Journal
JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY B-BIOLOGY
Volume 130, Issue -, Pages 199-204Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jphotobiol.2013.11.013
Keywords
Acene; DNA; Energy transfer; Excimer; Nanostructures; Self-assembly
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Funding
- Ministry of Education, Science, and Culture, Japan [23310084]
- Grants-in-Aid for Scientific Research [23310084] Funding Source: KAKEN
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We describe optical properties of anthracene stacks formed from single-component self-assembly of thymidylic acid-appended anthracene 2,6-bis[5-(3'-thymidylic acid)pentyloxy] anthracene (TACT) and the binary self-assembly of TACT and complementary 20-meric oligoadenylic acid (TACT/dA(20)) in an aqueous buffer. UV-Vis and emission spectra for the single-component self-assembly of TACT and the binary self-assembly of TACT/dA20 were very consistent with stacked acene moieties in both self-assemblies. Interestingly, time-resolved fluorescence spectra from anthracene stacks exhibited very different features of the single-component and binary self-assemblies. In the single-component self-assembly of TACT, a dynamic Stokes shift (DSS) and relatively short fluorescence lifetime (tau = 0.35 ns) observed at around 450 nm suggested that the anthracene moieties were flexible. Moreover, a broad emission at 530 nm suggested the formation of an excited dimer (excimer). In the binary self-assembly of TACT/dA20, we detected a broad, red-shifted emission component at 534 nm with a lifetime (tau = 0.4 ns) shorter than that observed in the TACT single-component self-assembly. Combining these results with the emission spectrum of the binary self-assembly of TACT/5'-HEX dA(20), we concluded that the energy transfer pathway was constructed by columnar anthracene stacks formed from the DNA-templated self-assembly of TACT. (C) 2013 Elsevier B.V. All rights reserved.
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