N‑Acylated Dipeptide Tags Enable Precise Measurement of Ion Temperature in Peptide Fragmentation

Peptide fragmentations into b- and y-type ions are useful for the identification of proteins. The b ion, having the structure of a N-protonated oxazolone, dissociates to the a-type ion with loss of CO. This CO-loss process affords the possibility of characterizing the temperature of the b ion. Herei...

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Published in:The journal of physical chemistry. B 2012-12, Vol.116 (48), p.13982-13990
Main Authors: Seo, Jongcheol, Suh, Min-Soo, Yoon, Hye-Joo, Shin, Seung Koo
Format: Article
Language:English
Subjects:
Acylation
Amino Acid Sequence
Chains
Dipeptides - chemistry
Fragmentation
Ion temperature
Ions - chemistry
Mathematical analysis
Models, Molecular
Molecular Sequence Data
Peptide Fragments - chemistry
Peptides
Rate constants
Spectrometry, Mass, Electrospray Ionization
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Tags
Temperature
Thermodynamics
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cited_by cdi_FETCH-LOGICAL-a348t-74847f69374de776ae9a31cc566dd47bc34e671f2efac13378b950320c366e6b3
cites cdi_FETCH-LOGICAL-a348t-74847f69374de776ae9a31cc566dd47bc34e671f2efac13378b950320c366e6b3
container_end_page 13990
container_issue 48
container_start_page 13982
container_title The journal of physical chemistry. B
container_volume 116
creator Seo, Jongcheol
Suh, Min-Soo
Yoon, Hye-Joo
Shin, Seung Koo
description Peptide fragmentations into b- and y-type ions are useful for the identification of proteins. The b ion, having the structure of a N-protonated oxazolone, dissociates to the a-type ion with loss of CO. This CO-loss process affords the possibility of characterizing the temperature of the b ion. Herein, we used N-acylated dipeptide tags, isobaric tags originally developed for protein quantification, as internal standards for the measurement of the ion temperature in peptide fragmentation. Amine-reactive dipeptide tags were attached to the N-termini of sample peptides. Collision-induced dissociation (CID) of the tagged peptides yielded a b-type quantitation signal (bS) from the tag, which subsequently dissociated into the aS ion with CO-loss. As the length of alkyl side chain on the dipeptide tag was extended from C1 to C8, the yield of aS ion gradually increased for the 4-alkyl-substituted oxazolone ion but decreased for the 2-alkyl-substituted one. To gain insights into the unimolecular dissociation kinetics, we obtained the potential energy surface from ab initio calculations. Theoretical study suggested that the 4-alkyl substitution on N-protonated oxazolone decreased the enthalpy of activation by stabilizing the productlike transition state, whereas the 2-alkyl substitution increased it by stabilizing the reactant. Resulting potential energy surfaces were used to calculate the microcanonical and canonical rate constants as well as the aS-ion yield. Arrhenius plots of canonical rate constants provided activation energies and pre-exponential factors for the CO-loss processes in the 600–800 K range. Comparison of experimental aS-ion yields with theoretical values led to precise determination of the temperature of bS ion. Thus, the bS-ion temperature of tagged peptide can be measured simply by combining kinetic parameters provided here and aS-ion yields obtained experimentally. Although the b-type fragment patterns varied with the chain length and position of alkyl substituent on the N-protonated oxazolone, the y-type fragment patterns were almost identical under these conditions. Furthermore, bS-ion temperatures were nearly the same with only a few degrees K difference. Our results demonstrate a novel use of N-acylated dipeptide tags as internal temperature standards, which enables the reproducible acquisition of peptide fragment spectra.
doi_str_mv 10.1021/jp308697v
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Theoretical study suggested that the 4-alkyl substitution on N-protonated oxazolone decreased the enthalpy of activation by stabilizing the productlike transition state, whereas the 2-alkyl substitution increased it by stabilizing the reactant. Resulting potential energy surfaces were used to calculate the microcanonical and canonical rate constants as well as the aS-ion yield. Arrhenius plots of canonical rate constants provided activation energies and pre-exponential factors for the CO-loss processes in the 600–800 K range. Comparison of experimental aS-ion yields with theoretical values led to precise determination of the temperature of bS ion. Thus, the bS-ion temperature of tagged peptide can be measured simply by combining kinetic parameters provided here and aS-ion yields obtained experimentally. Although the b-type fragment patterns varied with the chain length and position of alkyl substituent on the N-protonated oxazolone, the y-type fragment patterns were almost identical under these conditions. Furthermore, bS-ion temperatures were nearly the same with only a few degrees K difference. 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As the length of alkyl side chain on the dipeptide tag was extended from C1 to C8, the yield of aS ion gradually increased for the 4-alkyl-substituted oxazolone ion but decreased for the 2-alkyl-substituted one. To gain insights into the unimolecular dissociation kinetics, we obtained the potential energy surface from ab initio calculations. Theoretical study suggested that the 4-alkyl substitution on N-protonated oxazolone decreased the enthalpy of activation by stabilizing the productlike transition state, whereas the 2-alkyl substitution increased it by stabilizing the reactant. Resulting potential energy surfaces were used to calculate the microcanonical and canonical rate constants as well as the aS-ion yield. Arrhenius plots of canonical rate constants provided activation energies and pre-exponential factors for the CO-loss processes in the 600–800 K range. Comparison of experimental aS-ion yields with theoretical values led to precise determination of the temperature of bS ion. 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Theoretical study suggested that the 4-alkyl substitution on N-protonated oxazolone decreased the enthalpy of activation by stabilizing the productlike transition state, whereas the 2-alkyl substitution increased it by stabilizing the reactant. Resulting potential energy surfaces were used to calculate the microcanonical and canonical rate constants as well as the aS-ion yield. Arrhenius plots of canonical rate constants provided activation energies and pre-exponential factors for the CO-loss processes in the 600–800 K range. Comparison of experimental aS-ion yields with theoretical values led to precise determination of the temperature of bS ion. Thus, the bS-ion temperature of tagged peptide can be measured simply by combining kinetic parameters provided here and aS-ion yields obtained experimentally. 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source American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects Acylation
Amino Acid Sequence
Chains
Dipeptides - chemistry
Fragmentation
Ion temperature
Ions - chemistry
Mathematical analysis
Models, Molecular
Molecular Sequence Data
Peptide Fragments - chemistry
Peptides
Rate constants
Spectrometry, Mass, Electrospray Ionization
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Tags
Temperature
Thermodynamics
title N‑Acylated Dipeptide Tags Enable Precise Measurement of Ion Temperature in Peptide Fragmentation
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