Abstract

The proteome of any system is a dynamic entity, such that the intracellular concentration of a protein is dictated by the relative rates of synthesis and degradation. In this work, we have analyzed time-dependent changes in the incorporation of a stable amino acid resolved precursor, a protocol we refer to as "dynamic SILAC", using 1-D gel separation followed by in-gel digestion and LC-MS/MS analyses to profile the intracellular stability of almost 600 proteins from human A549 adenocarcinoma cells, requiring multiple measures of the extent of labeling with stable isotope labeled amino acids in a classic label-chase experiment. As turnover rates are acquired, a profile can be built up that allows exploration of the 'dynamic proteome' and of putative features that predispose a protein to a high or a low rate of turnover. Moreover, measurement of the turnover rate of individual components of supramolecular complexes provides a unique insight in processes of protein complex assembly and turnover.

Keywords

Stable isotope labeling by amino acids in cell cultureProteomeProtein turnoverIntracellularHuman proteome projectAmino acidBiochemistryChemistryProteomicsBiologyProtein biosynthesisGene

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Year
2008
Type
article
Volume
8
Issue
1
Pages
104-112
Citations
345
Access
Closed

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Mary K. Doherty, Dean E. Hammond, Michael J. Clague et al. (2008). Turnover of the Human Proteome: Determination of Protein Intracellular Stability by Dynamic SILAC. Journal of Proteome Research , 8 (1) , 104-112. https://doi.org/10.1021/pr800641v

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DOI
10.1021/pr800641v