脱氧核酶
化学
细胞内
基质(水族馆)
生物物理学
劈理(地质)
纳米技术
滚动圆复制
生物相容性
生物化学
DNA
材料科学
DNA复制
生物
海洋学
地质学
复合材料
有机化学
断裂(地质)
作者
Xinjia Shuai,Yue Zhang,Jia Zhai,Jing Li,Jiao Chen,Xinying Long,Di Li,Cheng Zhi Huang,Chun Mei Li
标识
DOI:10.1021/acs.analchem.3c00293
摘要
DNAzyme motors are widely used for the sensitive detection of intracellular miRNAs due to their excellent signal response. Generally, the addition of exogenous mental ions to DNAzyme motors is crucial for the efficient operation of the system. Moreover, the position of the DNAzyme relative to the substrate has a significant impact on the cleavage rate during the reaction. Herein, we proposed a highly loaded Na+-fueled linear programmable DNAzyme nanostructure (LPDN) composed of long, single-strand DNA produced by rolling circle amplification reactions that served as binding partners for Na+-specific DNAyme and substrate. In the meantime, the long, programmable scaffolds can precisely control the position of the DNAzyme and substrate for the optimal effect. During the assay, miR-21 and endogenous Na+ can specifically trigger multiple adjacent substrate-cleaving reactions, resulting in a significant recovery of the Cy3 fluorescence signal in living cells. This method could enable in situ real-time imaging and biocompatibility-enhancing evaluation of intracellular miR-21-level changes. Furthermore, LPDN's ability to distinguish normal cells from cancer cells makes it a promising candidate for early cancer diagnosis and imaging analysis of cancer.
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