Abstract
Post-translational oxidation of methionine residues can destabilize proteins or modify their functions. Although levels of methionine oxidation can provide important information regarding the structural integrity and regulation of proteins, their quantitation is often challenging as analytical procedures in and of themselves can artifactually oxidize methionines. Here, we develop a mass spectrometry-based method called Methionine Oxidation by Blocking with Alkylation (MObBa) that quantifies methionine oxidation by selectively alkylating and blocking unoxidized methionines. Thus, alkylated methionines can be used as a stable proxy for unoxidized methionines. Using proof of concept experiments, we demonstrate that MObBa can be used to measure methionine oxidation levels within individual synthetic peptides and on proteome-wide scales. MObBa may provide a straightforward experimental strategy for mass spectrometric quantitation of methionine oxidation.
Significance Statement Over time, cellular proteins can become oxidatively damaged by reactive oxygen species (ROS). A residue that is particularly prone to oxidative damage is methionine. Here, we develop and validate a methodology for detecting and quantifying levels of methionine oxidation by mass spectrometry. This approach has a number of practical advantages over methods currently available for analysis of methionine oxidation. The ability to accurately quantify methionine oxidation will provide important insights into factors that influence protein homeostasis within a cell.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Classification: Biological Sciences; Biochemistry
Abbreviations
- MObBa
- Methionine Oxidation by Blocking with Alkylation
- ROS
- reactive oxygen species
- Msrs
- methionine sulfoxide reductases
- MObB
- Methionine Oxidation by Blocking
- LC-MS/MS
- liquid chromatography tandem mass spectrometry
- LC
- liquid chromatography
- IAA
- iodoacetamide
- IA
- iodoacetate
- Δ57
- methionine carbamidomethylation
- Δ-48
- methionine dethiomethylation
- SILAC
- Stable Isotopic Labeling by Amino Acids in Cell Culture
- DDA
- data-dependent acquisition
- MIPS
- Monoisotopic Precursor Selection
- CID
- collision-induced dissociation