Multiplexed Label-Free Biomarker Detection by Targeted Disassembly of Variable-Length DNA Payload Chains

IF 3.4 Q2 CHEMISTRY, ANALYTICAL

Analysis & sensing Pub Date : 2022-11-17 DOI:10.1002/anse.202200082

Matthew Aquilina, Katherine E. Dunn

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Abstract

Simultaneously studying different biomarker types (DNA, RNA, proteins, etc.) could improve understanding and diagnosis of many complex diseases. However, biomarker detection involves several complex or expensive methodologies, requiring specialized laboratories and personnel. A multiplexed assay would greatly facilitate the use of biomarker data. Here, we present a multiplexed biomarker detection technique using variable-length DNA payload chains, which are systematically disassembled in the presence of specific biomarkers. The resulting distinctly-sized fragments yield characteristic gel electrophoresis band patterns. This has enabled us to detect with high sensitivity and specificity DNA sequences including BRCA1 (limit of detection, LOD, ∼3 nM), RNA (miR-141, LOD ∼19 nM) and the steroids aldosterone and cortisol (LOD ∼200–250 nM). We show that our assay is multiplexable, and suffers limited sensitivity loss in fetal bovine serum and can be applied using capillary electrophoresis, which may be more amenable to automation and integration in healthcare settings.

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靶向拆卸可变长度DNA有效载荷链检测多重无标记生物标志物

同时研究不同的生物标志物类型（DNA、RNA、蛋白质等）可以提高对许多复杂疾病的理解和诊断。然而，生物标志物检测涉及几种复杂或昂贵的方法，需要专门的实验室和人员。多重分析将极大地促进生物标志物数据的使用。在这里，我们提出了一种使用可变长度DNA有效载荷链的多重生物标志物检测技术，该技术在存在特定生物标志物的情况下被系统地分解。所得到的大小明显的片段产生特征性的凝胶电泳带图案。这使我们能够以高灵敏度和特异性检测DNA序列，包括BRCA1（检测极限，LOD，～3 nM），RNA（miR-141，LOD～19 nM）和类固醇醛固酮和皮质醇（LOD～200–250 nM）。我们表明，我们的检测方法是可复用的，在胎牛血清中的灵敏度损失有限，可以使用毛细管电泳进行应用，这可能更适合在医疗环境中实现自动化和集成。

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来源期刊

Analysis & sensing

CiteScore

2.60

自引率

0.00%

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