2022
DOI: 10.1021/jasms.2c00194
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Resolution of Identity in Gas-Phase Dissociations of Mono- and Diprotonated DNA Trinucleotide Codons by 15N-Labeling and Computational Structure Analysis

Abstract: Dissociations of DNA trinucleotide codons as gas-phase singly and doubly protonated ions were studied by tandem mass spectrometry using 15N-labeling to resolve identity in the nucleobase loss and backbone cleavages. The monocations showed different distributions of nucleobase loss from the 5′-, middle, and 3′-positions depending on the nucleobase, favoring cytosine over guanine, adenine, and thymine in an ensemble-averaged 62:27:11:<1 ratio. The distribution for the loss of the 5′-, middle, and 3′-nucleobase w… Show more

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Cited by 5 publications
(44 citation statements)
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“…It may be noted that protonation of thymine in trinucleotides has been found to be energetically disfavored, as judged by (TTT+H) + , in which low-energy structures were protonated at the phosphate ester groups instead in thymine. 48 This is expected to have a large effect on the structures of the (TXT+2H) 2+ precursor dications and (TXT+2H) +• cation radicals. Ion Structures and Energetics.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
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“…It may be noted that protonation of thymine in trinucleotides has been found to be energetically disfavored, as judged by (TTT+H) + , in which low-energy structures were protonated at the phosphate ester groups instead in thymine. 48 This is expected to have a large effect on the structures of the (TXT+2H) 2+ precursor dications and (TXT+2H) +• cation radicals. Ion Structures and Energetics.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…Standard backbone cleavages in trinucleotides by phosphate ester elimination can result in the formation of d 2 + ions retaining the 5′- and middle nucleobases or w 2 + ions retaining the 3′- and middle nucleobases. ,, With hydrogen-rich cation radicals containing an additional hydrogen atom in the radical-carrying nucleobase, one also observes backbone dissociations that are associated with hydrogen atom transfer, forming odd-electron ( w 2 +H) +• and even-electron ( w 2 +2H) + and ( d 2 +2H) + ions. The main types of dissociation by nucleobase loss, phosphate ester backbone cleavage, and cross-ring fragmentations for 60 codon trinucleotide cation radicals are summarized in the master table (Table ).…”
Section: Resultsmentioning
confidence: 99%
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