Catalytic hairpin assembly indirectly covalent on Fe3O4@C nanoparticles with signal amplification for intracellular detection of miRNA

被引：0

作者：

Fan, Yaofang ^{[1
]}

Liu, Yanming ^{[1
]}

Zhou, Qihui ^{[2
]}

Du, Hao ^{[1
]}

Zhao, Xueyang ^{[1
]}

Ye, Fei ^{[1
]}

Zhao, Huimin ^{[1
]}

机构：

[1] Fan, Yaofang

[2] Liu, Yanming

[3] Zhou, Qihui

[4] Du, Hao

[5] Zhao, Xueyang

[6] Ye, Fei

[7] Zhao, Huimin

来源：

Zhao, Huimin (zhaohuim@dlut.edu.cn) | 1600年 / Elsevier B.V., Netherlands卷 / 223期

基金：

中国国家自然科学基金;

关键词：

Visualization - Energy transfer - Clinical research - Amplification - Fluorescence - Nanoparticles - RNA - DNA;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Fluorescence resonance energy transfer, a promising method for in situ imaging of miRNA in living cells, has intrinsic limitation on sensitivity and selectivity. Herein, a fluorescent amplification strategy based on catalyzed hairpin assembly indirectly covalent on Fe3O4@C nanoparticles via short single-stranded DNA was investigated for cellular miRNA detection in living cells, integrating non-enzyme target-active releasing for amplifying the signal output, highly quenching efficiency of Fe3O4@C nanoparticles with low background, ssDNA assisted fluorescent group-fueled chain releasing from Fe3O4@C nanoparticles with enhanced fluorescence response. The designed platform exhibits highly sensitive in a wide linear concentration range of 0.450 pM190 pM and is highly specific for miRNA-20a detection with the ability of discriminating one mistake base. Additionally, the CHA-Fe3O4@C was successfully applied in imaging visualization of miRNA-20a in the living cell. The strategy provides a promising bioassay approach for clinical research. © 2020 Elsevier B.V.

引用

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