Generation, Characterization, and Dissociation of Radical Cations Derived from Prolyl-glycyl-glycine

Lau, Justin Kai-Chi; Esuon, Francis; Berden, Giel; Hopkinson, Alan C.; Ryzhov, Victor; Siu, Kin Wai Michael

doi:10.1021/acs.jpcb.1c01732

Cited by 1 publication

(2 citation statements)

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“…In a work not involving any reactive side‐chain radicals, Lau et al (2021) used IMR to characterize the structure of radical cations of an aliphatic tripeptide prolyl‐glycyl‐glycine and its sequence ions [a 3 + H] •+ and [b 2 – H] •+ .…”

Section: Imr Of Radical Ionsmentioning

confidence: 99%

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Ion‐molecule reactions of mass‐selected ions

Parker

Bollis

Ryzhov

2022

Mass Spectrometry Reviews

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Gas‐phase reactions of mass‐selected ions with neutrals covers a very broad area of fundamental and applied mass spectrometry (MS). Oftentimes, ion‐molecule reactions (IMR) can serve as a viable alternative to collision‐induced dissociation and other ion dissociation techniques when using tandem MS. This review focuses on the literature pertaining applications of IMR since 2013. During the past decade considerable efforts have been made in analytical applications of IMR, including advances in one of the major techniques for characterization of unsaturated fatty acids and lipids, ozone‐induced dissociation, and the development of a new technique for sequencing of large ions, hydrogen atom attachment/abstraction dissociation. Many advances have also been made in identifying gas‐phase chemistry specific to a functional group in organic and biological compounds, which are useful in structure elucidation of analytes and differentiation of isomers/isobars. With “soft” ionization techniques like electrospray ionization having become mainstream for quite some time now, the efforts in the area of metal ion catalysis have firmly moved into exploring chemistry of ligated metal complexes in their “natural” oxidation states allowing to model individual steps of mechanisms in homogeneous catalysis, especially in combination with high‐level DFT calculations. Finally, IMR continue to contribute to the body of knowledge in the area of chemistry of interstellar processes.

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Section: Imr Of Radical Ionsmentioning

confidence: 99%

“…(A) No radical combination reaction with O 2 is observed for PGG •+ and (B) radical combination reaction with O 2 results in +32 Da, as indicated for the [a 3 + H] •+ radical cation. (from reference: Lau et al, 2021).…”

Section: Imr Of Radical Ionsmentioning

confidence: 99%