Ras proteins and other small molecular weight GTPases are molecular switches controlling a wide range of cellular functions. High homology and functional redundancy between closely related family members are commonly observed. Antibody-based methods are commonly used to characterize their protein expression. However, these approaches are typically semi-quantitative, and the requirement to use different antibodies means that this strategy is not suited for comparative analysis of the relative expression of proteins expressed by different genes. We present a mass spectrometry-based method that precisely quantifies the protein copy number per cell of a protein of interest. We provide detailed protocols for the generation of isotopically labeled protein standards, cell/tissue processing, mass-spectrometry optimization, and subsequent utilization for the absolute quantitation of the abundance of a protein of interest. As examples, we provide instructions for the quantification of HRAS, KRAS4A, KRAS4B, NRAS, RALA, and RALB in cell line and tissue-derived samples.
Keywords: GTPase; PSAQ; Protein abundance; Proteomics; RAS.