基于模拟表位 X27 的桔青霉素和桔青霉素抗体作用机制的研究

Research on the Mechanism of Action of a Citrinin and Anti-Citrinin Antibody Based on Mimotope X27.

机构信息

State Key Laboratory of Food Science and Technology, Jiangxi-OAI Joint Research Institute, Jiangxi Province Key Laboratory of Modern Analytical Sciences, Nanchang University, Nanchang 330047, China.

College of Food Science and Technology, Nanchang University, Nanchang 330047, China.

出版信息

Toxins (Basel). 2020 Oct 13;12(10):655. doi: 10.3390/toxins12100655.

DOI:10.3390/toxins12100655

PMID:33066313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7602013/

Abstract

Immunoassays are developed based on antigen-antibody interactions. A mimotope is an effective recognition receptor used to study the mechanism of action of antigens and antibodies, and is used for improving the sensitivity of the antibody. In this study, we built a 3D structure of the citrinin (CIT) mimotope X27 and anti-CIT single-chain antibody fragment (ScFv) through a "homologous modeling" strategy. Then, CIT and X27 were respectively docked to anti-CIT ScFv by using the "molecular docking" program. Finally, T28, F29, N30, R31, and Y32 were confirmed as the key binding sites in X27. Furthermore, the result of the phage-ELISA showed that the mutational phage lost the binding activity to the anti-CIT ScFv when the five amino acids were mutated to "alanine", thereby proving the correctness of the molecular docking model. Lastly, a site-directed saturation strategy was adopted for the sites (T28, F29, N30, R31, and Y32). Eighteen different amino acids were introduced to each site on average. The activities of all mutants were identified by indirect competitive ELISA. The sensitivities of mutants T28F, T28I, F29I, F29V, N30T, and N30V were 1.83-, 1.37-, 1.70-, 2.96-, 1.31-, and 2.01-fold higher than that of the wild-type, respectively. In conclusion, the binding model between the CIT and antibody was elaborated for the first time based on the mimotope method, thereby presenting another strategy for improving the sensitivity of citrinin detection in immunoassays.

摘要

免疫分析是基于抗原-抗体相互作用开发的。模拟表位是一种有效的识别受体，用于研究抗原和抗体的作用机制，并用于提高抗体的灵敏度。在这项研究中，我们通过“同源建模”策略构建了桔青霉素（CIT）模拟表位 X27 和抗 CIT 单链抗体片段（ScFv）的 3D 结构。然后，使用“分子对接”程序分别将 CIT 和 X27 对接至抗 CIT ScFv。最后，确定 T28、F29、N30、R31 和 Y32 是 X27 中的关键结合位点。此外，噬菌体-ELISA 的结果表明，当五个氨基酸突变为“丙氨酸”时，突变噬菌体失去了与抗 CIT ScFv 的结合活性，从而证明了分子对接模型的正确性。最后，采用定点饱和策略对这些位点（T28、F29、N30、R31 和 Y32）进行研究。每个位点平均引入了 18 种不同的氨基酸。通过间接竞争 ELISA 鉴定所有突变体的活性。突变体 T28F、T28I、F29I、F29V、N30T 和 N30V 的灵敏度分别比野生型高 1.83 倍、1.37 倍、1.70 倍、2.96 倍、1.31 倍和 2.01 倍。总之，首次基于模拟表位方法阐述了 CIT 与抗体的结合模型，为提高免疫分析中桔青霉素检测的灵敏度提供了另一种策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f3ce/7602013/5bfcad55abb1/toxins-12-00655-g001.jpg

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基于模拟表位 X27 的桔青霉素和桔青霉素抗体作用机制的研究

Research on the Mechanism of Action of a Citrinin and Anti-Citrinin Antibody Based on Mimotope X27.

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