All-organic, heavy-atom-free photosensitizers based on thionation of nucleobases are receiving increased attention because they are easy to make, noncytotoxic, work both in the presence and absence of molecular oxygen, and...
All-organic, heavy-atom-free
photosensitizers based on thionation of nucleobases are receiving increased
attention because they are easy to make, noncytotoxic, work both in the
presence and absence of molecular oxygen and can be readily incorporated into
DNA and RNA. In this contribution, the DNA and RNA fluorescent probe,
thieno[3,4-d]pyrimidin-4(1H)-one, has been thionated to develop
thieno[3,4-d]pyrimidin-4(1H)-thione, which is nonfluorescent and absorbs
near-visible radiation with about 60% higher efficiency. Steady-state
absorption and emission spectra are combined with transient absorption
spectroscopy and CASPT2 calculations to delineate the electronic relaxation
mechanisms of both pyrimidine derivatives in aqueous and acetonitrile solutions
and to explain the origin of the remarkable fluorescence quenching in the
thionated compound. It is demonstrated that thieno[3,4-d]pyrimidin-4(1H)-thione
efficiently populates the long-lived and reactive triplet state in hundreds of
femtoseconds independent of solvent. Conversely, fluorescence emission in
thieno[3,4-d]pyrimidin-4(1H)-one is highly sensitive to solvent, with an order
of magnitude decrease in fluorescence yield in going from aqueous to
acetonitrile solution. Collectively,
the experimental and computational results demonstrate that thieno[3,4-d]pyrimidine-4(1H)-thione
stands out as the most promising thiopyrimidine photosensitizer developed to
this date, which can be readily incorporated as a photodynamic agent into sequence-specific
DNA and RNA sequences for the treatment of skin cancer cells.
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