Abstract
Cdc7 kinase, conserved from yeasts to human, plays important roles in DNA replication. However, the mechanisms by which it stimulates initiation of DNA replication remain largely unclear. We have analyzed phosphorylation of MCM subunits during cell cycle by examining mobility shift on SDS-PAGE. MCM4 on the chromatin undergoes specific phosphorylation during S phase. Cdc7 phosphorylates MCM4 in the MCM complexes as well as the MCM4 N-terminal polypeptide. Experiments with phospho-amino acid-specific antibodies indicate that the S phase-specific mobility shift is due to the phosphorylation at specific N-terminal (S/T)(S/T)P residues of the MCM4 protein. These specific phosphorylation events are not observed in mouse ES cells deficient in Cdc7 or are reduced in the cells treated with siRNA specific to Cdc7, suggesting that they are mediated by Cdc7 kinase. The N-terminal phosphorylation of MCM4 stimulates association of Cdc45 with the chromatin, suggesting that it may be an important phosphorylation event by Cdc7 for activation of replication origins. Deletion of the N-terminal non-conserved 150 amino acids of MCM4 results in growth inhibition, and addition of amino acids carrying putative Cdc7 target sequences partially restores the growth. Furthermore, combination of MCM4 N-terminal deletion with alanine substitution and deletion of the N-terminal segments of MCM2 and MCM6, respectively, which contain clusters of serine/threonine and are also likely targets of Cdc7, led to an apparent nonviable phenotype. These results are consistent with the notion that the N-terminal phosphorylation of MCM2, MCM4, and MCM6 may play functionally redundant but essential roles in initiation of DNA replication.
Highlights
Serine and threonine residues are highly enriched in the N-terminal segments of MCM4 proteins (36 out of 151, 27 out of 146, 48 out of 179 and 51 out of 158 in, respectively, human, Xenopus, budding yeast, and fission yeast MCM4; Fig. 7A)
We noticed the presence of multiple copies of (S/T)(S/T)P in the N-terminal region of MCM4 proteins (6, 3, 5 and 7 copies in the above segments of human, Xenopus, budding yeast, and fission yeast MCM4, respectively; Fig. 7A)
We speculate that Cdc7 phosphorylates multiple (S/T)(S/T)P as well as other serine/threonine residues within the N-terminal segment of MCM4, causing a significant mobility shift on SDS-PAGE
Summary
Cell Synchronization and Preparation of Cell Lysates—HeLa cells were arrested at the G1/S boundary by two successive incubation in the medium containing 2.5 mM thymidine Each mutant form of mouse MCM4 was expressed on a baculovirus expression vector expressing both MCM4 and MCM6 This virus and the virus expressing MCM2-MCM7 [29] were used for coinfection of insect cells to express a MCM2-MCM4MCM6-MCM7 complex, which was purified as described for the wild-type MCM2 protein preparation [19]. Cdc19-A10 or Cdc19-E10 is a Cdc (MCM2) mutant in which 10 serine and threonine residues present within its N-terminal 35-amino acid segment were replaced with alanine or glutamic acid, respectively. REP41X-AAP7cdc or REP41X-EEP7cdc are a pREP41 derivative expressing mutant Cdc (MCM4) in which all the seven (S/T)(S/T)P sequences in the N-terminal 129-amino acid segment of Cdc were replaced with AAP or EEP sequence, respectively, fused with a C-terminal 3ϫFLAG-tag. ⌬47mis is a MCM6 mutant lacking the N-terminal 47 amino acids containing 12 serine and threonine residues. The MCM6 N-terminal fragment was amplified by PCR using the following primers: SpMCM6-N(XhoI) ccgctcgagatgtcttctcttgcatctcag and SpMCM6-(47–41, XhoI) gctatgctcgaggatgatgga
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