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通过两步量子点荧光共振能量转移对DNA凝聚和稳定性进行同步无创分析。

Simultaneous Non-invasive Analysis of DNA Condensation and Stability by Two-step QD-FRET.

作者信息

Chen Hunter H, Ho Yi-Ping, Jiang Xuan, Mao Hai-Quan, Wang Tza-Huei, Leong Kam W

机构信息

Dept. of Biomedical Engineering, Johns Hopkins School of Medicine, Baltimore, MD.

出版信息

Nano Today. 2009 Apr 1;4(2):125-134. doi: 10.1016/j.nantod.2009.02.008.

DOI:10.1016/j.nantod.2009.02.008
PMID:20161048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2746678/
Abstract

Nanoscale vectors comprised of cationic polymers that condense DNA to form nanocomplexes are promising options for gene transfer. The rational design of more efficient nonviral gene carriers will be possible only with better mechanistic understanding of the critical rate-limiting steps, such as nanocomplex unpacking to release DNA and degradation by nucleases. We present a two-step quantum dot fluorescence resonance energy transfer (two-step QD-FRET) approach to simultaneously and non-invasively analyze DNA condensation and stability. Plasmid DNA, double-labeled with QD (525 nm emission) and nucleic acid dyes, were complexed with Cy5-labeled cationic gene carriers. The QD donor drives energy transfer stepwise through the intermediate nucleic acid dye to the final acceptor Cy5. At least three distinct states of DNA condensation and integrity were distinguished in single particle manner and within cells by quantitative ratiometric analysis of energy transfer efficiencies. This novel two-step QD-FRET method allows for more detailed assessment of the onset of DNA release and degradation simultaneously.

摘要

由阳离子聚合物组成的纳米级载体可凝聚DNA形成纳米复合物,是基因转移的理想选择。只有更好地从机理上理解关键的限速步骤,如纳米复合物解聚以释放DNA以及被核酸酶降解,才有可能合理设计出更高效的非病毒基因载体。我们提出了一种两步量子点荧光共振能量转移(两步QD-FRET)方法,用于同时、非侵入性地分析DNA的凝聚和稳定性。用QD(发射波长525nm)和核酸染料双标记的质粒DNA与Cy5标记的阳离子基因载体复合。QD供体通过中间核酸染料将能量逐步转移到最终受体Cy5。通过对能量转移效率进行定量比率分析,以单颗粒方式并在细胞内区分出至少三种不同的DNA凝聚和完整性状态。这种新颖的两步QD-FRET方法能够同时更详细地评估DNA释放和降解的起始情况。

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