42 research outputs found

    High-Energy Long-Lived Excited States in DNA Double Strands

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    International audienceDark DNA light: Dark excited states of alternating GC double strands emit fluorescence at 4000 cm-1 higher energy (see spectrum) and with four orders of magnitude longer lifetime compared to the bright * states. Such high-energy long-lived excited states are expected to play a key role in the DNA photoreactivity associated with the appearance of carcinogenic mutations

    Fluorescence of Natural DNA: From the Femtosecond to the Nanosecond Time Scales

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    International audienceThe fluorescence of calf thymus DNA is studied by steady-state and time-resolved spectroscopy combining fluorescence upconversion and time-correlated single photon counting. The fluorescence spectrum is very similar to that of a stoichiometric mixture of monomeric chromophores, arising from bright ππ* states, and contrasts with the existing picture of exciplex emission in natural DNA. Yet, the DNA fluorescence decays span over five decades of time, with 98% of the photons being emitted at times longer than 10 ps. These findings, in association with recent studies on model duplexes, are explained by the involvement of dark states, possibly related to charge separation, serving as a reservoir for the repopulation of the bright ππ* states

    DNA/RNA: Building Blocks of Life Under UV Irradiation

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    International audienceDuring the last 10 years, intense experimental and theoretical work has proven the existence of ultrafast nonradiative decay routes for UV-excited monomeric nucleic acid bases, accounting for their high photostability. This mechanism has been explained by the occurrence of easily accessible conical intersections connecting the first excited ππ* state with the ground state. However, recent studies of substituent and solvent effects indicate that the situation is more complicated than what was initially thought, notably by the presence of dark excited states. Moreover, the actual shape of the excited-state potential energy surface may induce nonexponential dynamics. Further efforts are needed in order to clarify how various environmental factors affect the structural and dynamical aspects of the nucleic acid base excited states

    Femtosecond studies of monomeric nucleic acid bases

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    Excitation transfer in natural DNA

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    The local structure in the BmimPF(6)/acetonitrile mixture: the charge distribution effect

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    The effect of the charge distribution on the local structure in the binary mixture of 1-butyl-3-methylimidazolium hexafluorophosphate (BmimPF 6 ) ionic liquid and acetonitrile is investigated over the entire composition range
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