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Site-specific phosphorylation of the DNA damage response mediator rad9 by cyclin-dependent kinases regulates activation of checkpoint kinase 1.

The mediators of the DNA damage response (DDR) are highly phosphorylated by kinases that control cell proliferation, but little is known about the role of this regulation. Here we show that cell cycle phosphorylation of the prototypical DDR mediator Saccharomyces cerevisiae Rad9 depends on cyclin-dependent kinase (CDK) complexes. We find that a specific G2/M form of Cdc28 can phosphorylate in vitro the N-terminal region of Rad9 on nine consensus CDK phosphorylation sites. We show that the integrity of CDK consensus sites and the activity of Cdc28 are required for both the activation of the Chk1 checkpoint kinase and its interaction with Rad9. We have identified T125 and T143 as important residues in Rad9 for this Rad9/Chk1 interaction. Phosphorylation of T143 is the most important feature promoting Rad9/Chk1 interaction, while the much more abundant phosphorylation of the neighbouring T125 residue impedes the Rad9/Chk1 interaction. We suggest a novel model for Chk1 activation where Cdc28 regulates the constitutive interaction of Rad9 and Chk1. The Rad9/Chk1 complex is then recruited at sites of DNA damage where activation of Chk1 requires additional DDR-specific protein kinases.

Pubmed ID: 23593009

Authors

  • Abreu CM
  • Kumar R
  • Hamilton D
  • Dawdy AW
  • Creavin K
  • Eivers S
  • Finn K
  • Balsbaugh JL
  • O'Connor R
  • Kiely PA
  • Shabanowitz J
  • Hunt DF
  • Grenon M
  • Lowndes NF

Journal

PLoS genetics

Publication Data

April 17, 2013

Associated Grants

  • Agency: NIGMS NIH HHS, Id: GM037537

Mesh Terms

  • CDC28 Protein Kinase, S cerevisiae
  • Cell Cycle Checkpoints
  • Cell Cycle Proteins
  • Cell Proliferation
  • DNA Damage
  • Enzyme Activation
  • Mutation
  • Phosphorylation
  • Protein Binding
  • Protein Kinases
  • S Phase
  • Saccharomyces cerevisiae