The effect of UV radiation on the plant cell wall
Апстракт
Using electron paramagnetic resonance (EPR) spectroscopy, two spin-traps DEPMPO (5-diethoxyphosphoryl-5-methyl-1-pyrroline-N-oxide) and BMPO (5-tertbutoxycarbonyl-5-methyl-l -pyrroline-N-oxide) capable of differentiating between different free radicals, we have examined redox effects of UV irradiation on cell wall isolates from Pisum sativum leaves, polygalacturonic acid, and galacturonic acid in the presence of hydrogen peroxide. Systems were exposed to UV-B (maximum emission at 312 nm) and UV-A (366 nm) for IO minutes (6 J m-2 s-1). UV irradiated ceU wall isolates produced hydroxyl radicals, carbon dioxide radicals, and superoxide. We showed that this property of the cell wall is based on the reaction of (poly)galacturonic acid with a hydroxyl radical, which produces a carbon dioxide radical as a product. Acting as strong reducing agent, a carbon dioxide radical reacts with molecular oxygen to produce superoxide. The production of superoxide was observed for cell wall isolates, poly...galacturonic acid (in the presence and in the absence of calcium) and galacturonic acid, and it was diminished upon superoxide dismutase supplementation. We propose that the results presented here shed new light on the mechanism of superoxide and hydrogen peroxide production in the extracellular compartment and on some other UV-related phenomena, such as CO2 emission.
Кључне речи:
UV plant galacturonic cell wallИзвор:
The 2011 International Symposium on Plant Photobiology, 2011, 74-Издавач:
- Peking University
Институција/група
Institut za multidisciplinarna istraživanjaTY - CONF AU - Bogdanović Pristov, Jelena AU - Mitrović, Aleksandra Lj. AU - Spasojević, Ivan PY - 2011 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/2937 AB - Using electron paramagnetic resonance (EPR) spectroscopy, two spin-traps DEPMPO (5-diethoxyphosphoryl-5-methyl-1-pyrroline-N-oxide) and BMPO (5-tertbutoxycarbonyl-5-methyl-l -pyrroline-N-oxide) capable of differentiating between different free radicals, we have examined redox effects of UV irradiation on cell wall isolates from Pisum sativum leaves, polygalacturonic acid, and galacturonic acid in the presence of hydrogen peroxide. Systems were exposed to UV-B (maximum emission at 312 nm) and UV-A (366 nm) for IO minutes (6 J m-2 s-1). UV irradiated ceU wall isolates produced hydroxyl radicals, carbon dioxide radicals, and superoxide. We showed that this property of the cell wall is based on the reaction of (poly)galacturonic acid with a hydroxyl radical, which produces a carbon dioxide radical as a product. Acting as strong reducing agent, a carbon dioxide radical reacts with molecular oxygen to produce superoxide. The production of superoxide was observed for cell wall isolates, polygalacturonic acid (in the presence and in the absence of calcium) and galacturonic acid, and it was diminished upon superoxide dismutase supplementation. We propose that the results presented here shed new light on the mechanism of superoxide and hydrogen peroxide production in the extracellular compartment and on some other UV-related phenomena, such as CO2 emission. PB - Peking University C3 - The 2011 International Symposium on Plant Photobiology T1 - The effect of UV radiation on the plant cell wall SP - 74 UR - https://hdl.handle.net/21.15107/rcub_rimsi_2937 ER -
@conference{ author = "Bogdanović Pristov, Jelena and Mitrović, Aleksandra Lj. and Spasojević, Ivan", year = "2011", abstract = "Using electron paramagnetic resonance (EPR) spectroscopy, two spin-traps DEPMPO (5-diethoxyphosphoryl-5-methyl-1-pyrroline-N-oxide) and BMPO (5-tertbutoxycarbonyl-5-methyl-l -pyrroline-N-oxide) capable of differentiating between different free radicals, we have examined redox effects of UV irradiation on cell wall isolates from Pisum sativum leaves, polygalacturonic acid, and galacturonic acid in the presence of hydrogen peroxide. Systems were exposed to UV-B (maximum emission at 312 nm) and UV-A (366 nm) for IO minutes (6 J m-2 s-1). UV irradiated ceU wall isolates produced hydroxyl radicals, carbon dioxide radicals, and superoxide. We showed that this property of the cell wall is based on the reaction of (poly)galacturonic acid with a hydroxyl radical, which produces a carbon dioxide radical as a product. Acting as strong reducing agent, a carbon dioxide radical reacts with molecular oxygen to produce superoxide. The production of superoxide was observed for cell wall isolates, polygalacturonic acid (in the presence and in the absence of calcium) and galacturonic acid, and it was diminished upon superoxide dismutase supplementation. We propose that the results presented here shed new light on the mechanism of superoxide and hydrogen peroxide production in the extracellular compartment and on some other UV-related phenomena, such as CO2 emission.", publisher = "Peking University", journal = "The 2011 International Symposium on Plant Photobiology", title = "The effect of UV radiation on the plant cell wall", pages = "74", url = "https://hdl.handle.net/21.15107/rcub_rimsi_2937" }
Bogdanović Pristov, J., Mitrović, A. Lj.,& Spasojević, I.. (2011). The effect of UV radiation on the plant cell wall. in The 2011 International Symposium on Plant Photobiology Peking University., 74. https://hdl.handle.net/21.15107/rcub_rimsi_2937
Bogdanović Pristov J, Mitrović AL, Spasojević I. The effect of UV radiation on the plant cell wall. in The 2011 International Symposium on Plant Photobiology. 2011;:74. https://hdl.handle.net/21.15107/rcub_rimsi_2937 .
Bogdanović Pristov, Jelena, Mitrović, Aleksandra Lj., Spasojević, Ivan, "The effect of UV radiation on the plant cell wall" in The 2011 International Symposium on Plant Photobiology (2011):74, https://hdl.handle.net/21.15107/rcub_rimsi_2937 .