Photophysical and structural investigation of a PyA-modified adenine cluster: its potential use for fluorescent DNA probes exhibiting distinct emission color changes??
Organic & Biomolecular Chemistry Pub Date: 2015-06-29 DOI: 10.1039/C5OB01159K
Abstract
In this study, we found a PyA-modified adenine cluster (A-cluster), a minimum fluorescent unit for significant emission wavelength changes, and investigated its photophysical and structural properties. The basic A-cluster unit was an adenine-pentad duplex containing stacked PyA pairs in the center aligned in an antiparallel manner. Spectral analysis of the A-cluster revealed remarkable reddish fluorescence with a large Stokes shift (~195 nm) and a long life-time constant (31 ns), originated from exciton states formed by PyA pairs and neighboring adenines. Structurally, the exciton state of the A-cluster exhibited unusually high stability, relative to that of other five-mismatched duplexes, as a result of stabilization through strong stacking interactions (zipper-like structure) of the mismatched A–A and PyA pairs, rather than through traditional Watson–Crick base pairing. These spectral and structural properties of the A-clusters were specific to the adenine bases and highly disturbed by introducing other bases (T, G, and especially C) or an abasic site into the A-cluster, whereas they were enhanced through synergistic effects in systems containing multiple A-clusters. As a minimum unit for these unique properties, finally, the A-cluster was exploited as a fluorescent probing system for specific nucleic acid sequences, such as miR-21, accompanying distinct fluorescence color changes from blue to red. These findings indicated the potential utility of the A-cluster as a part of fluorescent probes exhibiting clear signaling upon micro-environmental changes.
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Journal Name:Organic & Biomolecular Chemistry
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CAS no.: 89640-58-4