Journal
SENSORS AND ACTUATORS B-CHEMICAL
Volume 372, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2022.132659
Keywords
PCN-224 Hybridization chain reaction ECL; biosensing Dopamine
Funding
- National Natural Science Foundation of China [22076089]
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A new biosensing platform for HPV-16 virus detection was developed using PCN-224/nano-zinc oxide composites, cyclic amplification, and hybridization chain reaction. The stability of the electrode was improved by introducing a hybrid substrate material based on PCN-224, nano-zinc oxide, and polyacrylamide. The amplification efficiency of the target HPV-16 was greatly enhanced, and the signal-off detection of HPV was achieved through cycling cleavage and HCR-amplified signal.
A new electrochemiluminescence (ECL) biosensing platform using PCN-224/nano-zinc oxide composites coupled with cyclic amplification and hybridization chain reaction (HCR) was designed for HPV-16 virus detection. Zirconium-based metal organic frameworks (MOFs) with stable structure and large surface area can be used as substrate material for ECL biosensing, but single PCN-224 was not stable enough on electrode because of poor water solubility. Hence, a hybrid substrate material based on PCN-224, nano-zinc oxide and polyacrylamide were proposed for the first time. Due to the good film-forming property of polyacrylamide, the stability of PCN-224 nanocomposites on the electrode was significantly improved. Especially, zinc oxide can greatly accelerate reduction of potassium persulfate, thus ECL signal of the composites was much raised. Moreover, target HPV-16 quantity was tremendously amplified via exonuclease-based cycling cleavage of DNA and produced abundant DNA S1, which was further initiated cycling cleavage of capture DNA followed by HCR on the electrode, thus a large amount of dopamine (DA) were introduced to effectively quench ECL for highly sensitive signal-off detection of HPV. This strategy combines zinc oxide enhanced stable ECL of PCN-224, high amplification efficiency of multiple cycling of targets, and HCR-amplified signal for target assay, showing promising potential in various biosensing and clinical applications.
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