Exonuclease III/Cas12a Cascade Amplification Strategy and Smartphone-Based Portable Fluorescence Detector to Repurpose the Commercial AFP Strip for the POCT of Multiple RNAs.
Xin PengXuecui MeiXueyan LiuGuanghui ZhangYingchun LiPublished in: Analytical chemistry (2024)
Point of care testing (POCT) of nucleic acid (NA) contributes to the timely disease diagnosis, like bacteria and virus screening in households or resource-constrained areas, but its development has always been stagnant. Herein, we proposed an exonuclease III cascaded with CRISPR/Cas12a (Exo-III/Cas12a) amplification strategy and constructed a smartphone-based portable fluorescence detector (SPFD) to repurpose the commercial alpha-fetoprotein (AFP) strip for the ultrasensitive and hand-held detection of NA samples. In detail, the target-initiated-Exo-III/Cas12a strategy realizes the signal amplification and liberates AFP from magnetic beads through the trans-cleavages of activated Cas12a toward the AFP aptamer. After magnetic separation and migration, the fluorescence signals of the test ( F T ) and control ( F C ) lines on the AFP strip were digitally output by the SPFD, and the F T / F C was employed for the quantitative analysis to minimize external disturbances and improve accuracy. We experimentally assessed the universe applicability of the proposed NA-POCT platform toward miRNA-155, 16S rRNA of Staphylococcus aureus , and ORF1a/b RNA of Covid-19 pseudovirus, achieving favorable detection limits of 42 aM, 18 CFU/mL, and 87 copies/μL, respectively. Moreover, its simplicity, universality, and admirable detection performance demonstrate a great potential in the aspect of rapidly transforming the existing POCT devices for multiple new applications at the time of need.
Keyphrases
- nucleic acid
- crispr cas
- genome editing
- label free
- staphylococcus aureus
- loop mediated isothermal amplification
- single molecule
- real time pcr
- molecularly imprinted
- energy transfer
- gold nanoparticles
- coronavirus disease
- magnetic resonance
- escherichia coli
- computed tomography
- cystic fibrosis
- high resolution
- magnetic resonance imaging
- image quality
- simultaneous determination