Self-assembled DNA/RNA nanospheres with cascade signal amplification for intracellular MicroRNA imaging

Juan Song; Han Zhang Mou; Xiao Qiong Li; Yu Liu; Xue Jiao Yang; Hong Yuan Chen; Jing Juan Xu

doi:10.1016/j.snb.2022.131644

Self-assembled DNA/RNA nanospheres with cascade signal amplification for intracellular MicroRNA imaging

Juan Song, Han Zhang Mou, Xiao Qiong Li, Yu Liu, Xue Jiao Yang^*, Hong Yuan Chen, Jing Juan Xu

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In situ visual detection of microRNAs (miRNAs) is of great significance for early diagnosis of miRNA-related diseases. In this study, we designed a rolling circle replication-driven self-assembled nucleic acid nanosphere (NS) for imaging miRNAs in living cells, which was loaded with four functional oligonucleotides (THp, H1, H2, H3) through hybridization. The DNA/RNA NS showed excellent biocompatibility, stability and RNase H-responsiveness, enabling on-demand delivery of sensing components and live-cell applications. In the presence of the target miRNA, the cascade amplification of catalytic hairpin assembly (CHA) and hybridization chain reaction (HCR) would be triggered to generate a strong fluorescence signal. Taking miRNA 155 as a model, the developed DNA/RNA NS achieved sensitive detection of the target in vitro and in tumor cells, demonstrating the potential of miRNA-based tumor screening.

源语言	英语
文章编号	131644
期刊	Sensors and Actuators, B: Chemical
卷	360
DOI	https://doi.org/10.1016/j.snb.2022.131644
出版状态	已出版 - 1 6月 2022
已对外发布	是

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title = "Self-assembled DNA/RNA nanospheres with cascade signal amplification for intracellular MicroRNA imaging",

abstract = "In situ visual detection of microRNAs (miRNAs) is of great significance for early diagnosis of miRNA-related diseases. In this study, we designed a rolling circle replication-driven self-assembled nucleic acid nanosphere (NS) for imaging miRNAs in living cells, which was loaded with four functional oligonucleotides (THp, H1, H2, H3) through hybridization. The DNA/RNA NS showed excellent biocompatibility, stability and RNase H-responsiveness, enabling on-demand delivery of sensing components and live-cell applications. In the presence of the target miRNA, the cascade amplification of catalytic hairpin assembly (CHA) and hybridization chain reaction (HCR) would be triggered to generate a strong fluorescence signal. Taking miRNA 155 as a model, the developed DNA/RNA NS achieved sensitive detection of the target in vitro and in tumor cells, demonstrating the potential of miRNA-based tumor screening.",

keywords = "Cascade amplification, CHA and HCR, DNA/RNA nanosphere, MiRNA 155, On-demand delivery",

author = "Juan Song and Mou, {Han Zhang} and Li, {Xiao Qiong} and Yu Liu and Yang, {Xue Jiao} and Chen, {Hong Yuan} and Xu, {Jing Juan}",

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year = "2022",

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AU - Song, Juan

AU - Mou, Han Zhang

AU - Li, Xiao Qiong

AU - Liu, Yu

AU - Yang, Xue Jiao

AU - Chen, Hong Yuan

AU - Xu, Jing Juan

PY - 2022/6/1

Y1 - 2022/6/1

N2 - In situ visual detection of microRNAs (miRNAs) is of great significance for early diagnosis of miRNA-related diseases. In this study, we designed a rolling circle replication-driven self-assembled nucleic acid nanosphere (NS) for imaging miRNAs in living cells, which was loaded with four functional oligonucleotides (THp, H1, H2, H3) through hybridization. The DNA/RNA NS showed excellent biocompatibility, stability and RNase H-responsiveness, enabling on-demand delivery of sensing components and live-cell applications. In the presence of the target miRNA, the cascade amplification of catalytic hairpin assembly (CHA) and hybridization chain reaction (HCR) would be triggered to generate a strong fluorescence signal. Taking miRNA 155 as a model, the developed DNA/RNA NS achieved sensitive detection of the target in vitro and in tumor cells, demonstrating the potential of miRNA-based tumor screening.

AB - In situ visual detection of microRNAs (miRNAs) is of great significance for early diagnosis of miRNA-related diseases. In this study, we designed a rolling circle replication-driven self-assembled nucleic acid nanosphere (NS) for imaging miRNAs in living cells, which was loaded with four functional oligonucleotides (THp, H1, H2, H3) through hybridization. The DNA/RNA NS showed excellent biocompatibility, stability and RNase H-responsiveness, enabling on-demand delivery of sensing components and live-cell applications. In the presence of the target miRNA, the cascade amplification of catalytic hairpin assembly (CHA) and hybridization chain reaction (HCR) would be triggered to generate a strong fluorescence signal. Taking miRNA 155 as a model, the developed DNA/RNA NS achieved sensitive detection of the target in vitro and in tumor cells, demonstrating the potential of miRNA-based tumor screening.

KW - Cascade amplification

KW - CHA and HCR

KW - DNA/RNA nanosphere

KW - MiRNA 155

KW - On-demand delivery

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Self-assembled DNA/RNA nanospheres with cascade signal amplification for intracellular MicroRNA imaging

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