Dilek Çam Derin, Enes Gültekin, Irmak İçen Taşkın, Muhammed Dündar, Barış Otlu
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引用次数: 0
Abstract
Background: Antigenic detection is reliably utilized in rapid diagnostic tests and provides a significant time advantage during pandemics and epidemics. Therefore, the rapid detection of viral infections is of great importance and will remain crucial in the future. The SARS-CoV-2 outbreak, which resulted in severe losses, is the most recent example of this necessity. Among rapid diagnostic tests, lateral flow assays (LFAs) are the most practical and do not require specialized equipment, typically being developed using antibody pairs.
Objective: This study aimed to recombinantly produce a single-chain variable fragment (scFv) specific to the SARS-CoV-2 spike receptor-binding domain (sRBD) and to employ it in the development of LFAs utilizing both antibody and aptamer pairs and an aptamer cocktail.
Methods: Gold nanoparticles were employed as labeling agents, while both the scFv and full length forms of CR3022, along with aptamers specific to the S and N proteins, were utilized in a sandwich assay format.
Results: scFv was produced at a higher concentration and biologically active. It demonstrated effective viral detection in single LFA, dot blot assay (DBA), and multiplex LFA. While single LFA successfully detected only the synthetic target, DBA and multiplex LFA selectively identified the virus in nasopharyngeal and oropharyngeal swab samples.
Conclusion: Findings highlight the differences and effectiveness of using scFv in combination with other capture agents and different assay principles for the development of cost-effective and rapid diagnostic tests.
Highlights: scFvs exhibit variable binding in sandwich assays depending on the combinations employed. When used in combination with an aptamer cocktail, scFvs demonstrate enhanced target binding, which is shown for the first time in this study. The use of multiple testing strategies enables a more effective viral diagnosis.
背景:抗原检测可靠地用于快速诊断测试,并在大流行和流行病期间提供了显著的时间优势。因此,快速检测病毒感染是非常重要的,在未来仍将是至关重要的。造成严重损失的SARS-CoV-2疫情是这种必要性的最新例子。在快速诊断测试中,横向流动测定法(LFAs)是最实用的,不需要专门的设备,通常使用抗体对开发。目的:本研究旨在重组产生SARS-CoV-2刺突受体结合域(sRBD)特异性单链可变片段(scFv),并将其用于利用抗体和适配体对以及适配体鸡尾酒开发侧流分析(LFAs)。方法:使用金纳米颗粒作为标记剂,同时使用scFv和全长形式的CR3022,以及特定于S和N蛋白的适配体,在三明治检测格式中使用。结果:scFv的产率较高,具有较高的生物活性。它在单LFA, Dot Blot Assay (DBA)和多重LFA中显示出有效的病毒检测。单个LFA仅能成功检测合成靶点,而DBA和多重LFA能选择性地鉴定鼻咽和口咽拭子样本中的病毒。结论:研究结果突出了scFv与其他捕获剂和不同检测原则联合使用的差异和有效性,以开发具有成本效益的快速诊断测试。重点:scFvs在三明治试验中表现出不同的结合,这取决于所采用的组合。当与适体混合物联合使用时,scFvs表现出增强的靶标结合,这在本研究中是首次得到证实。使用多种检测策略可以更有效地进行病毒诊断。
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