Add to ORKGNucleic acid circuits are finding increasing real-life applications in diagnostics and synthetic biology. Although DNA has been the main operator in most nucleic acid circuits, transcriptionally produced RNA circuits could provide powerful alternatives for reagent production and their use in cells. Towards these goals, we have implemented a par-ticular nucleic acid circuit, catalytic hairpin assembly, using RNA for both information storage and processing. Our results demonstrated that the design principles developed for DNA circuits could be readily translated to engineering RNA circuits that operated with similar kinetics and sensitivities of detection. Not only could purified RNA hairpins perform amplification reactions but RNA hairpins t...
The construction of compact and robust artificial biochemical circuits based on nucleic acids can he...
RNA molecules lie at the heart of living organisms where they are associated with most of the cellul...
DNA circuits form the basis of programmable molecular systems capable of signal transduction and alg...
Nucleic acid circuits are finding increasing real-life applications in diagnostics and synthetic bio...
DNA can execute programmed strand exchange reactions that process signals and information. In partic...
DNA and RNA nanotechnology has been used for the development of dynamic molecular devices. In partic...
Signal amplification is a key component of molecu-lar detection. Enzyme-free signal amplification is...
molecular programming was engendered in large measure as a curiosity-driven exercise, it has taken o...
<p>Nucleic Acid hairpins have been a subject of study for the last four decades. They are composed o...
A central goal of biomolecular engineering is the construction of tools to manipulate nanoscale proc...
Recent advances in nucleic acids engineering introduced several RNA-based regulatory components for ...
DNA circuits have proven to be useful amplifiers for diagnostic applications, in part because of the...
textNucleic acids are a uniquely flexible and multi-faceted class of molecules that fulfill fundamen...
textAlthough nucleic acids primarily function as carriers of the genetic information in biology, the...
textFunctional nucleic acids provide insight into the ‘RNA world,’ the proposed period in Earth’s hi...
The construction of compact and robust artificial biochemical circuits based on nucleic acids can he...
RNA molecules lie at the heart of living organisms where they are associated with most of the cellul...
DNA circuits form the basis of programmable molecular systems capable of signal transduction and alg...
Nucleic acid circuits are finding increasing real-life applications in diagnostics and synthetic bio...
DNA can execute programmed strand exchange reactions that process signals and information. In partic...
DNA and RNA nanotechnology has been used for the development of dynamic molecular devices. In partic...
Signal amplification is a key component of molecu-lar detection. Enzyme-free signal amplification is...
molecular programming was engendered in large measure as a curiosity-driven exercise, it has taken o...
<p>Nucleic Acid hairpins have been a subject of study for the last four decades. They are composed o...
A central goal of biomolecular engineering is the construction of tools to manipulate nanoscale proc...
Recent advances in nucleic acids engineering introduced several RNA-based regulatory components for ...
DNA circuits have proven to be useful amplifiers for diagnostic applications, in part because of the...
textNucleic acids are a uniquely flexible and multi-faceted class of molecules that fulfill fundamen...
textAlthough nucleic acids primarily function as carriers of the genetic information in biology, the...
textFunctional nucleic acids provide insight into the ‘RNA world,’ the proposed period in Earth’s hi...
The construction of compact and robust artificial biochemical circuits based on nucleic acids can he...
RNA molecules lie at the heart of living organisms where they are associated with most of the cellul...
DNA circuits form the basis of programmable molecular systems capable of signal transduction and alg...