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Mitotic kinase regulation of DNA replication forks

Shrestha, S.; Paukovich, N.; Greenfield, S. R.; MacFadden, A.; Smith, S. N.; Bevers, S.; McClure, A. W.

2026-05-19 molecular biology
10.64898/2026.05.16.725582 bioRxiv
Show abstract

While DNA replication forks initiate in S phase, they do not necessarily complete and terminate prior to cell entry into mitosis. How mitotic proteins regulate leftover replication forks is not well-understood. Using reconstituted DNA replication forks with purified proteins, we show that the budding yeast mitotic kinases Clb2-CDK (M-CDK) and Cdc5 (Plk1 homolog) phosphorylate and regulate several replication elongation proteins. Mrc1 phosphorylation by both kinases results in slower replication, and Pol phosphorylation by M-CDK results in less lagging strand initiation. We further show that a phospho-resistant mutant of Pol bypasses M-CDK inhibition of Pol activity in reconstituted replication reactions. Yeast cells expressing the phospho-resistant mutant exhibit faster cell cycle progression revealing a potential negative feedback mechanism between DNA replication forks and mitotic progression.

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