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Reversible posttranslational modifications play an important role during the regulation of many central processes in bacterial cells. Protein phosphorylation, in particular, can influence signal transduction processes and thus enables a distinct reaction of the cell to different stress and environmental conditions. In the case of the human pathogen Staphylococcus aureus, protein phosphorylation is involved in the adaptation to changing conditions during colonisation of human hosts. For this reason, the investigation of phosphorylations in S. aureus allows a better understanding of pathophysiology and virulence of this organism. Apart from stable phosphorylations at the amino acids serine, threonine and tyrosine, insights into energy-rich phosphorylations, for instance at arginine residues, gain more and more scientific attention. For this reason, one purpose of this study was the investigation of incidence and physiological relevance of this protein modification at a global scale. Firstly, the analysis of this modification was methodically optimised resulting in the identification of eight arginine phosphorylations in wild type cells of S. aureus COL. Secondly, the deletion mutant ΔptpB missing the gene that codes for an arginine phosphatase, was analysed. The characterisation of PtpB in vitro proved its activity and specificity towards arginine phosphorylations. This enabled the global analysis of the phosphoproteome with a focus on arginine phosphorylations. In addition to the optimisation of the phosphopeptide enrichment as part of the sample preparation, the data analysis process was adapted to the special challenges of energy-rich phosphorylations. Here, classical database search was extended by spectral library based analyses. In addition, synthetic peptides allow the generation of high quality mass spectra and the verification of database based evaluation strategies to ensure the quality of the spectral library. Next, S. aureus COL was cultivated under various conditions and several subcellular fractions were analysed with the aim to cover a broad part of the proteome. The combination of the spectra of synthetic peptides, the spectra of non-phosphorylated peptides from extensive cultivation experiments and the spectra of enriched phosphopeptides rendered the construction of a spectral library possible. This contained 2,270 proteins out of which 392 were found to be phosphorylated. A comparison of the database based analysis with spectral library based analysis showed the advantages of the latter when comparing the reproducibility of biological replicates. Thereby a permanent issue in phosphoproteomics was investigated. Hence, spectral libraries were used for the analysis of the phosphoproteome of S. aureus under control and stress conditions. 215 arginine phosphosites were identified within the mutant under control conditions and 117 under oxidative stress conditions. Oxidative stress was chosen because phenotypic characterisation of the mutant revealed that the most distinct growth changes in comparison with the wild type occurred after oxidative stress. These phenotypic changes were quantitatively approached in the last part of this work. Total proteome quantification of the wild type and mutant under control and stress conditions revealed an influence of the ptpB deletion on amino acid metabolism, oxidative stress response and virulence. The quantification of phosphopeptides by means of a combination of spectral library with Census based analysis finally confirmed the observations made during total proteome quantification.