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在即时检测设备中使用碱基堆积等温扩增法直接对体液中的微小RNA进行定量分析。

Quantification of microRNAs directly from body fluids using a base-stacking isothermal amplification method in a point-of-care device.

作者信息

Williams Maggie R, Stedtfeld Robert D, Stedtfeld Tiffany M, Tiedje James M, Hashsham Syed A

机构信息

Department of Civil and Environmental Engineering, Michigan State University, East Lansing, MI, 48824, USA.

Center for Microbial Ecology, Michigan State University, East Lansing, MI, 48824, USA.

出版信息

Biomed Microdevices. 2017 Sep;19(3):45. doi: 10.1007/s10544-017-0191-2.

DOI:10.1007/s10544-017-0191-2
PMID:28536858
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5896010/
Abstract

MicroRNAs have been proposed to be a class of biomarkers of disease as expression levels are significantly altered in various tissues and body fluids when compared to healthy controls. As such, the detection and quantification of microRNAs is imperative. While many methods have been established for quantification of microRNAs, they typically rely on time consuming handling such as RNA extraction, purification, or ligation. Here we describe a novel method for quantification of microRNAs using direct amplification in body fluids without upstream sample preparation. Tested with a point-of-care device (termed Gene-Z), the presence of microRNA promotes base-stacking hybridization, and subsequent amplification between two universal strands. The base-stacking approach, which was achieved in <60 min, provided a sensitivity of 1.4 fmol per reaction. Tested in various percentages of whole blood, plasma, and faeces, precision (coefficient of variation = 2.6%) was maintained and comparable to amplification in pristine samples. Overall, the developed method represents a significant step towards rapid, one-step detection of microRNAs.

摘要

由于与健康对照相比,各种组织和体液中的微小RNA表达水平会发生显著变化,因此它们被认为是一类疾病生物标志物。因此,微小RNA的检测和定量至关重要。虽然已经建立了许多用于微小RNA定量的方法,但它们通常依赖于耗时的操作,如RNA提取、纯化或连接。在这里,我们描述了一种在无需上游样品制备的情况下,直接在体液中进行扩增来定量微小RNA的新方法。使用即时检测设备(称为Gene-Z)进行测试,微小RNA的存在促进碱基堆积杂交,以及两条通用链之间的后续扩增。在不到60分钟内完成的碱基堆积方法,每个反应的灵敏度为1.4飞摩尔。在不同比例的全血、血浆和粪便中进行测试,精密度(变异系数=2.6%)得以保持,与原始样品中的扩增相当。总体而言,所开发的方法朝着快速、一步检测微小RNA迈出了重要一步。

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