Abstract
In eukaryotes, the spatial and temporal organization of genome duplication gives rise to distinctive profiles of replication origin usage along the chromosomes. While it has become increasingly clear that these programs are important for cellular physiology, the mechanisms by which they are determined and modulated remain elusive. Replication initiation requires the function of cyclin-dependent kinases (CDKs), which associate with various cyclin partners to drive cell proliferation. Surprisingly, although we possess detailed knowledge of the CDK regulators and targets that are crucial for origin activation, little is known about whether CDKs play a critical role in establishing the genome-wide pattern of origin selection. We have addressed this question in the fission yeast, taking advantage of a simplified cell cycle network in which cell proliferation is driven by a single cyclin-CDK module. This system allows us to precisely control CDK activity in vivo using chemical genetics. First, in contrast to previous reports, our results clearly show that distinct cyclin-CDK pairs are not essential for regulating specific subsets of origins and for establishing a normal replication program. Importantly, we then demonstrate that the timing at which CDK activity reaches the S phase threshold is critical for the organization of replication in distinct efficiency domains, while the level of CDK activity at the onset of S phase is a dose-dependent modulator of overall origin efficiencies. Our study therefore implicates these different aspects of CDK regulation as versatile mechanisms for shaping the architecture of DNA replication across the genome.
Highlights
The accurate duplication of the genetic material relies on a multilayered control of the initiation of DNA synthesis at replication origins
Taking advantage of a system that allows us to precisely modulate cyclin-dependent kinases (CDKs) activity levels in living cells, we demonstrate that both the temporal and quantitative controls of CDK function are crucial for determining distinct programs of DNA replication
Our results revealed that the regional domains of origin timing and efficiency that are established by a single cyclin-CDK activity are virtually identical to those in wild-type cells
Summary
The accurate duplication of the genetic material relies on a multilayered control of the initiation of DNA synthesis at replication origins. Together with the distribution of origins along the chromosomes, these parameters define the genomewide program of DNA replication This organization of genome duplication in replication timing and efficiency domains is a conserved feature among eukaryotes, and these programs are remarkably sensitive to developmental states as well as to external stimuli [1,2,3,4]. Previous reports have presented paradoxical outcomes of altering CDK function: both lowering CDK activity through chemical inhibition [21,25] and increasing activity via elevated cyclin levels or loss of a CDK inhibitor [14,15,16] result in reductions in replication initiation These findings highlight the complex and unresolved question of how the regulation of CDK activity, from the time it takes to reach the S phase threshold to its level at S phase entry, may shape the organization of genome duplication along the chromosomes
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