Add to ORKGWe have designed a new class of molecules, which we term aptamer beacons, for detecting a wide range of ligands. Similar to molecular beacons, aptamer beacons can adopt two or more conformations, one of which allows ligand binding. A fluorescence-quenching pair is used to report changes in conformation induced by ligand binding. An anti-thrombin aptamer was engineered into an aptamer beacon by adding nucleotides to the 5-end which are complementary to nucleotides at the 3-end of the aptamer. In the absence of thrombin, the added nucleotides will form a duplex with the 3-end, forcing the aptamer beacon into a stem-loop structure. In the presence of thrombin, the aptamer beacon forms the ligand-binding structure. This conformational change ca...
A strategy to extend the detection range of weakly-binding targets is reported that takes advantage ...
Aptamers are functional nucleic acid (FNA) species capable of specifically binding a target ligand w...
We describe an innovative selection approach to generate self-reporting aptamers (SRAs) capable of c...
Real-time monitoring of DNA—protein interactions involving molecular beacon (MB) and molecular beaco...
Aptamer-based protein sensing can be implemented using a variety of optical and non-optical detectio...
Molecular beacons (MBs) are hairpin-shaped oligonucleotides that contain both fluorophore and quench...
Aptamer-based protein sensing can be implemented using a variety of optical and non-optical detectio...
Nucleic acid binding species called aptamers are intrinsically well suited for biosensing applicat...
Nucleic acid binding species called aptamers are intrinsically well suited for biosensing applicat...
A challenge for the use of aptamers as biosensors is how to signal the occurrence of their ligand bi...
Aptamers are an emerging class of nucleic acid molecules with applications in several fields. They a...
Aptamers comprise a range of molecular recognition scaffolds that can be engineered to bind to a leg...
We have developed RNA-based quencher-free molecular aptamer beacons (RNA-based QF-MABs) for the dete...
A strategy to extend the detection range of weakly-binding targets is reported that takes advantage ...
Aptamers are functional nucleic acid (FNA) species capable of specifically binding a target ligand w...
A strategy to extend the detection range of weakly-binding targets is reported that takes advantage ...
Aptamers are functional nucleic acid (FNA) species capable of specifically binding a target ligand w...
We describe an innovative selection approach to generate self-reporting aptamers (SRAs) capable of c...
Real-time monitoring of DNA—protein interactions involving molecular beacon (MB) and molecular beaco...
Aptamer-based protein sensing can be implemented using a variety of optical and non-optical detectio...
Molecular beacons (MBs) are hairpin-shaped oligonucleotides that contain both fluorophore and quench...
Aptamer-based protein sensing can be implemented using a variety of optical and non-optical detectio...
Nucleic acid binding species called aptamers are intrinsically well suited for biosensing applicat...
Nucleic acid binding species called aptamers are intrinsically well suited for biosensing applicat...
A challenge for the use of aptamers as biosensors is how to signal the occurrence of their ligand bi...
Aptamers are an emerging class of nucleic acid molecules with applications in several fields. They a...
Aptamers comprise a range of molecular recognition scaffolds that can be engineered to bind to a leg...
We have developed RNA-based quencher-free molecular aptamer beacons (RNA-based QF-MABs) for the dete...
A strategy to extend the detection range of weakly-binding targets is reported that takes advantage ...
Aptamers are functional nucleic acid (FNA) species capable of specifically binding a target ligand w...
A strategy to extend the detection range of weakly-binding targets is reported that takes advantage ...
Aptamers are functional nucleic acid (FNA) species capable of specifically binding a target ligand w...
We describe an innovative selection approach to generate self-reporting aptamers (SRAs) capable of c...