Add to ORKGThe process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In eukaryotes, DNA synthesis is disturbed in damaged DNA regions, in replication slow zones, or as a result of insufficient nucleotide level. This review aims to discuss the mechanisms that coordinate DNA unwind-ing and synthesis, allowing replication to be completed even in the presence of genomic insults. There is a growing body of evidence which suggests that S-phase checkpoint pathways regulate both replicative unwinding and DNA synthesis, to synchronize the two processes, thus ensuring genome stability
The eukaryotic intra-S-phase checkpoint, which slows DNA synthesis in response to DNA damage, is poo...
DNA replication in eukaryotes is achieved by the activation of multiple replication origins which ne...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The major challenge of the cell cycle is to deliver an intact, and fully duplicated, genetic materia...
The major challenge of the cell cycle is to deliver an intact, and fully duplicated, genetic materia...
During every S phase, cells need to duplicate their genomes so that both daughter cells inherit comp...
Cycling cells must ensure homeostasis of the genetic information during repeated chromosome replicat...
Cycling cells must ensure homeostasis of the genetic information during repeated chromosome replicat...
Checkpoint recovery is integral to a successful checkpoint response. Checkpoint pathways monitor pro...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
The eukaryotic intra-S-phase checkpoint, which slows DNA synthesis in response to DNA damage, is poo...
DNA replication in eukaryotes is achieved by the activation of multiple replication origins which ne...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The process of DNA replication includes duplex unwinding, followed immediately by DNA synthesis. In ...
The major challenge of the cell cycle is to deliver an intact, and fully duplicated, genetic materia...
The major challenge of the cell cycle is to deliver an intact, and fully duplicated, genetic materia...
During every S phase, cells need to duplicate their genomes so that both daughter cells inherit comp...
Cycling cells must ensure homeostasis of the genetic information during repeated chromosome replicat...
Cycling cells must ensure homeostasis of the genetic information during repeated chromosome replicat...
Checkpoint recovery is integral to a successful checkpoint response. Checkpoint pathways monitor pro...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
International audienceDNA replication in eukaryotes is achieved by the activation of multiple replic...
The eukaryotic intra-S-phase checkpoint, which slows DNA synthesis in response to DNA damage, is poo...
DNA replication in eukaryotes is achieved by the activation of multiple replication origins which ne...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...