Abstract
Enteroviruses are highly prevalent among children and adults worldwide. Accurate detection and genotyping of enteroviruses can be achieved using consensus-degenerate hybrid oligonucleotide primer polymerase chain reaction (PCR)-based methods. Nevertheless, the popularized use of such methods for enterovirus detection and genotyping is limited by their relatively long processing time (>2 days), high processing cost, and the requirement for specialized and expensive instrumentation. Here, we report a relatively simple asymmetric PCR-electrochemical biosensing method that can detect enteroviruses and accurately characterize them into four distinct genotypic subgroups in less than 2 h. Specifically, genes of interest in the enteroviruses were amplified via asymmetric PCR (asy-PCR) using the designed PCR primers. The asy-PCR products were hybridized with enterovirus genotype-specific single-stranded DNA primer probes. Changes in response to electrochemical impedance signals can rapidly clarify the genotypes of enteroviruses. We observed that this method could not only effectively amplify the target gene within minimal PCR-amplified cycles of consensus-degenerate hybrid oligonucleotide (COHOP) products from the specimen but also allowed the rapid differentiation of the four subgroups of enteroviruses in 2 h. In summary, we developed an efficient and rapid electrochemical biosensing platform for enterovirus subtyping diagnostics that can be applied to other emergent infectious diseases.
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