西亚试剂：Base Sequence and Higher-Order Structure Induce the Complex

Base Sequence and Higher-Order Structure Induce the Complex Excited-State Dynamics in DNA

Nina K. Schwalb and Friedrich Temps

The high photostability of DNA is commonly attributed to efficientradiationless electronic relaxation processes. We used femtosecondtime-resolved fluorescence spectroscopy to reveal that the ensuingdynamics are strongly dependent on base sequence and are alsoaffected by higher-order structure. Excited electronic statelifetimes in dG-doped d(A)₂₀ single-stranded DNA and dG·dC-dopedd(A)₂₀·d(T)₂₀ double-stranded DNA decrease sharply withthe substitution of only a few bases. In duplexes containingd(AGA)·d(TCT) or d(AG)·d(TC) repeats, deactivationof the fluorescing states occurs on the subpicosecond time scale,but the excited-state lifetimes increase again in extended d(G)runs. The results point at more complex and molecule-specificphotodynamics in native DNA than may be evident in simpler modelsystems.

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