期刊
ANALYTICAL CHEMISTRY
卷 87, 期 22, 页码 11345-11352出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.5b02694
关键词
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资金
- NNSF of China [21575116, 51473136, 21275119, 21105081]
- Fundamental Research Funds for the Central Universities, China [XDJK2015A002, XDJK2014A012]
In this work, we developed a sensitive and efficient ratiometric electrochemical method for lipopolysaccharide (LPS) detection using Cu-based metal organic frameworks (Cu-MOFs) as a catalyst and target-triggered quadratic cycles for signal amplification. First, in the presence of target LPS, the conformation change of the specifically designed hairpin probes 1 (HP1) triggered the target cyclic-induced polymerization to produce the output DNA with the aid of phi29 DNA polymerase (phi29). Then, the obtained output DNA hybridized with ferrocene-labeled hairpin probes 2 (Fc-HP2, which were immobilized on the electrode) to generate a nicking endonudease (N.BstNBI) cleavage site. Thus, with N.BstNBI, the original signal molecules of Fc left from the electrode, and the single-stranded capture-probemodified sensing interface was obtained. At this time, signal probes conducted by Au-nanoparticles-functionalized Cu-M0Fs and labeled hairpin probes 3 (HP3/AuNPs/Cu-M0Fs) were hybridized with capture probes for hairpin assembly. Herein, AuNPs/ Cu-M0Fs were not only used as nanocarriers for immobilizing HP3 but also acted as electroactive materials for signal reporting. With the proposed target-triggered quadratic cycles, the cleavage sites of Fc-HP2 were cut, and capture probes were obtained to hybridize with HP3/AuNPs/Cu-M0Fs, which caused the signal decrease of Fc. Then Cu-M0Fs were closed to the electrode for the signal increase of Cu-M0Fs. Furthermore, when glucose was present in the detection solution, AuNPs/Cu-M0Fs catalyzed the oxidation of glucose to realize the enzyme-free signal amplification. By measuring the peak currents ratio of the Cu-M0Fs and Pc, the proposed aptasenor for LPS detection showed a low detection limit (0.33 fg/mL) and a wide linear range from 1.0 fg/mL to 100 ng/mL with high accuracy and sensitivity. This ratiometric electrochemical approach is expected to be a valuable strategy for detection of other analytes.
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