Qianyu Yang, Zhiwei Liu, Xinrui Xu, Jiangwen Wang, Bin Du, Pengjie Zhang, Bing Liu, Xihui Mu, Zhaoyang Tong
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引用次数: 0
摘要
抗体能否有效附着在免疫传感界面上是决定免疫传感器检测性能的关键因素。因此,本研究旨在探索一种分子量小、稳定性高、定向固定效果好的新型抗体固定材料。本研究采用基于 ZDOCK 算法的分子对接技术,对抗体 Fc 段的 DNA 功能配体(DNAFL)进行了虚拟筛选。通过全面分析 DNAFL 与 IgG 抗体界面上的关键结合位点和接触倾向,我们对该界面上的亲和力关系以及氨基酸和核苷酸相互作用的原理有了宝贵的认识。此外,我们还进行了分子亲和实验和竞争性结合实验,以验证 DNAFL 与 IgG 抗体的结合能力及其实际结合位点。通过使用多碱基序列进行亲和实验,我们确定了对抗体-DNAFL 结合有显著影响的碱基,并成功获得了对 IgG Fc 段亲和力更强的 DNAFL。这些发现为有针对性地设计亲和力更强的 DNAFL 提供了理论基础,同时也为免疫传感器的制备提供了一种新的技术方法,有望应用于生物检测领域。
Virtual Screening and Validation of Affinity DNA Functional Ligands for IgG Fc Segment
The effective attachment of antibodies to the immune sensing interface is a crucial factor that determines the detection performance of immunosensors. Therefore, this study aims to investigate a novel antibody immobilization material with low molecular weight, high stability, and excellent directional immobilization effect. In this study, we employed molecular docking technology based on the ZDOCK algorithm to virtually screen DNA functional ligands (DNAFL) for the Fc segment of antibodies. Through a comprehensive analysis of the key binding sites and contact propensities at the interface between DNAFL and IgG antibody, we have gained valuable insights into the affinity relationship, as well as the principles governing amino acid and nucleotide interactions at this interface. Furthermore, molecular affinity experiments and competitive binding experiments were conducted to validate both the binding ability of DNAFL to IgG antibody and its actual binding site. Through affinity experiments using multi-base sequences, we identified bases that significantly influence antibody-DNAFL binding and successfully obtained DNAFL with an enhanced affinity towards the IgG Fc segment. These findings provide a theoretical foundation for the targeted design of higher-affinity DNAFLs while also presenting a new technical approach for immunosensor preparation with potential applications in biodetection.
期刊介绍:
The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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