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  • Title: Exonuclease III-aided autocatalytic DNA biosensing platform for immobilization-free and ultrasensitive electrochemical detection of nucleic acid and protein.
    Author: Liu S, Lin Y, Wang L, Liu T, Cheng C, Wei W, Tang B.
    Journal: Anal Chem; 2014 Apr 15; 86(8):4008-15. PubMed ID: 24655032.
    Abstract:
    Homogenous electrochemical biosensor has attracted substantial attention owing to its simplicity, rapid response, and improved recognition efficiency compared with heterogeneous biosensor, but the relatively low detection sensitivity and the limited detection analytes prohibit its potential applications. To address these issues, herein, a simple, rapid, isothermal, and ultrasensitive homogeneous electrochemical DNA biosensing platform for target DNA and protein detection has been developed on the basis of an exonuclease III (Exo III)-aided autocatalytic target recycling strategy. A ferrocene-labeled hairpin probe (HP1) is ingeniously designed, which contains a protruding DNA fragment at 3'-termini as the recognition unit for target DNA. Also, the DNA fragment that could be used as secondary target analogue was introduced, but it was caged in the stem region of HP1. In the presence of target DNA, its recognition with the protruding fragment of HP1 triggered the Exo III cleavage process, accompanied with the target recycling and autonomous generation of secondary target analogues. This accordingly resulted into the autonomous accumulation of ferrocene-labeled mononucleotide, inducing a distinct increase in the electrochemical signal owing to its elevated diffusivity toward indium tin oxide (ITO) electrode surface. The autocatalytic biosensing system was further extended for protein detection by advising an aptamer hairpin switch with the use of thrombin as a model analyte. The current developed autocatalytic and homogeneous strategy provided an ultrasensitive electrochemical detection of DNA and thrombin down to the 0.1 and 5 pM level, respectively, with a high selectivity. It should be further used as a general autocatalytic and homogeneous strategy toward the detection of a wide spectrum of analytes and may be associated with more analytical techniques. Thus, it holds great potential for the development of ultrasensitive biosensing platform for the applications in bioanalysis, disease diagnostics, and clinical biomedicine.
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