A modular cell-free protein biosensor platform using split T7 RNA polymerase

Megan A. McSweeney, Alexandra T. Patterson, Kathryn Loeffler, Regina Cuellar Lelo de Larrea, Monica P. McNerney, Ravi S. Kane, Mark P. Styczynski
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Abstract

Conventional laboratory protein detection techniques are not suitable for point-of-care (POC) use because they require expensive equipment and laborious protocols, and existing POC assays suffer from long development timescales. Here, we describe a modular cell-free biosensing platform for generalizable protein detection that we call TLISA (T7 RNA polymerase-Linked ImmunoSensing Assay), designed for extreme flexibility and equipment-free use. TLISA uses a split T7 RNA polymerase fused to affinity domains against a protein. The target antigen drives polymerase reassembly, inducing reporter expression. We characterize the platform, then demonstrate its modularity by using 16 affinity domains against four different antigens with minimal protocol optimization. We show TLISA is suitable for POC use by sensing human biomarkers in serum and saliva with a colorimetric readout within one hour and by demonstrating functionality after lyophilization. Altogether, this technology could have potentially revolutionary impacts, enabling truly rapid, reconfigurable, equipment-free detection of virtually any protein.
使用分裂 T7 RNA 聚合酶的模块化无细胞蛋白质生物传感器平台
传统的实验室蛋白质检测技术不适合用于护理点 (POC),因为它们需要昂贵的设备和繁琐的操作步骤,而且现有的 POC 检测方法开发周期较长。在此,我们介绍一种用于通用蛋白质检测的模块化无细胞生物传感平台,我们称之为 TLISA(T7 RNA 聚合酶连接免疫传感检测),其设计具有极高的灵活性,无需设备即可使用。TLISA 使用与蛋白质亲和域融合的分化 T7 RNA 聚合酶。目标抗原驱动聚合酶重组,诱导报告表达。我们描述了该平台的特点,然后通过使用 16 个亲和域来检测四种不同的抗原,证明了它的模块化能力,只需对方案进行最少的优化。我们通过在一小时内用比色读出法检测血清和唾液中的人类生物标记物,并通过冻干后的功能性证明 TLISA 适合 POC 使用。总之,这项技术可能会产生革命性的影响,实现真正快速、可重新配置、无需设备的蛋白质检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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