The Role of the Polo Kinase Cdc5 in Controlling Cdc14 Localization-Reference-Cited by-同舟云学术

The Role of the Polo Kinase Cdc5 in Controlling Cdc14 Localization

Published:2003-11 Issue:11 Volume:14 Page:4486-4498
ISSN:1059-1524
Container-title:Molecular Biology of the Cell
language:en
Short-container-title:MBoC

Author:

Visintin Rosella¹,Stegmeier Frank¹,Amon Angelika¹

Affiliation:

1. Center for Cancer Research, Howard Hughes Medical Institute, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139

Abstract

In budding yeast, the protein phosphatase Cdc14 controls exit from mitosis. Its activity is regulated by a competitive inhibitor Cfi1/Net1, which binds to and sequesters Cdc14 in the nucleolus. During anaphase, Cdc14 is released from its inhibitor by the action of two regulatory networks. The Cdc Fourteen Early Anaphase Release (FEAR) network initiates Cdc14 release from Cfi1/Net1 during early anaphase, and the Mitotic Exit Network (MEN) promotes Cdc14 release during late anaphase. Here, we investigate the relationship among FEAR network components and propose an order in which they function to promote Cdc14 release from the nucleolus. Furthermore, we examine the role of the protein kinase Cdc5, which is a component of both the FEAR network and the MEN, in Cdc14 release from the nucleolus. We find that overexpression of CDC5 led to Cdc14 release from the nucleolus in S phase-arrested cells, which correlated with the appearance of phosphorylated forms of Cdc14 and Cfi1/Net1. Cdc5 promotes Cdc14 phosphorylation and, by stimulating the MEN, Cfi1/Net1 phosphorylation. Furthermore, we suggest that Cdc14 release from the nucleolus only occurs when Cdc14 and Cfi1/Net1 are both phosphorylated.

Publisher

American Society for Cell Biology (ASCB)

Subject

Cell Biology,Molecular Biology

Reference40 articles.

1. Bardin, A.J., and Amon, A. (2001). Men and sin: what's the difference?Nat. Rev. Mol. Cell. Biol.2, 815-826.

2. Bardin, A.J., Boselli, M.G., and Amon, A. (2003). Mitotic exit regulation through distinct domains within the protein kinase Cdc15.Mol. Biol. Cell23, 5018-5030.

3. Charles, J.F., Jaspersen, S.L., Tinker-Kulberg, R.L., Hwang, L., Szidon, A., and Morgan, D.O. (1998). The Polo-related kinase Cdc5 activates and is destroyed by the mitotic cyclin destruction machinery inS. cerevisiae.Curr. Biol.8, 497-507.

4. Ciosk, R., Zachariae, W., Michaelis, C., Shevchenko, A., Mann, M., Nasmyth, K. (1998). An ESP1/PDS1 complex regulates loss of sister chromatid cohesion at the metaphase to anaphase transition in yeast.Cell93, 1067-1076.

5. Cohen-Fix, O., and Koshland, D. (1999). Pds1p of budding yeast has dual roles: inhibition of anaphase initiation and regulation of mitotic exit.Genes Dev.13, 1950-1959.

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