Abstract
DNA replication in higher eukaryotes initiates at thousands of origins according to a spatio-temporal program. The ATR/Chk1 dependent replication checkpoint inhibits the activation of later firing origins. In the Xenopus in vitro system initiations are not sequence dependent and 2-5 origins are grouped in clusters that fire at different times despite a very short S phase. We have shown that the temporal program is stochastic at the level of single origins and replication clusters. It is unclear how the replication checkpoint inhibits late origins but permits origin activation in early clusters. Here, we analyze the role of Chk1 in the replication program in sperm nuclei replicating in Xenopus egg extracts by a combination of experimental and modelling approaches. After Chk1 inhibition or immunodepletion, we observed an increase of the replication extent and fork density in the presence or absence of external stress. However, overexpression of Chk1 in the absence of external replication stress inhibited DNA replication by decreasing fork densities due to lower Cdk2 kinase activity. Thus, Chk1 levels need to be tightly controlled in order to properly regulate the replication program even during normal S phase. DNA combing experiments showed that Chk1 inhibits origins outside, but not inside, already active clusters. Numerical simulations of initiation frequencies in the absence and presence of Chk1 activity are consistent with a global inhibition of origins by Chk1 at the level of clusters but need to be combined with a local repression of Chk1 action close to activated origins to fit our data.
Highlights
IntroductionEukaryotic DNA replication must be strictly controlled in space and time during S phase [1]
To maintain genome stability, eukaryotic DNA replication must be strictly controlled in space and time during S phase [1]
When sperm chromatin is incubated in Xenopus egg extract, it is assembled into normal interphase nuclei surrounded by a nuclear envelope and replicated semi-conservatively [42]
Summary
Eukaryotic DNA replication must be strictly controlled in space and time during S phase [1]. DNA replication starts from several thousand replication origins, each activated at different times during S phase. It involves the PLOS ONE | DOI:10.1371/journal.pone.0129090. Low Chk Concentration Regulates DNA Replication in Xenopus analysis, decision to publish, or preparation of the manuscript
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