Target-triggered, self-powered DNAzyme–MnO2 nanosystem: towards imaging microRNAs in living cells
A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO2 nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one.
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| Published in | Chemical communications (Cambridge, England) Vol. 55; no. 89; pp. 13366 - 13369 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Royal Society of Chemistry
05.11.2019
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO2 nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one. |
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| AbstractList | A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO2 nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one. A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO₂ nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one. A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme-MnO2 nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one.A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme-MnO2 nanosystem, which integrates delivery, quenching, target recognition, self-supply of cofactors and signal amplification all in one. |
| Author | Chen, Hong-Yuan Xu, Jing-Juan Cui, Mei-Rong Li, Xiang-Ling |
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| Copyright | Copyright Royal Society of Chemistry 2019 |
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| DOI | 10.1039/c9cc06623c |
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| Snippet | A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO2 nanosystem, which... A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme-MnO2 nanosystem, which... A target-triggered, self-powered strategy for in situ monitoring of intracellular microRNAs was fabricated via a versatile DNAzyme–MnO₂ nanosystem, which... |
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| SubjectTerms | chemical compounds chemical reactions image analysis Manganese dioxide microRNA MicroRNAs monitoring nanotechnology Target recognition |
| Title | Target-triggered, self-powered DNAzyme–MnO2 nanosystem: towards imaging microRNAs in living cells |
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