The diurnal course of chlorophyll fluorescence parameter and active oxygen metabolism of flag leaves in PEPC transgenic and untransformed rice Kitaake were studied. The results showed that the photosynthetic rate unde...The diurnal course of chlorophyll fluorescence parameter and active oxygen metabolism of flag leaves in PEPC transgenic and untransformed rice Kitaake were studied. The results showed that the photosynthetic rate under high light intensity has been increased by 50% and photoinhibition of photosynthesis in PEPC transgenic was alleviated after the introduction of PEPC gene from maize into rice. It was demonstrated that the increment of photosynthesis in PEPC transgenic was related to the introduction of PEPC gene using specific inhibitor of PEPC. Photoinhibition of photosynthesis in different genotypes exists at noon under natural condition. PEPC transgenic rice exhibited a less decrease in Fv/Fm, a less photoinhibition and a higher efficiency of light energy conversion to chemical energy and lower thermal energy dissipation. These results provided the physiological basis on the mechanism of tolerance to photoinhibition and rice breeding with high photosynthetic efficiency.展开更多
With the rapid development ofmolecular biological technology,transfering foreign genes into cropshas become an increasing routine,and making it possible to induce thegenes encoding Cphotosynthesis en-zyme into Cplants...With the rapid development ofmolecular biological technology,transfering foreign genes into cropshas become an increasing routine,and making it possible to induce thegenes encoding Cphotosynthesis en-zyme into Cplants.Ku et al firstlyintroduced the intact gene of maizePEPC,the key enzyme in Cphoto-展开更多
基金the State Key Basic Research and Development Plan of China(G1998010100)the Key Project of the International Science and Technology Cooperation(2002AA217141).
文摘The diurnal course of chlorophyll fluorescence parameter and active oxygen metabolism of flag leaves in PEPC transgenic and untransformed rice Kitaake were studied. The results showed that the photosynthetic rate under high light intensity has been increased by 50% and photoinhibition of photosynthesis in PEPC transgenic was alleviated after the introduction of PEPC gene from maize into rice. It was demonstrated that the increment of photosynthesis in PEPC transgenic was related to the introduction of PEPC gene using specific inhibitor of PEPC. Photoinhibition of photosynthesis in different genotypes exists at noon under natural condition. PEPC transgenic rice exhibited a less decrease in Fv/Fm, a less photoinhibition and a higher efficiency of light energy conversion to chemical energy and lower thermal energy dissipation. These results provided the physiological basis on the mechanism of tolerance to photoinhibition and rice breeding with high photosynthetic efficiency.
文摘With the rapid development ofmolecular biological technology,transfering foreign genes into cropshas become an increasing routine,and making it possible to induce thegenes encoding Cphotosynthesis en-zyme into Cplants.Ku et al firstlyintroduced the intact gene of maizePEPC,the key enzyme in Cphoto-
