Quantum chemical mass spectrometry: Ab initio study of b2‐ion formation mechanisms for the singly protonated Gln‐His‐Ser tripeptide

Rationale Both amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter‐side‐chain (ISC) interac...

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Published inRapid communications in mass spectrometry Vol. 34; no. 12; pp. e8778 - n/a
Main Authors Cautereels, Julie, Giribaldi, Julien, Enjalbal, Christine, Blockhuys, Frank
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 30.06.2020
Subjects
Amides
Chains
Fragmentation
Glycine
Histidine
Identification methods
Imidazole
Ions
Mass spectra
Mass spectrometry
Mass spectroscopy
Materials science
Protonation
Quantum chemistry
Scientific imaging
Online AccessGet full text
ISSN0951-4198
1097-0231
1097-0231
DOI10.1002/rcm.8778

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Abstract Rationale Both amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter‐side‐chain (ISC) interactions, in b2‐ion formation was investigated, focusing on the QHS model tripeptide. Methods To identify the effect of histidine on fragmentations issued from ISC interactions, QHS was selected for a comprehensive analysis of the pathways leading to the three possible b2‐ion structures, using quantum chemical calculations performed at the DFT/B3LYP/6‐311+G* level of theory. Electrospray ionization ion trap mass spectrometry allowed the recording of MS2 and MS3 tandem mass spectra, whereas the Quantum Chemical Mass Spectrometry for Materials Science (QCMS2) method was used to predict fragmentation patterns. Results Whereas it is very difficult to differentiate among protonated oxazolone, diketopiperazine, or lactam b2‐ions using MS2 and MS3 mass spectra, the calculations indicated that the QH b2‐ion (detected at m/z 266) is probably a mixture of the lactam and oxazolone structures formed after amide nitrogen protonation, making the formation of diketopiperazine less likely as it requires an additional step for its formation. Conclusions In contrast to glycine‐histidine‐containing b2‐ions, known to be issued from the backbone‐imidazole cyclization, we found that interactions between the side chains were not obvious to perceive, neither from a thermodynamics nor from a fragmentation perspective, emphasizing the importance of the whole sequence on the dissociation behavior usually demonstrated from simple glycine‐containing tripeptides.
AbstractList RationaleBoth amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter‐side‐chain (ISC) interactions, in b2‐ion formation was investigated, focusing on the QHS model tripeptide.MethodsTo identify the effect of histidine on fragmentations issued from ISC interactions, QHS was selected for a comprehensive analysis of the pathways leading to the three possible b2‐ion structures, using quantum chemical calculations performed at the DFT/B3LYP/6‐311+G* level of theory. Electrospray ionization ion trap mass spectrometry allowed the recording of MS2 and MS3 tandem mass spectra, whereas the Quantum Chemical Mass Spectrometry for Materials Science (QCMS2) method was used to predict fragmentation patterns.ResultsWhereas it is very difficult to differentiate among protonated oxazolone, diketopiperazine, or lactam b2‐ions using MS2 and MS3 mass spectra, the calculations indicated that the QH b2‐ion (detected at m/z 266) is probably a mixture of the lactam and oxazolone structures formed after amide nitrogen protonation, making the formation of diketopiperazine less likely as it requires an additional step for its formation.ConclusionsIn contrast to glycine‐histidine‐containing b2‐ions, known to be issued from the backbone‐imidazole cyclization, we found that interactions between the side chains were not obvious to perceive, neither from a thermodynamics nor from a fragmentation perspective, emphasizing the importance of the whole sequence on the dissociation behavior usually demonstrated from simple glycine‐containing tripeptides.
Both amide bond protonation triggering peptide fragmentations and the controversial b2 -ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter-side-chain (ISC) interactions, in b2 -ion formation was investigated, focusing on the QHS model tripeptide.RATIONALEBoth amide bond protonation triggering peptide fragmentations and the controversial b2 -ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter-side-chain (ISC) interactions, in b2 -ion formation was investigated, focusing on the QHS model tripeptide.To identify the effect of histidine on fragmentations issued from ISC interactions, QHS was selected for a comprehensive analysis of the pathways leading to the three possible b2 -ion structures, using quantum chemical calculations performed at the DFT/B3LYP/6-311+G* level of theory. Electrospray ionization ion trap mass spectrometry allowed the recording of MS2 and MS3 tandem mass spectra, whereas the Quantum Chemical Mass Spectrometry for Materials Science (QCMS2 ) method was used to predict fragmentation patterns.METHODSTo identify the effect