Advanced Sensor Research (Sep 2023)
Stimuli‐Responsive DNA Circuits for High‐Performance Bioimaging Application
Abstract
Abstract Probing endogenous molecules in living entities is significant to help decipher biological functions and exploit novel theranostics. DNA circuits that can recognize molecular inputs of interest and transduce them into readable signal outputs in an isothermal and autonomous manner have been actively pursued as versatile toolkits for intracellular biosensing research. Tremendous efforts are being devoted to developing integrated DNA circuits with high sensitivity, while spatiotemporal selectivity is often overlooked in the construction of functional DNA circuitry systems. This requires the development of stimuli‐responsive DNA circuits that can be activated on‐demand from the initial sensing‐blunt state to the sensing‐ready state under a programmable manner, for achieving precise bioimaging with high spatiotemporal control. In this review, an overview of recent advances in the construction of stimuli‐responsive DNA circuits that respond to particular triggers, including external physical stimuli and endogenous biological cues, and their spatiotemporally controllable molecular bioimaging applications is provided. The current challenges and potential solutions of these stimuli‐responsive DNA circuits for their future developments in this emerging field are also discussed.
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