Updated project metadata. Proof-of-principle pull-down experiments using a YwlE trapping mutant phosphatase to selective capture arginine phosphorylated proteins. Phosphoarginine is an acid labile protein modification that was demonstrated to exist in bacteria and probably also in higher eukaryotes. Due to the high abundance of Ser, Thr, and Tyr modification, specific enrichment of this type of phosphorylation is required to detect this modification in complex samples and distinguish them from other protein phosphorylations. For this purpose, the phosphoarginine-specific phosphatase YwlE (G.stearothermophilus) was modified by introduction of mutations in catalytically-active amino acids C9 and D118, as well as the surface residue F39. The efficiency of these mutants to enrich arginine phosphorylated proteins from B. subtilis cell extracts was tested in comparison to a shotgun phosphoproteomics approach. Phosphatase trapping mutants were expressed in E.coli with a C-terminal histidine-tag. B.subtilis ywle cultures were grown in LB medium and heat shocked to induce arginine phosphorylation by the protein arginine kinase McsB. Cells were lysed under native conditions and incubated with the trapping mutant. Phosphorylated proteins were enriched by Ni2+/NTA chromatography to isolate the trapping mutant and bound substrates. Sample were prepared for bottom up proteomic analysis by reduction of disulfides, subsequent alkylation of free cysteines and tryptic digestion on the beads. Phosphopeptides were enriched from the resulting peptide mixtures using an optimized TiO2-based enrichment protocol and subsequently submitted to LC-MS/MS analysis.