The preparation and characterization of three series of novel ruthenium(ii) complexes are reported, each series differing by the nature of the ancillary ligands (2,2'-bipyridine - bpy, 1,10-phenanthroline - phen or 1,4,5,8-tetraazaphenanthrene - TAP). The third ligand was either the heptacyclic heterocycle dipyrido[3,2-a:2',3'-c]quinolino[3,2-h]phenazine (dpqp) substituted at position 12 by an hydroxyl (oxo), 2,2-dimethoxyethylamine (DMEA) or halogeno (Cl or Br) substituent, or the octacyclic dipyrido[3,2-a:2',3'-c]pyrido[2,3,4-de]quinolino[3,2-h]phenazine (dppqp), prepared by a multi-step "chemistry on the complex" strategy from [RuL(oxo-dpqp)](PF). The three steps, halogenation, substitution by a dimethoxyethylamino group and cyclization in trifluoroacetic acid, were performed in reasonable to high yields depending on the nature of the ancillary ligands. Isolation and purification processes were facilitated by the ability to switch the solubility of the complex from aqueous to organic solvents, depending on the counter-ion. All new complexes were fully characterized; in particular their absorption properties were compared by UV-vis spectroscopy. Finally, π-stacking properties induced by these extended ligands were studied by H NMR studies and quantum chemical calculations.
A series of Ru complexes exhibiting π-extended, acridine-based ancillary chelating heterocycles display high affinity and selectivity for DNA and RNA quadruplexes. The most promising candidates (3, 4) possess remarkable light-up luminophore properties (up to 330-fold luminescence enhancement upon interaction with quadruplexes), enabling them to discriminate quadruplexes from genomic DNA owing to a photochemical mechanism involving DNA protection against non-radiative decay (DAND), thus deviating from the other complexes of this series of ligands that exhibit an excited-state intramolecular proton transfer (ESIPT) that quenches their luminescence. The in vitro and preliminary in cellulo results shown here confirm the interest of this new family of fluorophores as invaluable molecular tools to detect G-quadruplexes in cells.
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