Formation of (bn−1 + H2O) ions by collisional activation of maldi-formed peptide [M + H]+ ions in a QqTOF mass spectrometer-Reference-Cited by-同舟云学术

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Formation of (bn−1 + H2O) ions by collisional activation of maldi-formed peptide [M + H]+ ions in a QqTOF mass spectrometer

Published:2007-06-01 Issue:6 Volume:18 Page:1024-1037
ISSN:1044-0305
Container-title:Journal of the American Society for Mass Spectrometry
language:en
Short-container-title:J. Am. Soc. Mass Spectrom.

Author:

She Yi-Min¹,Krokhin Oleg¹,Spicer Victor¹,Loboda Alexandre¹,Garland Gideon¹,Ens Werner¹,Standing Kenneth G.¹,Westmore John B.²

Affiliation:

1. Department of Physics and Astronomy, University of Manitoba, R3T 2N2, Winnipeg, MB, Canada

2. Department of Chemistry, University of Manitoba, Winnipeg, Manitoba, Canada

Publisher

American Chemical Society (ACS)

Subject

Spectroscopy,Structural Biology

Link

https://pubs.acs.org/doi/pdf/10.1016/j.jasms.2007.02.008

Reference56 articles.

1. Metastable decomposition of peptide [M + H]+ ions via rearrangement involving loss of the C-terminal amino acid residue

2. Intramolecular oxygen-18 isotopic exchange in the gas phase observed during the tandem mass spectrometric analysis of peptides

3. Effect of the position of a basic amino acid onC-terminal rearrangement of protonated peptides upon collision-induced dissociation

4. Secondary Interactions Affecting the Dissociation Patterns of Arginine-Containing Peptide Ions

5. A mechanism for the loss of 60 u from peptides containing an arginine residue at the C-terminus

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2. Characterization of neutral loss peaks in the fragmentation pattern of peptide in Collision Induced Dissociation spectra;International Journal of Mass Spectrometry;2020-02

3. Structural Characterization of Intact Glycoconjugates by Tandem Mass Spectrometry Using Electron-Induced Dissociation;Analytical Chemistry;2017-09-07

4. Namalides B and C and Spumigins K–N from the Cultured Freshwater Cyanobacterium Sphaerospermopsis torques-reginae;Journal of Natural Products;2017-09-06

5. IRMPD spectroscopy reveals a novel rearrangement reaction for modified peptides that involves elimination of the N-terminal amino acid;International Journal of Mass Spectrometry;2015-03

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