Add to ORKGThe S-phase checkpoint activated at replication forks coordinates DNA replication when forks stall because of DNA damage or low deoxyribonucleotide triphosphate pools. We explore the involvement of replication forks in coordinating the S-phase checkpoint using dun1Δ cells that have a defect in the number of stalled forks formed from early origins and are dependent on the DNA damage Chk1p pathway for survival when replication is stalled. We show that providing additional origins activated in early S phase and establishing a paused fork at a replication fork pause site restores S-phase checkpoint signaling to chk1Δ dun1Δ cells and relieves the reliance on the DNA damage checkpoint pathway. Origin licensing and activation are controlled by the...
Accurate and timely duplication of chromosomal DNA requires that replication be coordinated with pro...
Faithful duplication of the genome is a challenge because DNA is susceptible to damage by a number o...
Replication fork progression is being continuously hampered by exogenously introduced and naturally ...
DNA damage slows DNA synthesis at replication forks; however, the mechanisms remain unclear. Cdc7 ki...
DNA replication stress, an important source of genomic instability, arises upon different types of D...
ABSTRACT: Cells slow replication in response to DNA damage. This slowing was the first DNA damage ch...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
SummaryWhen replication forks stall at damaged bases or upon nucleotide depletion, the intra-S phase...
When replication forks stall at damaged bases or upon nucleotide depletion, the intra-S phase checkp...
DNA damage or replication stress during S-phase can activate the S-phase checkpoint which executes a...
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...
Accurate and timely duplication of chromosomal DNA requires that replication be coordinated with pro...
Faithful duplication of the genome is a challenge because DNA is susceptible to damage by a number o...
Replication fork progression is being continuously hampered by exogenously introduced and naturally ...
DNA damage slows DNA synthesis at replication forks; however, the mechanisms remain unclear. Cdc7 ki...
DNA replication stress, an important source of genomic instability, arises upon different types of D...
ABSTRACT: Cells slow replication in response to DNA damage. This slowing was the first DNA damage ch...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
Cells slow replication in response to DNA damage. This slowing was the first DNA damage checkpoint r...
During the S phase of the cell cycle, the entire genome is replicated. There is a high level of orde...
SummaryWhen replication forks stall at damaged bases or upon nucleotide depletion, the intra-S phase...
When replication forks stall at damaged bases or upon nucleotide depletion, the intra-S phase checkp...
DNA damage or replication stress during S-phase can activate the S-phase checkpoint which executes a...
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...
Accurate and timely duplication of chromosomal DNA requires that replication be coordinated with pro...
Faithful duplication of the genome is a challenge because DNA is susceptible to damage by a number o...
Replication fork progression is being continuously hampered by exogenously introduced and naturally ...