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Tocopherol controls D1 amino acid oxidation by oxygen radicals in Photosystem II
A. Kumar, A. Prasad, M. Sedlářová, R. Kale, LK. Frankel, L. Sallans, TM. Bricker, P. Pospíšil
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't, Research Support, U.S. Gov't, Non-P.H.S.
NLK
Free Medical Journals
from 1915 to 6 months ago
Freely Accessible Science Journals
from 1915 to 6 months ago
PubMed Central
from 1915 to 6 months ago
Europe PubMed Central
from 1915 to 6 months ago
Open Access Digital Library
from 1915-01-15
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from 1915-01-01
- MeSH
- alpha-Tocopherol chemistry metabolism MeSH
- Amino Acids chemistry metabolism MeSH
- Arabidopsis enzymology genetics radiation effects MeSH
- Photosynthesis physiology radiation effects MeSH
- Photosystem II Protein Complex chemistry genetics metabolism MeSH
- Hydroxyl Radical chemistry metabolism MeSH
- Protein Interaction Domains and Motifs MeSH
- Intramolecular Transferases chemistry genetics metabolism MeSH
- Protein Conformation, alpha-Helical MeSH
- Protein Conformation, beta-Strand MeSH
- Oxygen chemistry metabolism MeSH
- Models, Molecular MeSH
- Mutation MeSH
- Oxidation-Reduction MeSH
- Superoxides chemistry metabolism MeSH
- Light MeSH
- Thermodynamics MeSH
- Thermosynechococcus enzymology genetics radiation effects MeSH
- Thylakoids enzymology genetics radiation effects MeSH
- Protein Binding MeSH
- Binding Sites MeSH
- Iron chemistry metabolism MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
- Research Support, U.S. Gov't, Non-P.H.S. MeSH
Photosystem II (PSII) is an intrinsic membrane protein complex that functions as a light-driven water:plastoquinone oxidoreductase in oxygenic photosynthesis. Electron transport in PSII is associated with formation of reactive oxygen species (ROS) responsible for oxidative modifications of PSII proteins. In this study, oxidative modifications of the D1 and D2 proteins by the superoxide anion (O2•-) and the hydroxyl (HO•) radicals were studied in WT and a tocopherol cyclase (vte1) mutant, which is deficient in the lipid-soluble antioxidant α-tocopherol. In the absence of this antioxidant, high-resolution tandem mass spectrometry was used to identify oxidation of D1:130E to hydroxyglutamic acid by O2•- at the PheoD1 site. Additionally, D1:246Y was modified to either tyrosine hydroperoxide or dihydroxyphenylalanine by O2•- and HO•, respectively, in the vicinity of the nonheme iron. We propose that α-tocopherol is localized near PheoD1 and the nonheme iron, with its chromanol head exposed to the lipid-water interface. This helps to prevent oxidative modification of the amino acid's hydrogen that is bonded to PheoD1 and the nonheme iron (via bicarbonate), and thus protects electron transport in PSII from ROS damage.
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- $a Photosystem II (PSII) is an intrinsic membrane protein complex that functions as a light-driven water:plastoquinone oxidoreductase in oxygenic photosynthesis. Electron transport in PSII is associated with formation of reactive oxygen species (ROS) responsible for oxidative modifications of PSII proteins. In this study, oxidative modifications of the D1 and D2 proteins by the superoxide anion (O2•-) and the hydroxyl (HO•) radicals were studied in WT and a tocopherol cyclase (vte1) mutant, which is deficient in the lipid-soluble antioxidant α-tocopherol. In the absence of this antioxidant, high-resolution tandem mass spectrometry was used to identify oxidation of D1:130E to hydroxyglutamic acid by O2•- at the PheoD1 site. Additionally, D1:246Y was modified to either tyrosine hydroperoxide or dihydroxyphenylalanine by O2•- and HO•, respectively, in the vicinity of the nonheme iron. We propose that α-tocopherol is localized near PheoD1 and the nonheme iron, with its chromanol head exposed to the lipid-water interface. This helps to prevent oxidative modification of the amino acid's hydrogen that is bonded to PheoD1 and the nonheme iron (via bicarbonate), and thus protects electron transport in PSII from ROS damage.
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