of histidine on fragmentations issued from ISC interactions, QHS was selected for a comprehensive analysis of the pathways leading to the three possible b2 -ion structures, using quantum chemical calculations performed at the DFT/B3LYP/6-311+G* level of theory. Electrospray ionization ion trap mass spectrometry allowed the recording of MS2 and MS3 tandem mass spectra, whereas the Quantum Chemical Mass Spectrometry for Materials Science (QCMS2 ) method was used to predict fragmentation patterns.Whereas it is very difficult to differentiate among protonated oxazolone, diketopiperazine, or lactam b2 -ions using MS2 and MS3 mass spectra, the calculations indicated that the QH b2 -ion (detected at m/z 266) is probably a mixture of the lactam and oxazolone structures formed after amide nitrogen protonation, making the formation of diketopiperazine less likely as it requires an additional step for its formation.RESULTSWhereas it is very difficult to differentiate among protonated oxazolone, diketopiperazine, or lactam b2 -ions using MS2 and MS3 mass spectra, the calculations indicated that the QH b2 -ion (detected at m/z 266) is probably a mixture of the lactam and oxazolone structures formed after amide nitrogen protonation, making the formation of diketopiperazine less likely as it requires an additional step for its formation.In contrast to glycine-histidine-containing b2 -ions, known to be issued from the backbone-imidazole cyclization, we found that interactions between the side chains were not obvious to perceive, neither from a thermodynamics nor from a fragmentation perspective, emphasizing the importance of the whole sequence on the dissociation behavior usually demonstrated from simple glycine-containing tripeptides.CONCLUSIONSIn contrast to glycine-histidine-containing b2 -ions, known to be issued from the backbone-imidazole cyclization, we found that interactions between the side chains were not obvious to perceive, neither from a thermodynamics nor from a fragmentation perspective, emphasizing the importance of the whole sequence on the dissociation behavior usually demonstrated from simple glycine-containing tripeptides.
Rationale Both amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The involvement of histidine (H), with its imidazole side chain that induces specific dissociation patterns involving inter‐side‐chain (ISC) interactions, in b2‐ion formation was investigated, focusing on the QHS model tripeptide. Methods To identify the effect of histidine on fragmentations issued from ISC interactions, QHS was selected for a comprehensive analysis of the pathways leading to the three possible b2‐ion structures, using quantum chemical calculations performed at the DFT/B3LYP/6‐311+G* level of theory. Electrospray ionization ion trap mass spectrometry allowed the recording of MS2 and MS3 tandem mass spectra, whereas the Quantum Chemical Mass Spectrometry for Materials Science (QCMS2) method was used to predict fragmentation patterns. Results Whereas it is very difficult to differentiate among protonated oxazolone, diketopiperazine, or lactam b2‐ions using MS2 and MS3 mass spectra, the calculations indicated that the QH b2‐ion (detected at m/z 266) is probably a mixture of the lactam and oxazolone structures formed after amide nitrogen protonation, making the formation of diketopiperazine less likely as it requires an additional step for its formation. Conclusions In contrast to glycine‐histidine‐containing b2‐ions, known to be issued from the backbone‐imidazole cyclization, we found that interactions between the side chains were not obvious to perceive, neither from a thermodynamics nor from a fragmentation perspective, emphasizing the importance of the whole sequence on the dissociation behavior usually demonstrated from simple glycine‐containing tripeptides.
Author Blockhuys, Frank
Enjalbal, Christine
Giribaldi, Julien
Cautereels, Julie
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Snippet Rationale Both amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The...
RationaleBoth amide bond protonation triggering peptide fragmentations and the controversial b2‐ion structures have been subjects of intense research. The...
Both amide bond protonation triggering peptide fragmentations and the controversial b2 -ion structures have been subjects of intense research. The involvement...
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wiley
SourceType Aggregation Database
Publisher
StartPage e8778
SubjectTerms Amides
Chains
Fragmentation
Glycine
Histidine
Identification methods
Imidazole
Ions
Mass spectra
Mass spectrometry
Mass spectroscopy
Materials science
Protonation
Quantum chemistry
Scientific imaging
Title Quantum chemical mass spectrometry: Ab initio study of b2‐ion formation mechanisms for the singly protonated Gln‐His‐Ser tripeptide
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Frcm.8778
https://www.proquest.com/docview/2405500638
https://www.proquest.com/docview/2374352110
Volume 34
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