2020
DOI: 10.1016/bs.armc.2020.04.008
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An overview of quadruplex ligands: Their common features and chemotype diversity

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Cited by 23 publications
(20 citation statements)
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“…Thus, these studies indicate that chemical modifications of TO are needed to provide TO-based probes with selectivity toward G-quadruplexes ( Figure 7 b). The interest in selectively targeting G-quadruplexes has resulted in the discovery of many molecular ligands which exhibit high affinity towards G-quadruplexes [ 112 ]. Most commonly, such ligands consist of flat aromatic structures that can form stacking interactions with the planar G-quadruplexes.…”
Section: Sensing Of Nucleic Acidsmentioning
confidence: 99%
“…Thus, these studies indicate that chemical modifications of TO are needed to provide TO-based probes with selectivity toward G-quadruplexes ( Figure 7 b). The interest in selectively targeting G-quadruplexes has resulted in the discovery of many molecular ligands which exhibit high affinity towards G-quadruplexes [ 112 ]. Most commonly, such ligands consist of flat aromatic structures that can form stacking interactions with the planar G-quadruplexes.…”
Section: Sensing Of Nucleic Acidsmentioning
confidence: 99%
“…In this context, Freccero’s group published, in 2012, the synthesis and the biophysical studies of a family of polyheterocyclic 1,2,4-oxadiazoles ligands ( BOxAzaPys , Figure 9 ) [ 81 ]. These ligands, mimicking the well-known macrocyclic G4 binder telomestatin [ 82 ], were able to selectively interact and stabilize telomeric G4, inhibiting the activity of telomerase. This new family of acyclic G4 ligands was characterized by excellent water solubility and an unexpected potential.…”
Section: Nucleic Acid Structures As Oxadiazole Targetsmentioning
confidence: 99%
“…In this context, Freccero's group published, in 2012, the synthesis and the biophysical studies of a family of polyheterocyclic 1,2,4-oxadiazoles ligands (BOxAzaPys, Figure 9) [81]. These ligands, mimicking the well-known macrocyclic G4 binders Telomestatin [82], were able to selectively interact and stabilize telomeric G4, inhibiting the activity of telomerase. This new family of acyclic G4 ligands was characterized by excellent water solubility and an unexpected potential.…”
Section: Nucleic Acid Structures As Oxadiazole Targetsmentioning
confidence: 99%