Collision-Induced Dissociation Spectra Obtained by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry Using a 13C,15N-Doubly Depleted Protein

Abstract

Fourier transform ion cyclotron resonance mass spectra of 13C,15N-doubly depleted cystatin A M65L, produced by Escherichia coli grown on 99.9% [12C]glucose and 99.99% [14N]ammonium sulfate, showed salient monoisotopic peaks composed of 12C and 14N. Collision-induced dissociation spectra were obtained by increasing the capillary-skimmer potential for the electrospray ionization and by extending the trapping time in a radio frequency-only hexapole ion guide. Fragment ions in the spectra could be readily assigned to the amino acid sequence, owing to their markedly improved resolution and sensitivity as compared to those with the natural isotopic composition. Detailed analyses of the fragmentation patterns, facilitated by the use of 13C,15N-doubly depleted proteins, enabled the assignment of approximately 180 fragment ions to the sequence, while natural isotopic cystatin A allowed the assignment of approximately 110 fragment ions. Interestingly, no fragmentation was detected between residues 50-61 and 62-67, which are stretches known to be involved in the antiparallel beta-sheet at the center of the protein.