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Analysis of the Protein-Small Molecule Interactome in Yeast

$360,796R01FY2012GMNIH

Stanford University, Stanford CA

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Abstract

DESCRIPTION (provided by applicant): Metabolites and small molecules are important for the activity and regulation of many eukaryotic proteins. Although a large number of natural compounds that bind proteins have been identified through the analysis of individual interactions, a systematic screen for cellular compounds that bind proteins has not been performed. We have established approaches using high throughput protein purification and mass spectrometry as well as protein microarrays to identify protein-small molecule interactions in yeast. Using the mass spectrometry approach, we have found that several yeast proteins involved in the ergosterol biosynthetic pathway and many protein kinases bind hydrophobic molecules. Of these, at least one compound, ergosterol, affects protein kinase activity directly. Building upon these findings, we propose to systematically identify small molecules that bind yeast proteins on a proteome scale. We will use large scale protein purification and mass spectrometry to determine the suite of both hydrophobic and hydrophillic molecules that binds yeast proteins, initially focusing our attention on phosphatases and transcription factors then extending this analysis to as much of the proteome as possible. The identity of the bound compounds will be determined by comparison with properties of other known compounds. We will use an independent and parallel approach to globally deduce in vitro binding partners for 100 metabolites by probing yeast proteome arrays with small molecules. The information found in this study will be used to identify new biochemical activities, reconstruct metabolic networks and explore novel aspects and basic principles of regulatory networks. The information from this study will be made available to the general scientific community through an online accessible database and deposition in public databases. Overall this study will provide the first global analysis of small molecule-protein interactions in eukaryotes, and is expected to provide novel insights into protein function and regulation.

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