An Optimized SP3 Sample Processing Workflow for In-Depth and Reproducible Phosphoproteomics.

Protein phosphorylation is a ubiquitous post-translational modification (PTM) found across the kingdoms of life and is critical for the regulation of protein function in health and disease. Advances in high-throughput mass spectrometry have transformed our ability to interrogate the phosphoproteome. However, sample preparation methodologies optimized for phosphoproteomics have not kept pace, compromising the ability to fully exploit these technological advances. In this study, we present an optimized phosphoproteomics workflow using carboxylated SP3 magnetic beads, which have simplified proteomics sample preparation. By employing a washing step with 8 M urea and omitting the conventional C SPE cleanup, we demonstrate a significant improvement in phosphopeptide identifications, with application of this refined protocol to HEK-293T cell extracts increasing the number nearly 2-fold compared to standard SP3 techniques (7908 cf. 4129). We also observed substantial improvement in the detection of multiply phosphorylated peptides. Our findings suggest that the complexity of PTM cross-talk using current peptide-based proteomics workflows is currently under-represented and underscores the necessity of methodological innovations to better capture the intricacies of the phosphoproteome landscape.