用于检测重要诊断抗原的噬菌体抗体

OlgaI. Guliy, V. A. Khanadeev, L. Dykman
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引用次数: 0

摘要

对快速、廉价合成大量化合物的需求促进了组合化学的出现(同时合成不同的化合物,而不是传统合成法中的每种物质单独生产)。组合库方法最初只应用于肽和寡核苷酸。现在,这些文库的范围已大大扩展,包括蛋白质、合成寡聚体、小分子和寡糖。由于抗体(Abs)种类繁多,因此可以检测到能与几乎所有天然或合成抗原(Ag)发生高度特异性相互作用的克隆。噬菌体抗体是单克隆和多克隆抗体的最佳替代品,因为它们高度稳定,没有二硫键,而且制造成本更低。对生物体内各种物质(包括蛋白质)的监测需求量很大。尽管关于抗体噬菌体展示的文献数量庞大,但利用噬菌体展示来确定诊断上重要的抗体的研究还不够深入。许多研究证实,与其他类型的抗体不同,噬菌体抗体可确保高灵敏度的抗体检测。因此,本综述将重点介绍如何利用噬菌体展示技术制备特异性Abs,用于诊断重要的Ags(过敏原、疾病和癌症生物标记物、毒素),以及它们在分析系统(包括生物传感器)中的应用。噬菌体吸附剂在 Ag 诊断中的应用与传统吸附剂的应用进行了比较,并展示了将噬菌体吸附剂用作生物传感器传感元件的前景。这篇综述分析了利用基于噬菌体展示的生物传感器检测具有诊断意义的 Ags 的最新进展。系统介绍了利用噬菌体Abs检测过敏原、疾病和癌症生物标记物以及毒素的相关信息。噬菌体展示Abs用于基于传感器的Ag检测,是传统检测方法的一种经济实惠的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phage Antibodies for Detection of Diagnostically Important Antigens
The need for rapid and cheap synthesis of large numbers of chemical compounds has contributed to the emergence of combinatorial chemistry (simultaneous synthesis of different compounds, in contrast to traditional synthesis, in which each substance is produced individually). Combinatorial library methods were initially applied only to peptides and oligonucleotides. By now, the scope of these libraries has expanded considerably to include proteins, synthetic oligomers, small molecules, and oligosaccharides. The enormous variety of antibodies (Abs) makes it possible to detect clones able to interact highly specifically with almost any natural or synthetic antigen (Ag). Phage Abs are an excellent alternative to mono-and polyclonal Abs, because they are highly stable, have no disulfide bonds, and are much cheaper to make. Monitoring of various substances, including proteins, in a living organism is much in demand. Despite the vast amount of literature available on Ab phage display, the use of phage display to determine diagnostically important Ags has not been sufficiently covered. Many studies have confirmed that unlike other types of Abs, phage Abs ensure highly sensitive Ag detection. Therefore, this review focuses on the use of phage display to prepare Abs specific to diagnostically important Ags (allergens, disease and cancer biomarkers, toxins) and on their application in analytical systems, including biosensors. The use of phage Abs in Ag diagnostics is compared with the use of classical Abs, and the prospects are shown for the use of phage Abs as biosensor sensing elements. This review analyzes the recent advances in the detection of diagnostically important Ags by using phage display–based biosensors. Systematic information is presented about allergens, disease and cancer biomarkers, and toxins detected by using phage Abs. Phage display Abs for sensor-based Ag detection are presented as an affordable alternative to classic tests.
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