Add to ORKGCytosines or guanines rich nucleic acids can fold into i-motifs or G-quadruplex (G4) structures. G4s and i-motifs are found at telomeres and in promoter regions of numerous genes including oncogenes. Both have been shown to contribute to the regulation of normal and pathological cells and are now viewed as potential therapeutic targets for the treatment of numerous diseases and defects. One major feature of G4s is their susceptibility to adopt, especially in vitro, different topologies. On the other hand i-motifs require acidic conditions to fold in vitro. In this context, our laboratory has developed the concept of TASQ (for « Template Assembled Synthetic G-Quadruplex ») to assemble stable mimics of G4 and i-motif structures.The first part...
Au-delà des structures duplex, il existe des preuves convaincantes qui suggèrent que les acides nucl...
International audienceBesides the well-known DNA double-helix, non-canonical nucleic acid structures...
Beyond the canonical duplex, there are now compelling evidences that suggest that nucleic acids can ...
Cytosines or guanines rich nucleic acids can fold into i-motifs or G-quadruplex (G4) structures. G4s...
Guanines or cytosines rich nucleic acids can fold into tetrameric G-quadruplexes (G4) or i-motifs st...
Les acides nucléiques riches en guanines ou en cytosines peuvent se replier sur eux-mêmes et former ...
Tetrameric DNA structures such as G-quadruplex (G4) and i-motif (i-DNA) have attracted increasing in...
Oxidative damages occurring in DNA can lead to strand breaks or lesions, resulting in a possible for...
Central to this thesis are so-called G-quadruplex (G4) nucleic acids. These unusual structures have ...
G-Quadruplexes (G4) are non-canonical secondary structure found throughout the genome and transcript...
It is known for almost 50 years, that guanosine derivatives can form tetrads under specific conditio...
Synthesis and use of constrained quadruplexe mimic for the ligand evaluation It has now been shown t...
Formés à partir de brins d’ADN ou d’ARN riches en guanines, les quadruplexes résultent de l’empileme...
Au-delà des structures duplex, il existe des preuves convaincantes qui suggèrent que les acides nucl...
International audienceBesides the well-known DNA double-helix, non-canonical nucleic acid structures...
Beyond the canonical duplex, there are now compelling evidences that suggest that nucleic acids can ...
Cytosines or guanines rich nucleic acids can fold into i-motifs or G-quadruplex (G4) structures. G4s...
Guanines or cytosines rich nucleic acids can fold into tetrameric G-quadruplexes (G4) or i-motifs st...
Les acides nucléiques riches en guanines ou en cytosines peuvent se replier sur eux-mêmes et former ...
Tetrameric DNA structures such as G-quadruplex (G4) and i-motif (i-DNA) have attracted increasing in...
Oxidative damages occurring in DNA can lead to strand breaks or lesions, resulting in a possible for...
Central to this thesis are so-called G-quadruplex (G4) nucleic acids. These unusual structures have ...
G-Quadruplexes (G4) are non-canonical secondary structure found throughout the genome and transcript...
It is known for almost 50 years, that guanosine derivatives can form tetrads under specific conditio...
Synthesis and use of constrained quadruplexe mimic for the ligand evaluation It has now been shown t...
Formés à partir de brins d’ADN ou d’ARN riches en guanines, les quadruplexes résultent de l’empileme...
Au-delà des structures duplex, il existe des preuves convaincantes qui suggèrent que les acides nucl...
International audienceBesides the well-known DNA double-helix, non-canonical nucleic acid structures...
Beyond the canonical duplex, there are now compelling evidences that suggest that nucleic acids can ...