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Proliferating eukaryotic cells possess checkpoint mechanisms that block cell division in the presence of unreplicated or damaged DNA. Using cell-free extracts from Xenopus eggs, we have investigated the mechanisms underlying the inability of a recombinant Cdc2/cyclin B complex to induce mitosis in the presence of incompletely replicated DNA. We found that the activities of the kinases and phosphatases that regulate the major phosphorylation sites on Cdc2 (e.g., tyrosine 15, threonine 14, and threonine 161) are not altered significantly under conditions where Xenopus extracts remain stably arrested in interphase due to the presence of the replication inhibitor aphidicolin. However, at threshold concentrations, a Cdc2/cyclin B complex containing a mutant Cdc2 subunit that cannot be phosphorylated on either tyrosine 15 or threonine 14 displays a markedly reduced capacity to induce mitosis in the presence of aphidicolin. This observation indicates that the replication checkpoint in Xenopus egg extracts functions without the inhibitory tyrosine and threonine phosphorylation of Cdc2. We provide evidence that the checkpoint-dependent suppression of the Cdc2/cyclin B complex involves a titratable inhibitor that is regulated by the presence of unreplicated DNA.
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