A novel microfluidic chip and antibody-aptamer based multianalysis method for simultaneous determination of several tumor markers with polymerization nicking reactions for homogenous signal amplification
2019
Abstract To detect trace level of tumor markers (TMs) plays a crucial role in the early diagnosis of cancer. However, the fabrication of assays to simultaneously detect trace levels of TMs was still challengeable. The study was aimed to develop a novel microchip electrophoresis (MC) and antibody-
aptamerbased hybrid detection strategy for simultaneous determination of prostate specific antigen (PSA), carcino-embryonic antigen (CEA) and carbohydrate antigen 125 (CA125) in human serum. The assay comprises the generation of magnetic
aptamercapture probes and anti-TMs labeled encoded signal tags, then employment of
nicking enzymefor signal amplification. Firstly, the
aptamersof TMs were co-immobilized on surface of Fe 3 O 4 @AuNPs (AuMPs) as capture probes. Simultaneously, the antibodies of TMs labeled with different double stranded DNA (dsDNA) as nicked fragment-induced strand was prepared as encoded signal tags. Secondly, the TMs, capture probes and encoded signal tags were simultaneously incubated to form sandwich complex. After
magnetic separation, the complex was collected by adding the
nicking enzyme. As a result, the dsDNA on the complex can initiate
nicking enzymecleavage reaction to produce many single stranded DNA (ssDNA) products with different length corresponding to different targets. Finally, the ssDNA products were injected into MC for separation and determination of TMs, respectively. Under optimized conditions, the assay can simultaneously detect three TMs with detection limits of 0.1, 0.15, 0.12 pg mL −1 for PSA, CEA and CA125, respectively (S/N = 3). Moreover, the magnetic
aptamerprobes exhibited good stability and can be reused for 20 times with the recovery above 80% after heat treatments. The multianalysis method exhibits distinct advantages such as high-throughput, -sensitivity, easy-to-operate and offers a powerful tool for early diagnosis of cancers.
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