Protein oxidation: identification and utilisation of molecular markers to differentiate singlet oxygen and hydroxyl radical-mediated oxidative pathways

The effect of reactive oxidation species (ROS) on tryptophan or tyrosine was investigated by qualitatively determining the major detectable oxidation products generated by hydroxyl radicals, produced by the Fenton process, or singlet oxygen, generated by exposure to green light in the presence of Ro...

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Bibliographic Details
Published in:Photochemical & photobiological sciences 2013-11, Vol.12 (11), p.196-1967
Main Authors: Plowman, Jeffrey E, Deb-Choudhury, Santanu, Grosvenor, Anita J, Dyer, Jolon M
Format: Article
Language:English
Subjects:
Biochemistry
Biomaterials
Chemistry
Hydroxyl Radical - chemistry
Hydroxyl Radical - metabolism
Oligopeptides - chemistry
Oligopeptides - metabolism
Oxidation-Reduction
Physical Chemistry
Plant Sciences
Reactive Oxygen Species - metabolism
Singlet Oxygen - chemistry
Singlet Oxygen - metabolism
Tryptophan - chemistry
Tryptophan - metabolism
Tyrosine - chemistry
Tyrosine - metabolism
Ultraviolet Rays
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Summary:The effect of reactive oxidation species (ROS) on tryptophan or tyrosine was investigated by qualitatively determining the major detectable oxidation products generated by hydroxyl radicals, produced by the Fenton process, or singlet oxygen, generated by exposure to green light in the presence of Rose Bengal, on these photosensitive amino acids in synthetic pentapeptides. Based on mass spectrometric analysis it would appear that the hydroxyl radical favours a pathway leading to the formation of tryptophandione-based products from tryptophan. In contrast singlet oxygen attack appears to favour the formation of kynurenine-type products from tryptophan. Specific oxidative products observed proteomically are therefore potentially able to discriminate between predominant ROS-mediated pathways. To validate these findings, a keratin-enriched extract was exposed to UVB light under aqueous conditions. The observation of the conversion of tryptophan to hydroxytryptophan in marker peptides, and the absence of singlet-oxygen specific modifications, suggested that under these conditions oxidative degradation occurred primarily via hydroxyl radical attack. These observations provide the first direct proteomic evidence of the dominant photodegradation pathways in wet wool. The effect of reactive oxidation species (ROS) on tryptophan or tyrosine was investigated by qualitatively determining the major detectable oxidation products generated by hydroxyl radicals or singlet oxygen on these photosensitive amino acids in synthetic pentapeptides.
ISSN:1474-905X
1474-9092
DOI:10.1039/c3pp50182e