scholarly journals Claspin, a Novel Protein Required for the Activation of Chk1 during a DNA Replication Checkpoint Response in Xenopus Egg Extracts

2000 ◽  
Vol 6 (4) ◽  
pp. 839-849 ◽  
Author(s):  
Akiko Kumagai ◽  
William G. Dunphy
Keyword(s):  
Dna Replication ◽  
Replication Checkpoint ◽  
Checkpoint Response ◽  
Dna Replication Checkpoint ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts ◽  
Novel Protein

scholarly journals DNA replication is required for the checkpoint response to damaged DNA in Xenopus egg extracts

2002 ◽  
Vol 158 (5) ◽  
pp. 863-872 ◽  
Author(s):  
Matthew P. Stokes ◽  
Ruth Van Hatten ◽  
Howard D. Lindsay ◽  
W. Matthew Michael
Keyword(s):  
Dna Damage ◽  
Dna Replication ◽  
Alkylating Agents ◽  
Dna Damage Checkpoint ◽  
Checkpoint Activation ◽  
Checkpoint Response ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts ◽  
Damaged Dna

Alkylating agents, such as methyl methanesulfonate (MMS), damage DNA and activate the DNA damage checkpoint. Although many of the checkpoint proteins that transduce damage signals have been identified and characterized, the mechanism that senses the damage and activates the checkpoint is not yet understood. To address this issue for alkylation damage, we have reconstituted the checkpoint response to MMS in Xenopus egg extracts. Using four different indicators for checkpoint activation (delay on entrance into mitosis, slowing of DNA replication, phosphorylation of the Chk1 protein, and physical association of the Rad17 checkpoint protein with damaged DNA), we report that MMS-induced checkpoint activation is dependent upon entrance into S phase. Additionally, we show that the replication of damaged double-stranded DNA, and not replication of damaged single-stranded DNA, is the molecular event that activates the checkpoint. Therefore, these data provide direct evidence that replication forks are an obligate intermediate in the activation of the DNA damage checkpoint.

scholarly journals Roles of Replication Fork-interacting and Chk1-activating Domains from Claspin in a DNA Replication Checkpoint Response

2005 ◽  
Vol 16 (11) ◽  
pp. 5269-5282 ◽  
Author(s):  
Joon Lee ◽  
Daniel A. Gold ◽  
Anna Shevchenko ◽  
Andrej Shevchenko ◽  
William G. Dunphy
Keyword(s):  
Replication Fork ◽  
Protein A ◽  
Replication Forks ◽  
Replication Checkpoint ◽  
Checkpoint Response ◽  
Dna Replication Checkpoint ◽  
Egg Extracts ◽  
High Concentrations ◽  
Factor C ◽  
Xenopus Egg Extracts

Claspin is essential for the ATR-dependent activation of Chk1 in Xenopus egg extracts containing incompletely replicated DNA. Claspin associates with replication forks upon origin unwinding. We show that Claspin contains a replication fork-interacting domain (RFID, residues 265–605) that associates with Cdc45, DNA polymerase ϵ, replication protein A, and two replication factor C complexes on chromatin. The RFID contains two basic patches (BP1 and BP2) at amino acids 265–331 and 470–600, respectively. Deletion of either BP1 or BP2 compromises optimal binding of Claspin to chromatin. Absence of BP1 has no effect on the ability of Claspin to mediate activation of Chk1. By contrast, removal of BP2 causes a large reduction in the Chk1-activating potency of Claspin. We also find that Claspin contains a small Chk1-activating domain (residues 776–905) that does not bind stably to chromatin, but it is fully effective at high concentrations for mediating activation of Chk1. These results indicate that stable retention of Claspin on chromatin is not necessary for activation of Chk1. Instead, our findings suggest that only transient interaction of Claspin with replication forks potentiates its Chk1-activating function. Another implication of this work is that stable binding of Claspin to chromatin may play a role in other functions besides the activation of Chk1.

scholarly journals DNA replication of mitotic chromatin in Xenopus egg extracts

2003 ◽  
Vol 100 (23) ◽  
pp. 13241-13246 ◽  
Author(s):  
T. A. Prokhorova ◽  
K. Mowrer ◽  
C. H. Gilbert ◽  
J. C. Walter
Keyword(s):  
Dna Replication ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts ◽  
Mitotic Chromatin

The role of lamin LIII in nuclear assembly and DNA replication, in cell-free extracts of Xenopus eggs

1991 ◽  
Vol 98 (3) ◽  
pp. 271-279
Author(s):  
J. Meier ◽  
K.H. Campbell ◽  
C.C. Ford ◽  
R. Stick ◽  
C.J. Hutchison
Keyword(s):  
Dna Replication ◽  
Membrane Structures ◽  
Chromatin Decondensation ◽  
Immunoblotting Analysis ◽  
Nuclear Assembly ◽  
Contrast Microscopy ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts

