Suitability evaluation of toehold switch and EXPAR for cell-free MicroRNA biosensor development

Caroline E. Copeland , Yong-Chan Kwon
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Abstract

The development of a robust and cost-effective sensing platform for microRNA (miRNA) is of paramount importance in detecting and monitoring various diseases. Current miRNA detection methods are marred by low accuracy, high cost, and instability. The toehold switch riboregulator has shown promising results in detecting viral RNAs integrated with the freeze-dried cell-free system (CFS). This study aimed to leverage the toehold switch technology and portability to detect miRNA in the CFS and to incorporate the exponential amplification reaction (EXPAR) to bring the detection to clinically relevant levels. We assessed various EXPAR DNA templates under different conditions to enhance the accuracy of the sensing platform. Furthermore, different structures of toehold switches were tested with either high-concentration synthetic miRNA or EXPAR product to assess sensitivity. Herein, we elucidated the mechanisms of the toehold switch and EXPAR, presented the findings of these optimizations, and discussed the potential benefits and drawbacks of their combined use.

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支点开关和EXPAR在无细胞MicroRNA生物传感器开发中的适用性评价
开发一个强大且具有成本效益的microRNA (miRNA)传感平台对于检测和监测各种疾病至关重要。目前的miRNA检测方法存在精度低、成本高、不稳定等缺点。在结合冻干无细胞系统(CFS)检测病毒rna方面,这种支点开关核素调节剂显示出了令人鼓舞的结果。本研究旨在利用支点开关技术和便携性检测CFS中的miRNA,并结合指数扩增反应(EXPAR)将检测提高到临床相关水平。我们在不同条件下评估了各种EXPAR DNA模板,以提高传感平台的准确性。此外,用高浓度合成miRNA或EXPAR产品测试不同结构的脚开关以评估灵敏度。在此,我们阐明了支点开关和EXPAR的机制,介绍了这些优化的发现,并讨论了它们联合使用的潜在优点和缺点。
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