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Article Abstract
Entry into the cell cycle requires activation of G1 cyclin-dependent kinases (CDKs) and the G1/S transcriptional program. In fission yeast, the MBF complex is the main transcription factor driving early cell-cycle gene expression. MBF-dependent transcription is activated in metaphase and repressed at the end of S phase by a feedback loop involving the cyclin Cig2 and co-repressors Nrm1 and Yox1. While replicative stress inactivates Yox1 via phosphorylation, the mechanism that activates MBF during an unperturbed cell cycle remains unclear. Here, we identify Nrm1 as the key target of cell cycle regulation in a two-step control mechanism. First, CDK1 phosphorylates Nrm1 in metaphase, leading to its release-along with Yox1-from chromatin. Second, unphosphorylated Nrm1, generated either by dephosphorylation or de novo synthesis, is degraded during anaphase, preventing its re-association with MBF until the end of the next S phase. Together, these parallel pathways create a precisely timed window of MBF activation, ensuring proper cell cycle progression and preserving genomic stability.
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