1995
DOI: 10.1016/0092-8674(95)90448-4
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DNA polymerase ϵ links the DNA replication machinery to the S phase checkpoint

Abstract: Inhibition of DNA synthesis induces transcription of DNA damage-inducible genes and prevents mitotic entry through the action of the S phase checkpoint. We have isolated a mutant, dun2, defective for both of these responses. DUN2 is identical to POL2, encoding DNA polymerase epsilon (pol epsilon). Unlike sad1 mutants defective for multiple cell cycle checkpoints, pol2 mutants are defective only for the S phase checkpoint and the activation of DUN1 kinase necessary for the transcriptional response to damage. In… Show more

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Cited by 382 publications
(324 citation statements)
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“…Transcriptional activation of the RNR genes, which are responsible for the rate-limiting step of dNTP and DNA synthesis (Huang and Elledge, 1997), and induction of the MAG1 gene, which encodes a DNA-dealkylating enzyme, are markers of the activation of the DNA replication checkpoint (Zhu and Xiao, 2001). This pathway senses blocks in DNA replication and transmits the signal through Mec1p, Rad53p, and Dun1p, delaying mitotic entry (Weinert et al, 1994;Navas et al, 1995;Paulovich and Hartwell, 1995;Desany et al, 1998). The occurrence of RNR and MAG1 gene activation that we observe after exposure to HP, and the dependence of the cell cycle arrest in treatment initiation before S suggests that activation of the replication checkpoint is among the first events occurring during HP-induced oxidative stress and may be responsible for inactivating forkhead-associated transcription.…”
Section: Discussionmentioning
confidence: 69%
“…Transcriptional activation of the RNR genes, which are responsible for the rate-limiting step of dNTP and DNA synthesis (Huang and Elledge, 1997), and induction of the MAG1 gene, which encodes a DNA-dealkylating enzyme, are markers of the activation of the DNA replication checkpoint (Zhu and Xiao, 2001). This pathway senses blocks in DNA replication and transmits the signal through Mec1p, Rad53p, and Dun1p, delaying mitotic entry (Weinert et al, 1994;Navas et al, 1995;Paulovich and Hartwell, 1995;Desany et al, 1998). The occurrence of RNR and MAG1 gene activation that we observe after exposure to HP, and the dependence of the cell cycle arrest in treatment initiation before S suggests that activation of the replication checkpoint is among the first events occurring during HP-induced oxidative stress and may be responsible for inactivating forkhead-associated transcription.…”
Section: Discussionmentioning
confidence: 69%
“…Second, unlike the 9-1-1 mutants, rad-5 mutants appear to also be defective in the S-phase replication checkpoint, similar to what is known for the yeast DNA polymerase epsilon. 50 Third, rad-5 mutants do not show Figure 3 Exogenous DNA damage or damage in the form of meiotic recombination intermediates or mitotic replication defects is sensed by numerous proteins. HUS-1 and MRT-2, as part of a trimeric complex, and RAD-5 are involved in this process to allow for the action of the repair machinery.…”
Section: Rad-5/clk-2 Functions In Parallel To the Hus-1/ Mrt-2 Complexmentioning
confidence: 99%
“…The role of DNA polymerase ε was revealed by mutations that effect the carboxyl terminus of the protein [78]. This region contains a zinc-finger motif dispensable for catalytic activity that may play a role in subunit interactions.…”
Section: The S Cerevisiae S/m Replication Checkpointmentioning
confidence: 99%