Abstract
Tocopherols, lipid-soluble antioxidants play a crucial role in the antioxidant defense system in higher plants. The antioxidant function of α-tocopherol has been widely studied; however, experimental data on the formation of its oxidation products is missing. In this study, we attempt to provide spectroscopic evidence on the detection of oxidation products of α-tocopherol formed by its interaction with singlet oxygen and lipid peroxyl radical. Singlet oxygen was formed using photosensitizer rose bengal and thylakoid membranes isolated from Arabidopsis thaliana. Singlet oxygen reacts with polyunsaturated fatty acid forming lipid hydroperoxide which is oxidized by ferric iron to lipid peroxyl radical. The addition of singlet oxygen to double bond carbon on the chromanol head of α-tocopherol forms α-tocopherol hydroperoxide detected using fluorescent probe swallow-tailed perylene derivative. The decomposition of α-tocopherol hydroperoxide forms α-tocopherol quinone. The hydrogen abstraction from α-tocopherol by lipid peroxyl radical forms α-tocopheroxyl radical detected by electron paramagnetic resonance. Quantification of lipid and protein hydroperoxide from the wild type and tocopherol deficient (vte1) mutant Arabidopsis leaves using a colorimetric ferrous oxidation-xylenol orange assay reveals that α-tocopherol prevents formation of both lipid and protein hydroperoxides at high light. Identification of oxidation products of α-tocopherol might contribute to a better understanding of the protective role of α-tocopherol in the prevention of oxidative damage in higher plants at high light.
Highlights
Tocopherols, lipid-soluble antioxidants play a crucial role in the antioxidant defense system in higher plants
We provided for the first-time experimental evidence on the formation of α-tocopherol hydroperoxide (α-TOOH) and α-TO in the thylakoid membranes isolated from Arabidopsis plant
We showed that (1) oxidation of α-TOH by 1O2 forms α-TOOH monitored by fluorescence spectroscopy and (2) oxidation of α-TOH by L OO is associated with the appearance of α-TO detected by electron paramagnetic resonance
Summary
Tocopherols, lipid-soluble antioxidants play a crucial role in the antioxidant defense system in higher plants. We attempt to provide spectroscopic evidence on the detection of oxidation products of α-tocopherol formed by its interaction with singlet oxygen and lipid peroxyl radical. Singlet oxygen reacts with polyunsaturated fatty acid forming lipid hydroperoxide which is oxidized by ferric iron to lipid peroxyl radical. In the presence of oxidized transition metals (e.g. F e3+), LOOH is oxidized to lipid peroxyl radical ( LOO) As the latter possess unpaired electron on oxygen atom, it has capability to abstract a hydrogen atom from other adjacent polyunsaturated fatty acid and initiates propagation of lipid peroxidation. The oxidation of α-TOH by 1O2 leads to the formation of α-tocopherol hydroperoxide (α-TOOH) which decomposes to more stable α-tocopherol-quinone (α-TQ)[13,14]. We showed that (1) oxidation of α-TOH by 1O2 forms α-TOOH monitored by fluorescence spectroscopy and (2) oxidation of α-TOH by L OO is associated with the appearance of α-TO detected by electron paramagnetic resonance
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
