Journal
CELL REPORTS
Volume 29, Issue 7, Pages 2105-+Publisher
CELL PRESS
DOI: 10.1016/j.celrep.2019.10.041
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Funding
- Francis Crick Institute
- Cancer Research UK [FC001198]
- UK Medical Research Council [FC001198]
- Wellcome Trust [FC001198]
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Temporal control over protein phosphorylation and dephosphorylation is crucial for accurate chromosome segregation and for completion of the cell division cycle during exit from mitosis. In budding yeast, the Cdc14 phosphatase is thought to be a major regulator at this time, while in higher eukaryotes PP2A phosphatases take a dominant role. Here, we use time-resolved phosphoproteome analysis in budding yeast to evaluate the respective contributions of Cdc14, PP2A(Cdc55), and PP2A(Rts1). This reveals an overlapping requirement for all three phosphatases during mitotic progression. Our time-resolved phosphoproteome resource reveals how Cdc14 instructs the sequential pattern of phosphorylation changes, in part through preferential recognition of serine-based cyclin-dependent kinase (Cdk) substrates. PP2A(Cdc55) and PP2A(Rts1) in turn exhibit a broad substrate spectrum with some selectivity for phosphothreonines and a role for PP2A(Rts1) in sustaining Aurora kinase activity. These results illustrate synergy and coordination between phosphatases as they orchestrate phosphoproteome dynamics during mitotic progression.
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