Add to ORKGEnzyme-free signal amplification has enabled sensitive in vitro detection of biomolecules such as proteins and nucleic acids. However, monitoring targets of interest in live cells via enzyme-free amplification is still challenging, especially for analytes with low concentrations. To the best of our knowledge, this paper reports the first attempt to perform mRNA imaging inside live cells, using a nonenzymatic hairpin DNA cascade reaction for high signal gain, termed a hairpin DNA cascade amplifier (HDCA). In conventional nucleic acid probes, such as linear hybridization probes, mRNA target signaling occurs in an equivalent reaction ratio (1:1), whereas, in HDCA, one mRNA target is able to yield multiple signal outputs (1:m), thus achieving t...
Recent advances in RNA research have posed new directives in biology and chemistry to uncover the co...
The ability to observe the dynamic of RNA in single living cells offers many exciting opportunities ...
The HCR represents a powerful tool for amplification in DNA-based circuitry and sensing applications...
Enzyme-free signal amplification has enabled sensitive <i>in vitro</i> detection of biomolecules suc...
DNA and RNA nanotechnology has been used for the development of dynamic molecular devices. In partic...
Hybridization chain reaction (HCR) circuits are valuable approaches to monitor low-abundance mRNA, a...
Nucleic acids have become viable prognostic and diagnostic biomarkers for a diverse class of disease...
Owing to its important biological functions, RNA has become a promising molecular biomarker of vario...
Nucleic acid circuits are finding increasing real-life applications in diagnostics and synthetic bio...
Herein a low background cascade signal amplification electrochemical sensing platform has been propo...
DNA circuits have proven to be useful amplifiers for diagnostic applications, in part because of the...
Abnormal microRNAs (miRNAs) expression is demonstrated to associate with various important biologica...
Probes for monitoring mRNA expression in vivo are of great interest for the study of biological and ...
Signal amplification is a key component of molecu-lar detection. Enzyme-free signal amplification is...
Combining technological developments such as nanomaterials, DNA nanotechnology, and functional enzym...
Recent advances in RNA research have posed new directives in biology and chemistry to uncover the co...
The ability to observe the dynamic of RNA in single living cells offers many exciting opportunities ...
The HCR represents a powerful tool for amplification in DNA-based circuitry and sensing applications...
Enzyme-free signal amplification has enabled sensitive <i>in vitro</i> detection of biomolecules suc...
DNA and RNA nanotechnology has been used for the development of dynamic molecular devices. In partic...
Hybridization chain reaction (HCR) circuits are valuable approaches to monitor low-abundance mRNA, a...
Nucleic acids have become viable prognostic and diagnostic biomarkers for a diverse class of disease...
Owing to its important biological functions, RNA has become a promising molecular biomarker of vario...
Nucleic acid circuits are finding increasing real-life applications in diagnostics and synthetic bio...
Herein a low background cascade signal amplification electrochemical sensing platform has been propo...
DNA circuits have proven to be useful amplifiers for diagnostic applications, in part because of the...
Abnormal microRNAs (miRNAs) expression is demonstrated to associate with various important biologica...
Probes for monitoring mRNA expression in vivo are of great interest for the study of biological and ...
Signal amplification is a key component of molecu-lar detection. Enzyme-free signal amplification is...
Combining technological developments such as nanomaterials, DNA nanotechnology, and functional enzym...
Recent advances in RNA research have posed new directives in biology and chemistry to uncover the co...
The ability to observe the dynamic of RNA in single living cells offers many exciting opportunities ...
The HCR represents a powerful tool for amplification in DNA-based circuitry and sensing applications...