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1 January 2006 Psoralen and Coumarin Photochemistry in HSA Complexes and DMPC Vesicles
L. Chen, O. Rinco, J. Popov, N. Vuong, Linda J. Johnston
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Abstract

The photochemistry and photophysics of several psoralens and coumarins have been examined in human serum albumin (HSA) complexes and dimyristoylphosphatidylcholine (DMPC) vesicles. Fluorescence spectroscopy indicates that there are multiple binding sites with polarities that are intermediate between those of acetonitrile and water for the substrates complexed to HSA. In the case of the 6,7-dimethoxycoumarin-HSA complex, laser flash photolysis experiments provide evidence for the formation of radical cation in addition to triplet. Radical cations are not detected for other coumarin-HSA complexes, either due to a lower yield of formation or to rapid reaction of an initial radical cation with adjacent amino acids. Fluorescence spectra for coumarins indicate that they are primarily solubilized in the polar headgroup region in DMPC vesicles. Consistent with this, radical cations generated by photoionization are detected in transient experiments. For dimethoxycoumarins the radical cation is long-lived, indicating rapid exit from the vesicle and decay in the aqueous phase. However, 4,5′,8-trimethylpsoralen and 7-ethoxy-4-hexadecylcoumarin radical cations are much shorter-lived, presumably due to rapid decay by electron recombination in the vesicle. The results for both HSA complexes and vesicles indicate that radical ions may play a role in psoralen and coumarin photochemistry in a cellular environment.

L. Chen, O. Rinco, J. Popov, N. Vuong, and Linda J. Johnston "Psoralen and Coumarin Photochemistry in HSA Complexes and DMPC Vesicles," Photochemistry and Photobiology 82(1), 31-37, (1 January 2006). https://doi.org/10.1562/2005-07-20-RA-616
Received: 20 July 2005; Accepted: 7 September 2005; Published: 1 January 2006
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