基于分支 DNA 的 SERS 平台用于血清 microRNA 的超灵敏检测，结合同时检测甲胎蛋白用于肝癌的早期诊断。

Ultrasensitive Detection of Serum MicroRNA Using Branched DNA-Based SERS Platform Combining Simultaneous Detection of α-Fetoprotein for Early Diagnosis of Liver Cancer.

机构信息

CAS Key Laboratory for Biomedical Effects of Nanomaterials & Nanosafety, Institute of High Energy Physics , Chinese Academy of Sciences , 19B, Yuquan Road , Shijingshan District, Beijing 100049 , China.

CAS Key Laboratory of Standardization and Measurement for Nanotechnology, CAS Center for Excellence in Nanoscience , National Center for Nanoscience and Technology (NCNST) , Beijing 100190 , China.

出版信息

ACS Appl Mater Interfaces. 2018 Oct 17;10(41):34869-34877. doi: 10.1021/acsami.8b10252. Epub 2018 Oct 5.

DOI:10.1021/acsami.8b10252

PMID:30238748

Abstract

We provided an ultrasensitive sensing strategy for microRNA detection by first employing branched DNA. With the aid of microcontact printing, we realized the multiplex sensing of different kinds of liver cancer biomarkers: microRNA and protein simultaneously. Delicately designed branched DNA included multiple complementary sticky ends as probe to microRNA capture and the double-stranded rigid branched core to increase the active sticky-ends distance and expose more DNA probes for sensitivity. The branched DNA enables 2 orders of magnitude increase in sensitivity for microRNA detection over single-stranded DNA. The limit of detection reaches as low as 10 attomolar (S/N = 3) for miR-223 and 10 M for α-fetoprotein. In addition, this system shows high selectivity and appropriate reproducibility (the relative standard deviation is less than 20%) in physiological media. Serum samples are tested and the results of α-fetoprotein are in good agreement with the current gold-standard method, electrochemiluminescence immunoassay analyzer. The results suggest the reliability of this approach in physiological media and show high potential in the sensing of low abundant microRNA in serum, especially for early diagnosis of primary liver cancers.

摘要

我们提供了一种超灵敏的微 RNA 检测传感策略，首先采用了分支 DNA。借助微接触印刷，我们实现了不同种类肝癌生物标志物（微 RNA 和蛋白质）的同时多重感测。精心设计的分支 DNA 包括多个互补粘性末端作为微 RNA 捕获的探针，以及双链刚性分支核心，以增加活性粘性末端的距离并暴露出更多的 DNA 探针以提高灵敏度。与单链 DNA 相比，分支 DNA 使微 RNA 检测的灵敏度提高了 2 个数量级。miR-223 的检测限低至 10 飞摩尔（S/N = 3），α-胎蛋白的检测限低至 10 M。此外，该系统在生理介质中表现出高选择性和适当的重现性（相对标准偏差小于 20%）。对血清样本进行了测试，α-胎蛋白的结果与当前的金标准方法（电化学发光免疫分析仪）吻合良好。这些结果表明该方法在生理介质中的可靠性，并显示出在血清中低丰度微 RNA 检测方面的巨大潜力，特别是用于原发性肝癌的早期诊断。

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基于分支 DNA 的 SERS 平台用于血清 microRNA 的超灵敏检测，结合同时检测甲胎蛋白用于肝癌的早期诊断。

Ultrasensitive Detection of Serum MicroRNA Using Branched DNA-Based SERS Platform Combining Simultaneous Detection of α-Fetoprotein for Early Diagnosis of Liver Cancer.

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