Login / Signup

Chemically Inducible DNAzyme Sensor for Controllable Imaging of Metal Ions.

Rong WangLanxing YuWenhan HeZhen-Kun WuJian-Hui Jiang
Published in: Analytical chemistry (2024)
RNA-cleaving DNAzymes have emerged as a promising tool for metal ion detection. Achieving spatiotemporal control over their catalytic activity is essential for understanding the role of metal ions in various biological processes. While photochemical and endogenous stimuli-responsive approaches have shown potential for controlled metal ion imaging using DNAzymes, limitations such as photocytotoxicity, poor tissue penetration, or off-target activation have hindered their application for safe and precise detection of metal ions in vivo . We herein report a chemically inducible DNAzyme in which the catalytic core is modified to contain chemical caging groups at the selected backbone sites through systematic screening. This inducible DNAzyme exhibits minimal leakage of catalytic activity and can be reactivated by small molecule selenocysteines, which effectively remove the caging groups and restore the activity of DNAzyme. Benefiting from these findings, we designed a fluorogenic chemically inducible DNAzyme sensor for controlled imaging of metal ions with tunable activity and high selectivity in live cells and in vivo . This chemically inducible DNAzyme design expands the toolbox for controlling DNAzyme activity and can be easily adapted to detect other metal ions in vivo by changing the DNAzyme module, offering opportunities for precise biomedical diagnosis.
Keyphrases