The origin and control of ex vivo oxidative peptide modifications prior to mass spectrometry analysis

The origin and control of ex vivo sample handling related oxidative modifications of methionine‐, S ‐alkyl cysteine‐, and tryptophan‐containing peptides obtained from typical “in‐solution” or “in‐gel” proteolytic digestion strategies, have been examined by capillary HPLC and MS/MS. The origin of increased oxidation levels were found to be predominantly associated with the extensive ex vivo sample handling steps required for gel electrophoresis and/or in‐gel proteolytic digestion of proteins prior to analysis by MS. Conditions for deliberately controlling the oxidation state (both oxidation and reduction) of these peptides, as well as for those containing cysteine, have been evaluated using a series of model synthetic peptides and standard tryptic protein digests. Essentially complete oxidation of methionine‐ and S ‐alkyl cysteine‐containing peptides was achieved by reaction with 30% hydrogen peroxide/5% acetic acid at room temperature for 30 min. Under these conditions, cysteine was also converted to cysteic acid, while only limited oxidation of tryptophan to oxindolylalanine, and methionine and S ‐alkyl cysteine sulfoxides to their respective sulfones, were observed. Efficient reduction of methionine‐ and S ‐alkyl cysteine sulfoxide‐containing peptides was achieved by reaction in 1 M dimethylsulfide/10 M hydrochloric acid at room temperature for 10 and 45 min, respectively. None of the reduction conditions evaluated were found to result in the reduction of oxindolylalanine, cysteic acid, or methionine sulfone.