Add to ORKGTo elucidate the checkpoint mechanism responsible for slowing passage through S phase when fission yeast cells are treated with the DNA-damaging agent methyl methanesulfonate (MMS), we carried out two-dimensional gel analyses of replication intermediates in cells synchronized by cdc10 block (in G1) followed by release into synchronous S phase. The results indicated that under these conditions early-firing centromeric origins were partially delayed but late-firing telomeric origins were not delayed. Replication intermediates persisted in MMS-treated cells, suggesting that replication fork movement was inhibited. These effects were dependent on the Cds1 checkpoint kinase and were abolished in cells overexpressing the Cdc25 phosphatase, sugges...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
AbstractA key problem in the cell cycle is understanding what brings about the initiation of DNA rep...
In fission yeast cells, Cds1 is the effector kinase of the DNA replication checkpoint. We previously...
To elucidate the checkpoint mechanism responsible for slowing passage through S phase when fission y...
Checkpoints maintain the order of cell cycle events during DNA damage or incomplete replication. How...
AbstractWe demonstrate that in S. cerevisiae the rate of ongoing S phase is slowed when the DNA is s...
To achieve faithful replication of the genome once in each cell cycle, reinitiation of S phase is pr...
Checkpoint activation during S phase modulates transcription. In response to replication arrest, the...
The DNA integrity checkpoints ensure completion of DNA replication and DNA repair before entry into ...
DNA damage or replication stress during S-phase can activate the S-phase checkpoint which executes a...
The S-phase DNA damage checkpoint slows replication when damage occurs during S phase. Cdc25, which ...
In the fission yeast, Schizosacchromyces pombe, blocks to DNA replication elongation trigger the int...
AbstractBackground: The G2–M-phase transition is controlled by cell-cycle checkpoint pathways which ...
The eukaryotic intra-S-phase checkpoint, which slows DNA synthesis in response to DNA damage, is poo...
ABSTRACT: Cells slow replication in response to DNA damage. This slowing was the first DNA damage ch...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
AbstractA key problem in the cell cycle is understanding what brings about the initiation of DNA rep...
In fission yeast cells, Cds1 is the effector kinase of the DNA replication checkpoint. We previously...
To elucidate the checkpoint mechanism responsible for slowing passage through S phase when fission y...
Checkpoints maintain the order of cell cycle events during DNA damage or incomplete replication. How...
AbstractWe demonstrate that in S. cerevisiae the rate of ongoing S phase is slowed when the DNA is s...
To achieve faithful replication of the genome once in each cell cycle, reinitiation of S phase is pr...
Checkpoint activation during S phase modulates transcription. In response to replication arrest, the...
The DNA integrity checkpoints ensure completion of DNA replication and DNA repair before entry into ...
DNA damage or replication stress during S-phase can activate the S-phase checkpoint which executes a...
The S-phase DNA damage checkpoint slows replication when damage occurs during S phase. Cdc25, which ...
In the fission yeast, Schizosacchromyces pombe, blocks to DNA replication elongation trigger the int...
AbstractBackground: The G2–M-phase transition is controlled by cell-cycle checkpoint pathways which ...
The eukaryotic intra-S-phase checkpoint, which slows DNA synthesis in response to DNA damage, is poo...
ABSTRACT: Cells slow replication in response to DNA damage. This slowing was the first DNA damage ch...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
AbstractA key problem in the cell cycle is understanding what brings about the initiation of DNA rep...
In fission yeast cells, Cds1 is the effector kinase of the DNA replication checkpoint. We previously...