Formation of Peptide Radical Cations (M+·) in Electron Capture Dissociation of Peptides Adducted with Group IIB Metal Ions

Autor:	Tak Wah Dominic Chan, Pui Shuen Wong, Wai Yi Kelly Chan, Hoi Sze Yeung, Xiangfeng Chen
Rok vydání:	2011
Předmět:	chemistry.chemical_classification education.field_of_study Free Radicals Electron-capture dissociation Chemistry Metal ions in aqueous solution Population Peptide Tandem mass spectrometry Medicinal chemistry Mass Spectrometry Divalent Electron transfer Radical ion Structural Biology Cations Metals Heavy Organic chemistry Amino Acid Sequence Amino Acids Peptides education Spectroscopy
Zdroj:	Journal of the American Society for Mass Spectrometry. 22:233-244
ISSN:	1044-0305
DOI:	10.1007/s13361-010-0035-2
Popis:	Peptides adducted with different divalent Group IIB metal ions (Zn(2+), Cd(2+), and Hg(2+)) were found to give very different ECD mass spectra. ECD of Zn(2+) adducted peptides gave series of c-/z-type fragment ions with and without metal ions. ECD of Cd(2+) and Hg(2+) adducted model peptides gave mostly a-type fragment ions with M(+•) and fragment ions corresponding to losses of neutral side chain from M(+•). No detectable a-ions could be observed in ECD spectra of Zn(2+) adducted peptides. We rationalized the present findings by invoking both proton-electron recombination and metal-ion reduction processes. As previously postulated, divalent metal-ions adducted peptides could adopt several forms, including (a) [M + Cat](2+), (b) [(M + Cat - H) + H](2+), and (c) [(M + Cat - 2H) + 2H](2+). The relative population of these precursor ions depends largely on the acidity of the metal-ion peptide complexes. Peptides adducted with divalent metal-ions of small ionic radii (i.e., Zn(2+)) would form predominantly species (b) and (c); whereas peptides adducted with metal ions of larger ionic radii (i.e., Hg(2+)) would adopt predominantly species (a). Species (b) and (c) are believed to be essential for proton-electron recombination process to give c-/z-type fragments via the labile ketylamino radical intermediates. Species (c) is particularly important for the formation of non-metalated c-/z-type fragments. Without any mobile protons, species (a) are believed to undergo metal ion reduction and subsequently induce spontaneous electron transfer from the peptide moiety to the charge-reduced metal ions. Depending on the exothermicity of the electron transfer reaction, the peptide radical cations might be formed with substantial internal energy and might undergo further dissociation to give structural related fragment ions.
Databáze:	OpenAIRE
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