KMID : 1094720220270050846
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Biotechnology and Bioprocess Engineering 2022 Volume.27 No. 5 p.846 ~ p.856
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Development of a Spacer-optimized Quenchbody against Tumor Necrosis Factor Alpha
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Yun Han-Ool
Hiroshi Ueda Chung Doo-Yong
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Abstract
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Tumor necrosis factor alpha (TNF¥á) is a proinflammatory cytokine, and its overproduction causes infectious diseases and autoimmune disorders. Therefore, rapid and accurate detection of TNF¥á is important, and the need for a convenient detection system has increased. In this study, single-chain variable fragment (scFv)-type Quenchbody (Q-body) was developed that could detect TNF¥á by mixing the Q-body with TNF¥á, followed by measuring its fluorescence intensity. Recombinant scFvs were constructed with several different lengths of flexible GGGS repeat spacers between dye and scFv. The fluorescent responses of Q-bodies increased in an antigen-dose-dependent manner. The fluorescence intensity in the presence of a maximum concentration of antigen was compared to that of the denatured Q-body, resulting in the Q-body with the (GGGS)5 spacer showing a fully de-quenched signal, whereas other Q-bodies with shorter spacer lengths showed insufficient de-quenching efficiency. These results indicated that adjusting the spacer length is important for improving the response of the Q-body. The Q-body with the optimized spacer length showed a maximum 4.5-fold increase in fluorescence intensity with a broad antigen concentration range, and nanomolar order of detection limit, indicating the usefulness of this Q-body for one-step detection of TNF¥á.
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KEYWORD
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antibody fragment, Quenchbody, fluorescence immunosensor, tumor necrosis factor alpha, on-site immunoassay
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