The rational design of DNA/RNA aptamers for use as molecular probes depends on a clear understanding of their structural elements in relation to target-aptamer binding interactions. We present a simple method to create aptamer probes that can occupy two different structural states. Then, based on the difference in binding affinity between these states, target-aptamer binding interactions can be elucidated. The basis of our two-state system comes from the incorporation of azobenzene within the DNA strand. Azobenzene can be used to photoregulate the melting of DNA-duplex structures. When incorporated into aptamers, the light-regulated conformational change of azobenzene can be used to analyze how aptamer secondary structure is involved in target binding. Azobenzene-modified aptamers showed no change in target selectivity, but showed differences in binding affinity as a function of the number, position, and conformation of azobenzene modifications. Aptamer probes that can change binding affinity on demand may have future uses in targeted drug delivery and photodynamic therapy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3164881 | PMC |
| http://dx.doi.org/10.1021/bc100402p | DOI Listing |
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