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Originally published as MBC in Press, 10.1091/mbc.E08-08-0848 on February 18, 2009 Originally published as MBC in Press, 10.1091/mbc.E08-08-0848 on February 11, 2009

Vol. 20, Issue 7, 1926-1936, April 1, 2009

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Molecular Dissection of the Checkpoint Kinase Hsl1p

John Crutchley*, Kindra M. King*, Mignon A. Keaton{dagger}, Lee Szkotnicki*, David A. Orlando{ddagger}, Trevin R. Zyla*, Elaine S.G. Bardes*, and Daniel J. Lew*

*Department of Pharmacology and Cancer Biology, Duke University Medical Center, Durham, NC 27710; and {ddagger}Department of Biology, Duke University, Durham, NC 27710

Submitted August 18, 2008; Revised January 13, 2009; Accepted February 2, 2009
Monitoring Editor: Mark Solomon

Cell shape can influence cell behavior. In Saccharomyces cerevisiae, bud emergence can influence cell cycle progression via the morphogenesis checkpoint. This surveillance pathway ensures that mitosis always follows bud formation by linking degradation of the mitosis-inhibitory kinase Swe1p (Wee1) to successful bud emergence. A crucial component of this pathway is the checkpoint kinase Hsl1p, which is activated upon bud emergence and promotes Swe1p degradation. We have dissected the large nonkinase domain of Hsl1p by using evolutionary conservation as a guide, identifying regions important for Hsl1p localization, function, and regulation. An autoinhibitory motif restrains Hsl1p activity when it is not properly localized to the mother-bud neck. Hsl1p lacking this motif is active as a kinase regardless of the assembly state of cytoskeletal septin filaments. However, the active but delocalized Hsl1p cannot promote Swe1p down-regulation, indicating that localization is required for Hsl1p function as well as Hsl1p activation. We also show that the septin-mediated Hsl1p regulation via the novel motif operates in parallel to a previously identified Hsl1p activation pathway involving phosphorylation of the Hsl1p kinase domain. We suggest that Hsl1p responds to alterations in septin organization, which themselves occur in response to the local geometry of the cell cortex.

This article was published online ahead of print in MBC in Press (http://www.molbiolcell.org/cgi/doi/10.1091/mbc.E08-08-0848) on February 18, 2009.

{dagger} Present address: University of Virginia, Charlottesville, VA.

Address correspondence to: Daniel J. Lew (daniel.lew{at}duke.edu)






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