Title of article
Protein NMR spin trapping with [methyl-13C3]-MNP: application to the tyrosyl radical of equine myoglobin
Author/Authors
Bidisha Bose-Basu، نويسنده , , Eugene F. DeRose، نويسنده , , Yeong-Renn Chen، نويسنده , , Ronald P. Mason، نويسنده , , Roel M. Schaaper and Robert E. London، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
8
From page
383
To page
390
Abstract
Direct spin trapping studies of protein radical adducts are limited as a consequence of the long rotational correlation times and consequent broadening of the ESR resonances. It can be difficult to determine both the nature and number of adduct species present. NMR detection of reduced spin adducts represents an alternate approach which, however, is subject to the limitations of lower sensitivity and a limited capability for isolating the resonances arising from the reduced adduct from other chemistry involving the spin trap. In the present study, we have utilized [methyl-13C3]-MNP for the detection and analysis of tyrosyl spin adducts formed as a result of exposure of equine myoglobin to hydrogen peroxide. The methyl-13C label allows high detection sensitivity in two dimensions, narrow line widths and most significantly, removal by dialysis of unreacted spin trap as well as any nonprotein derivatives that may form. For equine myoglobin, it is found that adduct formation involves a single residue—Tyr-103 and further that adduct formation occurs at the C-3 carbon of the amino acid. HMQC-NOESY experiments further revealed the proximity of the labeled methyl groups to both the three aromatic tyrosyl protons as well as the aromatic protons of the nearby Phe-106 residue.
Keywords
myoglobin , Tyrosyl radical , spin trapping , free radicals , NMR , MnP
Journal title
Free Radical Biology and Medicine
Serial Year
2001
Journal title
Free Radical Biology and Medicine
Record number
518905
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