Guillaume Piraux scite author profile

Telomeric regions containing G-quadruplex (G4) structures play a pivotal role in the development of cancers. The development of specific binders for G4s is thus of great interest in order to gain a deeper understanding of the role of these structures, and to ultimately develop new anticancer drug candidates. For several years, Ru complexes have been studied as efficient probes for DNA. Interest in these complexes stems mainly from the tunability of their structures and properties, and the possibility of using light excitation as a tool to probe their environment or to selectively trigger their reaction with a biological target. Herein, we report on the synthesis and thorough study of new Ru complexes based on a novel dipyrazino[2,3-a:2',3'-h]phenazine ligand (dph), obtained through a Chichibabin-like reaction. Luminescence experiments, surface plasmon resonance (SPR), and computational studies have demonstrated that these complexes behave as selective probes for G-quadruplex structures.

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Photo‐Oxidizing Ruthenium(II) Complexes with Enhanced Visible‐Light Absorption and G‐quadruplex DNA Binding Abilities

Gillard

Piraux

Daenen

et al. 2022

Chemistry A European J

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Photosensitizers that gather high photo‐oxidizing power and strong visible‐light absorption are of great interest in the development of new photo‐chemotherapeutics. Indeed, such compounds constitute attractive candidates for the design of type I photosensitizers that are not dependent on the presence of oxygen. In this paper, we report on the synthesis and studies of new ruthenium(II) complexes that display strong visible‐light absorption and can oxidize guanine residues under visible‐light irradiation, as evidenced by nanosecond transient absorption spectroscopy. The reported compounds also tightly bind to G‐quadruplex DNA structures from the human telomeric sequence (TTAGGG repeat). The kinetic and thermodynamic parameters of the interaction of these Ru(II) complexes with G‐quadruplex and duplex DNA were studied thanks to luminescence titrations and bio‐layer interferometry measurements, which revealed higher affinities towards the non‐canonical G‐quadruplex architecture. Docking experiments and non‐covalent ionic analysis allowed us to gain information on the mode and the strength of the interaction of the compounds towards G‐quadruplex and duplex DNA. The different studies emphasize the substantial influence of the position and the number of non‐chelating nitrogen atoms on the interaction with both types of DNA secondary structures.

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ChemInform Abstract: Enantioselective Rhodium‐Catalyzed Addition of Arylboronic Acids to Alkenylheteroarenes.

2011

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Asymmetric Rhodium-Catalyzed Addition of Arylboronic Acids to Alkenylheteroarenes

Pattison¹,

Piraux²,

Lam³

2010

Synfacts

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