![]() Visualising DNA in Classrooms Using Nile BlueĮRIC Educational Resources Information Center Fluorescence spectroscopy confirms the presence of competitive interaction modes for both sensitizers, while the sensitization via electron transfer, is possible only in the case of nile blue. Most notably, even in the case of nile blue, its sensitization capabilities strongly depend on the environment resulting in a single active binding mode: the minor groove. However their subsequent photophysical behavior is different and only nile blue is able to induce DNA photosensitization via an electron transfer mechanism. In particular, we evidence the presence of two competitive binding modes, for both drugs. We report a molecular modeling study, coupled with spectroscopy experiments, on the behavior of two well known organic dyes, nile blue and nile red, when interacting with B-DNA. Gattuso, Hugo Besancenot, Vanessa Grandemange, Stéphanie Marazzi, Marco Monari, Antonio From non-covalent binding to irreversible DNA lesions: nile blue and nile red as photosensitizing agents
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