AI Article Synopsis
- Phosphorylation is a key protein modification that regulates cell functions and signaling, and advanced mass spectrometry techniques are helping scientists study these processes at a broader level.
- The study introduces a TiO(2) based enrichment method that efficiently isolates phosphorylated peptides from a protein sample, enabling large-scale quantitative analysis without the need for extensive prior separation.
- This method demonstrated strong performance in quantifying phosphopeptides with high precision and accuracy through label-free LC-MS/MS, making it a valuable tool for analyzing phosphorylation levels in biological samples.
Article Abstract
Phosphorylation is a protein post-translational modification with key roles in the regulation of cell biochemistry and signaling. In-depth analysis of phosphorylation using mass spectrometry is permitting the investigation of processes controlled by phosphorylation at the system level. A critical step of these phosphoproteomics methods involves the isolation of phosphorylated peptides from the more abundant unmodified peptides produced by the digestion of cell lysates. Although different techniques to enrich for phosphopeptides have been reported, there are limited data on their suitability for direct quantitative analysis by MS. Here we report a TiO(2) based enrichment method compatible with large-scale and label-free quantitative analysis by LC-MS/MS. Starting with just 500 μg of protein, the technique reproducibly isolated hundreds of peptides, >85% of which were phosphorylated. These results were obtained by using relatively short LC-MS/MS gradient runs (45 min) and without any previous separation step. In order to characterize the performance of the method for quantitative analyses, we employed label-free LC-MS/MS using extracted ion chromatograms as the quantitative readout. After normalization, phosphopeptides were quantified with good precision (coefficient of variation was 20% on average, n=900 phosphopeptides), linearity (correlation coefficients >0.98) and accuracy (deviations <20%). Thus, phosphopeptide ion signals correlated with the concentration of the respective phosphopeptide in samples, making the approach suitable for in-depth relative quantification of phosphorylation by label-free LC-MS/MS.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3158853 | PMC |
| http://dx.doi.org/10.1016/j.ymeth.2011.02.004 | DOI Listing |
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