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Originally published In Press as doi:10.1074/mcp.M100032-MCP200 on January 22, 2002.
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Molecular & Cellular Proteomics 1:186-196, 2002.
© 2002 by The American Society for Biochemistry and Molecular Biology, Inc.


Research

Mass Spectrometry-based Methods for Phosphorylation Site Mapping of Hyperphosphorylated Proteins Applied to Net1, a Regulator of Exit from Mitosis in Yeast*

Susan Loughrey Chen{ddagger}, Michael J. Huddleston{ddagger}, Wenying Shou§, Raymond J. Deshaies§, Roland S. Annan{ddagger} and Steven A. Carr{ddagger},||

{ddagger} Proteomics and Biological Mass Spectrometry, GlaxoSmithKline, King of Prussia, Pennsylvania 19406
§ Division of Biology, California Institute of Technology, Pasadena, California 91125

Prior to anaphase in Saccharomyces cerevisiae, Cdc14 protein phosphatase is sequestered within the nucleolus and inhibited by Net1, a component of the RENT complex in budding yeast. During anaphase the RENT complex disassembles, allowing Cdc14 to migrate to the nucleus and cytoplasm where it catalyzes exit from mitosis. The mechanism of Cdc14 release appears to involve the polo-like kinase Cdc5, which is capable of promoting the dissociation of a recombinant Net1·Cdc14 complex in vitro by phosphorylation of Net1. We report here the phosphorylation site mapping of recombinant Net1 (Net1N) and a mutant Net1N allele (Net1N-19m) with 19 serines or threonines mutated to alanine. A variety of chromatographic and mass spectrometric-based strategies were used, including immobilized metal-affinity chromatography, alkaline phosphatase treatment, matrix-assisted laser-desorption post-source decay, and a multidimensional electrospray mass spectrometry-based approach. No one approach was able to identify all phosphopeptides in the tryptic digests of these proteins. Most notably, the presence of a basic residue near the phosphorylated residue significantly hampered the ability of alkaline phosphatase to hydrolyze the phosphate moiety. A major goal of research in proteomics is to identify all proteins and their interactions and post-translational modification states. The failure of any single method to identify all sites in highly phosphorylated Net1N, however, raises significant concerns about how feasible it is to map phosphorylation sites throughout the proteome using existing technologies.


To whom correspondence may be addressed: GlaxoSmithKline, 709 Swedeland Rd. UW 2940, King of Prussia, PA 19406. Tel.: 610-270-6532; Fax: 610-270-6608; E-mail: roland_s_annan{at}gsk.com.

|| To whom correspondence may be addressed: Millennium Pharmaceuticals, 640 Memorial Dr., Cambridge, MA 02139. Tel.: 617-679-7090; Fax: 617-679-7071; E-mail: carr{at}mpi.com.


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