Abstract
Metal ions are essential to many chemical, biological, and environmental processes. In the past two decades, many DNA-based metal sensors have emerged. While the main biological role of DNA is to store genetic information, its chemical structure is ideal for metal binding via both the phosphate backbone and nucleobases. DNA is highly stable, cost-effective, easy to modify, and amenable to combinatorial selection. Two main classes of functional DNA were developed for metal sensing: aptamers and DNAzymes. While a few metal binding aptamers are known, it is generally quite difficult to isolate such aptamers. On the other hand, DNAzymes are powerful tools for metal sensing since they are selected based on…
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Authors
3Topics & keywords
Topics
Keywords
- Deoxyribozyme
- Aptamer
- DNA
- Chemistry
- Nanotechnology
- Computational biology
- Nucleobase
- Combinatorial chemistry
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