Advances in Mass Spectrometry Fragmentation Techniques for Peptide and Protein Characterization: CID to ETD

Mass spectrometry (MS) has transformed the field of proteomics by enabling the precise analysis of proteins and peptides at the molecular level. The heart of this analysis is the process of fragmentation, which plays a pivotal role in elucidating amino acid sequence, identifying post-translational modifications (PTMs), and characterizing structural features. Peptides and proteins are first ionized and then subjected to fragmentation techniques such as Collision-Induced Dissociation (CID), Electron-Transfer Dissociation (ETD), and Electron-Capture Dissociation (ECD). These techniques induce fragmentation along the peptide backbone, generating characteristic fragment ions (b and y ions, c and z ions) that reflect the sequence of amino acids. The mass-to-charge (m/z) ratios of these fragment ions provide crucial data for de novo sequencing and PTM identification. Furthermore, fragmentation patterns can reveal insights into protein folding, interactions, and dynamics. This article provides the detailed view of mass fragmentation techniques in peptides and proteins, highlighting its importance in advancing proteomic research and its applications in fields ranging from biomarker discovery to drug development.