A target-triggered self-assembly QFRP strategy for in situ single molecule imaging of intracellular mRNAs

IF 3.3 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2025-09-03 DOI:10.1039/d5an00831j

Binxiao Li, Lan Xu, Zesong Jiang, Ruolin Yang, Baohong Liu

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Abstract

Precise visualization of scarce mRNA transcripts is hindered by the limited performance of conventional probes and the complexity of the intracellular milieu. Here, we present a target-triggered self-assembly-based single quantum dot (QD) fluorescence resonance energy transfer (FRET) probe system (QFRP) for high-resolution mRNA imaging in diverse living cell lines. Compared with conventional single-fluorophore probes, QFRP exhibits substantially enhanced sensitivity and quantitative accuracy, achieving a detection limit as low as 35 fM while markedly suppressing false positives through dualsignal colocalization. By leveraging QDs as photostable donors and assembled Cy5 acceptors, QFRP enables effective visualization of subtle differences in mRNA expression between cancerous and normal cells, revealing essential biological heterogeneity in complex intracellular environments. These findings demonstrate the robustness, specificity, and versatility of this single-entity RET-based nanosystem, underscoring its potential for advanced molecular imaging and precision medicine, particularly in the visualized analysis of low-abundance targets within complex microenvironments related to tumor progression.

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细胞内mrna原位单分子成像的靶标触发自组装QFRP策略

由于传统探针的性能有限和细胞内环境的复杂性，对稀缺mRNA转录物的精确可视化受到阻碍。在这里，我们提出了一种靶向触发的基于自组装的单量子点（QD）荧光共振能量转移（FRET）探针系统（QFRP），用于在各种活细胞系中进行高分辨率mRNA成像。与传统的单荧光探针相比，QFRP具有显著增强的灵敏度和定量准确性，检测限低至35 fM，同时通过双信号共定位显着抑制假阳性。通过利用量子点作为光稳定供体和组装的Cy5受体，QFRP能够有效地可视化癌细胞和正常细胞之间mRNA表达的细微差异，揭示复杂细胞内环境中基本的生物异质性。这些发现证明了这种基于单一实体ret的纳米系统的稳健性、特异性和多功能性，强调了其在先进分子成像和精准医学方面的潜力，特别是在与肿瘤进展相关的复杂微环境中低丰度靶点的可视化分析方面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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