基于磁性纳米粒子自组装的增强共振光散射技术检测细胞样品中的 miRNA。

Assay of miRNA in cell samples using enhanced resonance light scattering technique based on self aggregation of magnetic nanoparticles.

机构信息

Department of Chemistry, Liaocheng University, Liaocheng 252059, China.

Nanobioengineering/Bioelectronics Laboratory, Department of Biomedical Engineering, Florida International University, Miami, FL 33174, USA.

出版信息

Nanomedicine (Lond). 2018 Sep;13(18):2301-2310. doi: 10.2217/nnm-2018-0066. Epub 2018 Oct 4.

DOI:10.2217/nnm-2018-0066

PMID:30284477

Abstract

AIMS

miRNAs are regarded as potential biomarkers correlated with the development and progression of many diseases. However, it is a challenge to construct a sensitive method to detect them without using time-consuming radioactive labeling or complex amplification strategies.

METHODS

A facile resonance light scattering (RLS) system was developed for the detection of miRNA employing magnetic nanoparticles (MNPs) as RLS probes. MNPs were coated with streptavidin. DNA probes were modified on the surface of MNPs based on the specific interaction of streptavidin and biotin forming MNPs@DNA probes. MNPs@DNA probes dispersed in homogeneous media causing low RLS signal.

RESULTS & CONCLUSION: miRNA hybridized with DNA probes resulting in the aggregation of MNPs and inducing the enhancement of RLS intensity. miRNAs were determined successfully with limit of detection at 0.9 picomole per liter (pM). The potential clinical application of the present biosensor was also demonstrated by measuring miRNAs in human normal and cancer cells, and human serum samples.

摘要

目的

miRNA 被认为是与许多疾病的发生和发展相关的潜在生物标志物。然而，构建一种灵敏的检测方法而不使用耗时的放射性标记或复杂的扩增策略是一个挑战。

方法

利用磁性纳米粒子（MNPs）作为 RLS 探针，开发了一种简便的共振光散射（RLS）系统来检测 miRNA。MNPs 表面涂有链霉亲和素。DNA 探针基于链霉亲和素和生物素的特异性相互作用修饰在 MNPs 表面，形成 MNPs@DNA 探针。MNPs@DNA 探针在均匀介质中分散，导致 RLS 信号较低。

结果与结论

miRNA 与 DNA 探针杂交导致 MNPs 聚集，并诱导 RLS 强度增强。成功地检测到了 miRNA，检测限为 0.9 皮摩尔/升（pM）。通过测量人正常和癌细胞以及人血清样本中的 miRNA，还证明了本生物传感器的潜在临床应用。

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基于磁性纳米粒子自组装的增强共振光散射技术检测细胞样品中的 miRNA。

Assay of miRNA in cell samples using enhanced resonance light scattering technique based on self aggregation of magnetic nanoparticles.

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