Influenza A (H1N1) virus is a serious health threat and potential leading cause of death around the world during the processes of immunity and inflammation. Herein a sensitive pH-responsive point-of-care (POC) electrochemical immunoassay was designed for the quantitative monitoring of H1N1 influenza virus using glucose oxidase (GOx) and secondary antibody-functionalized Ti_{3}C_{2}-MXene nanosheets. The assay was carried out on the basis of the sandwich-type immunoreaction in the capture antibody-coated microplate. Two-dimensional (2D) Ti_{3}C_{2}-MXene nanosheets with a large surface area could efficiently enhance the loading amount of GOx molecules, thereby resulting in the signal amplification. Accompanying the formed immunocomplexes, labeled GOx molecules catalyzed glucose into gluconic acid and hydrogen peroxide. The generated gluconic acid caused a pH change of the detection solution, which was quantitatively determined on a handheld pH meter. Two labeling strategies with and without Ti_{3}C_{2}-MXene nanosheets were investigated to determine the target H1N1 influenza virus, and improved properties were acquired with the Ti_{3}C_{2}-MXene-labeled system. Under optimum conditions, the Ti_{3}C_{2}-MXene-based immunoassay gave good dynamic responses toward the target H1N1 influenza virus from 0.01 μg mL^{-1} to 100 μg mL^{-1} with a detection limit of 1.3 ng mL^{-1}. Good reproducibility, high specificity, and acceptable stability were also achieved in the analysis of the target H1N1 influenza virus. Significantly, measurements of the H1N1 influenza virus from clinical human samples were demonstrated to further confirm the method reliability and accuracy of the Ti_{3}C_{2}-MXene-based electrochemical immunoassay. Importantly, such a pH-meter-based immunoassay can be suitable for use in point-of-care applications and opens new opportunities for diagnostics.
Sensitive pH-responsive point-of-care electrochemical immunoassay for influenza A (H1N1) virus using glucose oxidase-functionalized Ti3C2-MXene nanosheets
[Category] 신종인플루엔자,
Pubmed URL [DOI] 10.1039/d1an00606a
[Source] pubmed
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