Xenopus egg extracts, which support nuclear assembly and DNA replication, were functionally depleted of lamin LIII by inoculating them with monoclonal anti-lamin antibodies. Phase-contrast microscopy and electron-microscopy studies indicated that lamin-depleted extracts supported efficient chromatin decondensation, and assembly of double membrane structures and nuclear pores on demembranated sperm heads. Immunofluorescence microscopy suggests that lamin-antibody complexes are transported across the nuclear membrane but do not assemble into a lamina. These findings were confirmed by immunoblotting analysis of isolated nuclei. Metabolic labelling studies with either biotin-11-dUTP or [32P]dCTP, revealed that nuclei lacking a lamina were unable to initiate DNA replication and that, although such nuclei could import proteins required for DNA replication (e.g. PCNA), these proteins were apparently not organized into replicon clusters.

scholarly journals Absence of BLM leads to accumulation of chromosomal DNA breaks during both unperturbed and disrupted S phases

2004 ◽  
Vol 165 (6) ◽  
pp. 801-812 ◽  
Author(s):  
Wenhui Li ◽  
Soo-Mi Kim ◽  
Joon Lee ◽  
William G. Dunphy
Keyword(s):  
Dna Replication ◽  
Chromosomal Abnormalities ◽  
Sister Chromatid Exchanges ◽  
Chromosomal Dna ◽  
Dna Breaks ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts ◽  
Chromatid Exchanges ◽  
Chromosomal Defects

Bloom's syndrome (BS), a disorder associated with genomic instability and cancer predisposition, results from defects in the Bloom's helicase (BLM) protein. In BS cells, chromosomal abnormalities such as sister chromatid exchanges occur at highly elevated rates. Using Xenopus egg extracts, we have studied Xenopus BLM (Xblm) during both unperturbed and disrupted DNA replication cycles. Xblm binds to replicating chromatin and becomes highly phosphorylated in the presence of DNA replication blocks. This phosphorylation depends on Xenopus ATR (Xatr) and Xenopus Rad17 (Xrad17), but not Claspin. Xblm and Xenopus topoisomerase IIIα (Xtop3α) interact in a regulated manner and associate with replicating chromatin interdependently. Immunodepletion of Xblm from egg extracts results in accumulation of chromosomal DNA breaks during both normal and perturbed DNA replication cycles. Disruption of the interaction between Xblm and Xtop3α has similar effects. The occurrence of DNA damage in the absence of Xblm, even without any exogenous insult to the DNA, may help to explain the genesis of chromosomal defects in BS cells.

scholarly journals The Mre11-Rad50-Nbs1 Complex Mediates Activation of TopBP1 by ATM

2009 ◽  
Vol 20 (9) ◽  
pp. 2351-2360 ◽  
Author(s):  
Hae Yong Yoo ◽  
Akiko Kumagai ◽  
Anna Shevchenko ◽  
Andrej Shevchenko ◽  
William G. Dunphy
Keyword(s):  
Human Cells ◽  
Dna Breaks ◽  
Checkpoint Response ◽  
Mrn Complex ◽  
Functional Studies ◽  
Double Stranded Dna ◽  
Egg Extracts ◽  
Xenopus Egg ◽  
Xenopus Egg Extracts

The activation of ATR-ATRIP in response to double-stranded DNA breaks (DSBs) depends upon ATM in human cells and Xenopus egg extracts. One important aspect of this dependency involves regulation of TopBP1 by ATM. In Xenopus egg extracts, ATM associates with TopBP1 and thereupon phosphorylates it on S1131. This phosphorylation enhances the capacity of TopBP1 to activate the ATR-ATRIP complex. We show that TopBP1 also interacts with the Mre11-Rad50-Nbs1 (MRN) complex in egg extracts in a checkpoint-regulated manner. This interaction involves the Nbs1 subunit of the complex. ATM can no longer interact with TopBP1 in Nbs1-depleted egg extracts, which suggests that the MRN complex helps to bridge ATM and TopBP1 together. The association between TopBP1 and Nbs1 involves the first pair of BRCT repeats in TopBP1. In addition, the two tandem BRCT repeats of Nbs1 are required for this binding. Functional studies with mutated forms of TopBP1 and Nbs1 suggested that the BRCT-dependent association of these proteins is critical for a normal checkpoint response to DSBs. These findings suggest that the MRN complex is a crucial mediator in the process whereby ATM promotes the TopBP1-dependent activation of ATR-ATRIP in response to DSBs.

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