In light, the photosynthetic reactions of redox in thylakoids release protons which drive CF<sub>0</sub>-CF<sub>1</sub> complex to energize ATP formation, while the oxidation of water by PSII a...In light, the photosynthetic reactions of redox in thylakoids release protons which drive CF<sub>0</sub>-CF<sub>1</sub> complex to energize ATP formation, while the oxidation of water by PSII and that of PQH<sub>2</sub> by PSI are linked by cytochrome CF<sub>0</sub>. The unsolved problem is how these protons are diffused to ATP synthetase from the pumping sites. About展开更多
基金Project supported by the National Natural Science Foundation of China
文摘In light, the photosynthetic reactions of redox in thylakoids release protons which drive CF<sub>0</sub>-CF<sub>1</sub> complex to energize ATP formation, while the oxidation of water by PSII and that of PQH<sub>2</sub> by PSI are linked by cytochrome CF<sub>0</sub>. The unsolved problem is how these protons are diffused to ATP synthetase from the pumping sites. About
