AI Article Synopsis
- Researchers developed a fast DNA-encoded method to regulate the activity of platinum (Pt) nanozymes for better biochemical sensing.
- The catalytic activity of Pt nanozymes was found to depend on DNA sequences, with T-rich sequences significantly boosting their peroxidase activity and allowing for bidirectional regulation.
- This strategy also improved the stability of Pt nanozymes under various conditions and influenced their overall performance in accurately detecting antioxidants in a sensor array, paving the way for new sensing technologies.
Article Abstract
Rational regulation of nanozyme activity can promote biochemical sensing by expanding sensing strategies and improving sensing performance, but the design of effective regulatory strategies remains a challenge. Herein, a rapid DNA-encoded strategy was developed for the efficient regulation of Pt nanozyme activity. Interestingly, we found that the catalytic activity of Pt nanozymes was sequence-dependent, and its peroxidase activity was significantly enhanced only in the presence of T-rich sequences. Thus, different DNA sequences realized bidirectional regulation of Pt nanozyme peroxidase activity. Furthermore, the DNA-encoded strategy can effectively enhance the stability of Pt nanozymes at high temperatures, freezing, and long-term storage. Meanwhile, a series of studies demonstrated that the presence of DNA influenced the reduction degree of HPtCl precursors, which in turn affected the peroxidase activity of Pt nanozymes. As a proof of application, the sensor array based on the Pt nanozyme system showed superior performance in the accurate discrimination of antioxidants. This study obtained the regulation rules of DNA on Pt nanozymes, which provided theoretical guidance for the development of new sensing platforms and new ideas for the regulation of other nanozyme activities.
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| http://dx.doi.org/10.1021/acs.analchem.3c01564 | DOI Listing |
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