There were four doublets in the Mssbauer spectrum of cucumber (Cucumis sativus L.) photosystemⅡ (PSⅡ) particles. According to the value of isomer shift and quadrupole splitting, they represented oxidized cytochrome ...There were four doublets in the Mssbauer spectrum of cucumber (Cucumis sativus L.) photosystemⅡ (PSⅡ) particles. According to the value of isomer shift and quadrupole splitting, they represented oxidized cytochrome b559 (Cyt_b559), reduced Cyt_b559, Fe 3+ _quinone (Q) complex, and Fe 2+ _Q complex respectively. After water_stress, the electron transport rate between Q A (primary quinone electron acceptor of PSⅡ)/Q B(secondary quinone electron acceptor of PSⅡ) was affected and the absorption doublets of Fe 2+ disappeared, suggesting that the reduced Cyt_b559 and Fe 2+ _Q complex had been oxidized. The results indicated that water_stress had changed the redox status of iron in the iron_quinone complex. Iron took part in electron transport through the change from a state of reduction to oxidation.展开更多
文摘There were four doublets in the Mssbauer spectrum of cucumber (Cucumis sativus L.) photosystemⅡ (PSⅡ) particles. According to the value of isomer shift and quadrupole splitting, they represented oxidized cytochrome b559 (Cyt_b559), reduced Cyt_b559, Fe 3+ _quinone (Q) complex, and Fe 2+ _Q complex respectively. After water_stress, the electron transport rate between Q A (primary quinone electron acceptor of PSⅡ)/Q B(secondary quinone electron acceptor of PSⅡ) was affected and the absorption doublets of Fe 2+ disappeared, suggesting that the reduced Cyt_b559 and Fe 2+ _Q complex had been oxidized. The results indicated that water_stress had changed the redox status of iron in the iron_quinone complex. Iron took part in electron transport through the change from a state of reduction to oxidation.
