2023
DOI: 10.1002/fft2.230
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Dual‐mode biosensing platform for ultrasensitive Salmonella detection based on cascaded signal amplification coupled with DNA‐functionalized Ag2S NPs@PB

Abstract: Salmonella is one of the most common zoonotic foodborne pathogens and can cause serious threats to public health and global economy. A dual‐mode biosensing platform was demonstrated based on cascaded signal amplification coupled with DNA‐functionalized Ag2S NPs@PB (Ag2S NPs@PB‐DNA) for ultrasensitive and selective Salmonella detection. Specifically, once Salmonella was recognized and captured by the control probe, the primer was released to trigger rolling circle amplification and generate a multimeric single‐… Show more

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Cited by 4 publications
(1 citation statement)
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“…[81] What's more, in combination with RCA, cascaded signal amplification coupled with functional DNA and Ag 2 S NPs@PB has realized ultrasensitive and selective detection of Salmonella by monitoring changes in both temperature and pressure. [82] Cascade DNA circuits could also realize accurate detection of dual-signal miRNA with the auxiliary of metal organic frameworks. [83] As illustrated in Figure 4A, the cascade DNA circuit (R-CHA-HCR@ZIF-8) was composed of two modules: One was a CHA module that contained two hairpins: H 1 and H 2 .…”
Section: Sequential Signal Outputmentioning
confidence: 99%
“…[81] What's more, in combination with RCA, cascaded signal amplification coupled with functional DNA and Ag 2 S NPs@PB has realized ultrasensitive and selective detection of Salmonella by monitoring changes in both temperature and pressure. [82] Cascade DNA circuits could also realize accurate detection of dual-signal miRNA with the auxiliary of metal organic frameworks. [83] As illustrated in Figure 4A, the cascade DNA circuit (R-CHA-HCR@ZIF-8) was composed of two modules: One was a CHA module that contained two hairpins: H 1 and H 2 .…”
Section: Sequential Signal Outputmentioning
confidence: 99%