OWL2: a molecular beacon-based nanostructure for highly selective detection of single-nucleotide variations in folded nucleic acids
Brittany L. Mueller, Mark J. Liberman, Dmitry M. Kolpashchikov
Abstract
room or 37 °C) temperatures; (2) low affinity in binding folded nucleic acids, and (3) the cost of fluorescent probes. Here we introduce a multicomponent hybridization probe, called OWL2 sensor, which addresses all three issues. The OWL2 sensor uses two analyte binding arms to tightly bind and unwind folded analytes, and two sequence-specific strands that bind both the analyte and a universal molecular beacon (UMB) probe to form fluorescent 'OWL' structure. The OWL2 sensor was able to differentiate single base mismatches in folded analytes in the temperature range of 5-38 °C. The design is cost-efficient since the same UMB probe can be used for detecting any analyte sequence.
Topics & Concepts
AnalyteNucleic acidMolecular beaconBiosensorNucleotideFörster resonance energy transferChemistryFluorescenceSequence (biology)Combinatorial chemistryNanotechnologyComputational biologyOligonucleotideDNABiochemistryMaterials scienceBiologyGeneChromatographyQuantum mechanicsPhysicsAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid ChemistryBiosensors and Analytical Detection