by CRISPR/Cas12 cleavage. In this study, we discovered that a glycerol additive dramatically promoted the detection efficiency of the one-pot recombinase polymerase amplification (RPA)-CRISPR/Cas12a method. Compared with the glycerol-free version, its sensitivity was nearly 100-fold higher and was close to that of the canonical two-step method. Further investigation displayed that the enhanced detection efficiency was attributed to the phase separation of the RPA and CRISPR/Cas12a system during the initial phase of the RPA reaction caused by the glycerol viscosity. This highly efficient one-pot method has been triumphantly harnessed for the detection of African swine fever virus (ASFV) and SARS-CoV-2, achieving naked-eye readout through a smartphone-equipped device. The currently developed glycerol-enhanced one-pot RPA-CRISPR/Cas12a method can be an advantageous point-of-care nucleic acid detection platform on account of its simplicity, high sensitivity, and universality.

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