Journal article

Post-translational modification in the gas phase: Mechanism of cysteine S-nitrosylation via ion-molecule reactions

S Osburn, RAJ O'Hair, SM Black, V Ryzhov

Rapid Communications in Mass Spectrometry | WILEY | Published : 2011

Abstract

The gas-phase mechanism of S-nitrosylation of thiols was studied in a quadrupole ion trap mass spectrometer. This was done via ion-molecule reactions of protonated cysteine and many of its derivatives and other thiol ions with neutral tert-butyl nitrite or nitrous acid. Our results showed that the presence of the carboxylic acid functional group, -COOH, in the vicinity of the thiol group is essential for the gas-phase nitrosylation of thiols. When the carboxyl proton is replaced by a methyl group (cysteine methyl ester) no nitrosylation was observed. Other thiols lacking a carboxylic acid functional group displayed no S-nitrosylation, strongly suggesting that the carboxyl hydrogen plays a ke..

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University of Melbourne Researchers

Grants

Awarded by National Institutes of Health


Funding Acknowledgements

VR and SO acknowledge support from Northern Illinois University and the Center for Biochemical and Biophysical Studies. RAJO thanks the ARC Centre of Excellence in Free Radical Chemistry and Biotechnology for financial support. SMB acknowledges support from HL60190 and HL067841. VR is grateful to RAJO and the University of Melbourne for research opportunities during his sabbatical leave.