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Protein oxidation: role in signalling and detection by mass spectrometry
Corinne M Spickett
,
Andrew R Pitt
Aston Pharmacy School
College of Health and Life Sciences
School of Biosciences
Research output
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Contribution to journal
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Article
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peer-review
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Medicine & Life Sciences
3-nitrotyrosine
41%
Cysteine
61%
Halogenation
43%
Hydroxylation
37%
Ions
26%
MAP Kinase Kinase Kinases
44%
Mass Spectrometry
87%
Methionine
33%
Oxidants
33%
Peptides
20%
Physiological Phenomena
33%
Post Translational Protein Processing
100%
Proline
34%
Protein Tyrosine Phosphatases
39%
Proteins
35%
Reducing Agents
40%
Sulfenic Acids
60%
Sulfhydryl Compounds
34%
Tandem Mass Spectrometry
35%
Technology
21%
Transcription Factors
24%
Tyrosine
29%
Chemistry
Biological Role
24%
Cysteine
33%
Dissociation
13%
Disulfide
31%
Ion
7%
Mass Spectrometry
64%
Methionine
19%
Modification
53%
Nitrotyrosine
30%
Oxidation Reaction
43%
Peptide
11%
Proline
19%
Protein
40%
Sulfenic Acid
27%
Tandem Mass Spectrometry
16%
Thiol
16%
Tyrosine
35%