Chemical and structural modification of RNA-cleaving DNAzymes for efficient biosensing and biomedical applications

Deoxyribozyme (DNAzyme) is single-stranded catalytic DNA that possesses various physical and chemical features, including small molecular weight, higher stability, excellent programmability, and cost-effectiveness. Considerable efforts are spent on the incorporation of RNA-cleaving DNAzyme (RCD) into biosensor and biomedical researches. However, their in vivo application is constrained by off-target activation (always turn-on) in complex biological environment. Therefore, there is a pursuit to develop spatiotemporally controlled DNAzyme in desired locations and time-points. Herein, we provide a timely and comprehensive overview of various chemical modification and structural reconfiguration methods to realize the specific stimulation/regulation of RCD activities, including metal ions, small molecules, nucleic acids, proteins, and external photo/thermal stimuli. The specific examples of using chemically and/or structurally caged RCD for stimuli-responsive biosensing and biomedical research have also been reviewed within the past five years. Lastly, the challenges and perspectives of stimuli-responsive RCD are suggested to further advance the RCD toolbox in clinical application.