Method of Generating Branched and Multi-Chain Nucleic Acid Switches for Ligand Detection

Bruce S. Hudson (Inventor), Phil Borer (Inventor)

Research output: Patent

Abstract

Embodiments of the invention relate to a branched or multichain nucleic acid switch adapted to switch from a first conformation to a second conformation upon ligand binding. The switch includes a probe strand, P, which includes the ligand binding domain; a switching framework which includes a cover strand (C), and a tether that holds P and C together and a signaling apparatus. Some embodiments include a toggle strand (T) where now the tether holds P, C, T, and the signaling apparatus together. As the switch changes between the first and second conformations; the signaling apparatus reports the state of the switch. The signaling entity is typically a lumiphore and a quencher located along the switching framework. Nucleic acid switches have applications in real time assays for diverse agents including infectious agents, environmental toxins, and terrorist agents, as well as screening methods for such agents. Further applications are found for nanoelectronics, nanofabrication and nanomachines.
Original languageEnglish (US)
Patent number7,829,287
StatePublished - Aug 13 2009

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    Hudson, B. S., & Borer, P. (2009). Method of Generating Branched and Multi-Chain Nucleic Acid Switches for Ligand Detection. (Patent No. 7,829,287).