Add to ORKGDNA replication ensures the accurate duplication of the genome at each cell cycle. It begins at specific sites called replication origins. Genome-wide studies in vertebrates have recently identified a con-sensus G-rich motif potentially able to form G-quadruplexes (G4) in most replication origins. However, there is no experimental evi-dence to demonstrate that G4 are actually required for replication initiation. We show here, with two model origins, that G4 motifs are required for replication initiation. Two G4 motifs cooperate in one of our model origins. The other contains only one critical G4, and its orientation determines the precise position of the replica-tion start site. Point mutations affecting the stability of this G4 in vitro al...
The replication program of vertebrate genomes is driven by the chromosomal distribution and timing o...
Sequences that can form DNA secondary structures, such as G-quadruplexes (G4s) and intercalated-Moti...
Approximately 1% of the human genome has the ability to fold into G-quadruplexes (G4s)-noncanonical ...
International audienceDNA replication ensures the accurate duplication of the genome at each cell cy...
International audienceGenome-wide studies of DNA replication origins revealed that origins preferent...
Genome-wide studies of DNA replication origins revealed that origins preferentially associate with a...
International audienceAbstract Replication of vertebrate genomes is tightly regulated to ensure accu...
Our genome contains many G-rich sequences, which have the propensity to fold into stable secondary D...
International audienceReplication of vertebrate genomes is tightly regulated to ensure accurate dupl...
DNA replication is a critical mechanism that occur during the cell cycle. DNA replication is under t...
International audienceDNA replication is a highly regulated process that ensures the correct duplica...
G-quadruplex (or G4) structures form in guanine-rich DNA sequences and threaten genome stability whe...
The replication program of vertebrate genomes is driven by the chromosomal distribution and timing o...
Sequences that can form DNA secondary structures, such as G-quadruplexes (G4s) and intercalated-Moti...
Approximately 1% of the human genome has the ability to fold into G-quadruplexes (G4s)-noncanonical ...
International audienceDNA replication ensures the accurate duplication of the genome at each cell cy...
International audienceGenome-wide studies of DNA replication origins revealed that origins preferent...
Genome-wide studies of DNA replication origins revealed that origins preferentially associate with a...
International audienceAbstract Replication of vertebrate genomes is tightly regulated to ensure accu...
Our genome contains many G-rich sequences, which have the propensity to fold into stable secondary D...
International audienceReplication of vertebrate genomes is tightly regulated to ensure accurate dupl...
DNA replication is a critical mechanism that occur during the cell cycle. DNA replication is under t...
International audienceDNA replication is a highly regulated process that ensures the correct duplica...
G-quadruplex (or G4) structures form in guanine-rich DNA sequences and threaten genome stability whe...
The replication program of vertebrate genomes is driven by the chromosomal distribution and timing o...
Sequences that can form DNA secondary structures, such as G-quadruplexes (G4s) and intercalated-Moti...
Approximately 1% of the human genome has the ability to fold into G-quadruplexes (G4s)-noncanonical ...